processor job /u/argus0/airops/OPS/data_proc/ ****************************************************** * * * Integrated AIRSAR Processor * * Script Generator Program * * * * This program generates all the scripts necessary * * to run the command file generator for the AIRSAR * * processor for SGI. * * * ****************************************************** ========================================================= Long-Strip I/P Disks:/u/air12/airops(def), /u/air13/airops Long-Strip O/P Disks:/u/air14/airops(40km),16(60km),15 & 17 ========================================================= Enter the RAW data disk:/u/air12/airops/xxxx or /u/air13/airops/xxxx:> raw data disk:/mnt/air62/airops/1359 Enter the C-band output disk name (def:/u/air16/airops) : C-band output data disk: /mnt/air65/airops/1359 Enter the L-band output disk name (def:/u/air16/airops) : L-band output data disk: /mnt/air65/airops/1359 Enter the P-band output disk name (def:/u/air16/airops) : P-band output data disk: /mnt/air65/airops/1359 How many bytes offset in range (def=0)? Which year was data taken (def=95)? year: 0 Is this taken in 98 spring (def=95)? Enter HDDT number: HDDT #: 98 Enter the IDR number: Enter an image title of no more than 28 characters: Enter the TS number(upto 4-digit) for this scene: TS #:ts1359 What is the # of lines of download tape (def=40960)? # of lines for download: 118000 # of lines for download: 118000 Do you want to specify the processing altitude (def=n)? user desired altitude: -1.000000 Is there a DEM to use in calibration (def=y)? Is DEM in pingpong mode (def=y)? Enter number of frequencies to process (def=3): Enter process mode (def=0): Enter the frequency (C, L or P) Enter the radar mode, 0=POLSAR, 1=TOPSAR, 2=PINGPONG 3=POLTOP (def=0): cm/ts #:ts1359 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 9 5 40 10 raw disk:/mnt/air62/airops/1359 creating c_hh.com creating c_hv.com creating c_vh.com creating c_vv.com Enter the frequency (C, L or P) Enter the radar mode, 0=POLSAR, 1=TOPSAR, 2=PINGPONG 3=POLTOP (def=0): cm/ts #:ts1359 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 9 5 40 10 raw disk:/mnt/air62/airops/1359 creating l_hh.com creating l_hv.com creating l_vh.com creating l_vv.com Enter the frequency (C, L or P) Enter the radar mode, 0=POLSAR, 1=TOPSAR, 2=PINGPONG 3=POLTOP (def=0): cm/ts #:ts1359 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 18 10 20 10 raw disk:/mnt/air62/airops/1359 creating p_hh.com creating p_hv.com creating p_vh.com creating p_vv.com ***** Please run "gencom_all" now! /u/argus0/airops/OPS/data_proc/ ****************************************************** * * * Integrated AIRSAR Processor * * C-Band Command File Generator Program * * * * This program genetares all the command files * * needed to run the C-band processor to produce * * the four output files. * * * ****************************************************** Enter the flag for 98 P-band 20 mhz with fs=90 Enter the frequency (P, L or C) Enter the name of the disk with the raw data (def=data1): Enter the disk for the undeskewed data (def=data3): Enter the hh and hv deskewed data disk (def=data9): Enter the vh and vv deskewed data disk (def=data10): Enter the final output disk (def=data11): Enter a six character name for the scene: How many bytes offset in range (def=0)? Which year was data taken? (eg 93) Please enter HDDT number. Enter the IDR number. Enter an image title of no more than 28 characters. Enter the TS number for this scene. Enter the number of looks (def=18): What is the desired post spacing (def=10)? What is the # of lines i/p (def=40960): # of lines: 118000 Do you want to specify the processing altitude? Is there a DEM to use in calibration and projection? (y/n) Enter BW: Enter p_deskew: Enter ocean_flag: Enter pulse width: xdelay 40 Mhz: -0.5025000 nbytes: 6144 line1: 1 nlines 236000 lgt_az 2586 nlines 118000 year 2000 bw=40 0 40.00000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 59000 Wrote the HDR.CMD file. Wrote the HDR_PROC_C.COM file. Wrote SPLIT_MOCOMP_C.COM file. Wrote GLOBAL_LINE.COM file. Wrote CAL_C_DATAIN file. Wrote PATCHES_C.COM file. Wrote PROCESSOR_CHH.COM file. Wrote PROCESSOR_CHV.COM file. Wrote PROCESSOR_CVH.COM file. Wrote PROCESSOR_CVV.COM file. Write DESKEW_CHH.COM file. Write DESKEW_CHV.COM file. Write DESKEW_CVH.COM file. Wrote BYTECORR.COM file for long baseline pair Wrote BYTECORR.COM file for short baseline pair Wrote BYTECORR.COM file for zero baseline pair Wrote GENINTF.COM file. Wrote GENINTF.COM file for long baseline pair Wrote GENINTF.COM file for long baseline pair Wrote GENINTF.COM file for short baseline pair Wrote GENINTF.COM file for short baseline pair Wrote GENINTF.COM file for zero baseline pair Wrote GENPHASE.COM file for long baseline pair Wrote GENPHASE.COM file for short baseline pair Wrote GENPHASE.COM file for zero baseline pair Wrote GENLOC_cal2.COM file. Wrote GENLOC_cal1.COM file. Wrote DEM2INCSCA.COM file for short baseline pair Wrote MULTILOOK_SNGLC.COM file. Wrote RADIOMETRIC_SNGLC.COM file Wrote PROJECT_DEMC.COM file Wrote PROJECT_DEM.COM file. Wrote PROJECT_SNGL.COM file. Wrote PROJECT_COR.COM file. Wrote PROJECT_INC.COM file. Wrote s0c0 COM file. Wrote DEMFORMAT.COM file. Wrote CVVFORMAT.COM file. ts #: 13591359 Wrote C_PIC.COM file Wrote get_hp_cp.COM file. Wrote HD.COM file /u/argus0/airops/OPS/data_proc/ ****************************************************** * * * Integrated AIRSAR Processor * * C-Band Command File Generator Program * * * * This program genetares all the command files * * needed to run the C-band processor to produce * * the four output files. * * * ****************************************************** Enter the flag for 98 P-band 20 mhz with fs=90 Enter the frequency (P, L or C) Enter the name of the disk with the raw data (def=data1): Enter the disk for the undeskewed data (def=data3): Enter the hh and hv deskewed data disk (def=data9): Enter the vh and vv deskewed data disk (def=data10): Enter the final output disk (def=data11): Enter a six character name for the scene: How many bytes offset in range (def=0)? Which year was data taken? (eg 93) Please enter HDDT number. Enter the IDR number. Enter an image title of no more than 28 characters. Enter the TS number for this scene. Enter the number of looks (def=18): What is the desired post spacing (def=10)? What is the # of lines i/p (def=40960): # of lines: 118000 Do you want to specify the processing altitude? Is there a DEM to use in calibration and projection? (y/n) Enter BW: Enter p_deskew: Enter ocean_flag: Enter pulse width: xdelay 40 Mhz: -0.5025000 nbytes: 6144 line1: 1 nlines 236000 lgt_az 2586 nlines 118000 year 2000 bw=40 0 40.00000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 59000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 59000 Wrote the HDR.CMD file. Wrote the HDR_PROC_C.COM file. Wrote SPLIT_MOCOMP_L.COM file. Wrote GLOBAL_LINE.COM file. Wrote CAL_L_DATAIN file. Wrote PATCHES_L.COM file. Wrote PROCESSOR_LHH.COM file. Wrote PROCESSOR_LHV.COM file. Wrote PROCESSOR_LVH.COM file. Wrote PROCESSOR_LVV.COM file. Write DESKEW_LHH.COM file. Write DESKEW_LHV.COM file. Write DESKEW_LVH.COM file. Wrote BYTECORR.COM file for long baseline pair Wrote BYTECORR.COM file for short baseline pair Wrote BYTECORR.COM file for zero baseline pair Wrote GENINTF.COM file. Wrote GENINTF.COM file for long baseline pair Wrote GENINTF.COM file for long baseline pair Wrote GENINTF.COM file for short baseline pair Wrote GENINTF.COM file for short baseline pair Wrote GENINTF.COM file for zero baseline pair Wrote GENPHASE.COM file for long baseline pair Wrote GENPHASE.COM file for short baseline pair Wrote GENPHASE.COM file for zero baseline pair Wrote GENLOC_cal2.COM file. Wrote GENLOC_cal1.COM file. Wrote DEM2INCSCA.COM file for short baseline pair Wrote MULTILOOK_SNGLL.COM file. Wrote RADIOMETRIC_SNGLL.COM file Wrote PROJECT_DEML.COM file Wrote PROJECT_DEM.COM file. Wrote PROJECT_SNGL.COM file. Wrote PROJECT_COR.COM file. Wrote PROJECT_INC.COM file. Wrote s0c0 COM file. Wrote DEMFORMAT.COM file. Wrote CVVFORMAT.COM file. ts #: 13591359 Wrote L_PIC.COM file Wrote get_hp_cp.COM file. ****************************************************** * * * Integrated AIRSAR Processor * * C-Band Command File Generator Program * * * * This program genetares all the command files * * needed to run the C-band processor to produce * * the four output files. * * * ****************************************************** Enter the flag for 98 P-band 20 mhz with fs=90 Enter the frequency (P, L or C) Enter the name of the disk with the raw data (def=data1): Enter the disk for the undeskewed data (def=data3): Enter the hh and hv deskewed data disk (def=data9): Enter the vh and vv deskewed data disk (def=data10): Enter the final output disk (def=data11): Enter a six character name for the scene: How many bytes offset in range (def=0)? Which year was data taken? (eg 93) year: 0 Please enter HDDT number. Enter the IDR number. Enter an image title of no more than 28 characters. Enter the TS number for this scene. Enter the number of looks (def=18): What is the desired post spacing (def=10)? What is the # of lines, (def=40960): Do you want to specify the processing altitude? Is there a DEM to use in calibration and projection? (y/n) Is DEM in pingpong mode (def=y)? Enter BW: Enter p_deskew: Enter ocean_flag: Enter pulse width: /u/argus0/airops/OPS/AIPT_pfa/ xdelay 20 Mhz: -1.027807 proc_mode 4 nbytes: 6144 line1: 1 nlines 236000 lgt_az 2586 sensor_out/mnt/air62/airops/1359/sensor.inu nbytes: update sensor 6144 line1: 1 nlines 59000 lgt_az 2586 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 sensor_out/mnt/air62/airops/1359/sensor.cp_2000 nbytes: update sensor 6144 line1: 1 nlines 59000 lgt_az 2584 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 sensor_out/mnt/air62/airops/1359/sensor.lp_2000 nbytes: update sensor 6144 line1: 1 nlines 59000 lgt_az 4700 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 sensor_out/mnt/air62/airops/1359/sensor.pp_2000 nbytes: update sensor 6144 line1: 1 nlines 59000 lgt_az 4700 Sensor 2000 hddt: 98 Wrote the HDR.CMD file. Wrote the HDR_PROC_C.COM file. Wrote SPLIT_MOCOMP_P.COM file. Wrote GLOBAL_LINE.COM file. Wrote CAL_P_DATAIN file. Wrote PATCHES_P.COM file. Wrote PROCESSOR_PHH.COM file. Wrote PROCESSOR_PHV.COM file. Wrote PROCESSOR_PVH.COM file. Wrote PROCESSOR_PVV.COM file. Write DESKEW_PHH.COM file. Write DESKEW_PHV.COM file. Write DESKEW_PVH.COM file. Write DESKEW_PVV.COM file. Wrote MLOOK_LINESP.COM file. Wrote MULTILOOK_P.COM file. Wrote RADIOMETRIC_P.COM file Wrote COMPRESS_P.COM file Wrote PROJECT_NNP.COM file cctid:1359 Wrote P_PIC.COM file p_flag = 0 ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** 02001 tape error DOY 40 instead of 268 Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -0.5025000 hddt: 98 Reading and decoding header file... Finished reading the header file... Data acquired after 1995 January. i_yearind subcomm mon i_1995 : 8 1 Operator Comments: - - - - - - - - - - - - - - - - - - - - - EGI GPS started to report good FOM and SV status, blended time i s goody bad but the position and speed look close; low drift; a lmost complete undercast; smooth ride; Ashtech looks OK William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1359/c.hdr Which frequency? (C,L or P) frq:C number of channels transferred: # channels: 4 number of bytes/chan: # bytes: 6144 total # of lines transferred: total lines: 59000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1359/ts1359_c.par enter first header to read: the 1st line: 1 enter year data taken: year: 0 enter HDDT ID for raw data: SONY tapeid: 98 enter HDDT TID <0> : Sony TID: 173996 enter the title of image: title image RICHARDSON270-1 enter the CCT (job) ID: cct: 1359 target:Richardson270-1 prod ID(cctid):1359 chrp_delay from subcomm header tapeID: 32.45000 98 HDR Version: 000214 BW L C P: 404020 fs: 909045 Pulse W L C P:101010 1998 P-band fc? 22.50000 alt used in processor: 450.0000 idelay,chrp_delay,xdelay 86 32.45000 -0.5025000 near range delr windelay: 8102.265 3.331027 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 chrp_bndx f_cal 40.00000 43.59375 Parameter header created .. IGI lat: 1 64.53672749921679 IGI lon: 1 -147.0369177963585 *get_subcomm_aipt year*10+mon; i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 86.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):86 86.00000000000000 startrng(m) elecdelay: 8102.267048972740 3.2450000000000003E-05 >> start range = 8102.2670 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 9 0 >> ratn_phv = 0 5 0 >> ratn_pvh = 0 3 0 >> ratn_pvv = 0 11 0 >> ratn_lhh = 0 13 0 >> ratn_lhv = 0 13 0 >> ratn_lvh = 0 13 0 >> ratn_lvv = 0 13 0 >> ratn_chh = 0 11 10 >> ratn_chv = 0 11 10 >> ratn_cvh = 0 11 10 >> ratn_cvv = 0 11 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN rec,inu_lat,inu_lon,dads_lat,dads_lon,dads_balt 117888 64.53672749921679 -147.0369177963585 64.53666666666666 -147.0233333333333 7922.666400000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 7227.417600000001 0.4000000000000000 0.4000000000000000 269.0000000000000 0.5000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 64.53672027587891 -147.0375061035156 0.0000000000000000E+00 0.0000000000000000E+00 25422799.00000000 ****gps_frame**** 2472322 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8102.267048972740 1 921 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 2531036.233441911 34032.63934234110 gpsT doy: 295 10 21 gpsT: 25422799.27900000 2000 10 21 17 53 19 0.2790000000000000 week# 1 F10 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 582799.4073300001 EGI msg 1 msl alt(from eo17): 6866.029835449219 EGI msg 1 wander angle(from eo17): -93.65295410156250 EGI09 lat: 64.53672749921679 EGI09 lon: -147.0369177963585 EGI09 alt: 6138.000000000000 EGI09 Height_above_ellipsoid - height_msl: 5.181600000000000 EGI-09 word11 gps Vel East m/s: -190.9338389259339 EGI-09 word12 gps Vel North m/s: -4.414084638977051 EGI-09 word13 gps Vel Upper m/s: 0.5135951042175293 EGI-09 GPS Position FOM : 3.000000000000000 EGI-09 flag: for 4 satellites in operation: 1 EGI-09 flag: for at least 1 satellite in operation: 0 EGI-09 flag: for EGR invalid=1: 0 EGI-09 flag: for EGR RPU fail=1: 0 EGI-09 flag: for EGR AE fail=1: 0 EGI-09 flag: for EGR Battery fail=1: 0 EO-17(13or26)blended FOM 1 538 98FF EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 64384.92987060547 EGI-09 Time Valid: 3.088896000000000 EGI-18 dec32 Vel North m/s: -8.459745407104492 EGI-18 dec32 Vel East m/s: -130.8010864257813 EGI-18 dec32 Vel Upper m/s: 0.3098876476287842 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 51.87500000000000 48.50000000000000 75.75000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.3242187500000000E-03 8.6669921875000000E-03 1.4526367187500000E-02 EGI-13 GPS sigma roll/pitch/az: 5.4641513360102008E-04 5.4641513360102008E-04 4.1527550153677524E-03 r_time_tag_17: 0.2472960000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: -11.68757497558594 217.4831506530762 -0.1103502410888672 EO17 wrander az roll pitch az: -1.634552403291394 0.1043701171875000 0.4614257812500000 -91.17004394531250 EO17 r_cnexx/y/z: 0.4295562449842691 1.8633993342518806E-02 0.9028478609398007 EO17 r_lon: -147.0438861753792 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E 48DF D6B8 dec64: DD85 487B 80FD 6B8D r_hwgpstime(1): 582797.9899223950 r_utctime_18: 64384.98992239299 EGI-18 dec32 lat: 64.53668844845545 EGI-18 dec32 lon: -147.0359411309657 EGI-18 dec32 sea level alt: 7479.427734375000 EGI-18 dec32 WGS84 alt: 7484.869140625000 WGS84_alt-msl_alt: 5.441406250000000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 2 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 1 e22_msg(5) satellite 3: 5 e22_msg(7) satellite 4: 1D e22_msg(9) satellite 5: 14 EGI-22 Tdop: 3.093750000000000 2.843750000000000 1.734375000000000 2.250000000000000 1.234375000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -2.841600000000000 geod_utctime time_tag_17 time_valid: 64384.92987060547 4.441560000000001 3.088896000000000 r_utc_ttag r_del_time_18: 582799.2825346075 2.0000000000000001E-09 J2000 r_hwtime = 25422799.40733000 GPS J2000 time = 25422799.28253461 Message 1 Time = 25422799.40733000 INS Time = 0.3722880000000000 Roll angle = 0.1153564453125000 Pitch angle = 0.4614257812500000 Heading angle = -91.17004394531250 Long. acc = 8.0000000000000002E-02 Lat. acc = -8.0000000000000002E-02 Norm. acc = -9.790000000000001 East vel. = -217.7850000000000 North vel. = -2.249000000000000 Up vel. = -0.1120000000000000 True Grnd Spd = 217.7968750000000 Altitude = 6871.000000000000 Latitude = 64.53496545553207 Longitude = -147.0444527082145 Message 6 Week = 60 GPS Time = 25422799.28253461 GDOP = 3.093750000000000 PDOP = 2.843750000000000 HDOP = 1.734375000000000 VDOP = 2.250000000000000 TDOP = 1.234375000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 64.53668844845545 GPS Lon = -147.0359411309657 GPS Alt = 7484.869140625000 GPS East Vel = -130.8010864257813 GPS North Vel = -8.459745407104492 GPS Up Vel = 0.3098876476287842 Message 4 Sigma Pos x = 51.87500000000000 Sigma Pos y = 48.50000000000000 Sigma Pos z = 75.75000000000000 Sigma Vel x = 7.3242187500000000E-03 Sigma Vel y = 8.6669921875000000E-03 Sigma Vel z = 1.4526367187500000E-02 Message 7 Satellites used = 20 1 5 29 20 0 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 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Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Honeywell EGI98Fall for gps-hgt 8937 20008 6872.244444295027 Done decoding data from header array... Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25422799.2790 25422940.0670 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41731 -92.05444 -90.85693 0.3508634 0 trc -90.77667 -91.19164 -90.38178 0.2695506 0 tgs 216.98597 216.46875 217.79688 0.4741712 0 roll 0.13832 -0.79102 0.51086 0.3043874 0 pitch 0.51765 0.42297 0.60425 0.0475950 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10966 -147.04445 0.0188433 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82872 7220.40720 7272.52800 8.7072295 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.97205 6872.41466 0.1294044 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67505 -147.04445 0.1820150 0 hwalt 6874.99191 6871.97205 6877.47842 1.9090197 0 hwev -216.96904 -217.79500 -216.45100 0.4853267 0 hwnv -2.94187 -4.50300 -1.44900 1.0153794 0 hwuv -0.09021 -0.44500 0.15300 0.1174736 0 hwroll 0.13814 -0.79102 0.51086 0.3045462 0 hwpitch 0.51778 0.42297 0.60425 0.0475771 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509856 0 hwtrc -90.77732 -91.19164 -90.38178 0.2696450 0 hwtgs 216.98414 216.46875 217.79688 0.4735069 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... startrec+1,startrec+nrec-1: 2 117888 1 117888 hdrgpssec-1 t_prf-1 117888 25422939.06734767 1.1881999671459198E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 921 25422938.00000000 2589548 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25422800.00000000 i_yearind 20008 GPS time for first pulse = 25422799.27941999 25422799.27900000 New startrecT: 25422799.27941999 25422799.40733000 1 New start and number of records = 110 117743 New start and number of blocks = 1 921 +6+r_hwhead(10/200): 0.0000000000000000E+00 -5.4931640625000000E-03 -91.17004394531250 GPS trend coefficients = 0.2829942787700419 -1.477262220312721 1.367087980251437 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41736 -92.05444 -90.85693 0.3508594 0 trc -90.77672 -91.19164 -90.38178 0.2695653 0 tgs 216.98536 216.46875 217.79688 0.4737697 0 roll 0.13824 -0.79102 0.50537 0.3045045 0 pitch 0.51768 0.42297 0.60425 0.0475770 0 delx 0.25729 0.00000 0.25737 0.0007503 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10959 -147.04452 0.0188430 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82839 7220.40720 7272.52800 8.7045964 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.96401 6872.27357 0.0733314 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67498 -147.04452 0.1820150 0 hwalt 6874.99191 6871.97207 6877.47840 1.9090194 0 hwev -216.96904 -217.79500 -216.45100 0.4853269 0 hwnv -2.94187 -4.50300 -1.44900 1.0153801 0 hwuv -0.09021 -0.44500 0.15300 0.1174735 0 hwroll 0.13811 -0.79102 0.50537 0.3045445 0 hwpitch 0.51777 0.42297 0.60425 0.0475749 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509732 0 hwtrc -90.77732 -91.19137 -90.38231 0.2696166 0 hwtgs 216.98420 216.46875 217.79688 0.4735351 0 Finished final analysis of data... Average Barometric Altitude = 7920.473560912081 Average Radar Altitude = 7248.828393485350 Average GPS Altitude = 6872.170367048145 >>Record # : 128 >>GPS Stuff = 0.00 0 0 0 0 >>Record # : 0 >>GPS Stuff = Lock vertical accel to OLD gps(+1) or bar(-1) or IGI (0) ==> DGPS=2 OLDgps=1 0=EGI/igi -1=barometer 2 i_yearind DGPS 2000 : 20008 DGPS(PacRim2000) cmd_pbn: /u/argus0/airops/OPS/QA_Proc/pbn_decode.pl /mnt/air62/airops/1359/c.hdr > dgps.txyz ->ngpslock dgps: 2 ->Read DGPS & got txyz(trgps),gps_sch,peg point: dgps.txyz DGPS file: dgps.txyz Searching GPS data file for corresponding data... dgps_pacrim2k line: 924 Number of valid data points = 924 Start time GPS data = 25422798.00002220 End time GPS data = 25422938.00002177 Positions and Distances Start position = 64.5360586 -147.1960009 7491.434 End position = 64.5343785 -147.5118135 7489.710 Loxodromic Heading (deg) = -90.7080131 Loxodromic Distance (km) = 15158.1520749 Geodesic Heading (deg) = -90.5654456 Geodesic Distance (km) = 15158.1362549 Peg latitude and longitude = 64.5355159 -147.3541361 Peg heading = -90.8888123 Rotation matrix First row = -0.362028153 -0.551172665 -0.751760806 Second row = -0.231935192 0.834364556 -0.500041853 Third row = 0.902851972 -0.006669442 -0.429899797 Translation vector Vector = -0.69411 -0.44469 -38653.55965 Local Radius of Curvature = 6395608.956179346 startrec dgps_pacrim2k: 110 117743 **i_ts: 110 25422799.40800000 25422798.00002220 1.407977800816298 Start and end pulse used = 110 116148 gmt sec s e = 25422799.40800000 25422936.99987973 dgps sec s = 25422798.00002220 25422937.00002178 r_tsv: -2309758.905137389 -1497824.918705536 5742457.621946460 r_tev: -2326326.121893520 -1472636.015751767 5742280.883069825 lat/lon r_geodis: 1.126378495408110 -2.566289013407446 1.126315733833988 -2.577239234879388 30114.13310583908 Ellipsoidal delta s (m) = 0.2595195807049335 DGPS... lat/lon r_geodis: 9.6977775030725551E-06 -2.3758585080489469E-03 -4.4441293614411313E-07 2.3326944703466182E-03 30114.13345847621 Delta s on reference surface = 0.2595195837439133 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1359/ts1359_c.peg DGPS Peg latitude and longitude = 64.5355159 -147.3541361 DGPS Peg heading = -90.8888123 == dgps_egi == r_hwheadf: -91.17004394531250 -1.0986328125000000E-02 0.0000000000000000E+00 110 Making final angle restore...Honeywell -91.17004394531250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 2.4337037346356243E-04 Standard deviation of difference = 2.0624109116932946E-04 Making fits... Vertical fit coefficients = 7495.192152808554 -9.0302881305518667E-02 1.5091061216199186E-04 Cross track fit coefficients = -194.6020313630832 3.8490070952079236E-02 -3.6789710074577181E-04 Along track fit coefficients = -43.54890057780549 -0.3304737129536273 1.1788842991683236E-03 avg alt (1): 7495.192152808554 alt r_avgrefh: 7492.608619266713 i_yearind p-hgt t-hgt: 20008 7495.192152808554 450.0000 avg_ralt tmp: 7045.192382812500 7045.192 enter proc_alt: -1.000000 yaw: -1.1027005E-03 -91.17004394531250 -91.16894124482687 110 tape #: 98 PRF at the start of the run: 846.3100641614319 846.3101 Miscellaneous Information Start range = 8102.267048972740 Start ground range = 4001.499171814253 Time orgin = 25422799.27941999 Pulse spacing = 0.2572936563082597 First frame = 2472668 Thank you for your patronage ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** 02001 tape error DOY 40 instead of 268 Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -0.5025000 hddt: 98 Reading and decoding header file... Finished reading the header file... Data acquired after 1995 January. i_yearind subcomm mon i_1995 : 8 1 Operator Comments: - - - - - - - - - - - - - - - - - - - - - EGI GPS started to report good FOM and SV status, blended time i s goody bad but the position and speed look close; low drift; a lmost complete undercast; smooth ride; Ashtech looks OK William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1359/l.hdr Which frequency? (C,L or P) frq:L number of channels transferred: # channels: 4 number of bytes/chan: # bytes: 6144 total # of lines transferred: total lines: 59000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1359/ts1359_l.par enter first header to read: the 1st line: 1 enter year data taken: year: 0 enter HDDT ID for raw data: SONY tapeid: 98 enter HDDT TID <0> : Sony TID: 173996 enter the title of image: title image RICHARDSON270-1 enter the CCT (job) ID: cct: 1359 target:Richardson270-1 prod ID(cctid):1359 chrp_delay from subcomm header tapeID: 32.45000 98 HDR Version: 000214 BW L C P: 404020 fs: 909045 Pulse W L C P:101010 1998 P-band fc? 22.50000 alt used in processor: 450.0000 idelay,chrp_delay,xdelay 86 32.45000 -0.5025000 near range delr windelay: 8102.265 3.331027 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 chrp_bndx f_cal 40.00000 43.59375 Parameter header created .. IGI lat: 1 64.53672749921679 IGI lon: 1 -147.0369177963585 *get_subcomm_aipt year*10+mon; i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 86.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):86 86.00000000000000 startrng(m) elecdelay: 8102.267048972740 3.2450000000000003E-05 >> start range = 8102.2670 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 9 0 >> ratn_phv = 0 5 0 >> ratn_pvh = 0 3 0 >> ratn_pvv = 0 11 0 >> ratn_lhh = 0 13 0 >> ratn_lhv = 0 13 0 >> ratn_lvh = 0 13 0 >> ratn_lvv = 0 13 0 >> ratn_chh = 0 11 10 >> ratn_chv = 0 11 10 >> ratn_cvh = 0 11 10 >> ratn_cvv = 0 11 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN rec,inu_lat,inu_lon,dads_lat,dads_lon,dads_balt 117888 64.53672749921679 -147.0369177963585 64.53666666666666 -147.0233333333333 7922.666400000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 7227.417600000001 0.4000000000000000 0.4000000000000000 269.0000000000000 0.5000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 64.53672027587891 -147.0375061035156 0.0000000000000000E+00 0.0000000000000000E+00 25422799.00000000 ****gps_frame**** 2472322 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8102.267048972740 1 921 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 2531036.233441911 34032.63934234110 gpsT doy: 295 10 21 gpsT: 25422799.27900000 2000 10 21 17 53 19 0.2790000000000000 week# 1 F10 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 582799.4073300001 EGI msg 1 msl alt(from eo17): 6866.029835449219 EGI msg 1 wander angle(from eo17): -93.65295410156250 EGI09 lat: 64.53672749921679 EGI09 lon: -147.0369177963585 EGI09 alt: 6138.000000000000 EGI09 Height_above_ellipsoid - height_msl: 5.181600000000000 EGI-09 word11 gps Vel East m/s: -190.9338389259339 EGI-09 word12 gps Vel North m/s: -4.414084638977051 EGI-09 word13 gps Vel Upper m/s: 0.5135951042175293 EGI-09 GPS Position FOM : 3.000000000000000 EGI-09 flag: for 4 satellites in operation: 1 EGI-09 flag: for at least 1 satellite in operation: 0 EGI-09 flag: for EGR invalid=1: 0 EGI-09 flag: for EGR RPU fail=1: 0 EGI-09 flag: for EGR AE fail=1: 0 EGI-09 flag: for EGR Battery fail=1: 0 EO-17(13or26)blended FOM 1 538 98FF EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 64384.92987060547 EGI-09 Time Valid: 3.088896000000000 EGI-18 dec32 Vel North m/s: -8.459745407104492 EGI-18 dec32 Vel East m/s: -130.8010864257813 EGI-18 dec32 Vel Upper m/s: 0.3098876476287842 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 51.87500000000000 48.50000000000000 75.75000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.3242187500000000E-03 8.6669921875000000E-03 1.4526367187500000E-02 EGI-13 GPS sigma roll/pitch/az: 5.4641513360102008E-04 5.4641513360102008E-04 4.1527550153677524E-03 r_time_tag_17: 0.2472960000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: -11.68757497558594 217.4831506530762 -0.1103502410888672 EO17 wrander az roll pitch az: -1.634552403291394 0.1043701171875000 0.4614257812500000 -91.17004394531250 EO17 r_cnexx/y/z: 0.4295562449842691 1.8633993342518806E-02 0.9028478609398007 EO17 r_lon: -147.0438861753792 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E 48DF D6B8 dec64: DD85 487B 80FD 6B8D r_hwgpstime(1): 582797.9899223950 r_utctime_18: 64384.98992239299 EGI-18 dec32 lat: 64.53668844845545 EGI-18 dec32 lon: -147.0359411309657 EGI-18 dec32 sea level alt: 7479.427734375000 EGI-18 dec32 WGS84 alt: 7484.869140625000 WGS84_alt-msl_alt: 5.441406250000000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 2 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 1 e22_msg(5) satellite 3: 5 e22_msg(7) satellite 4: 1D e22_msg(9) satellite 5: 14 EGI-22 Tdop: 3.093750000000000 2.843750000000000 1.734375000000000 2.250000000000000 1.234375000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -2.841600000000000 geod_utctime time_tag_17 time_valid: 64384.92987060547 4.441560000000001 3.088896000000000 r_utc_ttag r_del_time_18: 582799.2825346075 2.0000000000000001E-09 J2000 r_hwtime = 25422799.40733000 GPS J2000 time = 25422799.28253461 Message 1 Time = 25422799.40733000 INS Time = 0.3722880000000000 Roll angle = 0.1153564453125000 Pitch angle = 0.4614257812500000 Heading angle = -91.17004394531250 Long. acc = 8.0000000000000002E-02 Lat. acc = -8.0000000000000002E-02 Norm. acc = -9.790000000000001 East vel. = -217.7850000000000 North vel. = -2.249000000000000 Up vel. = -0.1120000000000000 True Grnd Spd = 217.7968750000000 Altitude = 6871.000000000000 Latitude = 64.53496545553207 Longitude = -147.0444527082145 Message 6 Week = 60 GPS Time = 25422799.28253461 GDOP = 3.093750000000000 PDOP = 2.843750000000000 HDOP = 1.734375000000000 VDOP = 2.250000000000000 TDOP = 1.234375000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 64.53668844845545 GPS Lon = -147.0359411309657 GPS Alt = 7484.869140625000 GPS East Vel = -130.8010864257813 GPS North Vel = -8.459745407104492 GPS Up Vel = 0.3098876476287842 Message 4 Sigma Pos x = 51.87500000000000 Sigma Pos y = 48.50000000000000 Sigma Pos z = 75.75000000000000 Sigma Vel x = 7.3242187500000000E-03 Sigma Vel y = 8.6669921875000000E-03 Sigma Vel z = 1.4526367187500000E-02 Message 7 Satellites used = 20 1 5 29 20 0 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 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Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Honeywell EGI98Fall for gps-hgt 8937 20008 6872.244444295027 Done decoding data from header array... Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25422799.2790 25422940.0670 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41731 -92.05444 -90.85693 0.3508634 0 trc -90.77667 -91.19164 -90.38178 0.2695506 0 tgs 216.98597 216.46875 217.79688 0.4741712 0 roll 0.13832 -0.79102 0.51086 0.3043874 0 pitch 0.51765 0.42297 0.60425 0.0475950 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10966 -147.04445 0.0188433 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82872 7220.40720 7272.52800 8.7072295 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.97205 6872.41466 0.1294044 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67505 -147.04445 0.1820150 0 hwalt 6874.99191 6871.97205 6877.47842 1.9090197 0 hwev -216.96904 -217.79500 -216.45100 0.4853267 0 hwnv -2.94187 -4.50300 -1.44900 1.0153794 0 hwuv -0.09021 -0.44500 0.15300 0.1174736 0 hwroll 0.13814 -0.79102 0.51086 0.3045462 0 hwpitch 0.51778 0.42297 0.60425 0.0475771 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509856 0 hwtrc -90.77732 -91.19164 -90.38178 0.2696450 0 hwtgs 216.98414 216.46875 217.79688 0.4735069 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... startrec+1,startrec+nrec-1: 2 117888 1 117888 hdrgpssec-1 t_prf-1 117888 25422939.06734767 1.1881999671459198E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 921 25422938.00000000 2589548 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25422800.00000000 i_yearind 20008 GPS time for first pulse = 25422799.27941999 25422799.27900000 New startrecT: 25422799.27941999 25422799.40733000 1 New start and number of records = 110 117743 New start and number of blocks = 1 921 +6+r_hwhead(10/200): 0.0000000000000000E+00 -5.4931640625000000E-03 -91.17004394531250 GPS trend coefficients = 0.2829942787700419 -1.477262220312721 1.367087980251437 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41736 -92.05444 -90.85693 0.3508594 0 trc -90.77672 -91.19164 -90.38178 0.2695653 0 tgs 216.98536 216.46875 217.79688 0.4737697 0 roll 0.13824 -0.79102 0.50537 0.3045045 0 pitch 0.51768 0.42297 0.60425 0.0475770 0 delx 0.25729 0.00000 0.25737 0.0007503 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10959 -147.04452 0.0188430 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82839 7220.40720 7272.52800 8.7045964 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.96401 6872.27357 0.0733314 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67498 -147.04452 0.1820150 0 hwalt 6874.99191 6871.97207 6877.47840 1.9090194 0 hwev -216.96904 -217.79500 -216.45100 0.4853269 0 hwnv -2.94187 -4.50300 -1.44900 1.0153801 0 hwuv -0.09021 -0.44500 0.15300 0.1174735 0 hwroll 0.13811 -0.79102 0.50537 0.3045445 0 hwpitch 0.51777 0.42297 0.60425 0.0475749 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509732 0 hwtrc -90.77732 -91.19137 -90.38231 0.2696166 0 hwtgs 216.98420 216.46875 217.79688 0.4735351 0 Finished final analysis of data... Average Barometric Altitude = 7920.473560912081 Average Radar Altitude = 7248.828393485350 Average GPS Altitude = 6872.170367048145 >>Record # : 128 >>GPS Stuff = 0.00 0 0 0 0 >>Record # : 0 >>GPS Stuff = Lock vertical accel to OLD gps(+1) or bar(-1) or IGI (0) ==> DGPS=2 OLDgps=1 0=EGI/igi -1=barometer 2 i_yearind DGPS 2000 : 20008 DGPS(PacRim2000) cmd_pbn: /u/argus0/airops/OPS/QA_Proc/pbn_decode.pl /mnt/air62/airops/1359/l.hdr > dgps.txyz ->ngpslock dgps: 2 ->Read DGPS & got txyz(trgps),gps_sch,peg point: dgps.txyz DGPS file: dgps.txyz Searching GPS data file for corresponding data... dgps_pacrim2k line: 924 Number of valid data points = 924 Start time GPS data = 25422798.00002220 End time GPS data = 25422938.00002177 Positions and Distances Start position = 64.5360586 -147.1960009 7491.434 End position = 64.5343785 -147.5118135 7489.710 Loxodromic Heading (deg) = -90.7080131 Loxodromic Distance (km) = 15158.1520749 Geodesic Heading (deg) = -90.5654456 Geodesic Distance (km) = 15158.1362549 Peg latitude and longitude = 64.5355159 -147.3541361 Peg heading = -90.8888123 Rotation matrix First row = -0.362028153 -0.551172665 -0.751760806 Second row = -0.231935192 0.834364556 -0.500041853 Third row = 0.902851972 -0.006669442 -0.429899797 Translation vector Vector = -0.69411 -0.44469 -38653.55965 Local Radius of Curvature = 6395608.956179346 startrec dgps_pacrim2k: 110 117743 **i_ts: 110 25422799.40800000 25422798.00002220 1.407977800816298 Start and end pulse used = 110 116148 gmt sec s e = 25422799.40800000 25422936.99987973 dgps sec s = 25422798.00002220 25422937.00002178 r_tsv: -2309758.905137389 -1497824.918705536 5742457.621946460 r_tev: -2326326.121893520 -1472636.015751767 5742280.883069825 lat/lon r_geodis: 1.126378495408110 -2.566289013407446 1.126315733833988 -2.577239234879388 30114.13310583908 Ellipsoidal delta s (m) = 0.2595195807049335 DGPS... lat/lon r_geodis: 9.6977775030725551E-06 -2.3758585080489469E-03 -4.4441293614411313E-07 2.3326944703466182E-03 30114.13345847621 Delta s on reference surface = 0.2595195837439133 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1359/ts1359_l.peg DGPS Peg latitude and longitude = 64.5355159 -147.3541361 DGPS Peg heading = -90.8888123 == dgps_egi == r_hwheadf: -91.17004394531250 -1.0986328125000000E-02 0.0000000000000000E+00 110 Making final angle restore...Honeywell -91.17004394531250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 2.4337037346356243E-04 Standard deviation of difference = 2.0624109116932946E-04 Making fits... Vertical fit coefficients = 7495.192152808554 -9.0302881305518667E-02 1.5091061216199186E-04 Cross track fit coefficients = -194.6020313630832 3.8490070952079236E-02 -3.6789710074577181E-04 Along track fit coefficients = -43.54890057780549 -0.3304737129536273 1.1788842991683236E-03 avg alt (1): 7495.192152808554 alt r_avgrefh: 7492.608619266713 i_yearind p-hgt t-hgt: 20008 7495.192152808554 450.0000 avg_ralt tmp: 7045.192382812500 7045.192 enter proc_alt: -1.000000 yaw: -1.1027005E-03 -91.17004394531250 -91.16894124482687 110 tape #: 98 PRF at the start of the run: 846.3100641614319 846.3101 Miscellaneous Information Start range = 8102.267048972740 Start ground range = 4001.499171814253 Time orgin = 25422799.27941999 Pulse spacing = 0.2572936563082597 First frame = 2472668 Thank you for your patronage ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** 02001 tape error DOY 40 instead of 268 Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -1.027807 hddt: 98 Reading and decoding header file... Finished reading the header file... Data acquired after 1995 January. i_yearind subcomm mon i_1995 : 8 1 Operator Comments: - - - - - - - - - - - - - - - - - - - - - EGI GPS started to report good FOM and SV status, blended time i s goody bad but the position and speed look close; low drift; a lmost complete undercast; smooth ride; Ashtech looks OK William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1359/p.hdr Which frequency? (C,L or P) frq:P number of channels transferred: # channels: 4 number of bytes/chan: # bytes: 0 total # of lines transferred: total lines: 59000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1359/ts1359_p.par enter first header to read: the 1st line: 1 enter year data taken: year: 0 enter HDDT ID for raw data: SONY tapeid: 98 enter HDDT TID <0> : Sony TID: 173996 enter the title of image: title image RICHARDSON270-1 enter the CCT (job) ID: cct: 1359 target:Richardson270-1 prod ID(cctid):1359 chrp_delay from subcomm header tapeID: 32.45000 98 HDR Version: 000214 BW L C P: 404020 fs: 909045 Pulse W L C P:101010 1998 P-band fc? 11.25000 alt used in processor: 450.0000 gen_par_aipt P-band fs ntapeid: 45.00000 98 idelay,chrp_delay,xdelay 86 32.45000 -1.027807 near range delr windelay: 8181.007 6.662055 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 chrp_bndx f_cal 20.00000 21.44531 Parameter header created .. IGI lat: 1 64.53672749921679 IGI lon: 1 -147.0369177963585 *get_subcomm_aipt year*10+mon; i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 86.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):86 86.00000000000000 startrng(m) elecdelay: 8181.008602849635 3.2450000000000003E-05 >> start range = 8181.0086 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 9 0 >> ratn_phv = 0 5 0 >> ratn_pvh = 0 3 0 >> ratn_pvv = 0 11 0 >> ratn_lhh = 0 13 0 >> ratn_lhv = 0 13 0 >> ratn_lvh = 0 13 0 >> ratn_lvv = 0 13 0 >> ratn_chh = 0 11 10 >> ratn_chv = 0 11 10 >> ratn_cvh = 0 11 10 >> ratn_cvv = 0 11 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN rec,inu_lat,inu_lon,dads_lat,dads_lon,dads_balt 117888 64.53672749921679 -147.0369177963585 64.53666666666666 -147.0233333333333 7922.666400000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 7227.417600000001 0.4000000000000000 0.4000000000000000 269.0000000000000 0.5000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 64.53672027587891 -147.0375061035156 0.0000000000000000E+00 0.0000000000000000E+00 25422799.00000000 ****gps_frame**** 2472322 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8181.008602849635 1 921 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 2531036.233441911 34032.63934234110 gpsT doy: 295 10 21 gpsT: 25422799.27900000 2000 10 21 17 53 19 0.2790000000000000 week# 1 F10 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 582799.4073300001 EGI msg 1 msl alt(from eo17): 6866.029835449219 EGI msg 1 wander angle(from eo17): -93.65295410156250 EGI09 lat: 64.53672749921679 EGI09 lon: -147.0369177963585 EGI09 alt: 6138.000000000000 EGI09 Height_above_ellipsoid - height_msl: 5.181600000000000 EGI-09 word11 gps Vel East m/s: -190.9338389259339 EGI-09 word12 gps Vel North m/s: -4.414084638977051 EGI-09 word13 gps Vel Upper m/s: 0.5135951042175293 EGI-09 GPS Position FOM : 3.000000000000000 EGI-09 flag: for 4 satellites in operation: 1 EGI-09 flag: for at least 1 satellite in operation: 0 EGI-09 flag: for EGR invalid=1: 0 EGI-09 flag: for EGR RPU fail=1: 0 EGI-09 flag: for EGR AE fail=1: 0 EGI-09 flag: for EGR Battery fail=1: 0 EO-17(13or26)blended FOM 1 538 98FF EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 64384.92987060547 EGI-09 Time Valid: 3.088896000000000 EGI-18 dec32 Vel North m/s: -8.459745407104492 EGI-18 dec32 Vel East m/s: -130.8010864257813 EGI-18 dec32 Vel Upper m/s: 0.3098876476287842 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 51.87500000000000 48.50000000000000 75.75000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.3242187500000000E-03 8.6669921875000000E-03 1.4526367187500000E-02 EGI-13 GPS sigma roll/pitch/az: 5.4641513360102008E-04 5.4641513360102008E-04 4.1527550153677524E-03 r_time_tag_17: 0.2472960000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: -11.68757497558594 217.4831506530762 -0.1103502410888672 EO17 wrander az roll pitch az: -1.634552403291394 0.1043701171875000 0.4614257812500000 -91.17004394531250 EO17 r_cnexx/y/z: 0.4295562449842691 1.8633993342518806E-02 0.9028478609398007 EO17 r_lon: -147.0438861753792 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E 48DF D6B8 dec64: DD85 487B 80FD 6B8D r_hwgpstime(1): 582797.9899223950 r_utctime_18: 64384.98992239299 EGI-18 dec32 lat: 64.53668844845545 EGI-18 dec32 lon: -147.0359411309657 EGI-18 dec32 sea level alt: 7479.427734375000 EGI-18 dec32 WGS84 alt: 7484.869140625000 WGS84_alt-msl_alt: 5.441406250000000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 2 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 1 e22_msg(5) satellite 3: 5 e22_msg(7) satellite 4: 1D e22_msg(9) satellite 5: 14 EGI-22 Tdop: 3.093750000000000 2.843750000000000 1.734375000000000 2.250000000000000 1.234375000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -2.841600000000000 geod_utctime time_tag_17 time_valid: 64384.92987060547 4.441560000000001 3.088896000000000 r_utc_ttag r_del_time_18: 582799.2825346075 2.0000000000000001E-09 J2000 r_hwtime = 25422799.40733000 GPS J2000 time = 25422799.28253461 Message 1 Time = 25422799.40733000 INS Time = 0.3722880000000000 Roll angle = 0.1153564453125000 Pitch angle = 0.4614257812500000 Heading angle = -91.17004394531250 Long. acc = 8.0000000000000002E-02 Lat. acc = -8.0000000000000002E-02 Norm. acc = -9.790000000000001 East vel. = -217.7850000000000 North vel. = -2.249000000000000 Up vel. = -0.1120000000000000 True Grnd Spd = 217.7968750000000 Altitude = 6871.000000000000 Latitude = 64.53496545553207 Longitude = -147.0444527082145 Message 6 Week = 60 GPS Time = 25422799.28253461 GDOP = 3.093750000000000 PDOP = 2.843750000000000 HDOP = 1.734375000000000 VDOP = 2.250000000000000 TDOP = 1.234375000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 64.53668844845545 GPS Lon = -147.0359411309657 GPS Alt = 7484.869140625000 GPS East Vel = -130.8010864257813 GPS North Vel = -8.459745407104492 GPS Up Vel = 0.3098876476287842 Message 4 Sigma Pos x = 51.87500000000000 Sigma Pos y = 48.50000000000000 Sigma Pos z = 75.75000000000000 Sigma Vel x = 7.3242187500000000E-03 Sigma Vel y = 8.6669921875000000E-03 Sigma Vel z = 1.4526367187500000E-02 Message 7 Satellites used = 20 1 5 29 20 0 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 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Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Honeywell EGI98Fall for gps-hgt 8937 20008 6872.244444295027 Done decoding data from header array... Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25422799.2790 25422940.0670 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41731 -92.05444 -90.85693 0.3508634 0 trc -90.77667 -91.19164 -90.38178 0.2695506 0 tgs 216.98597 216.46875 217.79688 0.4741712 0 roll 0.13832 -0.79102 0.51086 0.3043874 0 pitch 0.51765 0.42297 0.60425 0.0475950 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10966 -147.04445 0.0188433 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82872 7220.40720 7272.52800 8.7072295 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.97205 6872.41466 0.1294044 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67505 -147.04445 0.1820150 0 hwalt 6874.99191 6871.97205 6877.47842 1.9090197 0 hwev -216.96904 -217.79500 -216.45100 0.4853267 0 hwnv -2.94187 -4.50300 -1.44900 1.0153794 0 hwuv -0.09021 -0.44500 0.15300 0.1174736 0 hwroll 0.13814 -0.79102 0.51086 0.3045462 0 hwpitch 0.51778 0.42297 0.60425 0.0475771 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509856 0 hwtrc -90.77732 -91.19164 -90.38178 0.2696450 0 hwtgs 216.98414 216.46875 217.79688 0.4735069 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... startrec+1,startrec+nrec-1: 2 117888 1 117888 hdrgpssec-1 t_prf-1 117888 25422939.06734767 1.1881999671459198E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 921 25422938.00000000 2589548 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25422800.00000000 i_yearind 20008 GPS time for first pulse = 25422799.27941999 25422799.27900000 New startrecT: 25422799.27941999 25422799.40733000 1 New start and number of records = 110 117743 New start and number of blocks = 1 921 +6+r_hwhead(10/200): 0.0000000000000000E+00 -5.4931640625000000E-03 -91.17004394531250 GPS trend coefficients = 0.2829942787700419 -1.477262220312721 1.367087980251437 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41736 -92.05444 -90.85693 0.3508594 0 trc -90.77672 -91.19164 -90.38178 0.2695653 0 tgs 216.98536 216.46875 217.79688 0.4737697 0 roll 0.13824 -0.79102 0.50537 0.3045045 0 pitch 0.51768 0.42297 0.60425 0.0475770 0 delx 0.25729 0.00000 0.25737 0.0007503 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10959 -147.04452 0.0188430 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82839 7220.40720 7272.52800 8.7045964 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.96401 6872.27357 0.0733314 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67498 -147.04452 0.1820150 0 hwalt 6874.99191 6871.97207 6877.47840 1.9090194 0 hwev -216.96904 -217.79500 -216.45100 0.4853269 0 hwnv -2.94187 -4.50300 -1.44900 1.0153801 0 hwuv -0.09021 -0.44500 0.15300 0.1174735 0 hwroll 0.13811 -0.79102 0.50537 0.3045445 0 hwpitch 0.51777 0.42297 0.60425 0.0475749 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509732 0 hwtrc -90.77732 -91.19137 -90.38231 0.2696166 0 hwtgs 216.98420 216.46875 217.79688 0.4735351 0 Finished final analysis of data... Average Barometric Altitude = 7920.473560912081 Average Radar Altitude = 7248.828393485350 Average GPS Altitude = 6872.170367048145 >>Record # : 128 >>GPS Stuff = 0.00 0 0 0 0 >>Record # : 0 >>GPS Stuff = Lock vertical accel to OLD gps(+1) or bar(-1) or IGI (0) ==> DGPS=2 OLDgps=1 0=EGI/igi -1=barometer 2 i_yearind DGPS 2000 : 20008 DGPS(PacRim2000) cmd_pbn: /u/argus0/airops/OPS/QA_Proc/pbn_decode.pl /mnt/air62/airops/1359/p.hdr > dgps.txyz ->ngpslock dgps: 2 ->Read DGPS & got txyz(trgps),gps_sch,peg point: dgps.txyz DGPS file: dgps.txyz Searching GPS data file for corresponding data... dgps_pacrim2k line: 924 Number of valid data points = 924 Start time GPS data = 25422798.00002220 End time GPS data = 25422938.00002177 Positions and Distances Start position = 64.5360586 -147.1960009 7491.434 End position = 64.5343785 -147.5118135 7489.710 Loxodromic Heading (deg) = -90.7080131 Loxodromic Distance (km) = 15158.1520749 Geodesic Heading (deg) = -90.5654456 Geodesic Distance (km) = 15158.1362549 Peg latitude and longitude = 64.5355159 -147.3541361 Peg heading = -90.8888123 Rotation matrix First row = -0.362028153 -0.551172665 -0.751760806 Second row = -0.231935192 0.834364556 -0.500041853 Third row = 0.902851972 -0.006669442 -0.429899797 Translation vector Vector = -0.69411 -0.44469 -38653.55965 Local Radius of Curvature = 6395608.956179346 startrec dgps_pacrim2k: 110 117743 **i_ts: 110 25422799.40800000 25422798.00002220 1.407977800816298 Start and end pulse used = 110 116148 gmt sec s e = 25422799.40800000 25422936.99987973 dgps sec s = 25422798.00002220 25422937.00002178 r_tsv: -2309758.905137389 -1497824.918705536 5742457.621946460 r_tev: -2326326.121893520 -1472636.015751767 5742280.883069825 lat/lon r_geodis: 1.126378495408110 -2.566289013407446 1.126315733833988 -2.577239234879388 30114.13310583908 Ellipsoidal delta s (m) = 0.2595195807049335 DGPS... lat/lon r_geodis: 9.6977775030725551E-06 -2.3758585080489469E-03 -4.4441293614411313E-07 2.3326944703466182E-03 30114.13345847621 Delta s on reference surface = 0.2595195837439133 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1359/ts1359_p.peg DGPS Peg latitude and longitude = 64.5355159 -147.3541361 DGPS Peg heading = -90.8888123 == dgps_egi == r_hwheadf: -91.17004394531250 -1.0986328125000000E-02 0.0000000000000000E+00 110 Making final angle restore...Honeywell -91.17004394531250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 2.4337037346356243E-04 Standard deviation of difference = 2.0624109116932946E-04 Making fits... Vertical fit coefficients = 7495.192152808554 -9.0302881305518667E-02 1.5091061216199186E-04 Cross track fit coefficients = -194.6020313630832 3.8490070952079236E-02 -3.6789710074577181E-04 Along track fit coefficients = -43.54890057780549 -0.3304737129536273 1.1788842991683236E-03 avg alt (1): 7495.192152808554 alt r_avgrefh: 7492.608619266713 i_yearind p-hgt t-hgt: 20008 7495.192152808554 450.0000 avg_ralt tmp: 7045.192382812500 7045.192 enter proc_alt: -1.000000 yaw: -1.1027005E-03 -91.17004394531250 -91.16894124482687 110 tape #: 98 PRF at the start of the run: 846.3100641614319 846.3101 Miscellaneous Information Start range = 8181.008602849635 Start ground range = 4158.625499977183 Time orgin = 25422799.27941999 Pulse spacing = 0.2572936563082597 First frame = 2472668 Thank you for your patronage Mon Mar 18 11:45:12 PST 2002 ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** 02001 tape error DOY 40 instead of 268 Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -0.5025000 hddt: 98 Reading and decoding header file... Finished reading the header file... Data acquired after 1995 January. i_yearind subcomm mon i_1995 : 8 1 Operator Comments: - - - - - - - - - - - - - - - - - - - - - EGI GPS started to report good FOM and SV status, blended time i s goody bad but the position and speed look close; low drift; a lmost complete undercast; smooth ride; Ashtech looks OK William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1359/c.hdr Which frequency? (C,L or P) frq:C number of channels transferred: # channels: 4 number of bytes/chan: # bytes: 6144 total # of lines transferred: total lines: 59000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1359/ts1359_c.par enter first header to read: the 1st line: 1 enter year data taken: year: 0 enter HDDT ID for raw data: SONY tapeid: 98 enter HDDT TID <0> : Sony TID: 173996 enter the title of image: title image RICHARDSON270-1 enter the CCT (job) ID: cct: 1359 target:Richardson270-1 prod ID(cctid):1359 chrp_delay from subcomm header tapeID: 32.45000 98 HDR Version: 000214 BW L C P: 404020 fs: 909045 Pulse W L C P:101010 1998 P-band fc? 22.50000 alt used in processor: 450.0000 idelay,chrp_delay,xdelay 86 32.45000 -0.5025000 near range delr windelay: 8102.265 3.331027 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 chrp_bndx f_cal 40.00000 43.59375 Parameter header created .. IGI lat: 1 64.53672749921679 IGI lon: 1 -147.0369177963585 *get_subcomm_aipt year*10+mon; i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 86.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):86 86.00000000000000 startrng(m) elecdelay: 8102.267048972740 3.2450000000000003E-05 >> start range = 8102.2670 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 9 0 >> ratn_phv = 0 5 0 >> ratn_pvh = 0 3 0 >> ratn_pvv = 0 11 0 >> ratn_lhh = 0 13 0 >> ratn_lhv = 0 13 0 >> ratn_lvh = 0 13 0 >> ratn_lvv = 0 13 0 >> ratn_chh = 0 11 10 >> ratn_chv = 0 11 10 >> ratn_cvh = 0 11 10 >> ratn_cvv = 0 11 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN rec,inu_lat,inu_lon,dads_lat,dads_lon,dads_balt 117888 64.53672749921679 -147.0369177963585 64.53666666666666 -147.0233333333333 7922.666400000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 7227.417600000001 0.4000000000000000 0.4000000000000000 269.0000000000000 0.5000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 64.53672027587891 -147.0375061035156 0.0000000000000000E+00 0.0000000000000000E+00 25422799.00000000 ****gps_frame**** 2472322 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8102.267048972740 1 921 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 2531036.233441911 34032.63934234110 gpsT doy: 295 10 21 gpsT: 25422799.27900000 2000 10 21 17 53 19 0.2790000000000000 week# 1 F10 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 582799.4073300001 EGI msg 1 msl alt(from eo17): 6866.029835449219 EGI msg 1 wander angle(from eo17): -93.65295410156250 EGI09 lat: 64.53672749921679 EGI09 lon: -147.0369177963585 EGI09 alt: 6138.000000000000 EGI09 Height_above_ellipsoid - height_msl: 5.181600000000000 EGI-09 word11 gps Vel East m/s: -190.9338389259339 EGI-09 word12 gps Vel North m/s: -4.414084638977051 EGI-09 word13 gps Vel Upper m/s: 0.5135951042175293 EGI-09 GPS Position FOM : 3.000000000000000 EGI-09 flag: for 4 satellites in operation: 1 EGI-09 flag: for at least 1 satellite in operation: 0 EGI-09 flag: for EGR invalid=1: 0 EGI-09 flag: for EGR RPU fail=1: 0 EGI-09 flag: for EGR AE fail=1: 0 EGI-09 flag: for EGR Battery fail=1: 0 EO-17(13or26)blended FOM 1 538 98FF EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 64384.92987060547 EGI-09 Time Valid: 3.088896000000000 EGI-18 dec32 Vel North m/s: -8.459745407104492 EGI-18 dec32 Vel East m/s: -130.8010864257813 EGI-18 dec32 Vel Upper m/s: 0.3098876476287842 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 51.87500000000000 48.50000000000000 75.75000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.3242187500000000E-03 8.6669921875000000E-03 1.4526367187500000E-02 EGI-13 GPS sigma roll/pitch/az: 5.4641513360102008E-04 5.4641513360102008E-04 4.1527550153677524E-03 r_time_tag_17: 0.2472960000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: -11.68757497558594 217.4831506530762 -0.1103502410888672 EO17 wrander az roll pitch az: -1.634552403291394 0.1043701171875000 0.4614257812500000 -91.17004394531250 EO17 r_cnexx/y/z: 0.4295562449842691 1.8633993342518806E-02 0.9028478609398007 EO17 r_lon: -147.0438861753792 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E 48DF D6B8 dec64: DD85 487B 80FD 6B8D r_hwgpstime(1): 582797.9899223950 r_utctime_18: 64384.98992239299 EGI-18 dec32 lat: 64.53668844845545 EGI-18 dec32 lon: -147.0359411309657 EGI-18 dec32 sea level alt: 7479.427734375000 EGI-18 dec32 WGS84 alt: 7484.869140625000 WGS84_alt-msl_alt: 5.441406250000000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 2 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 1 e22_msg(5) satellite 3: 5 e22_msg(7) satellite 4: 1D e22_msg(9) satellite 5: 14 EGI-22 Tdop: 3.093750000000000 2.843750000000000 1.734375000000000 2.250000000000000 1.234375000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -2.841600000000000 geod_utctime time_tag_17 time_valid: 64384.92987060547 4.441560000000001 3.088896000000000 r_utc_ttag r_del_time_18: 582799.2825346075 2.0000000000000001E-09 J2000 r_hwtime = 25422799.40733000 GPS J2000 time = 25422799.28253461 Message 1 Time = 25422799.40733000 INS Time = 0.3722880000000000 Roll angle = 0.1153564453125000 Pitch angle = 0.4614257812500000 Heading angle = -91.17004394531250 Long. acc = 8.0000000000000002E-02 Lat. acc = -8.0000000000000002E-02 Norm. acc = -9.790000000000001 East vel. = -217.7850000000000 North vel. = -2.249000000000000 Up vel. = -0.1120000000000000 True Grnd Spd = 217.7968750000000 Altitude = 6871.000000000000 Latitude = 64.53496545553207 Longitude = -147.0444527082145 Message 6 Week = 60 GPS Time = 25422799.28253461 GDOP = 3.093750000000000 PDOP = 2.843750000000000 HDOP = 1.734375000000000 VDOP = 2.250000000000000 TDOP = 1.234375000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 64.53668844845545 GPS Lon = -147.0359411309657 GPS Alt = 7484.869140625000 GPS East Vel = -130.8010864257813 GPS North Vel = -8.459745407104492 GPS Up Vel = 0.3098876476287842 Message 4 Sigma Pos x = 51.87500000000000 Sigma Pos y = 48.50000000000000 Sigma Pos z = 75.75000000000000 Sigma Vel x = 7.3242187500000000E-03 Sigma Vel y = 8.6669921875000000E-03 Sigma Vel z = 1.4526367187500000E-02 Message 7 Satellites used = 20 1 5 29 20 0 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 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Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Honeywell EGI98Fall for gps-hgt 8937 20008 6872.244444295027 Done decoding data from header array... Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25422799.2790 25422940.0670 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41731 -92.05444 -90.85693 0.3508634 0 trc -90.77667 -91.19164 -90.38178 0.2695506 0 tgs 216.98597 216.46875 217.79688 0.4741712 0 roll 0.13832 -0.79102 0.51086 0.3043874 0 pitch 0.51765 0.42297 0.60425 0.0475950 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10966 -147.04445 0.0188433 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82872 7220.40720 7272.52800 8.7072295 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.97205 6872.41466 0.1294044 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67505 -147.04445 0.1820150 0 hwalt 6874.99191 6871.97205 6877.47842 1.9090197 0 hwev -216.96904 -217.79500 -216.45100 0.4853267 0 hwnv -2.94187 -4.50300 -1.44900 1.0153794 0 hwuv -0.09021 -0.44500 0.15300 0.1174736 0 hwroll 0.13814 -0.79102 0.51086 0.3045462 0 hwpitch 0.51778 0.42297 0.60425 0.0475771 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509856 0 hwtrc -90.77732 -91.19164 -90.38178 0.2696450 0 hwtgs 216.98414 216.46875 217.79688 0.4735069 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... startrec+1,startrec+nrec-1: 2 117888 1 117888 hdrgpssec-1 t_prf-1 117888 25422939.06734767 1.1881999671459198E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 921 25422938.00000000 2589548 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25422800.00000000 i_yearind 20008 GPS time for first pulse = 25422799.27941999 25422799.27900000 New startrecT: 25422799.27941999 25422799.40733000 1 New start and number of records = 110 117743 New start and number of blocks = 1 921 +6+r_hwhead(10/200): 0.0000000000000000E+00 -5.4931640625000000E-03 -91.17004394531250 GPS trend coefficients = 0.2829942787700419 -1.477262220312721 1.367087980251437 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41736 -92.05444 -90.85693 0.3508594 0 trc -90.77672 -91.19164 -90.38178 0.2695653 0 tgs 216.98536 216.46875 217.79688 0.4737697 0 roll 0.13824 -0.79102 0.50537 0.3045045 0 pitch 0.51768 0.42297 0.60425 0.0475770 0 delx 0.25729 0.00000 0.25737 0.0007503 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10959 -147.04452 0.0188430 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82839 7220.40720 7272.52800 8.7045964 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.96401 6872.27357 0.0733314 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67498 -147.04452 0.1820150 0 hwalt 6874.99191 6871.97207 6877.47840 1.9090194 0 hwev -216.96904 -217.79500 -216.45100 0.4853269 0 hwnv -2.94187 -4.50300 -1.44900 1.0153801 0 hwuv -0.09021 -0.44500 0.15300 0.1174735 0 hwroll 0.13811 -0.79102 0.50537 0.3045445 0 hwpitch 0.51777 0.42297 0.60425 0.0475749 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509732 0 hwtrc -90.77732 -91.19137 -90.38231 0.2696166 0 hwtgs 216.98420 216.46875 217.79688 0.4735351 0 Finished final analysis of data... Average Barometric Altitude = 7920.473560912081 Average Radar Altitude = 7248.828393485350 Average GPS Altitude = 6872.170367048145 >>Record # : 128 >>GPS Stuff = 0.00 0 0 0 0 >>Record # : 0 >>GPS Stuff = Lock vertical accel to OLD gps(+1) or bar(-1) or IGI (0) ==> DGPS=2 OLDgps=1 0=EGI/igi -1=barometer 2 i_yearind DGPS 2000 : 20008 DGPS(PacRim2000) cmd_pbn: /u/Reading from stdin argus0/airops/OPS/QA_Proc/pbn_decode.pl /mnt/air62/airops/1359/c.hdr > dgps.txyz ->ngpslock dgps: 2 ->Read DGPS & got txyz(trgps),gps_sch,peg point: dgps.txyz DGPS file: dgps.txyz Searching GPS data file for corresponding data... dgps_pacrim2k line: 924 Number of valid data points = 924 Start time GPS data = 25422798.00002220 End time GPS data = 25422938.00002177 Positions and Distances Start position = 64.5360586 -147.1960009 7491.434 End position = 64.5343785 -147.5118135 7489.710 Loxodromic Heading (deg) = -90.7080131 Loxodromic Distance (km) = 15158.1520749 Geodesic Heading (deg) = -90.5654456 Geodesic Distance (km) = 15158.1362549 Peg latitude and longitude = 64.5355159 -147.3541361 Peg heading = -90.8888123 Rotation matrix First row = -0.362028153 -0.551172665 -0.751760806 Second row = -0.231935192 0.834364556 -0.500041853 Third row = 0.902851972 -0.006669442 -0.429899797 Translation vector Vector = -0.69411 -0.44469 -38653.55965 Local Radius of Curvature = 6395608.956179346 startrec dgps_pacrim2k: 110 117743 **i_ts: 110 25422799.40800000 25422798.00002220 1.407977800816298 Start and end pulse used = 110 116148 gmt sec s e = 25422799.40800000 25422936.99987973 dgps sec s = 25422798.00002220 25422937.00002178 r_tsv: -2309758.905137389 -1497824.918705536 5742457.621946460 r_tev: -2326326.121893520 -1472636.015751767 5742280.883069825 lat/lon r_geodis: 1.126378495408110 -2.566289013407446 1.126315733833988 -2.577239234879388 30114.13310583908 Ellipsoidal delta s (m) = 0.2595195807049335 DGPS... lat/lon r_geodis: 9.6977775030725551E-06 -2.3758585080489469E-03 -4.4441293614411313E-07 2.3326944703466182E-03 30114.13345847621 Delta s on reference surface = 0.2595195837439133 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1359/ts1359_c.peg DGPS Peg latitude and longitude = 64.5355159 -147.3541361 DGPS Peg heading = -90.8888123 == dgps_egi == r_hwheadf: -91.17004394531250 -1.0986328125000000E-02 0.0000000000000000E+00 110 Making final angle restore...Honeywell -91.17004394531250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 2.4337037346356243E-04 Standard deviation of difference = 2.0624109116932946E-04 Making fits... Vertical fit coefficients = 7495.192152808554 -9.0302881305518667E-02 1.5091061216199186E-04 Cross track fit coefficients = -194.6020313630832 3.8490070952079236E-02 -3.6789710074577181E-04 Along track fit coefficients = -43.54890057780549 -0.3304737129536273 1.1788842991683236E-03 avg alt (1): 7495.192152808554 alt r_avgrefh: 7492.608619266713 i_yearind p-hgt t-hgt: 20008 7495.192152808554 450.0000 avg_ralt tmp: 7045.192382812500 7045.192 enter proc_alt: -1.000000 yaw: -1.1027005E-03 -91.17004394531250 -91.16894124482687 110 tape #: 98 PRF at the start of the run: 846.3100641614319 846.3101 Miscellaneous Information Start range = 8102.267048972740 Start ground range = 4001.499171814253 Time orgin = 25422799.27941999 Pulse spacing = 0.2572936563082597 First frame = 2472668 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /mnt/air65/airops/1359/ts1359_c.mocomp Name of the H-pol motion compensation file? /mnt/air65/airops/1359/ts1359_c.mocomph Name of the V-pol motion compensation file? /mnt/air65/airops/1359/ts1359_c.mocompv How many lines per polarization? 59000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 + 90001 + 100001 + 110001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CHH Enter the paramater file name. /mnt/air65/airops/1359/ts1359_c.par Enter the raw data file name. /mnt/air62/airops/1359/c_hh Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_c_hh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_c_hh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_c_hh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_c_hh.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (-44.88074,0.0000000E+00) (-89.76149,0.0000000E+00) (100.9817,0.0000000E+00) attenuation (dB): 21.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.5398815E+09 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.42831 Power RMS: 0.1082532 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 74372.80 Amp. RMS: 141.3082 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 51.27900 Phase RMS: 0.7643484 Incoherent PH 1st: 51.28667 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.42677 CalTone Power Coherently dB : 97.42831 Incoherent PW - Coherent PW : -1.5335083E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 74357.52 CalTone Amplitude Coherently : 74372.80 Incoherent Amp.- Coherent Amp. : -15.27344 ------------ *** ------------ running time (sec): 31.98 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CHV Enter the paramater file name. /mnt/air65/airops/1359/ts1359_c.par Enter the raw data file name. /mnt/air62/airops/1359/c_hv Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_c_hv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_c_hv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_c_hv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_c_hv.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (-22.44037,0.0000000E+00) (-44.88074,0.0000000E+00) (33.66056,0.0000000E+00) attenuation (dB): 21.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.2409098E+09 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.17549 Power RMS: 0.1325825 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 72239.16 Amp. RMS: 128.0000 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 85.61755 Phase RMS: 0.2176311 Incoherent PH 1st: 85.58228 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.17516 CalTone Power Coherently dB : 97.17549 Incoherent PW - Coherent PW : -3.3569336E-04 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 72315.09 CalTone Amplitude Coherently : 72239.16 Incoherent Amp.- Coherent Amp. : 75.92969 ------------ *** ------------ running time (sec): 29.34 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CVH Enter the paramater file name. /mnt/air65/airops/1359/ts1359_c.par Enter the raw data file name. /mnt/air62/airops/1359/c_vh Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_c_vh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_c_vh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_c_vh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_c_vh.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (78.54131,0.0000000E+00) (44.88074,0.0000000E+00) (0.0000000E+00,0.0000000E+00) attenuation (dB): 21.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.5390659E+09 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.42696 Power RMS: 7.6546557E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 74361.74 Amp. RMS: 135.7645 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 51.04758 Phase RMS: 0.7656250 Incoherent PH 1st: 51.06667 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.42458 CalTone Power Coherently dB : 97.42696 Incoherent PW - Coherent PW : -2.3880005E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 74416.98 CalTone Amplitude Coherently : 74361.74 Incoherent Amp.- Coherent Amp. : 55.23438 ------------ *** ------------ running time (sec): 29.43 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CVV Enter the paramater file name. /mnt/air65/airops/1359/ts1359_c.par Enter the raw data file name. /mnt/air62/airops/1359/c_vv Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_c_vv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_c_vv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_c_vv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_c_vv.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (44.88074,0.0000000E+00) (100.9817,0.0000000E+00) (-100.9817,0.0000000E+00) attenuation (dB): 21.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.1998403E+09 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.14609 Power RMS: 6.2500000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 71995.59 Amp. RMS: 119.7330 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 85.65698 Phase RMS: 0.2253470 Incoherent PH 1st: 85.66306 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.14462 CalTone Power Coherently dB : 97.14609 Incoherent PW - Coherent PW : -1.4648438E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 72061.13 CalTone Amplitude Coherently : 71995.59 Incoherent Amp.- Coherent Amp. : 65.54688 ------------ *** ------------ running time (sec): 29.32 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: 72.23108 -1.1195164E-03 z fit: constant and linear terms: 0.1650281 -6.7065230E-05 y and z standard deviations (meters) 5.419738 0.8858395 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 37 Step size = 1512 PATCH NUMER 1 First line = 1 Averages = 0.1009142 9.7871505E-02 0.1010132 0.1030590 Differences = 1.9969046E-04 -2.8429627E-03 2.9870868E-04 2.3445785E-03 PATCH NUMER 2 First line = 1513 Averages = 0.1002497 0.1015624 0.1058596 0.1065305 Differences = -3.3008754E-03 -1.9881129E-03 2.3090839E-03 2.9799119E-03 PATCH NUMER 3 First line = 3025 Averages = 0.1028542 0.1081813 0.1026691 0.1015984 Differences = -9.7151846E-04 4.3555796E-03 -1.1566877E-03 -2.2273734E-03 PATCH NUMER 4 First line = 4537 Averages = 0.1065909 0.1015752 9.9655189E-02 9.9235132E-02 Differences = 4.8267841E-03 -1.8890202E-04 -2.1089241E-03 -2.5289804E-03 PATCH NUMER 5 First line = 6049 Averages = 0.1016398 9.8689064E-02 9.9833161E-02 0.1008451 Differences = 1.3880357E-03 -1.5627146E-03 -4.1861832E-04 5.9330463E-04 PATCH NUMER 6 First line = 7561 Averages = 9.9307001E-02 0.1008230 9.8523632E-02 9.6418455E-02 Differences = 5.3896755E-04 2.0550117E-03 -2.4440140E-04 -2.3495778E-03 PATCH NUMER 7 First line = 9073 Averages = 0.1010447 9.6338198E-02 9.6914820E-02 9.4142966E-02 Differences = 3.9344952E-03 -7.7196956E-04 -1.9534677E-04 -2.9672012E-03 PATCH NUMER 8 First line = 10585 Averages = 9.6044831E-02 9.6445285E-02 9.1426924E-02 9.4599515E-02 Differences = 1.4157072E-03 1.8161610E-03 -3.2021999E-03 -2.9608607E-05 PATCH NUMER 9 First line = 12097 Averages = 9.4370492E-02 9.1550969E-02 9.5200621E-02 8.7039128E-02 Differences = 2.3302212E-03 -4.8930198E-04 3.1603500E-03 -5.0011426E-03 PATCH NUMER 10 First line = 13609 Averages = 9.4623595E-02 9.1603741E-02 8.2622051E-02 7.5385004E-02 Differences = 8.5649863E-03 5.5451319E-03 -3.4365579E-03 -1.0673605E-02 PATCH NUMER 11 First line = 15121 Averages = 8.7475561E-02 7.7970617E-02 7.4782692E-02 7.9381295E-02 Differences = 7.5730085E-03 -1.9319355E-03 -5.1198602E-03 -5.2125752E-04 PATCH NUMER 12 First line = 16633 Averages = 7.5522758E-02 7.6125562E-02 8.2972981E-02 9.5161244E-02 Differences = -6.9228932E-03 -6.3200891E-03 5.2732974E-04 1.2715593E-02 PATCH NUMER 13 First line = 18145 Averages = 7.8957103E-02 8.8592999E-02 9.9725701E-02 0.1136922 Differences = -1.6284950E-02 -6.6490546E-03 4.4836476E-03 1.8450111E-02 PATCH NUMER 14 First line = 19657 Averages = 9.4601259E-02 0.1052423 0.1191424 0.1259336 Differences = -1.6628683E-02 -5.9876889E-03 7.9124868E-03 1.4703646E-02 PATCH NUMER 15 First line = 21169 Averages = 0.1128495 0.1228706 0.1265676 0.1206956 Differences = -7.8963414E-03 2.1247864E-03 5.8218390E-03 -5.0216913E-05 PATCH NUMER 16 First line = 22681 Averages = 0.1258281 0.1248764 0.1135565 9.0711668E-02 Differences = 1.2084872E-02 1.1133149E-02 -1.8671155E-04 -2.3031592E-02 PATCH NUMER 17 First line = 24193 Averages = 0.1211431 0.1031783 7.9515487E-02 5.8088508E-02 Differences = 3.0661590E-02 1.2696743E-02 -1.0966025E-02 -3.2393005E-02 PATCH NUMER 18 First line = 25705 Averages = 9.2230074E-02 6.8680868E-02 4.9578812E-02 3.6165755E-02 Differences = 3.0566104E-02 7.0168972E-03 -1.2085158E-02 -2.5498215E-02 PATCH NUMER 19 First line = 27217 Averages = 5.9108350E-02 4.3553054E-02 2.7031180E-02 8.9631220E-03 Differences = 2.4444368E-02 8.8890716E-03 -7.6328032E-03 -2.5700860E-02 PATCH NUMER 20 First line = 28729 Averages = 3.6741074E-02 1.8737009E-02 -3.1761368E-04 -1.5527991E-02 Differences = 2.6832938E-02 8.8288719E-03 -1.0225751E-02 -2.5436128E-02 PATCH NUMER 21 First line = 30241 Averages = 9.8257633E-03 -8.1767915E-03 -1.8631941E-02 -2.0993244E-02 Differences = 1.9319814E-02 1.3172580E-03 -9.1378912E-03 -1.1499194E-02 PATCH NUMER 22 First line = 31753 Averages = -1.5041293E-02 -1.9223053E-02 -2.5012989E-02 -3.5423983E-02 Differences = 8.6340541E-03 4.4522937E-03 -1.3376419E-03 -1.1748636E-02 PATCH NUMER 23 First line = 33265 Averages = -2.0618290E-02 -2.9571813E-02 -4.1729633E-02 -5.1386327E-02 Differences = 1.5208226E-02 6.2547028E-03 -5.9031174E-03 -1.5559811E-02 PATCH NUMER 24 First line = 34777 Averages = -3.4781057E-02 -4.7373407E-02 -5.4080136E-02 -5.9516642E-02 Differences = 1.4156759E-02 1.5644096E-03 -5.1423199E-03 -1.0578826E-02 PATCH NUMER 25 First line = 36289 Averages = -5.1029287E-02 -5.7399999E-02 -5.8348358E-02 -5.4012969E-02 Differences = 4.1683540E-03 -2.2023581E-03 -3.1507164E-03 1.1846721E-03 PATCH NUMER 26 First line = 37801 Averages = -5.9425257E-02 -5.5175684E-02 -5.6516092E-02 -5.8333252E-02 Differences = -2.0626560E-03 2.1869168E-03 8.4650889E-04 -9.7065046E-04 PATCH NUMER 27 First line = 39313 Averages = -5.3598210E-02 -5.8897078E-02 -5.9065662E-02 -6.4234421E-02 Differences = 5.3506531E-03 5.1785260E-05 -1.1679903E-04 -5.2855574E-03 PATCH NUMER 28 First line = 40825 Averages = -5.8448792E-02 -6.0920693E-02 -6.8240792E-02 -7.6898769E-02 Differences = 7.6784939E-03 5.2065924E-03 -2.1135062E-03 -1.0771483E-02 PATCH NUMER 29 First line = 42337 Averages = -6.3861974E-02 -7.1856253E-02 -8.2341693E-02 -9.4396643E-02 Differences = 1.4252193E-02 6.2579140E-03 -4.2275265E-03 -1.6282476E-02 PATCH NUMER 30 First line = 43849 Averages = -7.6470211E-02 -8.8646948E-02 -9.8374255E-02 -0.1064637 Differences = 1.6018599E-02 3.8418621E-03 -5.8854446E-03 -1.3974875E-02 PATCH NUMER 31 First line = 45361 Averages = -9.3971618E-02 -0.1030876 -0.1080300 -0.1082279 Differences = 9.3576908E-03 2.4169683E-04 -4.7007278E-03 -4.8986077E-03 PATCH NUMER 32 First line = 46873 Averages = -0.1063182 -0.1087952 -0.1083167 -0.1116719 Differences = 2.4573356E-03 -1.9647181E-05 4.5881420E-04 -2.8963313E-03 PATCH NUMER 33 First line = 48385 Averages = -0.1082500 -0.1102915 -0.1093341 -0.1110132 Differences = 1.4721900E-03 -5.6932122E-04 3.8808584E-04 -1.2910292E-03 PATCH NUMER 34 First line = 49897 Averages = -0.1118568 -0.1091087 -0.1098594 -0.1046711 Differences = -2.9828027E-03 -2.3469329E-04 -9.8539144E-04 4.2028949E-03 PATCH NUMER 35 First line = 51409 Averages = -0.1109261 -0.1071066 -0.1029399 -0.1297237 Differences = 1.7480329E-03 5.5675730E-03 9.7341985E-03 -1.7049618E-02 PATCH NUMER 36 First line = 52921 Averages = -0.1049436 -0.1103708 -0.1454199 -0.1598776 Differences = 2.5209650E-02 1.9782417E-02 -1.5266672E-02 -2.9724419E-02 PATCH NUMER 37 First line = 54433 Averages = -0.1278479 -0.1541850 -0.1630198 -0.1538593 Differences = 2.1880135E-02 -4.4569522E-03 -1.3291717E-02 -4.1311830E-03 PATCH NUMER 38 First line = 55945 last black mod_64: 47 59000 55945 4096 Averages = -0.1595160 -0.1611644 -0.1495564 -0.1538593 Differences = -3.4919083E-03 -5.1403046E-03 6.4677000E-03 2.1648556E-03 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 0 AZ patch size: 4096 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.hh00c Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_c.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 2208 data points per patch Near range (m) = 8102.270 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.200000 Radar wavelength (m) = 5.6699999E-02 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.087600 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = 1.872000 0.6771000 -0.3541000 Receive leverarm x,y,z = 1.872000 0.6771000 -0.3541000 Name of raw data file? /mnt/air62/airops/1359/c_hh Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_c.mocomph Output file name w/o ext? /mnt/air65/airops/1359/ts1359_c Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_c.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.ch WAYNE init fft, calc slant range, load unpack, interpo 1.4773998E-02 reading motion compensation data WAYNE read motion compen 1.365847 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 98 40.00000 22.50000 90.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4648290 start range comp, time = 1.940 WAYNE PREV 1.861732 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS Tue Mar 19 22:19:28 PST 2002 ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** 02001 tape error DOY 40 instead of 268 Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -0.5025000 hddt: 98 Reading and decoding header file... Finished reading the header file... Data acquired after 1995 January. i_yearind subcomm mon i_1995 : 8 1 Operator Comments: - - - - - - - - - - - - - - - - - - - - - EGI GPS started to report good FOM and SV status, blended time i s goody bad but the position and speed look close; low drift; a lmost complete undercast; smooth ride; Ashtech looks OK William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1359/c.hdr Which frequency? (C,L or P) frq:C number of channels transferred: # channels: 4 number of bytes/chan: # bytes: 6144 total # of lines transferred: total lines: 59000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1359/ts1359_c.par enter first header to read: the 1st line: 1 enter year data taken: year: 0 enter HDDT ID for raw data: SONY tapeid: 98 enter HDDT TID <0> : Sony TID: 173996 enter the title of image: title image RICHARDSON270-1 enter the CCT (job) ID: cct: 1359 target:Richardson270-1 prod ID(cctid):1359 chrp_delay from subcomm header tapeID: 32.45000 98 HDR Version: 000214 BW L C P: 404020 fs: 909045 Pulse W L C P:101010 1998 P-band fc? 22.50000 alt used in processor: 450.0000 idelay,chrp_delay,xdelay 86 32.45000 -0.5025000 near range delr windelay: 8102.265 3.331027 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 chrp_bndx f_cal 40.00000 43.59375 Parameter header created .. IGI lat: 1 64.53672749921679 IGI lon: 1 -147.0369177963585 *get_subcomm_aipt year*10+mon; i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 86.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):86 86.00000000000000 startrng(m) elecdelay: 8102.267048972740 3.2450000000000003E-05 >> start range = 8102.2670 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 9 0 >> ratn_phv = 0 5 0 >> ratn_pvh = 0 3 0 >> ratn_pvv = 0 11 0 >> ratn_lhh = 0 13 0 >> ratn_lhv = 0 13 0 >> ratn_lvh = 0 13 0 >> ratn_lvv = 0 13 0 >> ratn_chh = 0 11 10 >> ratn_chv = 0 11 10 >> ratn_cvh = 0 11 10 >> ratn_cvv = 0 11 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN rec,inu_lat,inu_lon,dads_lat,dads_lon,dads_balt 117888 64.53672749921679 -147.0369177963585 64.53666666666666 -147.0233333333333 7922.666400000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 7227.417600000001 0.4000000000000000 0.4000000000000000 269.0000000000000 0.5000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 64.53672027587891 -147.0375061035156 0.0000000000000000E+00 0.0000000000000000E+00 25422799.00000000 ****gps_frame**** 2472322 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8102.267048972740 1 921 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 2531036.233441911 34032.63934234110 gpsT doy: 295 10 21 gpsT: 25422799.27900000 2000 10 21 17 53 19 0.2790000000000000 week# 1 F10 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 582799.4073300001 EGI msg 1 msl alt(from eo17): 6866.029835449219 EGI msg 1 wander angle(from eo17): -93.65295410156250 EGI09 lat: 64.53672749921679 EGI09 lon: -147.0369177963585 EGI09 alt: 6138.000000000000 EGI09 Height_above_ellipsoid - height_msl: 5.181600000000000 EGI-09 word11 gps Vel East m/s: -190.9338389259339 EGI-09 word12 gps Vel North m/s: -4.414084638977051 EGI-09 word13 gps Vel Upper m/s: 0.5135951042175293 EGI-09 GPS Position FOM : 3.000000000000000 EGI-09 flag: for 4 satellites in operation: 1 EGI-09 flag: for at least 1 satellite in operation: 0 EGI-09 flag: for EGR invalid=1: 0 EGI-09 flag: for EGR RPU fail=1: 0 EGI-09 flag: for EGR AE fail=1: 0 EGI-09 flag: for EGR Battery fail=1: 0 EO-17(13or26)blended FOM 1 538 98FF EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 64384.92987060547 EGI-09 Time Valid: 3.088896000000000 EGI-18 dec32 Vel North m/s: -8.459745407104492 EGI-18 dec32 Vel East m/s: -130.8010864257813 EGI-18 dec32 Vel Upper m/s: 0.3098876476287842 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 51.87500000000000 48.50000000000000 75.75000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.3242187500000000E-03 8.6669921875000000E-03 1.4526367187500000E-02 EGI-13 GPS sigma roll/pitch/az: 5.4641513360102008E-04 5.4641513360102008E-04 4.1527550153677524E-03 r_time_tag_17: 0.2472960000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: -11.68757497558594 217.4831506530762 -0.1103502410888672 EO17 wrander az roll pitch az: -1.634552403291394 0.1043701171875000 0.4614257812500000 -91.17004394531250 EO17 r_cnexx/y/z: 0.4295562449842691 1.8633993342518806E-02 0.9028478609398007 EO17 r_lon: -147.0438861753792 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E 48DF D6B8 dec64: DD85 487B 80FD 6B8D r_hwgpstime(1): 582797.9899223950 r_utctime_18: 64384.98992239299 EGI-18 dec32 lat: 64.53668844845545 EGI-18 dec32 lon: -147.0359411309657 EGI-18 dec32 sea level alt: 7479.427734375000 EGI-18 dec32 WGS84 alt: 7484.869140625000 WGS84_alt-msl_alt: 5.441406250000000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 2 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 1 e22_msg(5) satellite 3: 5 e22_msg(7) satellite 4: 1D e22_msg(9) satellite 5: 14 EGI-22 Tdop: 3.093750000000000 2.843750000000000 1.734375000000000 2.250000000000000 1.234375000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -2.841600000000000 geod_utctime time_tag_17 time_valid: 64384.92987060547 4.441560000000001 3.088896000000000 r_utc_ttag r_del_time_18: 582799.2825346075 2.0000000000000001E-09 J2000 r_hwtime = 25422799.40733000 GPS J2000 time = 25422799.28253461 Message 1 Time = 25422799.40733000 INS Time = 0.3722880000000000 Roll angle = 0.1153564453125000 Pitch angle = 0.4614257812500000 Heading angle = -91.17004394531250 Long. acc = 8.0000000000000002E-02 Lat. acc = -8.0000000000000002E-02 Norm. acc = -9.790000000000001 East vel. = -217.7850000000000 North vel. = -2.249000000000000 Up vel. = -0.1120000000000000 True Grnd Spd = 217.7968750000000 Altitude = 6871.000000000000 Latitude = 64.53496545553207 Longitude = -147.0444527082145 Message 6 Week = 60 GPS Time = 25422799.28253461 GDOP = 3.093750000000000 PDOP = 2.843750000000000 HDOP = 1.734375000000000 VDOP = 2.250000000000000 TDOP = 1.234375000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 64.53668844845545 GPS Lon = -147.0359411309657 GPS Alt = 7484.869140625000 GPS East Vel = -130.8010864257813 GPS North Vel = -8.459745407104492 GPS Up Vel = 0.3098876476287842 Message 4 Sigma Pos x = 51.87500000000000 Sigma Pos y = 48.50000000000000 Sigma Pos z = 75.75000000000000 Sigma Vel x = 7.3242187500000000E-03 Sigma Vel y = 8.6669921875000000E-03 Sigma Vel z = 1.4526367187500000E-02 Message 7 Satellites used = 20 1 5 29 20 0 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Honeywell EGI98Fall for gps-hgt 8937 20008 6872.244444295027 Done decoding data from header array... Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25422799.2790 25422940.0670 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41731 -92.05444 -90.85693 0.3508634 0 trc -90.77667 -91.19164 -90.38178 0.2695506 0 tgs 216.98597 216.46875 217.79688 0.4741712 0 roll 0.13832 -0.79102 0.51086 0.3043874 0 pitch 0.51765 0.42297 0.60425 0.0475950 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10966 -147.04445 0.0188433 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82872 7220.40720 7272.52800 8.7072295 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.97205 6872.41466 0.1294044 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67505 -147.04445 0.1820150 0 hwalt 6874.99191 6871.97205 6877.47842 1.9090197 0 hwev -216.96904 -217.79500 -216.45100 0.4853267 0 hwnv -2.94187 -4.50300 -1.44900 1.0153794 0 hwuv -0.09021 -0.44500 0.15300 0.1174736 0 hwroll 0.13814 -0.79102 0.51086 0.3045462 0 hwpitch 0.51778 0.42297 0.60425 0.0475771 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509856 0 hwtrc -90.77732 -91.19164 -90.38178 0.2696450 0 hwtgs 216.98414 216.46875 217.79688 0.4735069 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... startrec+1,startrec+nrec-1: 2 117888 1 117888 hdrgpssec-1 t_prf-1 117888 25422939.06734767 1.1881999671459198E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 921 25422938.00000000 2589548 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25422800.00000000 i_yearind 20008 GPS time for first pulse = 25422799.27941999 25422799.27900000 New startrecT: 25422799.27941999 25422799.40733000 1 New start and number of records = 110 117743 New start and number of blocks = 1 921 +6+r_hwhead(10/200): 0.0000000000000000E+00 -5.4931640625000000E-03 -91.17004394531250 GPS trend coefficients = 0.2829942787700419 -1.477262220312721 1.367087980251437 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41736 -92.05444 -90.85693 0.3508594 0 trc -90.77672 -91.19164 -90.38178 0.2695653 0 tgs 216.98536 216.46875 217.79688 0.4737697 0 roll 0.13824 -0.79102 0.50537 0.3045045 0 pitch 0.51768 0.42297 0.60425 0.0475770 0 delx 0.25729 0.00000 0.25737 0.0007503 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10959 -147.04452 0.0188430 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82839 7220.40720 7272.52800 8.7045964 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.96401 6872.27357 0.0733314 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67498 -147.04452 0.1820150 0 hwalt 6874.99191 6871.97207 6877.47840 1.9090194 0 hwev -216.96904 -217.79500 -216.45100 0.4853269 0 hwnv -2.94187 -4.50300 -1.44900 1.0153801 0 hwuv -0.09021 -0.44500 0.15300 0.1174735 0 hwroll 0.13811 -0.79102 0.50537 0.3045445 0 hwpitch 0.51777 0.42297 0.60425 0.0475749 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509732 0 hwtrc -90.77732 -91.19137 -90.38231 0.2696166 0 hwtgs 216.98420 216.46875 217.79688 0.4735351 0 Finished final analysis of data... Average Barometric Altitude = 7920.473560912081 Average Radar Altitude = 7248.828393485350 Average GPS Altitude = 6872.170367048145 >>Record # : 128 >>GPS Stuff = 0.00 0 0 0 0 >>Record # : 0 >>GPS Stuff = Lock vertical accel to OLD gps(+1) or bar(-1) or IGI (0) ==> DGPS=2 OLDgps=1 0=EGI/igi -1=barometer 2 i_yearind DGPS 2000 : 20008 DGPS(PacRim2000) cmd_pbn: /u/Reading from stdin argus0/airops/OPS/QA_Proc/pbn_decode.pl /mnt/air62/airops/1359/c.hdr > dgps.txyz ->ngpslock dgps: 2 ->Read DGPS & got txyz(trgps),gps_sch,peg point: dgps.txyz DGPS file: dgps.txyz Searching GPS data file for corresponding data... dgps_pacrim2k line: 924 Number of valid data points = 924 Start time GPS data = 25422798.00002220 End time GPS data = 25422938.00002177 Positions and Distances Start position = 64.5360586 -147.1960009 7491.434 End position = 64.5343785 -147.5118135 7489.710 Loxodromic Heading (deg) = -90.7080131 Loxodromic Distance (km) = 15158.1520749 Geodesic Heading (deg) = -90.5654456 Geodesic Distance (km) = 15158.1362549 Peg latitude and longitude = 64.5355159 -147.3541361 Peg heading = -90.8888123 Rotation matrix First row = -0.362028153 -0.551172665 -0.751760806 Second row = -0.231935192 0.834364556 -0.500041853 Third row = 0.902851972 -0.006669442 -0.429899797 Translation vector Vector = -0.69411 -0.44469 -38653.55965 Local Radius of Curvature = 6395608.956179346 startrec dgps_pacrim2k: 110 117743 **i_ts: 110 25422799.40800000 25422798.00002220 1.407977800816298 Start and end pulse used = 110 116148 gmt sec s e = 25422799.40800000 25422936.99987973 dgps sec s = 25422798.00002220 25422937.00002178 r_tsv: -2309758.905137389 -1497824.918705536 5742457.621946460 r_tev: -2326326.121893520 -1472636.015751767 5742280.883069825 lat/lon r_geodis: 1.126378495408110 -2.566289013407446 1.126315733833988 -2.577239234879388 30114.13310583908 Ellipsoidal delta s (m) = 0.2595195807049335 DGPS... lat/lon r_geodis: 9.6977775030725551E-06 -2.3758585080489469E-03 -4.4441293614411313E-07 2.3326944703466182E-03 30114.13345847621 Delta s on reference surface = 0.2595195837439133 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1359/ts1359_c.peg DGPS Peg latitude and longitude = 64.5355159 -147.3541361 DGPS Peg heading = -90.8888123 == dgps_egi == r_hwheadf: -91.17004394531250 -1.0986328125000000E-02 0.0000000000000000E+00 110 Making final angle restore...Honeywell -91.17004394531250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 2.4337037346356243E-04 Standard deviation of difference = 2.0624109116932946E-04 Making fits... Vertical fit coefficients = 7495.192152808554 -9.0302881305518667E-02 1.5091061216199186E-04 Cross track fit coefficients = -194.6020313630832 3.8490070952079236E-02 -3.6789710074577181E-04 Along track fit coefficients = -43.54890057780549 -0.3304737129536273 1.1788842991683236E-03 avg alt (1): 7495.192152808554 alt r_avgrefh: 7492.608619266713 i_yearind p-hgt t-hgt: 20008 7495.192152808554 450.0000 avg_ralt tmp: 7045.192382812500 7045.192 enter proc_alt: -1.000000 yaw: -1.1027005E-03 -91.17004394531250 -91.16894124482687 110 tape #: 98 PRF at the start of the run: 846.3100641614319 846.3101 Miscellaneous Information Start range = 8102.267048972740 Start ground range = 4001.499171814253 Time orgin = 25422799.27941999 Pulse spacing = 0.2572936563082597 First frame = 2472668 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /mnt/air65/airops/1359/ts1359_c.mocomp Name of the H-pol motion compensation file? /mnt/air65/airops/1359/ts1359_c.mocomph Name of the V-pol motion compensation file? /mnt/air65/airops/1359/ts1359_c.mocompv How many lines per polarization? 59000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 + 90001 + 100001 + 110001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CHH Enter the paramater file name. /mnt/air65/airops/1359/ts1359_c.par Enter the raw data file name. /mnt/air62/airops/1359/c_hh Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_c_hh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_c_hh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_c_hh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_c_hh.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (-44.88074,0.0000000E+00) (-89.76149,0.0000000E+00) (100.9817,0.0000000E+00) attenuation (dB): 21.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.5398815E+09 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.42831 Power RMS: 0.1082532 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 74372.80 Amp. RMS: 141.3082 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 51.27900 Phase RMS: 0.7643484 Incoherent PH 1st: 51.28667 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.42677 CalTone Power Coherently dB : 97.42831 Incoherent PW - Coherent PW : -1.5335083E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 74357.52 CalTone Amplitude Coherently : 74372.80 Incoherent Amp.- Coherent Amp. : -15.27344 ------------ *** ------------ running time (sec): 32.64 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CHV Enter the paramater file name. /mnt/air65/airops/1359/ts1359_c.par Enter the raw data file name. /mnt/air62/airops/1359/c_hv Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_c_hv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_c_hv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_c_hv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_c_hv.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (-22.44037,0.0000000E+00) (-44.88074,0.0000000E+00) (33.66056,0.0000000E+00) attenuation (dB): 21.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.2409098E+09 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.17549 Power RMS: 0.1325825 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 72239.16 Amp. RMS: 128.0000 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 85.61755 Phase RMS: 0.2176311 Incoherent PH 1st: 85.58228 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.17516 CalTone Power Coherently dB : 97.17549 Incoherent PW - Coherent PW : -3.3569336E-04 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 72315.09 CalTone Amplitude Coherently : 72239.16 Incoherent Amp.- Coherent Amp. : 75.92969 ------------ *** ------------ running time (sec): 29.42 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CVH Enter the paramater file name. /mnt/air65/airops/1359/ts1359_c.par Enter the raw data file name. /mnt/air62/airops/1359/c_vh Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_c_vh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_c_vh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_c_vh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_c_vh.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (78.54131,0.0000000E+00) (44.88074,0.0000000E+00) (0.0000000E+00,0.0000000E+00) attenuation (dB): 21.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.5390659E+09 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.42696 Power RMS: 7.6546557E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 74361.74 Amp. RMS: 135.7645 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 51.04758 Phase RMS: 0.7656250 Incoherent PH 1st: 51.06667 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.42458 CalTone Power Coherently dB : 97.42696 Incoherent PW - Coherent PW : -2.3880005E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 74416.98 CalTone Amplitude Coherently : 74361.74 Incoherent Amp.- Coherent Amp. : 55.23438 ------------ *** ------------ running time (sec): 29.57 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CVV Enter the paramater file name. /mnt/air65/airops/1359/ts1359_c.par Enter the raw data file name. /mnt/air62/airops/1359/c_vv Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_c_vv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_c_vv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_c_vv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_c_vv.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (44.88074,0.0000000E+00) (100.9817,0.0000000E+00) (-100.9817,0.0000000E+00) attenuation (dB): 21.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.1998403E+09 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.14609 Power RMS: 6.2500000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 71995.59 Amp. RMS: 119.7330 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 85.65698 Phase RMS: 0.2253470 Incoherent PH 1st: 85.66306 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.14462 CalTone Power Coherently dB : 97.14609 Incoherent PW - Coherent PW : -1.4648438E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 72061.13 CalTone Amplitude Coherently : 71995.59 Incoherent Amp.- Coherent Amp. : 65.54688 ------------ *** ------------ running time (sec): 29.40 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: 72.23110 -1.1195169E-03 z fit: constant and linear terms: 0.1650286 -6.7065244E-05 y and z standard deviations (meters) 5.419738 0.8858395 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 37 Step size = 1512 PATCH NUMER 1 First line = 1 Averages = 0.1009142 9.7871505E-02 0.1010132 0.1030590 Differences = 1.9969046E-04 -2.8429627E-03 2.9870868E-04 2.3445785E-03 PATCH NUMER 2 First line = 1513 Averages = 0.1002497 0.1015624 0.1058596 0.1065305 Differences = -3.3008754E-03 -1.9881129E-03 2.3090839E-03 2.9799119E-03 PATCH NUMER 3 First line = 3025 Averages = 0.1028542 0.1081813 0.1026691 0.1015984 Differences = -9.7151846E-04 4.3555796E-03 -1.1566877E-03 -2.2273734E-03 PATCH NUMER 4 First line = 4537 Averages = 0.1065909 0.1015752 9.9655189E-02 9.9235132E-02 Differences = 4.8267841E-03 -1.8890202E-04 -2.1089241E-03 -2.5289804E-03 PATCH NUMER 5 First line = 6049 Averages = 0.1016398 9.8689064E-02 9.9833161E-02 0.1008451 Differences = 1.3880357E-03 -1.5627146E-03 -4.1861832E-04 5.9330463E-04 PATCH NUMER 6 First line = 7561 Averages = 9.9307001E-02 0.1008230 9.8523632E-02 9.6418455E-02 Differences = 5.3896755E-04 2.0550117E-03 -2.4440140E-04 -2.3495778E-03 PATCH NUMER 7 First line = 9073 Averages = 0.1010447 9.6338198E-02 9.6914820E-02 9.4142966E-02 Differences = 3.9344952E-03 -7.7196956E-04 -1.9534677E-04 -2.9672012E-03 PATCH NUMER 8 First line = 10585 Averages = 9.6044831E-02 9.6445285E-02 9.1426924E-02 9.4599515E-02 Differences = 1.4157072E-03 1.8161610E-03 -3.2021999E-03 -2.9608607E-05 PATCH NUMER 9 First line = 12097 Averages = 9.4370492E-02 9.1550969E-02 9.5200621E-02 8.7039128E-02 Differences = 2.3302212E-03 -4.8930198E-04 3.1603500E-03 -5.0011426E-03 PATCH NUMER 10 First line = 13609 Averages = 9.4623595E-02 9.1603741E-02 8.2622051E-02 7.5385004E-02 Differences = 8.5649863E-03 5.5451319E-03 -3.4365579E-03 -1.0673605E-02 PATCH NUMER 11 First line = 15121 Averages = 8.7475561E-02 7.7970617E-02 7.4782692E-02 7.9381295E-02 Differences = 7.5730085E-03 -1.9319355E-03 -5.1198602E-03 -5.2125752E-04 PATCH NUMER 12 First line = 16633 Averages = 7.5522758E-02 7.6125562E-02 8.2972981E-02 9.5161244E-02 Differences = -6.9228932E-03 -6.3200891E-03 5.2732974E-04 1.2715593E-02 PATCH NUMER 13 First line = 18145 Averages = 7.8957103E-02 8.8592999E-02 9.9725701E-02 0.1136922 Differences = -1.6284950E-02 -6.6490546E-03 4.4836476E-03 1.8450111E-02 PATCH NUMER 14 First line = 19657 Averages = 9.4601259E-02 0.1052423 0.1191424 0.1259336 Differences = -1.6628683E-02 -5.9876889E-03 7.9124868E-03 1.4703646E-02 PATCH NUMER 15 First line = 21169 Averages = 0.1128495 0.1228706 0.1265676 0.1206956 Differences = -7.8963414E-03 2.1247864E-03 5.8218390E-03 -5.0216913E-05 PATCH NUMER 16 First line = 22681 Averages = 0.1258281 0.1248764 0.1135565 9.0711668E-02 Differences = 1.2084872E-02 1.1133149E-02 -1.8671155E-04 -2.3031592E-02 PATCH NUMER 17 First line = 24193 Averages = 0.1211431 0.1031783 7.9515487E-02 5.8088508E-02 Differences = 3.0661590E-02 1.2696743E-02 -1.0966025E-02 -3.2393005E-02 PATCH NUMER 18 First line = 25705 Averages = 9.2230074E-02 6.8680868E-02 4.9578812E-02 3.6165755E-02 Differences = 3.0566104E-02 7.0168972E-03 -1.2085158E-02 -2.5498215E-02 PATCH NUMER 19 First line = 27217 Averages = 5.9108350E-02 4.3553054E-02 2.7031180E-02 8.9631220E-03 Differences = 2.4444368E-02 8.8890716E-03 -7.6328032E-03 -2.5700860E-02 PATCH NUMER 20 First line = 28729 Averages = 3.6741074E-02 1.8737009E-02 -3.1761368E-04 -1.5527991E-02 Differences = 2.6832938E-02 8.8288719E-03 -1.0225751E-02 -2.5436128E-02 PATCH NUMER 21 First line = 30241 Averages = 9.8257633E-03 -8.1767915E-03 -1.8631941E-02 -2.0993244E-02 Differences = 1.9319814E-02 1.3172580E-03 -9.1378912E-03 -1.1499194E-02 PATCH NUMER 22 First line = 31753 Averages = -1.5041293E-02 -1.9223053E-02 -2.5012989E-02 -3.5423983E-02 Differences = 8.6340541E-03 4.4522937E-03 -1.3376419E-03 -1.1748636E-02 PATCH NUMER 23 First line = 33265 Averages = -2.0618290E-02 -2.9571813E-02 -4.1729633E-02 -5.1386327E-02 Differences = 1.5208226E-02 6.2547028E-03 -5.9031174E-03 -1.5559811E-02 PATCH NUMER 24 First line = 34777 Averages = -3.4781057E-02 -4.7373407E-02 -5.4080136E-02 -5.9516642E-02 Differences = 1.4156759E-02 1.5644096E-03 -5.1423199E-03 -1.0578826E-02 PATCH NUMER 25 First line = 36289 Averages = -5.1029287E-02 -5.7399999E-02 -5.8348358E-02 -5.4012969E-02 Differences = 4.1683540E-03 -2.2023581E-03 -3.1507164E-03 1.1846721E-03 PATCH NUMER 26 First line = 37801 Averages = -5.9425257E-02 -5.5175684E-02 -5.6516092E-02 -5.8333252E-02 Differences = -2.0626560E-03 2.1869168E-03 8.4650889E-04 -9.7065046E-04 PATCH NUMER 27 First line = 39313 Averages = -5.3598210E-02 -5.8897078E-02 -5.9065662E-02 -6.4234421E-02 Differences = 5.3506531E-03 5.1785260E-05 -1.1679903E-04 -5.2855574E-03 PATCH NUMER 28 First line = 40825 Averages = -5.8448792E-02 -6.0920693E-02 -6.8240792E-02 -7.6898769E-02 Differences = 7.6784939E-03 5.2065924E-03 -2.1135062E-03 -1.0771483E-02 PATCH NUMER 29 First line = 42337 Averages = -6.3861974E-02 -7.1856253E-02 -8.2341693E-02 -9.4396643E-02 Differences = 1.4252193E-02 6.2579140E-03 -4.2275265E-03 -1.6282476E-02 PATCH NUMER 30 First line = 43849 Averages = -7.6470211E-02 -8.8646948E-02 -9.8374255E-02 -0.1064637 Differences = 1.6018599E-02 3.8418621E-03 -5.8854446E-03 -1.3974875E-02 PATCH NUMER 31 First line = 45361 Averages = -9.3971618E-02 -0.1030876 -0.1080300 -0.1082279 Differences = 9.3576908E-03 2.4169683E-04 -4.7007278E-03 -4.8986077E-03 PATCH NUMER 32 First line = 46873 Averages = -0.1063182 -0.1087952 -0.1083167 -0.1116719 Differences = 2.4573356E-03 -1.9647181E-05 4.5881420E-04 -2.8963313E-03 PATCH NUMER 33 First line = 48385 Averages = -0.1082500 -0.1102915 -0.1093341 -0.1110132 Differences = 1.4721900E-03 -5.6932122E-04 3.8808584E-04 -1.2910292E-03 PATCH NUMER 34 First line = 49897 Averages = -0.1118568 -0.1091087 -0.1098594 -0.1046711 Differences = -2.9828027E-03 -2.3469329E-04 -9.8539144E-04 4.2028949E-03 PATCH NUMER 35 First line = 51409 Averages = -0.1109261 -0.1071066 -0.1029399 -0.1297237 Differences = 1.7480329E-03 5.5675730E-03 9.7341985E-03 -1.7049618E-02 PATCH NUMER 36 First line = 52921 Averages = -0.1049436 -0.1103708 -0.1454199 -0.1598776 Differences = 2.5209650E-02 1.9782417E-02 -1.5266672E-02 -2.9724419E-02 PATCH NUMER 37 First line = 54433 Averages = -0.1278479 -0.1541850 -0.1630198 -0.1538593 Differences = 2.1880135E-02 -4.4569522E-03 -1.3291717E-02 -4.1311830E-03 PATCH NUMER 38 First line = 55945 last black mod_64: 47 59000 55945 4096 Averages = -0.1595160 -0.1611644 -0.1495564 -0.1538593 Differences = -3.4919083E-03 -5.1403046E-03 6.4677000E-03 2.1648556E-03 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 0 AZ patch size: 4096 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.hh00c Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_c.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 2208 data points per patch Near range (m) = 8102.270 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.200000 Radar wavelength (m) = 5.6699999E-02 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.087600 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = 1.872000 0.6771000 -0.3541000 Receive leverarm x,y,z = 1.872000 0.6771000 -0.3541000 Name of raw data file? /mnt/air62/airops/1359/c_hh Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_c.mocomph Output file name w/o ext? /mnt/air65/airops/1359/ts1359_c Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_c.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.ch WAYNE init fft, calc slant range, load unpack, interpo 1.3835002E-02 reading motion compensation data WAYNE read motion compen 1.305623 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 98 40.00000 22.50000 90.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4717160 start range comp, time = 1.892 WAYNE PREV 1.806551 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -1.6498900E-04 7.8047598E-03 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 1.948 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 23.73870396614075 ATTN ifrq ipol ln 8 1 4096 21.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999747 shift in azimuth *fractional pixel= -0.4999747 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5180063247680664E-03 TESTING 0.0000000E+00 61.09497 -0.8468802 WAYNE Motion comp. added to patch, time = 8.472791075706482 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.2780170440673828E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 61.09497 -0.8468802 HEY,dt,fract,ye,pe -0.4999747 1.000000 -1.6498900E-04 7.8047598E-03 WAYNE Azimuth compression done, time = 189.0841890573502 Writing 2208 lines of data to file WAYNE write output data 1.300348997116089 ==w out 1 0 945 0 WAYNE PROCESS 222.6073939800262 Processing block number 2 TESTING WHY -1.4803599E-04 8.0054598E-03 1512 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 224.555 seconds. TESTING 1513 before reading done reading WAYNE load raw data , time = 23.35064709186554 ATTN ifrq ipol ln 8 1 5608 21.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999729 shift in azimuth *fractional pixel= -0.4999729 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.6690444946289063E-03 TESTING 0.0000000E+00 60.50436 -1.224388 WAYNE Motion comp. added to patch, time = 7.923906087875366 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4299621582031250E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 60.50436 -1.224388 HEY,dt,fract,ye,pe -0.4999729 1.000000 -1.4803599E-04 8.0054598E-03 WAYNE Azimuth compression done, time = 202.5672639608383 Writing 2208 lines of data to file WAYNE write output data 1.192853927612305 ==w out 2 2208 945 45219840 WAYNE PROCESS 235.0449199676514 Processing block number 3 TESTING WHY -3.9506299E-04 8.2445396E-03 1512 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 459.601 seconds. TESTING 3025 before reading done reading WAYNE load raw data , time = 23.41750693321228 ATTN ifrq ipol ln 8 1 7120 21.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4999729 shift in azimuth *fractional pixel= -0.4999729 1.000000 WAYNE Motion comp. coeff. calculated, time = 7.0970058441162109E-03 TESTING 0.0000000E+00 59.54463 -1.432079 WAYNE Motion comp. added to patch, time = 8.077775955200195 WAYNE Doppler estimation done, time = 9.059 PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 20 by # 4 Processing block number 17 WAYNE PATCHES: 24193 28288 patch# 17 reference line: 26240 1.997 seconds. before reading done reading WAYNE load raw data , time = 24.56263303756714 ATTN ifrq ipol ln 8 1 28288 21.00000 IPOL, ITOP nblock 1 0 17 ****shift in azimuth (fractional pixel)= -0.4999750 shift in azimuth *fractional pixel= -0.4999750 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5209865570068359E-03 WAYNE Motion comp. added to patch, time = 8.980907082557678 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.6129951477050781E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 203.5872060060501 Writing 2208 lines of data to file WAYNE write output data 1.181511998176575 ==w out 17 0 945 0 WAYNE PROCESS 238.3240050077438 Processing block number 18 WAYNE PATCHES: 25705 29800 patch# 18 reference line: 27752 240.322 seconds. before reading done reading WAYNE load raw data , time = 24.17767393589020 ATTN ifrq ipol ln 8 1 29800 21.00000 IPOL, ITOP nblock 1 0 18 ****shift in azimuth (fractional pixel)= -0.4999634 shift in azimuth *fractional pixel= -0.4999634 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7989358901977539E-03 WAYNE Motion comp. added to patch, time = 8.141654968261719 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5910139083862305E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 150.7590860128403 Writing 2208 lines of data to file WAYNE write output data 1.279486894607544 ==w out 18 2208 945 45219840 WAYNE PROCESS 184.3675739765167 Processing block number 19 WAYNE PATCHES: 27217 31312 patch# 19 reference line: 29264 424.690 seconds. before reading done reading WAYNE load raw data , time = 24.49589204788208 ATTN ifrq ipol ln 8 1 31312 21.00000 IPOL, ITOP nblock 1 0 19 ****shift in azimuth (fractional pixel)= -0.4999523 shift in azimuth *fractional pixel= -0.4999523 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.9719085693359375E-03 WAYNE Motion comp. added to patch, time = 8.039021015167236 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3840665817260742E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 147.5425779819489 Writing 2208 lines of data to file WAYNE write output data 1.231647014617920 ==w out 19 4416 945 90439680 WAYNE PROCESS 181.3188049793243 Processing block number 20 WAYNE PATCHES: 28729 32824 p PROCESSING KID# 10 ..... WAYNE IS IN Processing 36 to 38 by # 9 Processing block number 36 WAYNE PATCHES: 52921 57016 patch# 36 reference line: 54968 2.080 seconds. before reading done reading WAYNE load raw data , time = 23.22490799427032 ATTN ifrq ipol ln 8 1 57016 21.00000 IPOL, ITOP nblock 1 0 36 ****shift in azimuth (fractional pixel)= -0.4998826 shift in azimuth *fractional pixel= -0.4998826 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4110755920410156E-03 WAYNE Motion comp. added to patch, time = 8.480265974998474 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.0360221862792969E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 203.9793399572372 Writing 2208 lines of data to file WAYNE write output data 1.258361935615540 ==w out 36 0 945 0 WAYNE PROCESS 236.9540499448776 Processing block number 37 WAYNE PATCHES: 54433 58528 patch# 37 reference line: 56480 239.034 seconds. before reading done reading WAYNE load raw data , time = 22.64197397232056 ATTN ifrq ipol ln 8 1 58528 21.00000 IPOL, ITOP nblock 1 0 37 ****shift in azimuth (fractional pixel)= -0.4998573 shift in azimuth *fractional pixel= -0.4998573 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.8130025863647461E-03 WAYNE Motion comp. added to patch, time = 7.857097029685974 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6079416275024414E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 174.5137199163437 Writing 2208 lines of data to file WAYNE write output data 1.398025989532471 ==w out 37 2208 945 45219840 WAYNE PROCESS 206.4205740690231 Processing block number 38 WAYNE PATCHES: 54904 58999 patch# 38 reference line: 56951 445.455 seconds. before reading done reading WAYNE load raw data , time = 22.69155597686768 ATTN ifrq ipol ln 8 1 58999 21.00000 IPOL, ITOP nblock 1 0 38 ****shift in azimuth (fractional pixel)= -0.4998526 shift in azimuth *fractional pixel= -0.4998526 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.9900283813476563E-03 WAYNE Motion comp. added to patch, time = 7.881051063537598 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4290084838867188E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 197.8536590337753 Writing 2208 lines of data to file WAYNE write output data 1.379501104354858 ==w out 38 4416 945 90439680 WAYNE PROCESS 229.8155910968781 ==w out 39 6627 PROCESSING KID# 9 ..... WAYNE IS IN Processing 33 to 35 by # 8 Processing block number 33 WAYNE PATCHES: 48385 52480 patch# 33 reference line: 50432 2.079 seconds. before reading done reading WAYNE load raw data , time = 23.31898009777069 ATTN ifrq ipol ln 8 1 52480 21.00000 IPOL, ITOP nblock 1 0 33 ****shift in azimuth (fractional pixel)= -0.4998830 shift in azimuth *fractional pixel= -0.4998830 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4979791641235352E-03 WAYNE Motion comp. added to patch, time = 8.488837003707886 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.0860900878906250E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 204.1806900501251 Writing 2208 lines of data to file WAYNE write output data 1.262441039085388 ==w out 33 0 945 0 WAYNE PROCESS 237.2624430656433 Processing block number 34 WAYNE PATCHES: 49897 53992 patch# 34 reference line: 51944 239.342 seconds. before reading done reading WAYNE load raw data , time = 22.82819008827209 ATTN ifrq ipol ln 8 1 53992 21.00000 IPOL, ITOP nblock 1 0 34 ****shift in azimuth (fractional pixel)= -0.4998872 shift in azimuth *fractional pixel= -0.4998872 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.9640407562255859E-03 WAYNE Motion comp. added to patch, time = 7.859601974487305 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5949478149414063E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 174.6558710336685 Writing 2208 lines of data to file WAYNE write output data 1.372964978218079 ==w out 34 2208 945 45219840 WAYNE PROCESS 206.7268600463867 Processing block number 35 WAYNE PATCHES: 51409 55504 patch# 35 reference line: 53456 446.069 seconds. before reading done reading WAYNE load raw data , time = 22.86236906051636 ATTN ifrq ipol ln 8 1 55504 21.00000 IPOL, ITOP nblock 1 0 35 ****shift in azimuth (fractional pixel)= -0.4998964 shift in azimuth *fractional pixel= -0.4998964 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.9150457382202148E-03 WAYNE Motion comp. added to patch, time = 7.900035023689270 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 2.6910305023193359E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 199.9580830335617 Writing 2208 lines of data to file WAYNE write output data 1.954264044761658 ==w out 35 4416 945 90439680 WAYNE PROCESS 232.6854690313339 ==w out 36 6627 PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 18145 22240 patch# 13 reference line: 20192 2.072 seconds. before reading done reading WAYNE load raw data , time = 23.37409400939941 ATTN ifrq ipol ln 8 1 22240 21.00000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4999820 shift in azimuth *fractional pixel= -0.4999820 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4389705657958984E-03 WAYNE Motion comp. added to patch, time = 9.007781982421875 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.2150745391845703E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 194.5959800481796 Writing 2208 lines of data to file WAYNE write output data 1.364096999168396 ==w out 13 0 945 0 WAYNE PROCESS 228.3535090684891 Processing block number 14 WAYNE PATCHES: 19657 23752 patch# 14 reference line: 21704 230.425 seconds. before reading done reading WAYNE load raw data , time = 22.84401702880859 ATTN ifrq ipol ln 8 1 23752 21.00000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4999837 shift in azimuth *fractional pixel= -0.4999837 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0650110244750977E-03 WAYNE Motion comp. added to patch, time = 8.248272895812988 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3820400238037109E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 201.9897640943527 Writing 2208 lines of data to file WAYNE write output data 1.257513046264648 ==w out 14 2208 945 45219840 WAYNE PROCESS 234.3493300676346 Processing block number 15 WAYNE PATCHES: 21169 25264 patch# 15 reference line: 23216 464.775 seconds. before reading done reading WAYNE load raw data , time = 23.09563994407654 ATTN ifrq ipol ln 8 1 25264 21.00000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4999824 shift in azimuth *fractional pixel= -0.4999824 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4399242401123047E-03 WAYNE Motion comp. added to patch, time = 8.532516002655029 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.3990144729614258E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 205.7843509912491 Writing 2208 lines of data to file WAYNE write output data 1.373606085777283 ==w out 15 4416 945 90439680 WAYNE PROCESS 238.7974370718002 Processing block number 16 WAYNE PATCHES: 22681 26776 p PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 12097 16192 patch# 9 reference line: 14144 2.041 seconds. before reading done reading WAYNE load raw data , time = 23.46608591079712 ATTN ifrq ipol ln 8 1 16192 21.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4999750 shift in azimuth *fractional pixel= -0.4999750 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5519809722900391E-03 WAYNE Motion comp. added to patch, time = 8.641769051551819 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.0380487442016602E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 194.5842639207840 Writing 2208 lines of data to file WAYNE write output data 1.347365021705627 ==w out 9 0 945 0 WAYNE PROCESS 228.0507099628448 Processing block number 10 WAYNE PATCHES: 13609 17704 patch# 10 reference line: 15656 230.092 seconds. before reading done reading WAYNE load raw data , time = 23.01401197910309 ATTN ifrq ipol ln 8 1 17704 21.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4999771 shift in azimuth *fractional pixel= -0.4999771 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0409307479858398E-03 WAYNE Motion comp. added to patch, time = 8.028350949287415 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3880004882812500E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 202.2412999868393 Writing 2208 lines of data to file WAYNE write output data 1.260349988937378 ==w out 10 2208 945 45219840 WAYNE PROCESS 234.5536509752274 Processing block number 11 WAYNE PATCHES: 15121 19216 patch# 11 reference line: 17168 464.645 seconds. before reading done reading WAYNE load raw data , time = 23.25404703617096 ATTN ifrq ipol ln 8 1 19216 21.00000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4999786 shift in azimuth *fractional pixel= -0.4999786 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.7819356918334961E-03 WAYNE Motion comp. added to patch, time = 8.375855088233948 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7700662612915039E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 206.1516699790955 Writing 2208 lines of data to file WAYNE write output data 1.382573008537292 ==w out 11 4416 945 90439680 WAYNE PROCESS 239.1755430698395 Processing block number 12 WAYNE PATCHES: 16633 20728 p PROCESSING KID# 7 ..... WAYNE IS IN Processing 25 to 28 by # 6 Processing block number 25 WAYNE PATCHES: 36289 40384 patch# 25 reference line: 38336 2.047 seconds. before reading done reading WAYNE load raw data , time = 24.91381096839905 ATTN ifrq ipol ln 8 1 40384 21.00000 IPOL, ITOP nblock 1 0 25 ****shift in azimuth (fractional pixel)= -0.4999093 shift in azimuth *fractional pixel= -0.4999093 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5319538116455078E-03 WAYNE Motion comp. added to patch, time = 8.811092972755432 WAYNE Doppler estimation done, time = 2.3007392883300781E-05 WAYNE write deskew done, time = 4.7121047973632813E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 230.9399340152740 Writing 2208 lines of data to file WAYNE write output data 1.211652994155884 ==w out 25 0 945 0 WAYNE PROCESS 265.8901470899582 Processing block number 26 WAYNE PATCHES: 37801 41896 patch# 26 reference line: 39848 267.938 seconds. before reading done reading WAYNE load raw data , time = 25.14004302024841 ATTN ifrq ipol ln 8 1 41896 21.00000 IPOL, ITOP nblock 1 0 26 ****shift in azimuth (fractional pixel)= -0.4999186 shift in azimuth *fractional pixel= -0.4999186 1.000000 WAYNE Motion comp. coeff. calculated, time = 7.1669816970825195E-03 WAYNE Motion comp. added to patch, time = 8.302304983139038 WAYNE Doppler estimation done, time = 1.7046928405761719E-05 WAYNE write deskew done, time = 4.1149854660034180E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 228.4451919794083 Writing 2208 lines of data to file WAYNE write output data 1.380507946014404 ==w out 26 2208 945 45219840 WAYNE PROCESS 263.2825059890747 Processing block number 27 WAYNE PATCHES: 39313 43408 patch# 27 reference line: 41360 531.221 seconds. before reading done reading WAYNE load raw data , time = 26.20697402954102 ATTN ifrq ipol ln 8 1 43408 21.00000 IPOL, ITOP nblock 1 0 27 ****shift in azimuth (fractional pixel)= -0.4999260 shift in azimuth *fractional pixel= -0.4999260 1.000000 WAYNE Motion comp. coeff. calculated, time = 7.7819824218750000E-03 WAYNE Motion comp. added to patch, time = 8.294502019882202 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 3.6380290985107422E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 171.2835919857025 Writing 2208 lines of data to file WAYNE write output data 1.136700987815857 ==w out 27 4416 945 90439680 WAYNE PROCESS 206.9358130693436 Processing block number 28 WAYNE PATCHES: 40825 44920 p PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 6049 10144 patch# 5 reference line: 8096 1.955 seconds. before reading done reading WAYNE load raw data , time = 23.05201101303101 ATTN ifrq ipol ln 8 1 10144 21.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4999716 shift in azimuth *fractional pixel= -0.4999716 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4059495925903320E-03 WAYNE Motion comp. added to patch, time = 8.662648081779480 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9590129852294922E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 231.5777360200882 Writing 2208 lines of data to file WAYNE write output data 1.420171022415161 ==w out 5 0 945 0 WAYNE PROCESS 264.7235139608383 Processing block number 6 WAYNE PATCHES: 7561 11656 patch# 6 reference line: 9608 266.679 seconds. before reading done reading WAYNE load raw data , time = 22.83108806610107 ATTN ifrq ipol ln 8 1 11656 21.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4999721 shift in azimuth *fractional pixel= -0.4999721 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2760114669799805E-03 WAYNE Motion comp. added to patch, time = 8.294707059860229 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.1169652938842773E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 228.6941879987717 Writing 2208 lines of data to file WAYNE write output data 1.512791991233826 ==w out 6 2208 945 45219840 WAYNE PROCESS 261.3438400030136 Processing block number 7 WAYNE PATCHES: 9073 13168 patch# 7 reference line: 11120 528.024 seconds. before reading done reading WAYNE load raw data , time = 22.91426503658295 ATTN ifrq ipol ln 8 1 13168 21.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4999705 shift in azimuth *fractional pixel= -0.4999705 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3719749450683594E-03 WAYNE Motion comp. added to patch, time = 8.207552075386047 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.8169155120849609E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 186.0405219793320 Writing 2208 lines of data to file WAYNE write output data 1.234148979187012 ==w out 7 4416 945 90439680 WAYNE PROCESS 218.4075620174408 Processing block number 8 WAYNE PATCHES: 10585 14680 p PROCESSING KID# 6 ..... WAYNE IS IN Processing 21 to 24 by # 5 Processing block number 21 WAYNE PATCHES: 30241 34336 patch# 21 reference line: 32288 2.041 seconds. before reading done reading WAYNE load raw data , time = 23.32728993892670 ATTN ifrq ipol ln 8 1 34336 21.00000 IPOL, ITOP nblock 1 0 21 ****shift in azimuth (fractional pixel)= -0.4999314 shift in azimuth *fractional pixel= -0.4999314 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4949989318847656E-03 WAYNE Motion comp. added to patch, time = 8.455626010894775 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.0410289764404297E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 231.5603129863739 Writing 2208 lines of data to file WAYNE write output data 1.453003048896790 ==w out 21 0 945 0 WAYNE PROCESS 264.8073979616165 Processing block number 22 WAYNE PATCHES: 31753 35848 patch# 22 reference line: 33800 266.848 seconds. before reading done reading WAYNE load raw data , time = 22.98038494586945 ATTN ifrq ipol ln 8 1 35848 21.00000 IPOL, ITOP nblock 1 0 22 ****shift in azimuth (fractional pixel)= -0.4999196 shift in azimuth *fractional pixel= -0.4999196 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.9730281829833984E-03 WAYNE Motion comp. added to patch, time = 8.172832965850830 WAYNE Doppler estimation done, time = 1.8954277038574219E-05 WAYNE write deskew done, time = 3.5630464553833008E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 229.1565009355545 Writing 2208 lines of data to file WAYNE write output data 1.585726976394653 ==w out 22 2208 945 45219840 WAYNE PROCESS 261.9081139564514 Processing block number 23 WAYNE PATCHES: 33265 37360 patch# 23 reference line: 35312 528.757 seconds. before reading done reading WAYNE load raw data , time = 23.01181805133820 ATTN ifrq ipol ln 8 1 37360 21.00000 IPOL, ITOP nblock 1 0 23 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3550472259521484E-03 WAYNE Motion comp. added to patch, time = 8.124755024909973 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.4019947052001953E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 185.8940579891205 Writing 2208 lines of data to file WAYNE write output data 1.300953984260559 ==w out 23 4416 945 90439680 WAYNE PROCESS 218.3430249691010 Processing block number 24 WAYNE PATCHES: 34777 38872 p PROCESSING KID# 8 ..... WAYNE IS IN Processing 29 to 32 by # 7 Processing block number 29 WAYNE PATCHES: 42337 46432 patch# 29 reference line: 44384 2.074 seconds. before reading done reading WAYNE load raw data , time = 23.39303100109100 ATTN ifrq ipol ln 8 1 46432 21.00000 IPOL, ITOP nblock 1 0 29 ****shift in azimuth (fractional pixel)= -0.4999191 shift in azimuth *fractional pixel= -0.4999191 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5300464630126953E-03 WAYNE Motion comp. added to patch, time = 8.575557947158813 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.0009746551513672E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 231.5894219875336 Writing 2208 lines of data to file WAYNE write output data 1.457136034965515 ==w out 29 0 945 0 WAYNE PROCESS 265.0265460014343 Processing block number 30 WAYNE PATCHES: 43849 47944 patch# 30 reference line: 45896 267.101 seconds. before reading done reading WAYNE load raw data , time = 23.20744800567627 ATTN ifrq ipol ln 8 1 47944 21.00000 IPOL, ITOP nblock 1 0 30 ****shift in azimuth (fractional pixel)= -0.4999068 shift in azimuth *fractional pixel= -0.4999068 1.000000 WAYNE Motion comp. coeff. calculated, time = 7.2510242462158203E-03 WAYNE Motion comp. added to patch, time = 8.173766970634460 WAYNE Doppler estimation done, time = 1.5974044799804688E-05 WAYNE write deskew done, time = 3.4500360488891602E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 229.7879869937897 Writing 2208 lines of data to file WAYNE write output data 1.388404965400696 ==w out 30 2208 945 45219840 WAYNE PROCESS 262.5711770057678 Processing block number 31 WAYNE PATCHES: 45361 49456 patch# 31 reference line: 47408 529.673 seconds. before reading done reading WAYNE load raw data , time = 23.20658993721008 ATTN ifrq ipol ln 8 1 49456 21.00000 IPOL, ITOP nblock 1 0 31 ****shift in azimuth (fractional pixel)= -0.4998926 shift in azimuth *fractional pixel= -0.4998926 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.6649913787841797E-03 WAYNE Motion comp. added to patch, time = 8.054278969764709 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.1108856201171875E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 185.5079649686813 Writing 2208 lines of data to file WAYNE write output data 1.235683083534241 ==w out 31 4416 945 90439680 WAYNE PROCESS 218.0165491104126 Processing block number 32 WAYNE PATCHES: 46873 50968 patch# 20 reference line: 30776 606.009 seconds. before reading done reading WAYNE load raw data , time = 24.50575697422028 ATTN ifrq ipol ln 8 1 32824 21.00000 IPOL, ITOP nblock 1 0 20 ****shift in azimuth (fractional pixel)= -0.4999435 shift in azimuth *fractional pixel= -0.4999435 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3939094543457031E-03 WAYNE Motion comp. added to patch, time = 7.959037899971008 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7519464492797852E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 140.9237509965897 Writing 2208 lines of data to file WAYNE write output data 1.254652023315430 ==w out 20 6624 945 135659520 WAYNE PROCESS 174.6541990041733 ==w out 21 8835 9060058593750E-06 WAYNE write deskew done, time = 2.3709535598754883E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 59.54463 -1.432079 HEY,dt,fract,ye,pe -0.4999729 1.000000 -3.9506299E-04 8.2445396E-03 WAYNE Azimuth compression done, time = 207.2682399749756 Writing 2208 lines of data to file WAYNE write output data 1.183537006378174 ==w out 3 4416 945 90439680 WAYNE PROCESS 239.9584320783615 Processing block number 4 TESTING WHY -6.8573700E-04 8.3444603E-03 1512 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 699.559 seconds. TESTING 4537 before reading done reading WAYNE load raw data , time = 23.39929902553558 ATTN ifrq ipol ln 8 1 8632 21.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4999724 shift in azimuth *fractional pixel= -0.4999724 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.8079233169555664E-03 TESTING 0.0000000E+00 58.22235 -1.486533 WAYNE Motion comp. added to patch, time = 8.017815947532654 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6019811630249023E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 58.22235 -1.486533 HEY,dt,fract,ye,pe -0.4999724 1.000000 -6.8573700E-04 8.3444603E-03 WAYNE Azimuth compression done, time = 157.0120300054550 Writing 2208 lines of data to file WAYNE write output data 1.161332964897156 ==w out 4 6624 945 135659520 WAYNE PROCESS 189.6010789871216 ==w out 5 8835 atch# 16 reference line: 24728 703.573 seconds. before reading done reading WAYNE load raw data , time = 22.94514703750610 ATTN ifrq ipol ln 8 1 26776 21.00000 IPOL, ITOP nblock 1 0 16 ****shift in azimuth (fractional pixel)= -0.4999793 shift in azimuth *fractional pixel= -0.4999793 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1409473419189453E-03 WAYNE Motion comp. added to patch, time = 8.352288007736206 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4759769439697266E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 156.4869499206543 Writing 2208 lines of data to file WAYNE write output data 1.183812022209167 ==w out 16 6624 945 135659520 WAYNE PROCESS 188.9784120321274 ==w out 17 8835 atch# 12 reference line: 18680 703.822 seconds. before reading done reading WAYNE load raw data , time = 23.10129094123840 ATTN ifrq ipol ln 8 1 20728 21.00000 IPOL, ITOP nblock 1 0 12 ****shift in azimuth (fractional pixel)= -0.4999801 shift in azimuth *fractional pixel= -0.4999801 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0340166091918945E-03 WAYNE Motion comp. added to patch, time = 8.263043045997620 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.3859739303588867E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 156.9379519224167 Writing 2208 lines of data to file WAYNE write output data 1.182101011276245 ==w out 12 6624 945 135659520 WAYNE PROCESS 189.4947760105133 ==w out 13 8835 atch# 28 reference line: 42872 738.157 seconds. before reading done reading WAYNE load raw data , time = 24.50112700462341 ATTN ifrq ipol ln 8 1 44920 21.00000 IPOL, ITOP nblock 1 0 28 ****shift in azimuth (fractional pixel)= -0.4999264 shift in azimuth *fractional pixel= -0.4999264 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.9069395065307617E-03 WAYNE Motion comp. added to patch, time = 7.881523013114929 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3479461669921875E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 138.7079910039902 Writing 2208 lines of data to file WAYNE write output data 1.103762030601501 ==w out 28 6624 945 135659520 WAYNE PROCESS 172.2043069601059 ==w out 29 8835 atch# 8 reference line: 12632 746.432 seconds. before reading done reading WAYNE load raw data , time = 22.58365893363953 ATTN ifrq ipol ln 8 1 14680 21.00000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4999726 shift in azimuth *fractional pixel= -0.4999726 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.8690309524536133E-03 WAYNE Motion comp. added to patch, time = 8.044636011123657 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.5149583816528320E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 151.5997679233551 Writing 2208 lines of data to file WAYNE write output data 1.092633008956909 ==w out 8 6624 945 135659520 WAYNE PROCESS 183.3306540250778 ==w out 9 8835 atch# 24 reference line: 36824 747.101 seconds. before reading done reading WAYNE load raw data , time = 22.69454991817474 ATTN ifrq ipol ln 8 1 38872 21.00000 IPOL, ITOP nblock 1 0 24 ****shift in azimuth (fractional pixel)= -0.4999127 shift in azimuth *fractional pixel= -0.4999127 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7960748672485352E-03 WAYNE Motion comp. added to patch, time = 7.945092916488647 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6069879531860352E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 151.4754610061646 Writing 2208 lines of data to file WAYNE write output data 1.098551034927368 ==w out 24 6624 945 135659520 WAYNE PROCESS 183.2238690853119 ==w out 25 8835 atch# 32 reference line: 48920 747.690 seconds. before reading done reading WAYNE load raw data , time = 22.89843690395355 ATTN ifrq ipol ln 8 1 50968 21.00000 IPOL, ITOP nblock 1 0 32 ****shift in azimuth (fractional pixel)= -0.4998877 shift in azimuth *fractional pixel= -0.4998877 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.9759616851806641E-03 WAYNE Motion comp. added to patch, time = 7.844063043594360 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6000738143920898E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 151.8080059289932 Writing 2208 lines of data to file WAYNE write output data 1.072731971740723 ==w out 32 6624 945 135659520 WAYNE PROCESS 183.6337379217148 ==w out 33 8835 1 72370 0 2 72437 0 3 72435 0 4 72442 0 5 72436 0 6 72438 0 7 72440 0 8 72354 0 9 72433 0 10 72441 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 83904kids= 10 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 4 gather image from processor # 5 4 gather image from processor # 6 4 gather image from processor # 7 4 gather image from processor # 8 3 gather image from processor # 9 3 WAYNE gather images takes: 2.0367026329040527E-02 WAYNE LOOP TIME: 939.6447789669037 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_c.hh_j /mnt/air65/airops/1359/ts1359_c.mocomph /mnt/air65/airops/1359/ts1359_c.dop /mnt/air65/airops/1359/ts1359_c.glb 2560 83904 update intf hdr ha: 7045.200 UPDATE: 2560 83904 3.331000 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_c.mocomph dopfile /mnt/air65/airops/1359/ts1359_c.dop globalfile /mnt/air65/airops/1359/ts1359_c.glb /mnt/air65/airops/1359/ts1359_c.glb 35 deskew line ra ha trc: 54.32829 105 8108.036 7045.200 -91.16894 after deskew line ra ha trc: 54.32829 105 8108.036 7045.200 -91.16894 lat1 lon1: 105 64.49897 -147.0439 83904 last ra n_ns ns: 8108.036 2 2 84008 83904 lati loni: 84008 64.49891 -147.9620 84008 2 center ra n_ns ns: 12368.38 1281 1281 42056 83904 lati loni: 42056 64.46047 -147.5018 42056 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_c.hh_j WAYNE FINAL PROCESS 941.6116520166397 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 6624 3 6624 3 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_c.hh_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_c.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.ch Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1359/ts1359_c.BB Name of the line output file? /mnt/air65/airops/1359/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.590252995491028 Deskewing 38 patches Processing block number 1 DEBUG 101 105.0985 101.5501 -0.4999747 -0.4999747 patch iptc,sj,dgj,dgi,id: 1 1 101 101 0 half line dmj dgc: 0 945 105 101 Actual deskew ireclen: 20480 ** 1 1104 0 1104 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 1105 0 1104 patch iptc,sj,dgj,dgi,id: 1 1105 101 101 1104 half line dmj dgc: 1 945 105 101 Actual deskew ireclen: 20480 ** 1 1104 1 2208 Writing data negflag .eq. 0 sj>s1: 1105 1 Zeroing lines in arrays Total # of output lines = 1 1104 Processing block number 2 DEBUG 105 107.9730 104.7891 -0.4999729 -0.4999729 1105 1517 4 408 patch iptc,sj,dgj,dgi,id: 2 1517 105 101 408 half line dmj dgc: 0 2457 108 101 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1517 1105 Zeroing lines in arrays Total # of output lines = 2 1516 1517 2621 0 1104 patch iptc,sj,dgj,dgi,id: 2 2621 105 105 1104 half line dmj dgc: 1 2457 108 101 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2621 1517 Zeroing lines in arrays Total # of output lines = 2 2620 Processing block number 3 DEBUG 101 109.3214 100.8278 -0.4999729 -0.4999729 2621 3025 -4 408 patch iptc,sj,dgj,dgi,id: 3 3025 101 105 408 half line dmj dgc: 0 3969 109 101 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3025 2621 Zeroing lines in arrays Total # of output lines = 3 3024 3025 4129 0 1104 patch iptc,sj,dgj,dgi,id: 3 4129 101 101 1104 half line dmj dgc: 1 3969 109 101 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4129 3025 Zeroing lines in arrays Total # of output lines = 3 4128 Processing block number 4 DEBUG 94 108.4268 93.68552 -0.4999724 -0.4999724 4129 4530 -7 408 patch iptc,sj,dgj,dgi,id: 4 4530 94 101 408 half line dmj dgc: 0 5481 108 101 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4530 4129 Zeroing lines in arrays Total # of output lines = 4 4529 4530 5634 0 1104 patch iptc,sj,dgj,dgi,id: 4 5634 94 94 1104 half line dmj dgc: 1 5481 108 101 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5634 4530 Zeroing lines in arrays Total # of output lines = 4 5633 Processing block number 5 DEBUG 88 107.9083 87.89721 -0.4999716 -0.4999716 5634 6036 -6 408 patch iptc,sj,dgj,dgi,id: 5 6036 88 94 408 half line dmj dgc: 0 6993 108 101 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6036 5634 Zeroing lines in arrays Total # of output lines = 5 6035 6036 7140 0 1104 patch iptc,sj,dgj,dgi,id: 5 7140 88 88 1104 half line dmj dgc: 1 6993 108 101 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7140 6036 Zeroing lines in arrays Total # of output lines = 5 7139 Processing block number 6 DEBUG 82 107.5234 81.72036 -0.4999721 -0.4999721 7140 7542 -6 408 patch iptc,sj,dgj,dgi,id: 6 7542 82 88 408 half line dmj dgc: 0 8505 107 101 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 7542 7140 Zeroing lines in arrays Total # of output lines = 6 7541 7542 8646 0 1104 patch iptc,sj,dgj,dgi,id: 6 8646 82 82 1104 half line dmj dgc: 1 8505 107 101 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 8646 7542 Zeroing lines in arrays Total # of output lines = 6 8645 Processing block number 7 DEBUG 77 106.4569 77.35972 -0.4999705 -0.4999705 8646 9049 -5 408 patch iptc,sj,dgj,dgi,id: 7 9049 77 82 408 half line dmj dgc: 0 10017 106 101 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 9049 8646 Zeroing lines in arrays Total # of output lines = 7 9048 9049 10153 0 1104 patch iptc,sj,dgj,dgi,id: 7 10153 77 77 1104 half line dmj dgc: 1 10017 106 101 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 sj>s1: 10153 9049 Zeroing lines in arrays Total # of output lines = 7 10152 Processing block number 8 DEBUG 74 104.1204 73.80136 -0.4999726 -0.4999726 10153 10558 -3 408 patch iptc,sj,dgj,dgi,id: 8 10558 74 77 408 half line dmj dgc: 0 11529 104 101 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 10558 10153 Zeroing lines in arrays Total # of output lines = 8 10557 10558 11662 0 1104 patch iptc,sj,dgj,dgi,id: 8 11662 74 74 1104 half line dmj dgc: 1 11529 104 101 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 11662 10558 Zeroing lines in arrays Total # of output lines = 8 11661 Processing block number 9 DEBUG 73 100.9230 73.13763 -0.4999750 -0.4999750 11662 12069 -1 408 patch iptc,sj,dgj,dgi,id: 9 12069 73 74 408 half line dmj dgc: 0 13041 101 101 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 12069 11662 Zeroing lines in arrays Total # of output lines = 9 12068 12069 13173 0 1104 patch iptc,sj,dgj,dgi,id: 9 885 73 73 1104 half line dmj dgc: 1 13041 101 101 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 s1>sj: 12069 885 Zeroing lines in arrays Total # of output lines = 9 13172 Processing block number 10 DEBUG 65 95.09547 65.33829 -0.4999771 -0.4999771 885 1285 -8 408 patch iptc,sj,dgj,dgi,id: 10 1285 65 73 408 half line dmj dgc: 0 14553 95 101 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 1285 885 Zeroing lines in arrays Total # of output lines = 10 13572 1285 2389 0 1104 patch iptc,sj,dgj,dgi,id: 10 2389 65 65 1104 half line dmj dgc: 1 14553 95 101 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 2389 1285 Zeroing lines in arrays Total # of output lines = 10 14676 Processing block number 11 DEBUG 56 89.41441 56.02195 -0.4999786 -0.4999786 2389 2788 -9 408 patch iptc,sj,dgj,dgi,id: 11 2788 56 65 408 half line dmj dgc: 0 16065 89 101 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 2788 2389 Zeroing lines in arrays Total # of output lines = 11 15075 2788 3892 0 1104 patch iptc,sj,dgj,dgi,id: 11 3892 56 56 1104 half line dmj dgc: 1 16065 89 101 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 3892 2788 Zeroing lines in arrays Total # of output lines = 11 16179 Processing block number 12 DEBUG 63 90.98153 62.93840 -0.4999801 -0.4999801 3892 4307 7 408 patch iptc,sj,dgj,dgi,id: 12 4307 63 56 408 half line dmj dgc: 0 17577 91 101 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 4307 3892 Zeroing lines in arrays Total # of output lines = 12 16594 4307 5411 0 1104 patch iptc,sj,dgj,dgi,id: 12 5411 63 63 1104 half line dmj dgc: 1 17577 91 101 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 5411 4307 Zeroing lines in arrays Total # of output lines = 12 17698 Processing block number 13 DEBUG 92 100.2263 92.46157 -0.4999820 -0.4999820 5411 5848 29 408 patch iptc,sj,dgj,dgi,id: 13 5848 92 63 408 half line dmj dgc: 0 19089 100 101 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 5848 5411 Zeroing lines in arrays Total # of output lines = 13 18135 5848 6952 0 1104 patch iptc,sj,dgj,dgi,id: 13 6952 92 92 1104 half line dmj dgc: 1 19089 100 101 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 6952 5848 Zeroing lines in arrays Total # of output lines = 13 19239 Processing block number 14 DEBUG 112 112.2958 127.2997 -0.4999837 -0.4999837 6952 7380 20 408 patch iptc,sj,dgj,dgi,id: 14 7380 112 92 408 half line dmj dgc: 0 20601 127 101 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 sj>s1: 7380 6952 Zeroing lines in arrays Total # of output lines = 14 19667 7380 8484 0 1104 patch iptc,sj,dgj,dgi,id: 14 8484 112 112 1104 half line dmj dgc: 1 20601 127 101 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 8484 7380 Zeroing lines in arrays Total # of output lines = 14 20771 Processing block number 15 DEBUG 120 120.5513 143.7391 -0.4999824 -0.4999824 8484 8900 8 408 patch iptc,sj,dgj,dgi,id: 15 8900 120 112 408 half line dmj dgc: 0 22113 144 101 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 8900 8484 Zeroing lines in arrays Total # of output lines = 15 21187 8900 10004 0 1104 patch iptc,sj,dgj,dgi,id: 15 10004 120 120 1104 half line dmj dgc: 1 22113 144 101 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 10004 8900 Zeroing lines in arrays Total # of output lines = 15 22291 Processing block number 16 DEBUG 118 117.7405 118.4904 -0.4999793 -0.4999793 10004 10410 -2 408 patch iptc,sj,dgj,dgi,id: 16 10410 118 120 408 half line dmj dgc: 0 23625 118 101 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 10410 10004 Zeroing lines in arrays Total # of output lines = 16 22697 10410 11514 0 1104 patch iptc,sj,dgj,dgi,id: 16 11514 118 118 1104 half line dmj dgc: 1 23625 118 101 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 11514 10410 Zeroing lines in arrays Total # of output lines = 16 23801 Processing block number 17 DEBUG 53 103.8491 52.96488 -0.4999750 -0.4999750 11514 11857 -65 408 patch iptc,sj,dgj,dgi,id: 17 11857 53 118 408 half line dmj dgc: 0 25137 104 101 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 11857 11514 Zeroing lines in arrays Total # of output lines = 17 24144 11857 12961 0 1104 patch iptc,sj,dgj,dgi,id: 17 673 53 53 1104 half line dmj dgc: 1 25137 104 101 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 s1>sj: 11857 673 Zeroing lines in arrays Total # of output lines = 17 25248 Processing block number 18 DEBUG -26 86.15848 -26.22300 -0.4999634 -0.4999634 673 1002 -79 408 patch iptc,sj,dgj,dgi,id: 18 1002 -26 53 408 half line dmj dgc: 0 26649 86 101 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 1002 673 Zeroing lines in arrays Total # of output lines = 18 25577 1002 2106 0 1104 patch iptc,sj,dgj,dgi,id: 18 2106 -26 -26 1104 half line dmj dgc: 1 26649 86 101 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 2106 1002 Zeroing lines in arrays Total # of output lines = 18 26681 Processing block number 19 DEBUG -98 69.04160 -98.20052 -0.4999523 -0.4999523 2106 2442 -72 408 patch iptc,sj,dgj,dgi,id: 19 2442 -98 -26 408 half line dmj dgc: 0 28161 69 101 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 2442 2106 Zeroing lines in arrays Total # of output lines = 19 27017 2442 3546 0 1104 patch iptc,sj,dgj,dgi,id: 19 3546 -98 -98 1104 half line dmj dgc: 1 28161 69 101 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 3546 2442 Zeroing lines in arrays Total # of output lines = 19 28121 Processing block number 20 DEBUG -161 52.54070 -160.9822 -0.4999435 -0.4999435 3546 3891 -63 408 patch iptc,sj,dgj,dgi,id: 20 3891 -161 -98 408 half line dmj dgc: 0 29673 52 101 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 3891 3546 Zeroing lines in arrays Total # of output lines = 20 28466 3891 4995 0 1104 patch iptc,sj,dgj,dgi,id: 20 4995 -161 -161 1104 half line dmj dgc: 1 29673 52 101 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 sj>s1: 4995 3891 Zeroing lines in arrays Total # of output lines = 20 29570 Processing block number 21 DEBUG -214 40.47193 -213.6693 -0.4999314 -0.4999314 4995 5350 -53 408 patch iptc,sj,dgj,dgi,id: 21 5350 -214 -161 408 half line dmj dgc: 0 31185 40 101 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 5350 4995 Zeroing lines in arrays Total # of output lines = 21 29925 5350 6454 0 1104 patch iptc,sj,dgj,dgi,id: 21 6454 -214 -214 1104 half line dmj dgc: 1 31185 40 101 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 6454 5350 Zeroing lines in arrays Total # of output lines = 21 31029 Processing block number 22 DEBUG -255 32.34069 -254.8927 -0.4999196 -0.4999196 6454 6821 -41 408 patch iptc,sj,dgj,dgi,id: 22 6821 -255 -214 408 half line dmj dgc: 0 32697 32 101 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Writing data negflag .eq. 0 sj>s1: 6821 6454 Zeroing lines in arrays Total # of output lines = 22 31396 6821 7925 0 1104 patch iptc,sj,dgj,dgi,id: 22 7925 -255 -255 1104 half line dmj dgc: 1 32697 32 101 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 7925 6821 Zeroing lines in arrays Total # of output lines = 22 32500 Processing block number 23 DEBUG -286 24.36888 -286.1222 -0.4999149 -0.4999149 7925 8302 -31 408 patch iptc,sj,dgj,dgi,id: 23 8302 -286 -255 408 half line dmj dgc: 0 34209 24 101 Actual deskew ireclen: 20480 ** 23 1104 0 49680 Writing data negflag .eq. 0 sj>s1: 8302 7925 Zeroing lines in arrays Total # of output lines = 23 32877 8302 9406 0 1104 patch iptc,sj,dgj,dgi,id: 23 9406 -286 -286 1104 half line dmj dgc: 1 34209 24 101 Actual deskew ireclen: 20480 ** 23 1104 1 50784 Writing data negflag .eq. 0 sj>s1: 9406 8302 Zeroing lines in arrays Total # of output lines = 23 33981 Processing block number 24 DEBUG -314 14.31785 -314.0293 -0.4999127 -0.4999127 9406 9786 -28 408 patch iptc,sj,dgj,dgi,id: 24 9786 -314 -286 408 half line dmj dgc: 0 35721 14 101 Actual deskew ireclen: 20480 ** 24 1104 0 51888 Writing data negflag .eq. 0 sj>s1: 9786 9406 Zeroing lines in arrays Total # of output lines = 24 34361 9786 10890 0 1104 patch iptc,sj,dgj,dgi,id: 24 10890 -314 -314 1104 half line dmj dgc: 1 35721 14 101 Actual deskew ireclen: 20480 ** 24 1104 1 52992 Writing data negflag .eq. 0 sj>s1: 10890 9786 Zeroing lines in arrays Total # of output lines = 24 35465 Processing block number 25 DEBUG -326 9.068862 -325.5678 -0.4999093 -0.4999093 10890 11286 -12 408 patch iptc,sj,dgj,dgi,id: 25 11286 -326 -314 408 half line dmj dgc: 0 37233 9 101 Actual deskew ireclen: 20480 ** 25 1104 0 54096 Writing data negflag .eq. 0 sj>s1: 11286 10890 Zeroing lines in arrays Total # of output lines = 25 35861 11286 12390 0 1104 patch iptc,sj,dgj,dgi,id: 25 102 -326 -326 1104 half line dmj dgc: 1 37233 9 101 Actual deskew ireclen: 20480 ** 25 1104 1 55200 Writing data negflag .eq. 0 s1>sj: 11286 102 Zeroing lines in arrays Total # of output lines = 25 36965 Processing block number 26 DEBUG -325 6.183465 -325.3156 -0.4999186 -0.4999186 102 511 1 408 patch iptc,sj,dgj,dgi,id: 26 511 -325 -326 408 half line dmj dgc: 0 38745 6 101 Actual deskew ireclen: 20480 ** 26 1104 0 56304 Writing data negflag .eq. 0 sj>s1: 511 102 Zeroing lines in arrays Total # of output lines = 26 37374 511 1615 0 1104 patch iptc,sj,dgj,dgi,id: 26 1615 -325 -325 1104 half line dmj dgc: 1 38745 6 101 Actual deskew ireclen: 20480 ** 26 1104 1 57408 Writing data negflag .eq. 0 sj>s1: 1615 511 Zeroing lines in arrays Total # of output lines = 26 38478 Processing block number 27 DEBUG -323 3.397871 -322.4878 -0.4999260 -0.4999260 1615 2025 2 408 patch iptc,sj,dgj,dgi,id: 27 2025 -323 -325 408 half line dmj dgc: 0 40257 3 101 Actual deskew ireclen: 20480 ** 27 1104 0 58512 Writing data negflag .eq. 0 sj>s1: 2025 1615 Zeroing lines in arrays Total # of output lines = 27 38888 2025 3129 0 1104 patch iptc,sj,dgj,dgi,id: 27 3129 -323 -323 1104 half line dmj dgc: 1 40257 3 101 Actual deskew ireclen: 20480 ** 27 1104 1 59616 Writing data negflag .eq. 0 sj>s1: 3129 2025 Zeroing lines in arrays Total # of output lines = 27 39992 Processing block number 28 DEBUG -336 -2.669322 -335.6279 -0.4999264 -0.4999264 3129 3524 -13 408 patch iptc,sj,dgj,dgi,id: 28 3524 -336 -323 408 half line dmj dgc: 0 41769 -3 101 Actual deskew ireclen: 20480 ** 28 1104 0 60720 Writing data negflag .eq. 0 sj>s1: 3524 3129 Zeroing lines in arrays Total # of output lines = 28 40387 3524 4628 0 1104 patch iptc,sj,dgj,dgi,id: 28 4628 -336 -336 1104 half line dmj dgc: 1 41769 -3 101 Actual deskew ireclen: 20480 ** 28 1104 1 61824 Writing data negflag .eq. 0 sj>s1: 4628 3524 Zeroing lines in arrays Total # of output lines = 28 41491 Processing block number 29 DEBUG -366 -10.70067 -365.9431 -0.4999191 -0.4999191 4628 5006 -30 408 patch iptc,sj,dgj,dgi,id: 29 5006 -366 -336 408 half line dmj dgc: 0 43281 -11 101 Actual deskew ireclen: 20480 ** 29 1104 0 62928 Writing data negflag .eq. 0 sj>s1: 5006 4628 Zeroing lines in arrays Total # of output lines = 29 41869 5006 6110 0 1104 patch iptc,sj,dgj,dgi,id: 29 6110 -366 -366 1104 half line dmj dgc: 1 43281 -11 101 Actual deskew ireclen: 20480 ** 29 1104 1 64032 Writing data negflag .eq. 0 sj>s1: 6110 5006 Zeroing lines in arrays Total # of output lines = 29 42973 Processing block number 30 DEBUG -406 -19.32994 -406.3210 -0.4999068 -0.4999068 6110 6478 -40 408 patch iptc,sj,dgj,dgi,id: 30 6478 -406 -366 408 half line dmj dgc: 0 44793 -19 101 Actual deskew ireclen: 20480 ** 30 1104 0 65136 Writing data negflag .eq. 0 sj>s1: 6478 6110 Zeroing lines in arrays Total # of output lines = 30 43341 6478 7582 0 1104 patch iptc,sj,dgj,dgi,id: 30 7582 -406 -406 1104 half line dmj dgc: 1 44793 -19 101 Actual deskew ireclen: 20480 ** 30 1104 1 66240 Writing data negflag .eq. 0 sj>s1: 7582 6478 Zeroing lines in arrays Total # of output lines = 30 44445 Processing block number 31 DEBUG -441 -24.88268 -440.6461 -0.4998926 -0.4998926 7582 7955 -35 408 patch iptc,sj,dgj,dgi,id: 31 7955 -441 -406 408 half line dmj dgc: 0 46305 -25 101 Actual deskew ireclen: 20480 ** 31 1104 0 67344 Writing data negflag .eq. 0 sj>s1: 7955 7582 Zeroing lines in arrays Total # of output lines = 31 44818 7955 9059 0 1104 patch iptc,sj,dgj,dgi,id: 31 9059 -441 -441 1104 half line dmj dgc: 1 46305 -25 101 Actual deskew ireclen: 20480 ** 31 1104 1 68448 Writing data negflag .eq. 0 sj>s1: 9059 7955 Zeroing lines in arrays Total # of output lines = 31 45922 Processing block number 32 DEBUG -462 -26.66204 -461.9781 -0.4998877 -0.4998877 9059 9446 -21 408 patch iptc,sj,dgj,dgi,id: 32 9446 -462 -441 408 half line dmj dgc: 0 47817 -27 101 Actual deskew ireclen: 20480 ** 32 1104 0 69552 Writing data negflag .eq. 0 sj>s1: 9446 9059 Zeroing lines in arrays Total # of output lines = 32 46309 9446 10550 0 1104 patch iptc,sj,dgj,dgi,id: 32 10550 -462 -462 1104 half line dmj dgc: 1 47817 -27 101 Actual deskew ireclen: 20480 ** 32 1104 1 70656 Writing data negflag .eq. 0 sj>s1: 10550 9446 Zeroing lines in arrays Total # of output lines = 32 47413 Processing block number 33 DEBUG -469 -26.19787 -468.8353 -0.4998830 -0.4998830 10550 10951 -7 408 patch iptc,sj,dgj,dgi,id: 33 10951 -469 -462 408 half line dmj dgc: 0 49329 -26 101 Actual deskew ireclen: 20480 ** 33 1104 0 71760 Writing data negflag .eq. 0 sj>s1: 10951 10550 Zeroing lines in arrays Total # of output lines = 33 47814 10951 12055 0 1104 patch iptc,sj,dgj,dgi,id: 33 12055 -469 -469 1104 half line dmj dgc: 1 49329 -26 101 Actual deskew ireclen: 20480 ** 33 1104 1 72864 Writing data negflag .eq. 0 sj>s1: 12055 10951 Zeroing lines in arrays Total # of output lines = 33 48918 Processing block number 34 DEBUG -467 -25.62089 -466.7681 -0.4998872 -0.4998872 12055 12465 2 408 patch iptc,sj,dgj,dgi,id: 34 177 -467 -469 408 half line dmj dgc: 0 50841 -26 101 Actual deskew ireclen: 20480 ** 34 1104 0 73968 Writing data negflag .eq. 0 s1>sj: 12055 177 Zeroing lines in arrays Total # of output lines = 34 49328 177 1281 0 1104 patch iptc,sj,dgj,dgi,id: 34 1281 -467 -467 1104 half line dmj dgc: 1 50841 -26 101 Actual deskew ireclen: 20480 ** 34 1104 1 75072 Writing data negflag .eq. 0 sj>s1: 1281 177 Zeroing lines in arrays Total # of output lines = 34 50432 Processing block number 35 DEBUG -474 -28.86830 -473.5614 -0.4998964 -0.4998964 1281 1682 -7 408 patch iptc,sj,dgj,dgi,id: 35 1682 -474 -467 408 half line dmj dgc: 0 52353 -29 101 Actual deskew ireclen: 20480 ** 35 1104 0 76176 Writing data negflag .eq. 0 sj>s1: 1682 1281 Zeroing lines in arrays Total # of output lines = 35 50833 1682 2786 0 1104 patch iptc,sj,dgj,dgi,id: 35 2786 -474 -474 1104 half line dmj dgc: 1 52353 -29 101 Actual deskew ireclen: 20480 ** 35 1104 1 77280 Writing data negflag .eq. 0 sj>s1: 2786 1682 Zeroing lines in arrays Total # of output lines = 35 51937 Processing block number 36 DEBUG -515 -41.34934 -514.6360 -0.4998826 -0.4998826 2786 3153 -41 408 patch iptc,sj,dgj,dgi,id: 36 3153 -515 -474 408 half line dmj dgc: 0 53865 -41 101 Actual deskew ireclen: 20480 ** 36 1104 0 78384 Writing data negflag .eq. 0 sj>s1: 3153 2786 Zeroing lines in arrays Total # of output lines = 36 52304 3153 4257 0 1104 patch iptc,sj,dgj,dgi,id: 36 4257 -515 -515 1104 half line dmj dgc: 1 53865 -41 101 Actual deskew ireclen: 20480 ** 36 1104 1 79488 Writing data negflag .eq. 0 sj>s1: 4257 3153 Zeroing lines in arrays Total # of output lines = 36 53408 Processing block number 37 DEBUG -565 -54.34888 -564.5964 -0.4998573 -0.4998573 4257 4615 -50 408 patch iptc,sj,dgj,dgi,id: 37 4615 -565 -515 408 half line dmj dgc: 0 55377 -54 101 Actual deskew ireclen: 20480 ** 37 1104 0 80592 Writing data negflag .eq. 0 sj>s1: 4615 4257 Zeroing lines in arrays Total # of output lines = 37 53766 4615 5719 0 1104 patch iptc,sj,dgj,dgi,id: 37 5719 -565 -565 1104 half line dmj dgc: 1 55377 -54 101 Actual deskew ireclen: 20480 ** 37 1104 1 81696 Writing data negflag .eq. 0 sj>s1: 5719 4615 Zeroing lines in arrays Total # of output lines = 37 54870 Processing block number 38 DEBUG -585 -57.52259 -584.7095 -0.4998526 -0.4998526 5719 5066 -20 -633 patch iptc,sj,dgj,dgi,id: 38 5066 -585 -565 -633 half line dmj dgc: 0 55848 -58 101 Actual deskew ireclen: 20480 ** 38 1104 0 82800 Zeroing lines in arrays Total # of output lines = 38 54870 5719 6170 0 1104 patch iptc,sj,dgj,dgi,id: 38 6170 -585 -585 1104 half line dmj dgc: 1 55848 -58 101 Actual deskew ireclen: 20480 ** 38 1104 1 83904 Writing data negflag .eq. 0 sj>s1: 6170 5719 Zeroing lines in arrays Total # of output lines = 38 55321 ia dmi dgi: 6170 -58 -585 Writing the last 1631 lines last half sj>s1 7801 6170 55321 WAYNE done patche 181.8266919851303 Total # of output lines = 56952 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 56952 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 183.1644150018692 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 0 AZ patch size: 4096 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.hv00c Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_c.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 2208 data points per patch Near range (m) = 8102.270 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.200000 Radar wavelength (m) = 5.6699999E-02 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -0.5438000 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = 1.872000 0.6771000 -0.3541000 Receive leverarm x,y,z = 1.889000 1.726800 1.912000 Name of raw data file? /mnt/air62/airops/1359/c_hv Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_c.mocomph Output file name w/o ext? /mnt/air65/airops/1359/ts1359_c Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hv Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_c.hv_j *** ipol itop: 2 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.ch WAYNE init fft, calc slant range, load unpack, interpo 1.3475001E-02 reading motion compensation data WAYNE read motion compen 1.305625 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 98 40.00000 22.50000 90.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4671489 start range comp, time = 1.798 WAYNE PREV 1.801978 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -1.6498900E-04 7.8047598E-03 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 1.945 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 28.71384191513062 ATTN ifrq ipol ln 8 2 4096 21.00000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4999747 shift in azimuth *fractional pixel= -0.4999747 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4830780029296875E-03 TESTING 8.5000396E-03 61.61982 0.2861698 WAYNE Motion comp. added to patch, time = 8.544325947761536 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 4.8279762268066406E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 8.5000396E-03 61.61982 0.2861698 HEY,dt,fract,ye,pe -0.4999747 1.000000 -1.6498900E-04 7.8047598E-03 WAYNE Azimuth compression done, time = 212.6590960025787 Writing 2208 lines of data to file WAYNE write output data 1.371474981307983 ==w out 1 0 945 0 WAYNE PROCESS 251.3020479679108 Processing block number 2 TESTING WHY -1.4803599E-04 8.0054598E-03 1512 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 253.248 seconds. TESTING 1513 before reading done reading WAYNE load raw data , time = 23.57894897460938 ATTN ifrq ipol ln 8 2 5608 21.00000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4999729 shift in azimuth *fractional pixel= -0.4999729 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7239532470703125E-03 TESTING 8.5000396E-03 61.02921 -9.1338158E-02 WAYNE Motion comp. added to patch, time = 7.877218008041382 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4899244308471680E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 8.5000396E-03 61.02921 -9.1338158E-02 HEY,dt,fract,ye,pe -0.4999729 1.000000 -1.4803599E-04 8.0054598E-03 WAYNE Azimuth compression done, time = 173.5824670791626 Writing 2208 lines of data to file WAYNE write output data 1.408466935157776 ==w out 2 2208 945 45219840 WAYNE PROCESS 206.4565929174423 Processing block number 3 TESTING WHY -3.9506299E-04 8.2445396E-03 1512 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 459.705 seconds. TESTING 3025 before reading done reading WAYNE load raw data , time = 23.29722189903259 ATTN ifrq ipol ln 8 2 7120 21.00000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4999729 shift in azimuth *fractional pixel= -0.4999729 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5340995788574219E-03 TESTING 8.5000396E-03 60.06948 -0.2990286 WAYNE Motion comp. added to patch, time = 8.052770972251892 WAYNE Doppler estimation done, time = 1.001 PROCESSING KID# 9 ..... WAYNE IS IN Processing 33 to 35 by # 8 Processing block number 33 WAYNE PATCHES: 48385 52480 patch# 33 reference line: 50432 2.049 seconds. before reading done reading WAYNE load raw data , time = 28.64548492431641 ATTN ifrq ipol ln 8 2 52480 21.00000 IPOL, ITOP nblock 2 0 33 ****shift in azimuth (fractional pixel)= -0.4998830 shift in azimuth *fractional pixel= -0.4998830 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4729452133178711E-03 WAYNE Motion comp. added to patch, time = 8.455667972564697 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 3.1859874725341797E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 162.8630149364471 Writing 2208 lines of data to file WAYNE write output data 1.394180893898010 ==w out 33 0 945 0 WAYNE PROCESS 201.3700369596481 Processing block number 34 WAYNE PATCHES: 49897 53992 patch# 34 reference line: 51944 203.420 seconds. before reading done reading WAYNE load raw data , time = 24.04833590984344 ATTN ifrq ipol ln 8 2 53992 21.00000 IPOL, ITOP nblock 2 0 34 ****shift in azimuth (fractional pixel)= -0.4998872 shift in azimuth *fractional pixel= -0.4998872 1.000000 WAYNE Motion comp. coeff. calculated, time = 7.3319673538208008E-03 WAYNE Motion comp. added to patch, time = 8.001162052154541 WAYNE Doppler estimation done, time = 2.4080276489257813E-05 WAYNE write deskew done, time = 2.6609897613525391E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 148.3896449804306 Writing 2208 lines of data to file WAYNE write output data 1.404386997222900 ==w out 34 2208 945 45219840 WAYNE PROCESS 181.8553860187531 Processing block number 35 WAYNE PATCHES: 51409 55504 patch# 35 reference line: 53456 385.275 seconds. before reading done reading WAYNE load raw data , time = 23.21638500690460 ATTN ifrq ipol ln 8 2 55504 21.00000 IPOL, ITOP nblock 2 0 35 ****shift in azimuth (fractional pixel)= -0.4998964 shift in azimuth *fractional pixel= -0.4998964 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2869787216186523E-03 WAYNE Motion comp. added to patch, time = 7.915642023086548 WAYNE Doppler estimation done, time = 2.1934509277343750E-05 WAYNE write deskew done, time = 2.4349689483642578E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 144.3884860277176 Writing 2208 lines of data to file WAYNE write output data 1.248993992805481 ==w out 35 4416 945 90439680 WAYNE PROCESS 176.7796510457993 ==w out 36 6627 PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 18145 22240 patch# 13 reference line: 20192 1.985 seconds. before reading done reading WAYNE load raw data , time = 28.04058706760406 ATTN ifrq ipol ln 8 2 22240 21.00000 IPOL, ITOP nblock 2 0 13 ****shift in azimuth (fractional pixel)= -0.4999820 shift in azimuth *fractional pixel= -0.4999820 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5649747848510742E-03 WAYNE Motion comp. added to patch, time = 8.841075062751770 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.9100179672241211E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 213.0472600460052 Writing 2208 lines of data to file WAYNE write output data 1.376257061958313 ==w out 13 0 945 0 WAYNE PROCESS 251.3163640499115 Processing block number 14 WAYNE PATCHES: 19657 23752 patch# 14 reference line: 21704 253.302 seconds. before reading done reading WAYNE load raw data , time = 23.33149898052216 ATTN ifrq ipol ln 8 2 23752 21.00000 IPOL, ITOP nblock 2 0 14 ****shift in azimuth (fractional pixel)= -0.4999837 shift in azimuth *fractional pixel= -0.4999837 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.8760643005371094E-03 WAYNE Motion comp. added to patch, time = 8.277881979942322 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5900602340698242E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 173.9093129634857 Writing 2208 lines of data to file WAYNE write output data 1.391836047172546 ==w out 14 2208 945 45219840 WAYNE PROCESS 206.9205000400543 Processing block number 15 WAYNE PATCHES: 21169 25264 patch# 15 reference line: 23216 460.223 seconds. before reading done reading WAYNE load raw data , time = 22.90963792800903 ATTN ifrq ipol ln 8 2 25264 21.00000 IPOL, ITOP nblock 2 0 15 ****shift in azimuth (fractional pixel)= -0.4999824 shift in azimuth *fractional pixel= -0.4999824 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5109729766845703E-03 WAYNE Motion comp. added to patch, time = 8.444896936416626 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4620294570922852E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 164.1680370569229 Writing 2208 lines of data to file WAYNE write output data 1.182910919189453 ==w out 15 4416 945 90439680 WAYNE PROCESS 196.7157930135727 Processing block number 16 WAYNE PATCHES: 22681 26776 p PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 6049 10144 patch# 5 reference line: 8096 1.959 seconds. before reading done reading WAYNE load raw data , time = 27.76093196868896 ATTN ifrq ipol ln 8 2 10144 21.00000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4999716 shift in azimuth *fractional pixel= -0.4999716 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3730478286743164E-03 WAYNE Motion comp. added to patch, time = 8.566238045692444 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9909610748291016E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 221.3091260194778 Writing 2208 lines of data to file WAYNE write output data 1.085170984268188 ==w out 5 0 945 0 WAYNE PROCESS 258.7323349714279 Processing block number 6 WAYNE PATCHES: 7561 11656 patch# 6 reference line: 9608 260.691 seconds. before reading done reading WAYNE load raw data , time = 23.09026694297791 ATTN ifrq ipol ln 8 2 11656 21.00000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4999721 shift in azimuth *fractional pixel= -0.4999721 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7460069656372070E-03 WAYNE Motion comp. added to patch, time = 8.094941973686218 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7199983596801758E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 205.5505549907684 Writing 2208 lines of data to file WAYNE write output data 1.303815007209778 ==w out 6 2208 945 45219840 WAYNE PROCESS 238.0493630170822 Processing block number 7 WAYNE PATCHES: 9073 13168 patch# 7 reference line: 11120 498.741 seconds. before reading done reading WAYNE load raw data , time = 22.87610995769501 ATTN ifrq ipol ln 8 2 13168 21.00000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4999705 shift in azimuth *fractional pixel= -0.4999705 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2479972839355469E-03 WAYNE Motion comp. added to patch, time = 8.176654934883118 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.4720430374145508E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 176.8705009222031 Writing 2208 lines of data to file WAYNE write output data 1.171985030174255 ==w out 7 4416 945 90439680 WAYNE PROCESS 209.1052920818329 Processing block number 8 WAYNE PATCHES: 10585 14680 p PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 12097 16192 patch# 9 reference line: 14144 1.973 seconds. before reading done reading WAYNE load raw data , time = 28.56878399848938 ATTN ifrq ipol ln 8 2 16192 21.00000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4999750 shift in azimuth *fractional pixel= -0.4999750 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4719915390014648E-03 WAYNE Motion comp. added to patch, time = 8.639737010002136 WAYNE Doppler estimation done, time = 1.6927719116210938E-05 WAYNE write deskew done, time = 3.6590099334716797E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 225.1883490085602 Writing 2208 lines of data to file WAYNE write output data 1.093443989753723 ==w out 9 0 945 0 WAYNE PROCESS 263.5027269124985 Processing block number 10 WAYNE PATCHES: 13609 17704 patch# 10 reference line: 15656 265.476 seconds. before reading done reading WAYNE load raw data , time = 23.72826111316681 ATTN ifrq ipol ln 8 2 17704 21.00000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4999771 shift in azimuth *fractional pixel= -0.4999771 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1970949172973633E-03 WAYNE Motion comp. added to patch, time = 8.180791974067688 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 2.7300119400024414E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 205.4605880975723 Writing 2208 lines of data to file WAYNE write output data 1.276342988014221 ==w out 10 2208 945 45219840 WAYNE PROCESS 238.6567070484161 Processing block number 11 WAYNE PATCHES: 15121 19216 patch# 11 reference line: 17168 504.134 seconds. before reading done reading WAYNE load raw data , time = 23.30863296985626 ATTN ifrq ipol ln 8 2 19216 21.00000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4999786 shift in azimuth *fractional pixel= -0.4999786 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2049627304077148E-03 WAYNE Motion comp. added to patch, time = 8.175078034400940 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.5370121002197266E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 176.2661179304123 Writing 2208 lines of data to file WAYNE write output data 1.281664967536926 ==w out 11 4416 945 90439680 WAYNE PROCESS 209.0419520139694 Processing block number 12 WAYNE PATCHES: 16633 20728 p PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 20 by # 4 Processing block number 17 WAYNE PATCHES: 24193 28288 patch# 17 reference line: 26240 1.997 seconds. before reading done reading WAYNE load raw data , time = 29.37186801433563 ATTN ifrq ipol ln 8 2 28288 21.00000 IPOL, ITOP nblock 2 0 17 ****shift in azimuth (fractional pixel)= -0.4999750 shift in azimuth *fractional pixel= -0.4999750 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.7770481109619141E-03 WAYNE Motion comp. added to patch, time = 8.869977951049805 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 3.4830570220947266E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 220.9654510021210 Writing 2208 lines of data to file WAYNE write output data 1.084154963493347 ==w out 17 0 945 0 WAYNE PROCESS 260.3035979270935 Processing block number 18 WAYNE PATCHES: 25705 29800 patch# 18 reference line: 27752 262.300 seconds. before reading done reading WAYNE load raw data , time = 24.51932299137115 ATTN ifrq ipol ln 8 2 29800 21.00000 IPOL, ITOP nblock 2 0 18 ****shift in azimuth (fractional pixel)= -0.4999634 shift in azimuth *fractional pixel= -0.4999634 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1730146408081055E-03 WAYNE Motion comp. added to patch, time = 8.176554083824158 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9519796371459961E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 206.2552950382233 Writing 2208 lines of data to file WAYNE write output data 1.275609016418457 ==w out 18 2208 945 45219840 WAYNE PROCESS 240.2374169826508 Processing block number 19 WAYNE PATCHES: 27217 31312 patch# 19 reference line: 29264 502.538 seconds. before reading done reading WAYNE load raw data , time = 24.64063394069672 ATTN ifrq ipol ln 8 2 31312 21.00000 IPOL, ITOP nblock 2 0 19 ****shift in azimuth (fractional pixel)= -0.4999523 shift in azimuth *fractional pixel= -0.4999523 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0000419616699219E-03 WAYNE Motion comp. added to patch, time = 8.026075005531311 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4889707565307617E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 176.7681819200516 Writing 2208 lines of data to file WAYNE write output data 1.298262953758240 ==w out 19 4416 945 90439680 WAYNE PROCESS 210.7431600093842 Processing block number 20 WAYNE PATCHES: 28729 32824 p PROCESSING KID# 10 ..... WAYNE IS IN Processing 36 to 38 by # 9 Processing block number 36 WAYNE PATCHES: 52921 57016 patch# 36 reference line: 54968 2.062 seconds. before reading done reading WAYNE load raw data , time = 28.40146803855896 ATTN ifrq ipol ln 8 2 57016 21.00000 IPOL, ITOP nblock 2 0 36 ****shift in azimuth (fractional pixel)= -0.4998826 shift in azimuth *fractional pixel= -0.4998826 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5779685974121094E-03 WAYNE Motion comp. added to patch, time = 8.454420924186707 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 3.3500194549560547E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 204.0936100482941 Writing 2208 lines of data to file WAYNE write output data 1.730928063392639 ==w out 36 0 945 0 WAYNE PROCESS 242.6926280260086 Processing block number 37 WAYNE PATCHES: 54433 58528 patch# 37 reference line: 56480 244.755 seconds. before reading done reading WAYNE load raw data , time = 23.58240008354187 ATTN ifrq ipol ln 8 2 58528 21.00000 IPOL, ITOP nblock 2 0 37 ****shift in azimuth (fractional pixel)= -0.4998573 shift in azimuth *fractional pixel= -0.4998573 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7200193405151367E-03 WAYNE Motion comp. added to patch, time = 7.785026907920837 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4709701538085938E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 232.3988070487976 Writing 2208 lines of data to file WAYNE write output data 1.535964012145996 ==w out 37 2208 945 45219840 WAYNE PROCESS 265.3121891021729 Processing block number 38 WAYNE PATCHES: 54904 58999 patch# 38 reference line: 56951 510.068 seconds. before reading done reading WAYNE load raw data , time = 24.03091895580292 ATTN ifrq ipol ln 8 2 58999 21.00000 IPOL, ITOP nblock 2 0 38 ****shift in azimuth (fractional pixel)= -0.4998526 shift in azimuth *fractional pixel= -0.4998526 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2329769134521484E-03 WAYNE Motion comp. added to patch, time = 8.117789030075073 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.9289722442626953E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 187.6977850198746 Writing 2208 lines of data to file WAYNE write output data 1.313061952590942 ==w out 38 4416 945 90439680 WAYNE PROCESS 221.1703499555588 ==w out 39 6627 PROCESSING KID# 8 ..... WAYNE IS IN Processing 29 to 32 by # 7 Processing block number 29 WAYNE PATCHES: 42337 46432 patch# 29 reference line: 44384 2.035 seconds. before reading done reading WAYNE load raw data , time = 28.05516099929810 ATTN ifrq ipol ln 8 2 46432 21.00000 IPOL, ITOP nblock 2 0 29 ****shift in azimuth (fractional pixel)= -0.4999191 shift in azimuth *fractional pixel= -0.4999191 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5759420394897461E-03 WAYNE Motion comp. added to patch, time = 8.490652084350586 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 3.1580924987792969E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 230.2008990049362 Writing 2208 lines of data to file WAYNE write output data 1.178706049919128 ==w out 29 0 945 0 WAYNE PROCESS 267.9366070032120 Processing block number 30 WAYNE PATCHES: 43849 47944 patch# 30 reference line: 45896 269.972 seconds. before reading done reading WAYNE load raw data , time = 23.84035205841064 ATTN ifrq ipol ln 8 2 47944 21.00000 IPOL, ITOP nblock 2 0 30 ****shift in azimuth (fractional pixel)= -0.4999068 shift in azimuth *fractional pixel= -0.4999068 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3890218734741211E-03 WAYNE Motion comp. added to patch, time = 8.192547082901001 WAYNE Doppler estimation done, time = 2.6941299438476563E-05 WAYNE write deskew done, time = 3.0939579010009766E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 235.5548530817032 Writing 2208 lines of data to file WAYNE write output data 1.993646979331970 ==w out 30 2208 945 45219840 WAYNE PROCESS 269.5936980247498 Processing block number 31 WAYNE PATCHES: 45361 49456 patch# 31 reference line: 47408 539.567 seconds. before reading done reading WAYNE load raw data , time = 23.80710101127625 ATTN ifrq ipol ln 8 2 49456 21.00000 IPOL, ITOP nblock 2 0 31 ****shift in azimuth (fractional pixel)= -0.4998926 shift in azimuth *fractional pixel= -0.4998926 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0280561447143555E-03 WAYNE Motion comp. added to patch, time = 8.032118916511536 WAYNE Doppler estimation done, time = 1.5974044799804688E-05 WAYNE write deskew done, time = 2.8250217437744141E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 192.3355900049210 Writing 2208 lines of data to file WAYNE write output data 1.206622958183289 ==w out 31 4416 945 90439680 WAYNE PROCESS 225.3924050331116 Processing block number 32 WAYNE PATCHES: 46873 50968 p PROCESSING KID# 6 ..... WAYNE IS IN Processing 21 to 24 by # 5 Processing block number 21 WAYNE PATCHES: 30241 34336 patch# 21 reference line: 32288 2.009 seconds. before reading done reading WAYNE load raw data , time = 28.11200106143951 ATTN ifrq ipol ln 8 2 34336 21.00000 IPOL, ITOP nblock 2 0 21 ****shift in azimuth (fractional pixel)= -0.4999314 shift in azimuth *fractional pixel= -0.4999314 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.7399740219116211E-03 WAYNE Motion comp. added to patch, time = 8.410634040832520 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.0580759048461914E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 230.5990020036697 Writing 2208 lines of data to file WAYNE write output data 1.181843996047974 ==w out 21 0 945 0 WAYNE PROCESS 268.3151090145111 Processing block number 22 WAYNE PATCHES: 31753 35848 patch# 22 reference line: 33800 270.324 seconds. before reading done reading WAYNE load raw data , time = 23.93868708610535 ATTN ifrq ipol ln 8 2 35848 21.00000 IPOL, ITOP nblock 2 0 22 ****shift in azimuth (fractional pixel)= -0.4999196 shift in azimuth *fractional pixel= -0.4999196 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.8500041961669922E-03 WAYNE Motion comp. added to patch, time = 8.237820982933044 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.9089918136596680E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 235.6914560794830 Writing 2208 lines of data to file WAYNE write output data 2.055518984794617 ==w out 22 2208 945 45219840 WAYNE PROCESS 269.9360290765762 Processing block number 23 WAYNE PATCHES: 33265 37360 patch# 23 reference line: 35312 540.260 seconds. before reading done reading WAYNE load raw data , time = 23.59587299823761 ATTN ifrq ipol ln 8 2 37360 21.00000 IPOL, ITOP nblock 2 0 23 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3829421997070313E-03 WAYNE Motion comp. added to patch, time = 8.161471009254456 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.9460191726684570E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 192.9694820642471 Writing 2208 lines of data to file WAYNE write output data 1.293628931045532 ==w out 23 4416 945 90439680 WAYNE PROCESS 226.0313129425049 Processing block number 24 WAYNE PATCHES: 34777 38872 p PROCESSING KID# 7 ..... WAYNE IS IN Processing 25 to 28 by # 6 Processing block number 25 WAYNE PATCHES: 36289 40384 patch# 25 reference line: 38336 2.022 seconds. before reading done reading WAYNE load raw data , time = 28.42750298976898 ATTN ifrq ipol ln 8 2 40384 21.00000 IPOL, ITOP nblock 2 0 25 ****shift in azimuth (fractional pixel)= -0.4999093 shift in azimuth *fractional pixel= -0.4999093 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3860416412353516E-03 WAYNE Motion comp. added to patch, time = 8.459202051162720 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 3.1890869140625000E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 230.4001020193100 Writing 2208 lines of data to file WAYNE write output data 1.163818001747131 ==w out 25 0 945 0 WAYNE PROCESS 268.4620059728622 Processing block number 26 WAYNE PATCHES: 37801 41896 patch# 26 reference line: 39848 270.485 seconds. before reading done reading WAYNE load raw data , time = 24.40068805217743 ATTN ifrq ipol ln 8 2 41896 21.00000 IPOL, ITOP nblock 2 0 26 ****shift in azimuth (fractional pixel)= -0.4999186 shift in azimuth *fractional pixel= -0.4999186 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4530372619628906E-03 WAYNE Motion comp. added to patch, time = 8.150362014770508 WAYNE Doppler estimation done, time = 3.0994415283203125E-05 WAYNE write deskew done, time = 3.2409429550170898E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 234.9507160186768 Writing 2208 lines of data to file WAYNE write output data 2.130743980407715 ==w out 26 2208 945 45219840 WAYNE PROCESS 269.6453750133514 Processing block number 27 WAYNE PATCHES: 39313 43408 patch# 27 reference line: 41360 540.130 seconds. before reading done reading WAYNE load raw data , time = 23.96413397789001 ATTN ifrq ipol ln 8 2 43408 21.00000 IPOL, ITOP nblock 2 0 27 ****shift in azimuth (fractional pixel)= -0.4999260 shift in azimuth *fractional pixel= -0.4999260 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.9460868835449219E-03 WAYNE Motion comp. added to patch, time = 8.051069021224976 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.0820369720458984E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 192.9034711122513 Writing 2208 lines of data to file WAYNE write output data 1.295482993125916 ==w out 27 4416 945 90439680 WAYNE PROCESS 226.2263509035110 Processing block number 28 WAYNE PATCHES: 40825 44920 p3580322265625E-05 WAYNE write deskew done, time = 2.1400451660156250E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 8.5000396E-03 60.06948 -0.2990286 HEY,dt,fract,ye,pe -0.4999729 1.000000 -3.9506299E-04 8.2445396E-03 WAYNE Azimuth compression done, time = 163.4842970371246 Writing 2208 lines of data to file WAYNE write output data 1.194561004638672 ==w out 3 4416 945 90439680 WAYNE PROCESS 196.0393580198288 Processing block number 4 TESTING WHY -6.8573700E-04 8.3444603E-03 1512 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 655.744 seconds. TESTING 4537 before reading done reading WAYNE load raw data , time = 23.25057995319366 ATTN ifrq ipol ln 8 2 8632 21.00000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4999724 shift in azimuth *fractional pixel= -0.4999724 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1320066452026367E-03 TESTING 8.5000396E-03 58.74720 -0.3534828 WAYNE Motion comp. added to patch, time = 8.042371988296509 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.3709535598754883E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 8.5000396E-03 58.74720 -0.3534828 HEY,dt,fract,ye,pe -0.4999724 1.000000 -6.8573700E-04 8.3444603E-03 WAYNE Azimuth compression done, time = 147.8571659326553 Writing 2208 lines of data to file WAYNE write output data 1.168887019157410 ==w out 4 6624 945 135659520 WAYNE PROCESS 180.3289539813995 ==w out 5 8835 atch# 16 reference line: 24728 656.939 seconds. before reading done reading WAYNE load raw data , time = 22.86936593055725 ATTN ifrq ipol ln 8 2 26776 21.00000 IPOL, ITOP nblock 2 0 16 ****shift in azimuth (fractional pixel)= -0.4999793 shift in azimuth *fractional pixel= -0.4999793 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2700510025024414E-03 WAYNE Motion comp. added to patch, time = 8.379285931587219 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3660659790039063E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 148.8666359186172 Writing 2208 lines of data to file WAYNE write output data 1.154484033584595 ==w out 16 6624 945 135659520 WAYNE PROCESS 181.2800120115280 ==w out 17 8835 atch# 8 reference line: 12632 707.847 seconds. before reading done reading WAYNE load raw data , time = 22.61438894271851 ATTN ifrq ipol ln 8 2 14680 21.00000 IPOL, ITOP nblock 2 0 8 ****shift in azimuth (fractional pixel)= -0.4999726 shift in azimuth *fractional pixel= -0.4999726 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0340166091918945E-03 WAYNE Motion comp. added to patch, time = 8.109488964080811 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6279687881469727E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 156.2487219572067 Writing 2208 lines of data to file WAYNE write output data 1.091978907585144 ==w out 8 6624 945 135659520 WAYNE PROCESS 188.0749099254608 ==w out 9 8835 atch# 12 reference line: 18680 713.176 seconds. before reading done reading WAYNE load raw data , time = 23.04802596569061 ATTN ifrq ipol ln 8 2 20728 21.00000 IPOL, ITOP nblock 2 0 12 ****shift in azimuth (fractional pixel)= -0.4999801 shift in azimuth *fractional pixel= -0.4999801 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.8680772781372070E-03 WAYNE Motion comp. added to patch, time = 8.340912938117981 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5330781936645508E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 153.5807219743729 Writing 2208 lines of data to file WAYNE write output data 1.082820057868958 ==w out 12 6624 945 135659520 WAYNE PROCESS 186.0625970363617 ==w out 13 8835 atch# 20 reference line: 30776 713.282 seconds. before reading done reading WAYNE load raw data , time = 24.20314598083496 ATTN ifrq ipol ln 8 2 32824 21.00000 IPOL, ITOP nblock 2 0 20 ****shift in azimuth (fractional pixel)= -0.4999435 shift in azimuth *fractional pixel= -0.4999435 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3019990921020508E-03 WAYNE Motion comp. added to patch, time = 8.047505974769592 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.1030178070068359E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 153.7418299913406 Writing 2208 lines of data to file WAYNE write output data 1.084137916564941 ==w out 20 6624 945 135659520 WAYNE PROCESS 187.0880188941956 ==w out 21 8835 atch# 32 reference line: 48920 764.960 seconds. before reading done reading WAYNE load raw data , time = 23.13499796390533 ATTN ifrq ipol ln 8 2 50968 21.00000 IPOL, ITOP nblock 2 0 32 ****shift in azimuth (fractional pixel)= -0.4998877 shift in azimuth *fractional pixel= -0.4998877 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.8759450912475586E-03 WAYNE Motion comp. added to patch, time = 7.873852014541626 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.6150941848754883E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 144.7755440473557 Writing 2208 lines of data to file WAYNE write output data 1.076482057571411 ==w out 32 6624 945 135659520 WAYNE PROCESS 176.8710570335388 ==w out 33 8835 atch# 24 reference line: 36824 766.292 seconds. before reading done reading WAYNE load raw data , time = 22.94260895252228 ATTN ifrq ipol ln 8 2 38872 21.00000 IPOL, ITOP nblock 2 0 24 ****shift in azimuth (fractional pixel)= -0.4999127 shift in azimuth *fractional pixel= -0.4999127 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1559677124023438E-03 WAYNE Motion comp. added to patch, time = 8.003095030784607 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7769804000854492E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 145.1755239963531 Writing 2208 lines of data to file WAYNE write output data 1.105095028877258 ==w out 24 6624 945 135659520 WAYNE PROCESS 177.2369320392609 ==w out 25 8835 atch# 28 reference line: 42872 766.357 seconds. before reading done reading WAYNE load raw data , time = 23.21149599552155 ATTN ifrq ipol ln 8 2 44920 21.00000 IPOL, ITOP nblock 2 0 28 ****shift in azimuth (fractional pixel)= -0.4999264 shift in azimuth *fractional pixel= -0.4999264 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4210891723632813E-03 WAYNE Motion comp. added to patch, time = 7.963880062103271 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7639865875244141E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 144.9246460199356 Writing 2208 lines of data to file WAYNE write output data 1.099064946174622 ==w out 28 6624 945 135659520 WAYNE PROCESS 177.2101860046387 ==w out 29 8835 1 75043 0 2 75007 0 3 75032 0 4 75046 0 5 74971 0 6 75038 0 7 75036 0 8 74930 0 9 75005 0 10 75034 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 83904kids= 10 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 4 gather image from processor # 5 4 gather image from processor # 6 4 gather image from processor # 7 4 gather image from processor # 8 3 gather image from processor # 9 3 WAYNE gather images takes: 9.8118066787719727E-02 WAYNE LOOP TIME: 952.1871581077576 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_c.hv_j /mnt/air65/airops/1359/ts1359_c.mocomph /mnt/air65/airops/1359/ts1359_c.dop /mnt/air65/airops/1359/ts1359_c.glb 2560 83904 update intf hdr ha: 7045.200 UPDATE: 2560 83904 3.331000 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_c.mocomph dopfile /mnt/air65/airops/1359/ts1359_c.dop globalfile /mnt/air65/airops/1359/ts1359_c.glb /mnt/air65/airops/1359/ts1359_c.glb 35 deskew line ra ha trc: 54.32829 105 8108.036 7045.200 -91.16894 after deskew line ra ha trc: 54.32829 105 8108.036 7045.200 -91.16894 lat1 lon1: 105 64.49897 -147.0439 83904 last ra n_ns ns: 8108.036 2 2 84008 83904 lati loni: 84008 64.49891 -147.9620 84008 2 center ra n_ns ns: 12368.38 1281 1281 42056 83904 lati loni: 42056 64.46047 -147.5018 42056 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_c.hv_j WAYNE FINAL PROCESS 954.0733560323715 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 6624 3 6624 3 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_c.hv_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_c.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.ch Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1359/ts1359_c.BT Name of the line output file? /mnt/air65/airops/1359/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.764542937278748 Deskewing 38 patches Processing block number 1 DEBUG 101 105.0819 101.5336 -0.4999747 -0.4999747 patch iptc,sj,dgj,dgi,id: 1 1 101 101 0 half line dmj dgc: 0 945 105 101 Actual deskew ireclen: 20480 ** 1 1104 0 1104 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 1105 0 1104 patch iptc,sj,dgj,dgi,id: 1 1105 101 101 1104 half line dmj dgc: 1 945 105 101 Actual deskew ireclen: 20480 ** 1 1104 1 2208 Writing data negflag .eq. 0 sj>s1: 1105 1 Zeroing lines in arrays Total # of output lines = 1 1104 Processing block number 2 DEBUG 105 107.9565 104.7726 -0.4999729 -0.4999729 1105 1517 4 408 patch iptc,sj,dgj,dgi,id: 2 1517 105 101 408 half line dmj dgc: 0 2457 108 101 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1517 1105 Zeroing lines in arrays Total # of output lines = 2 1516 1517 2621 0 1104 patch iptc,sj,dgj,dgi,id: 2 2621 105 105 1104 half line dmj dgc: 1 2457 108 101 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2621 1517 Zeroing lines in arrays Total # of output lines = 2 2620 Processing block number 3 DEBUG 101 109.3049 100.8113 -0.4999729 -0.4999729 2621 3025 -4 408 patch iptc,sj,dgj,dgi,id: 3 3025 101 105 408 half line dmj dgc: 0 3969 109 101 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3025 2621 Zeroing lines in arrays Total # of output lines = 3 3024 3025 4129 0 1104 patch iptc,sj,dgj,dgi,id: 3 4129 101 101 1104 half line dmj dgc: 1 3969 109 101 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4129 3025 Zeroing lines in arrays Total # of output lines = 3 4128 Processing block number 4 DEBUG 94 108.4103 93.66900 -0.4999724 -0.4999724 4129 4530 -7 408 patch iptc,sj,dgj,dgi,id: 4 4530 94 101 408 half line dmj dgc: 0 5481 108 101 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4530 4129 Zeroing lines in arrays Total # of output lines = 4 4529 4530 5634 0 1104 patch iptc,sj,dgj,dgi,id: 4 5634 94 94 1104 half line dmj dgc: 1 5481 108 101 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5634 4530 Zeroing lines in arrays Total # of output lines = 4 5633 Processing block number 5 DEBUG 88 107.8918 87.88068 -0.4999716 -0.4999716 5634 6036 -6 408 patch iptc,sj,dgj,dgi,id: 5 6036 88 94 408 half line dmj dgc: 0 6993 108 101 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6036 5634 Zeroing lines in arrays Total # of output lines = 5 6035 6036 7140 0 1104 patch iptc,sj,dgj,dgi,id: 5 7140 88 88 1104 half line dmj dgc: 1 6993 108 101 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7140 6036 Zeroing lines in arrays Total # of output lines = 5 7139 Processing block number 6 DEBUG 82 107.5069 81.70383 -0.4999721 -0.4999721 7140 7542 -6 408 patch iptc,sj,dgj,dgi,id: 6 7542 82 88 408 half line dmj dgc: 0 8505 107 101 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 7542 7140 Zeroing lines in arrays Total # of output lines = 6 7541 7542 8646 0 1104 patch iptc,sj,dgj,dgi,id: 6 8646 82 82 1104 half line dmj dgc: 1 8505 107 101 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 8646 7542 Zeroing lines in arrays Total # of output lines = 6 8645 Processing block number 7 DEBUG 77 106.4404 77.34320 -0.4999705 -0.4999705 8646 9049 -5 408 patch iptc,sj,dgj,dgi,id: 7 9049 77 82 408 half line dmj dgc: 0 10017 106 101 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 9049 8646 Zeroing lines in arrays Total # of output lines = 7 9048 9049 10153 0 1104 patch iptc,sj,dgj,dgi,id: 7 10153 77 77 1104 half line dmj dgc: 1 10017 106 101 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 sj>s1: 10153 9049 Zeroing lines in arrays Total # of output lines = 7 10152 Processing block number 8 DEBUG 74 104.1039 73.78484 -0.4999726 -0.4999726 10153 10558 -3 408 patch iptc,sj,dgj,dgi,id: 8 10558 74 77 408 half line dmj dgc: 0 11529 104 101 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 10558 10153 Zeroing lines in arrays Total # of output lines = 8 10557 10558 11662 0 1104 patch iptc,sj,dgj,dgi,id: 8 11662 74 74 1104 half line dmj dgc: 1 11529 104 101 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 11662 10558 Zeroing lines in arrays Total # of output lines = 8 11661 Processing block number 9 DEBUG 73 100.9065 73.12112 -0.4999750 -0.4999750 11662 12069 -1 408 patch iptc,sj,dgj,dgi,id: 9 12069 73 74 408 half line dmj dgc: 0 13041 101 101 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 12069 11662 Zeroing lines in arrays Total # of output lines = 9 12068 12069 13173 0 1104 patch iptc,sj,dgj,dgi,id: 9 885 73 73 1104 half line dmj dgc: 1 13041 101 101 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 s1>sj: 12069 885 Zeroing lines in arrays Total # of output lines = 9 13172 Processing block number 10 DEBUG 65 95.07895 65.32178 -0.4999771 -0.4999771 885 1285 -8 408 patch iptc,sj,dgj,dgi,id: 10 1285 65 73 408 half line dmj dgc: 0 14553 95 101 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 1285 885 Zeroing lines in arrays Total # of output lines = 10 13572 1285 2389 0 1104 patch iptc,sj,dgj,dgi,id: 10 2389 65 65 1104 half line dmj dgc: 1 14553 95 101 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 2389 1285 Zeroing lines in arrays Total # of output lines = 10 14676 Processing block number 11 DEBUG 56 89.39788 56.00543 -0.4999786 -0.4999786 2389 2788 -9 408 patch iptc,sj,dgj,dgi,id: 11 2788 56 65 408 half line dmj dgc: 0 16065 89 101 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 2788 2389 Zeroing lines in arrays Total # of output lines = 11 15075 2788 3892 0 1104 patch iptc,sj,dgj,dgi,id: 11 3892 56 56 1104 half line dmj dgc: 1 16065 89 101 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 3892 2788 Zeroing lines in arrays Total # of output lines = 11 16179 Processing block number 12 DEBUG 63 90.96500 62.92188 -0.4999801 -0.4999801 3892 4307 7 408 patch iptc,sj,dgj,dgi,id: 12 4307 63 56 408 half line dmj dgc: 0 17577 91 101 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 4307 3892 Zeroing lines in arrays Total # of output lines = 12 16594 4307 5411 0 1104 patch iptc,sj,dgj,dgi,id: 12 5411 63 63 1104 half line dmj dgc: 1 17577 91 101 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 5411 4307 Zeroing lines in arrays Total # of output lines = 12 17698 Processing block number 13 DEBUG 92 100.2098 92.44505 -0.4999820 -0.4999820 5411 5848 29 408 patch iptc,sj,dgj,dgi,id: 13 5848 92 63 408 half line dmj dgc: 0 19089 100 101 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 5848 5411 Zeroing lines in arrays Total # of output lines = 13 18135 5848 6952 0 1104 patch iptc,sj,dgj,dgi,id: 13 6952 92 92 1104 half line dmj dgc: 1 19089 100 101 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 6952 5848 Zeroing lines in arrays Total # of output lines = 13 19239 Processing block number 14 DEBUG 112 112.2793 127.2832 -0.4999837 -0.4999837 6952 7380 20 408 patch iptc,sj,dgj,dgi,id: 14 7380 112 92 408 half line dmj dgc: 0 20601 127 101 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 sj>s1: 7380 6952 Zeroing lines in arrays Total # of output lines = 14 19667 7380 8484 0 1104 patch iptc,sj,dgj,dgi,id: 14 8484 112 112 1104 half line dmj dgc: 1 20601 127 101 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 8484 7380 Zeroing lines in arrays Total # of output lines = 14 20771 Processing block number 15 DEBUG 120 120.5348 143.7226 -0.4999824 -0.4999824 8484 8900 8 408 patch iptc,sj,dgj,dgi,id: 15 8900 120 112 408 half line dmj dgc: 0 22113 144 101 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 8900 8484 Zeroing lines in arrays Total # of output lines = 15 21187 8900 10004 0 1104 patch iptc,sj,dgj,dgi,id: 15 10004 120 120 1104 half line dmj dgc: 1 22113 144 101 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 10004 8900 Zeroing lines in arrays Total # of output lines = 15 22291 Processing block number 16 DEBUG 118 117.7240 118.4738 -0.4999793 -0.4999793 10004 10410 -2 408 patch iptc,sj,dgj,dgi,id: 16 10410 118 120 408 half line dmj dgc: 0 23625 118 101 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 10410 10004 Zeroing lines in arrays Total # of output lines = 16 22697 10410 11514 0 1104 patch iptc,sj,dgj,dgi,id: 16 11514 118 118 1104 half line dmj dgc: 1 23625 118 101 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 11514 10410 Zeroing lines in arrays Total # of output lines = 16 23801 Processing block number 17 DEBUG 53 103.8326 52.94836 -0.4999750 -0.4999750 11514 11857 -65 408 patch iptc,sj,dgj,dgi,id: 17 11857 53 118 408 half line dmj dgc: 0 25137 104 101 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 11857 11514 Zeroing lines in arrays Total # of output lines = 17 24144 11857 12961 0 1104 patch iptc,sj,dgj,dgi,id: 17 673 53 53 1104 half line dmj dgc: 1 25137 104 101 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 s1>sj: 11857 673 Zeroing lines in arrays Total # of output lines = 17 25248 Processing block number 18 DEBUG -26 86.14195 -26.23953 -0.4999634 -0.4999634 673 1002 -79 408 patch iptc,sj,dgj,dgi,id: 18 1002 -26 53 408 half line dmj dgc: 0 26649 86 101 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 1002 673 Zeroing lines in arrays Total # of output lines = 18 25577 1002 2106 0 1104 patch iptc,sj,dgj,dgi,id: 18 2106 -26 -26 1104 half line dmj dgc: 1 26649 86 101 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 2106 1002 Zeroing lines in arrays Total # of output lines = 18 26681 Processing block number 19 DEBUG -98 69.02508 -98.21704 -0.4999523 -0.4999523 2106 2442 -72 408 patch iptc,sj,dgj,dgi,id: 19 2442 -98 -26 408 half line dmj dgc: 0 28161 69 101 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 2442 2106 Zeroing lines in arrays Total # of output lines = 19 27017 2442 3546 0 1104 patch iptc,sj,dgj,dgi,id: 19 3546 -98 -98 1104 half line dmj dgc: 1 28161 69 101 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 3546 2442 Zeroing lines in arrays Total # of output lines = 19 28121 Processing block number 20 DEBUG -161 52.52418 -160.9987 -0.4999435 -0.4999435 3546 3891 -63 408 patch iptc,sj,dgj,dgi,id: 20 3891 -161 -98 408 half line dmj dgc: 0 29673 52 101 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 3891 3546 Zeroing lines in arrays Total # of output lines = 20 28466 3891 4995 0 1104 patch iptc,sj,dgj,dgi,id: 20 4995 -161 -161 1104 half line dmj dgc: 1 29673 52 101 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 sj>s1: 4995 3891 Zeroing lines in arrays Total # of output lines = 20 29570 Processing block number 21 DEBUG -214 40.45541 -213.6858 -0.4999314 -0.4999314 4995 5350 -53 408 patch iptc,sj,dgj,dgi,id: 21 5350 -214 -161 408 half line dmj dgc: 0 31185 40 101 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 5350 4995 Zeroing lines in arrays Total # of output lines = 21 29925 5350 6454 0 1104 patch iptc,sj,dgj,dgi,id: 21 6454 -214 -214 1104 half line dmj dgc: 1 31185 40 101 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 6454 5350 Zeroing lines in arrays Total # of output lines = 21 31029 Processing block number 22 DEBUG -255 32.32417 -254.9092 -0.4999196 -0.4999196 6454 6821 -41 408 patch iptc,sj,dgj,dgi,id: 22 6821 -255 -214 408 half line dmj dgc: 0 32697 32 101 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Writing data negflag .eq. 0 sj>s1: 6821 6454 Zeroing lines in arrays Total # of output lines = 22 31396 6821 7925 0 1104 patch iptc,sj,dgj,dgi,id: 22 7925 -255 -255 1104 half line dmj dgc: 1 32697 32 101 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 7925 6821 Zeroing lines in arrays Total # of output lines = 22 32500 Processing block number 23 DEBUG -286 24.35236 -286.1387 -0.4999149 -0.4999149 7925 8302 -31 408 patch iptc,sj,dgj,dgi,id: 23 8302 -286 -255 408 half line dmj dgc: 0 34209 24 101 Actual deskew ireclen: 20480 ** 23 1104 0 49680 Writing data negflag .eq. 0 sj>s1: 8302 7925 Zeroing lines in arrays Total # of output lines = 23 32877 8302 9406 0 1104 patch iptc,sj,dgj,dgi,id: 23 9406 -286 -286 1104 half line dmj dgc: 1 34209 24 101 Actual deskew ireclen: 20480 ** 23 1104 1 50784 Writing data negflag .eq. 0 sj>s1: 9406 8302 Zeroing lines in arrays Total # of output lines = 23 33981 Processing block number 24 DEBUG -314 14.30133 -314.0458 -0.4999127 -0.4999127 9406 9786 -28 408 patch iptc,sj,dgj,dgi,id: 24 9786 -314 -286 408 half line dmj dgc: 0 35721 14 101 Actual deskew ireclen: 20480 ** 24 1104 0 51888 Writing data negflag .eq. 0 sj>s1: 9786 9406 Zeroing lines in arrays Total # of output lines = 24 34361 9786 10890 0 1104 patch iptc,sj,dgj,dgi,id: 24 10890 -314 -314 1104 half line dmj dgc: 1 35721 14 101 Actual deskew ireclen: 20480 ** 24 1104 1 52992 Writing data negflag .eq. 0 sj>s1: 10890 9786 Zeroing lines in arrays Total # of output lines = 24 35465 Processing block number 25 DEBUG -326 9.052339 -325.5844 -0.4999093 -0.4999093 10890 11286 -12 408 patch iptc,sj,dgj,dgi,id: 25 11286 -326 -314 408 half line dmj dgc: 0 37233 9 101 Actual deskew ireclen: 20480 ** 25 1104 0 54096 Writing data negflag .eq. 0 sj>s1: 11286 10890 Zeroing lines in arrays Total # of output lines = 25 35861 11286 12390 0 1104 patch iptc,sj,dgj,dgi,id: 25 102 -326 -326 1104 half line dmj dgc: 1 37233 9 101 Actual deskew ireclen: 20480 ** 25 1104 1 55200 Writing data negflag .eq. 0 s1>sj: 11286 102 Zeroing lines in arrays Total # of output lines = 25 36965 Processing block number 26 DEBUG -325 6.166943 -325.3321 -0.4999186 -0.4999186 102 511 1 408 patch iptc,sj,dgj,dgi,id: 26 511 -325 -326 408 half line dmj dgc: 0 38745 6 101 Actual deskew ireclen: 20480 ** 26 1104 0 56304 Writing data negflag .eq. 0 sj>s1: 511 102 Zeroing lines in arrays Total # of output lines = 26 37374 511 1615 0 1104 patch iptc,sj,dgj,dgi,id: 26 1615 -325 -325 1104 half line dmj dgc: 1 38745 6 101 Actual deskew ireclen: 20480 ** 26 1104 1 57408 Writing data negflag .eq. 0 sj>s1: 1615 511 Zeroing lines in arrays Total # of output lines = 26 38478 Processing block number 27 DEBUG -323 3.381349 -322.5043 -0.4999260 -0.4999260 1615 2025 2 408 patch iptc,sj,dgj,dgi,id: 27 2025 -323 -325 408 half line dmj dgc: 0 40257 3 101 Actual deskew ireclen: 20480 ** 27 1104 0 58512 Writing data negflag .eq. 0 sj>s1: 2025 1615 Zeroing lines in arrays Total # of output lines = 27 38888 2025 3129 0 1104 patch iptc,sj,dgj,dgi,id: 27 3129 -323 -323 1104 half line dmj dgc: 1 40257 3 101 Actual deskew ireclen: 20480 ** 27 1104 1 59616 Writing data negflag .eq. 0 sj>s1: 3129 2025 Zeroing lines in arrays Total # of output lines = 27 39992 Processing block number 28 DEBUG -336 -2.685845 -335.6444 -0.4999264 -0.4999264 3129 3524 -13 408 patch iptc,sj,dgj,dgi,id: 28 3524 -336 -323 408 half line dmj dgc: 0 41769 -3 101 Actual deskew ireclen: 20480 ** 28 1104 0 60720 Writing data negflag .eq. 0 sj>s1: 3524 3129 Zeroing lines in arrays Total # of output lines = 28 40387 3524 4628 0 1104 patch iptc,sj,dgj,dgi,id: 28 4628 -336 -336 1104 half line dmj dgc: 1 41769 -3 101 Actual deskew ireclen: 20480 ** 28 1104 1 61824 Writing data negflag .eq. 0 sj>s1: 4628 3524 Zeroing lines in arrays Total # of output lines = 28 41491 Processing block number 29 DEBUG -366 -10.71719 -365.9597 -0.4999191 -0.4999191 4628 5006 -30 408 patch iptc,sj,dgj,dgi,id: 29 5006 -366 -336 408 half line dmj dgc: 0 43281 -11 101 Actual deskew ireclen: 20480 ** 29 1104 0 62928 Writing data negflag .eq. 0 sj>s1: 5006 4628 Zeroing lines in arrays Total # of output lines = 29 41869 5006 6110 0 1104 patch iptc,sj,dgj,dgi,id: 29 6110 -366 -366 1104 half line dmj dgc: 1 43281 -11 101 Actual deskew ireclen: 20480 ** 29 1104 1 64032 Writing data negflag .eq. 0 sj>s1: 6110 5006 Zeroing lines in arrays Total # of output lines = 29 42973 Processing block number 30 DEBUG -406 -19.34647 -406.3375 -0.4999068 -0.4999068 6110 6478 -40 408 patch iptc,sj,dgj,dgi,id: 30 6478 -406 -366 408 half line dmj dgc: 0 44793 -19 101 Actual deskew ireclen: 20480 ** 30 1104 0 65136 Writing data negflag .eq. 0 sj>s1: 6478 6110 Zeroing lines in arrays Total # of output lines = 30 43341 6478 7582 0 1104 patch iptc,sj,dgj,dgi,id: 30 7582 -406 -406 1104 half line dmj dgc: 1 44793 -19 101 Actual deskew ireclen: 20480 ** 30 1104 1 66240 Writing data negflag .eq. 0 sj>s1: 7582 6478 Zeroing lines in arrays Total # of output lines = 30 44445 Processing block number 31 DEBUG -441 -24.89920 -440.6626 -0.4998926 -0.4998926 7582 7955 -35 408 patch iptc,sj,dgj,dgi,id: 31 7955 -441 -406 408 half line dmj dgc: 0 46305 -25 101 Actual deskew ireclen: 20480 ** 31 1104 0 67344 Writing data negflag .eq. 0 sj>s1: 7955 7582 Zeroing lines in arrays Total # of output lines = 31 44818 7955 9059 0 1104 patch iptc,sj,dgj,dgi,id: 31 9059 -441 -441 1104 half line dmj dgc: 1 46305 -25 101 Actual deskew ireclen: 20480 ** 31 1104 1 68448 Writing data negflag .eq. 0 sj>s1: 9059 7955 Zeroing lines in arrays Total # of output lines = 31 45922 Processing block number 32 DEBUG -462 -26.67857 -461.9946 -0.4998877 -0.4998877 9059 9446 -21 408 patch iptc,sj,dgj,dgi,id: 32 9446 -462 -441 408 half line dmj dgc: 0 47817 -27 101 Actual deskew ireclen: 20480 ** 32 1104 0 69552 Writing data negflag .eq. 0 sj>s1: 9446 9059 Zeroing lines in arrays Total # of output lines = 32 46309 9446 10550 0 1104 patch iptc,sj,dgj,dgi,id: 32 10550 -462 -462 1104 half line dmj dgc: 1 47817 -27 101 Actual deskew ireclen: 20480 ** 32 1104 1 70656 Writing data negflag .eq. 0 sj>s1: 10550 9446 Zeroing lines in arrays Total # of output lines = 32 47413 Processing block number 33 DEBUG -469 -26.21439 -468.8519 -0.4998830 -0.4998830 10550 10951 -7 408 patch iptc,sj,dgj,dgi,id: 33 10951 -469 -462 408 half line dmj dgc: 0 49329 -26 101 Actual deskew ireclen: 20480 ** 33 1104 0 71760 Writing data negflag .eq. 0 sj>s1: 10951 10550 Zeroing lines in arrays Total # of output lines = 33 47814 10951 12055 0 1104 patch iptc,sj,dgj,dgi,id: 33 12055 -469 -469 1104 half line dmj dgc: 1 49329 -26 101 Actual deskew ireclen: 20480 ** 33 1104 1 72864 Writing data negflag .eq. 0 sj>s1: 12055 10951 Zeroing lines in arrays Total # of output lines = 33 48918 Processing block number 34 DEBUG -467 -25.63741 -466.7846 -0.4998872 -0.4998872 12055 12465 2 408 patch iptc,sj,dgj,dgi,id: 34 177 -467 -469 408 half line dmj dgc: 0 50841 -26 101 Actual deskew ireclen: 20480 ** 34 1104 0 73968 Writing data negflag .eq. 0 s1>sj: 12055 177 Zeroing lines in arrays Total # of output lines = 34 49328 177 1281 0 1104 patch iptc,sj,dgj,dgi,id: 34 1281 -467 -467 1104 half line dmj dgc: 1 50841 -26 101 Actual deskew ireclen: 20480 ** 34 1104 1 75072 Writing data negflag .eq. 0 sj>s1: 1281 177 Zeroing lines in arrays Total # of output lines = 34 50432 Processing block number 35 DEBUG -474 -28.88482 -473.5779 -0.4998964 -0.4998964 1281 1682 -7 408 patch iptc,sj,dgj,dgi,id: 35 1682 -474 -467 408 half line dmj dgc: 0 52353 -29 101 Actual deskew ireclen: 20480 ** 35 1104 0 76176 Writing data negflag .eq. 0 sj>s1: 1682 1281 Zeroing lines in arrays Total # of output lines = 35 50833 1682 2786 0 1104 patch iptc,sj,dgj,dgi,id: 35 2786 -474 -474 1104 half line dmj dgc: 1 52353 -29 101 Actual deskew ireclen: 20480 ** 35 1104 1 77280 Writing data negflag .eq. 0 sj>s1: 2786 1682 Zeroing lines in arrays Total # of output lines = 35 51937 Processing block number 36 DEBUG -515 -41.36586 -514.6526 -0.4998826 -0.4998826 2786 3153 -41 408 patch iptc,sj,dgj,dgi,id: 36 3153 -515 -474 408 half line dmj dgc: 0 53865 -41 101 Actual deskew ireclen: 20480 ** 36 1104 0 78384 Writing data negflag .eq. 0 sj>s1: 3153 2786 Zeroing lines in arrays Total # of output lines = 36 52304 3153 4257 0 1104 patch iptc,sj,dgj,dgi,id: 36 4257 -515 -515 1104 half line dmj dgc: 1 53865 -41 101 Actual deskew ireclen: 20480 ** 36 1104 1 79488 Writing data negflag .eq. 0 sj>s1: 4257 3153 Zeroing lines in arrays Total # of output lines = 36 53408 Processing block number 37 DEBUG -565 -54.36541 -564.6129 -0.4998573 -0.4998573 4257 4615 -50 408 patch iptc,sj,dgj,dgi,id: 37 4615 -565 -515 408 half line dmj dgc: 0 55377 -54 101 Actual deskew ireclen: 20480 ** 37 1104 0 80592 Writing data negflag .eq. 0 sj>s1: 4615 4257 Zeroing lines in arrays Total # of output lines = 37 53766 4615 5719 0 1104 patch iptc,sj,dgj,dgi,id: 37 5719 -565 -565 1104 half line dmj dgc: 1 55377 -54 101 Actual deskew ireclen: 20480 ** 37 1104 1 81696 Writing data negflag .eq. 0 sj>s1: 5719 4615 Zeroing lines in arrays Total # of output lines = 37 54870 Processing block number 38 DEBUG -585 -57.53911 -584.7260 -0.4998526 -0.4998526 5719 5066 -20 -633 patch iptc,sj,dgj,dgi,id: 38 5066 -585 -565 -633 half line dmj dgc: 0 55848 -58 101 Actual deskew ireclen: 20480 ** 38 1104 0 82800 Zeroing lines in arrays Total # of output lines = 38 54870 5719 6170 0 1104 patch iptc,sj,dgj,dgi,id: 38 6170 -585 -585 1104 half line dmj dgc: 1 55848 -58 101 Actual deskew ireclen: 20480 ** 38 1104 1 83904 Writing data negflag .eq. 0 sj>s1: 6170 5719 Zeroing lines in arrays Total # of output lines = 38 55321 ia dmi dgi: 6170 -58 -585 Writing the last 1631 lines last half sj>s1 7801 6170 55321 WAYNE done patche 180.8701869249344 Total # of output lines = 56952 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 56952 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 181.8197399377823 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 0 AZ patch size: 4096 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.vh00c Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_c.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 2208 data points per patch Near range (m) = 8102.270 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.200000 Radar wavelength (m) = 5.6699999E-02 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -0.5438000 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = 1.889000 1.726800 1.912000 Receive leverarm x,y,z = 1.872000 0.6771000 -0.3541000 Name of raw data file? /mnt/air62/airops/1359/c_vh Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_c.mocompv Output file name w/o ext? /mnt/air65/airops/1359/ts1359_c Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vh Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_c.vh_j *** ipol itop: 3 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.cv WAYNE init fft, calc slant range, load unpack, interpo 1.3461001E-02 reading motion compensation data WAYNE read motion compen 1.321368 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 98 40.00000 22.50000 90.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4676670 start range comp, time = 1.957 WAYNE PREV 1.818154 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -1.6498900E-04 7.8047598E-03 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 2.111 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 28.49669802188873 ATTN ifrq ipol ln 8 3 4096 21.00000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 6.2550306320190430E-03 TESTING -8.5000396E-03 61.60419 0.2928509 WAYNE Motion comp. added to patch, time = 8.469135046005249 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.1419992446899414E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 -8.5000396E-03 61.60419 0.2928509 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.6498900E-04 7.8047598E-03 WAYNE Azimuth compression done, time = 153.5257869958878 Writing 2208 lines of data to file WAYNE write output data 1.185738086700439 ==w out 1 0 945 0 WAYNE PROCESS 191.6882680654526 Processing block number 2 TESTING WHY -1.4803599E-04 8.0054598E-03 1512 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 193.800 seconds. TESTING 1513 before reading done reading WAYNE load raw data , time = 23.49298894405365 ATTN ifrq ipol ln 8 3 5608 21.00000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 5.9560537338256836E-03 TESTING -8.5000396E-03 61.01072 -8.3413363E-02 WAYNE Motion comp. added to patch, time = 8.006063938140869 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.6849508285522461E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 -8.5000396E-03 61.01072 -8.3413363E-02 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.4803599E-04 8.0054598E-03 WAYNE Azimuth compression done, time = 148.2932869195938 Writing 2208 lines of data to file WAYNE write output data 1.249698042869568 ==w out 2 2208 945 45219840 WAYNE PROCESS 181.0519549846649 Processing block number 3 TESTING WHY -3.9506299E-04 8.2445396E-03 1512 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 374.852 seconds. TESTING 3025 before reading done reading WAYNE load raw data , time = 23.42447495460510 ATTN ifrq ipol ln 8 3 7120 21.00000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 5.9430599212646484E-03 TESTING -8.5000396E-03 60.05396 -0.2910545 WAYNE Motion comp. added to patch, time = 8.011569023132324 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 2.5929212570190430E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z1 PROCESSING KID# 9 ..... WAYNE IS IN Processing 33 to 35 by # 8 Processing block number 33 WAYNE PATCHES: 48385 52480 patch# 33 reference line: 50432 2.218 seconds. before reading done reading WAYNE load raw data , time = 29.58040201663971 ATTN ifrq ipol ln 8 3 52480 21.00000 IPOL, ITOP nblock 3 0 33 WAYNE Motion comp. coeff. calculated, time = 6.4209699630737305E-03 WAYNE Motion comp. added to patch, time = 8.526898980140686 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.2809972763061523E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 180.5486910343170 Writing 2208 lines of data to file WAYNE write output data 1.331128001213074 ==w out 33 0 945 0 WAYNE PROCESS 219.9988939762115 Processing block number 34 WAYNE PATCHES: 49897 53992 patch# 34 reference line: 51944 222.217 seconds. before reading done reading WAYNE load raw data , time = 25.17353904247284 ATTN ifrq ipol ln 8 3 53992 21.00000 IPOL, ITOP nblock 3 0 34 WAYNE Motion comp. coeff. calculated, time = 6.4849853515625000E-03 WAYNE Motion comp. added to patch, time = 7.965083956718445 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 3.4749507904052734E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 201.7282099723816 Writing 2208 lines of data to file WAYNE write output data 1.507820963859558 ==w out 34 2208 945 45219840 WAYNE PROCESS 236.3864729404449 Processing block number 35 WAYNE PATCHES: 51409 55504 patch# 35 reference line: 53456 458.604 seconds. before reading done reading WAYNE load raw data , time = 25.20921897888184 ATTN ifrq ipol ln 8 3 55504 21.00000 IPOL, ITOP nblock 3 0 35 WAYNE Motion comp. coeff. calculated, time = 6.2539577484130859E-03 WAYNE Motion comp. added to patch, time = 7.960618972778320 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.6559829711914063E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 198.7824239730835 Writing 2208 lines of data to file WAYNE write output data 1.324053049087524 ==w out 35 4416 945 90439680 WAYNE PROCESS 233.2870819568634 ==w out 36 6627 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 6049 10144 patch# 5 reference line: 8096 2.128 seconds. before reading done reading WAYNE load raw data , time = 28.35257399082184 ATTN ifrq ipol ln 8 3 10144 21.00000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 6.3951015472412109E-03 WAYNE Motion comp. added to patch, time = 8.573462009429932 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.0620098114013672E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 180.7790429592133 Writing 2208 lines of data to file WAYNE write output data 1.335791110992432 ==w out 5 0 945 0 WAYNE PROCESS 219.0522130727768 Processing block number 6 WAYNE PATCHES: 7561 11656 patch# 6 reference line: 9608 221.181 seconds. before reading done reading WAYNE load raw data , time = 23.66428196430206 ATTN ifrq ipol ln 8 3 11656 21.00000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 6.5590143203735352E-03 WAYNE Motion comp. added to patch, time = 8.144340991973877 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9079914093017578E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 202.2896310091019 Writing 2208 lines of data to file WAYNE write output data 1.595398902893066 ==w out 6 2208 945 45219840 WAYNE PROCESS 235.7051239013672 Processing block number 7 WAYNE PATCHES: 9073 13168 patch# 7 reference line: 11120 456.886 seconds. before reading done reading WAYNE load raw data , time = 23.61702489852905 ATTN ifrq ipol ln 8 3 13168 21.00000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 6.9999694824218750E-03 WAYNE Motion comp. added to patch, time = 8.262105941772461 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6999711990356445E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 198.8658369779587 Writing 2208 lines of data to file WAYNE write output data 1.349056005477905 ==w out 7 4416 945 90439680 WAYNE PROCESS 232.1053520441055 Processing block number 8 WAYNE PATCHES: 10585 14680 patch# 8 reference line: 12632 688.992 seconds. before reading done reading WAYNE load raw data , time = 23.20380401611328 ATTN ifrq ipol ln 8 3 14680 21.00000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 7.5719356536865234E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 10 ..... WAYNE IS IN Processing 36 to 38 by # 9 Processing block number 36 WAYNE PATCHES: 52921 57016 patch# 36 reference line: 54968 2.228 seconds. before reading done reading WAYNE load raw data , time = 28.51648402214050 ATTN ifrq ipol ln 8 3 57016 21.00000 IPOL, ITOP nblock 3 0 36 WAYNE Motion comp. coeff. calculated, time = 6.4990520477294922E-03 WAYNE Motion comp. added to patch, time = 8.482056021690369 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9840469360351563E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 240.0106060504913 Writing 2208 lines of data to file WAYNE write output data 1.350005984306335 ==w out 36 0 945 0 WAYNE PROCESS 278.3705409765244 Processing block number 37 WAYNE PATCHES: 54433 58528 patch# 37 reference line: 56480 280.599 seconds. before reading done reading WAYNE load raw data , time = 23.43247401714325 ATTN ifrq ipol ln 8 3 58528 21.00000 IPOL, ITOP nblock 3 0 37 WAYNE Motion comp. coeff. calculated, time = 6.1019659042358398E-03 WAYNE Motion comp. added to patch, time = 8.048764944076538 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 3.1039714813232422E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 208.4715629816055 Writing 2208 lines of data to file WAYNE write output data 1.306956887245178 ==w out 37 2208 945 45219840 WAYNE PROCESS 241.2704828977585 Processing block number 38 WAYNE PATCHES: 54904 58999 patch# 38 reference line: 56951 521.870 seconds. before reading done reading WAYNE load raw data , time = 23.12325906753540 ATTN ifrq ipol ln 8 3 58999 21.00000 IPOL, ITOP nblock 3 0 38 WAYNE Motion comp. coeff. calculated, time = 6.2810182571411133E-03 WAYNE Motion comp. added to patch, time = 7.956346035003662 WAYNE Doppler estimation done, time = 2.5987625122070313E-05 WAYNE write deskew done, time = 2.5979280471801758E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 172.2238409519196 Writing 2208 lines of data to file WAYNE write output data 1.241545081138611 ==w out 38 4416 945 90439680 WAYNE PROCESS 204.5557150840759 ==w out 39 6627 0 -8.5000396E-03 60.05396 -0.2910545 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -3.9506299E-04 8.2445396E-03 WAYNE Azimuth compression done, time = 142.5960329771042 Writing 2208 lines of data to file WAYNE write output data 1.215960979461670 ==w out 3 4416 945 90439680 WAYNE PROCESS 175.2577730417252 Processing block number 4 TESTING WHY -6.8573700E-04 8.3444603E-03 1512 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 550.110 seconds. TESTING 4537 before reading done reading WAYNE load raw data , time = 23.45604503154755 ATTN ifrq ipol ln 8 3 8632 21.00000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 6.2240362167358398E-03 TESTING -8.5000396E-03 58.72937 -0.3456868 WAYNE Motion comp. added to patch, time = 8.041898965835571 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.6359558105468750E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 -8.5000396E-03 58.72937 -0.3456868 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.8573700E-04 8.3444603E-03 WAYNE Azimuth compression done, time = 149.3281049728394 Writing 2208 lines of data to file WAYNE write output data 1.148820042610168 ==w out 4 6624 945 135659520 WAYNE PROCESS 181.9849370718002 ==w out 5 8835 PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 20 by # 4 Processing block number 17 WAYNE PATCHES: 24193 28288 patch# 17 reference line: 26240 2.165 seconds. before reading done reading WAYNE load raw data , time = 28.54709005355835 ATTN ifrq ipol ln 8 3 28288 21.00000 IPOL, ITOP nblock 3 0 17 WAYNE Motion comp. coeff. calculated, time = 6.3650608062744141E-03 WAYNE Motion comp. added to patch, time = 8.770249962806702 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.6211013793945313E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 240.3726760149002 Writing 2208 lines of data to file WAYNE write output data 1.414860963821411 ==w out 17 0 945 0 WAYNE PROCESS 279.1165460348129 Processing block number 18 WAYNE PATCHES: 25705 29800 patch# 18 reference line: 27752 281.282 seconds. before reading done reading WAYNE load raw data , time = 23.49001705646515 ATTN ifrq ipol ln 8 3 29800 21.00000 IPOL, ITOP nblock 3 0 18 WAYNE Motion comp. coeff. calculated, time = 6.3719749450683594E-03 WAYNE Motion comp. added to patch, time = 8.349398970603943 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 3.0180215835571289E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 207.8067220449448 Writing 2208 lines of data to file WAYNE write output data 1.344469904899597 ==w out 18 2208 945 45219840 WAYNE PROCESS 241.0021989345551 Processing block number 19 WAYNE PATCHES: 27217 31312 patch# 19 reference line: 29264 522.285 seconds. before reading done reading WAYNE load raw data , time = 23.31066203117371 ATTN ifrq ipol ln 8 3 31312 21.00000 IPOL, ITOP nblock 3 0 19 WAYNE Motion comp. coeff. calculated, time = 6.4060688018798828E-03 WAYNE Motion comp. added to patch, time = 8.124773025512695 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.8899908065795898E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 170.3820810317993 Writing 2208 lines of data to file WAYNE write output data 1.157531023025513 ==w out 19 4416 945 90439680 WAYNE PROCESS 202.9860429763794 Processing block number 20 WAYNE PATCHES: 28729 32824 patch# 20 reference line: 30776 725.271 seconds. before reading done reading WAYNE load raw data , time = 23.02309298515320 ATTN ifrq ipol ln 8 3 32824 21.00000 IPOL, ITOP nblock 3 0 20 WAYNE Motion comp. coeff. calculated, time = 5.7159662246704102E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 6 ..... WAYNE IS IN Processing 21 to 24 by # 5 Processing block number 21 WAYNE PATCHES: 30241 34336 patch# 21 reference line: 32288 2.180 seconds. before reading done reading WAYNE load raw data , time = 28.31336498260498 ATTN ifrq ipol ln 8 3 34336 21.00000 IPOL, ITOP nblock 3 0 21 WAYNE Motion comp. coeff. calculated, time = 6.7070722579956055E-03 WAYNE Motion comp. added to patch, time = 8.408519029617310 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9489994049072266E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 228.7515920400620 Writing 2208 lines of data to file WAYNE write output data 1.366765022277832 ==w out 21 0 945 0 WAYNE PROCESS 266.8518021106720 Processing block number 22 WAYNE PATCHES: 31753 35848 patch# 22 reference line: 33800 269.032 seconds. before reading done reading WAYNE load raw data , time = 23.08709096908569 ATTN ifrq ipol ln 8 3 35848 21.00000 IPOL, ITOP nblock 3 0 22 WAYNE Motion comp. coeff. calculated, time = 7.3560476303100586E-03 WAYNE Motion comp. added to patch, time = 8.146142005920410 WAYNE Doppler estimation done, time = 1.5974044799804688E-05 WAYNE write deskew done, time = 2.9779672622680664E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 200.2179518938065 Writing 2208 lines of data to file WAYNE write output data 1.395426988601685 ==w out 22 2208 945 45219840 WAYNE PROCESS 232.8587429523468 Processing block number 23 WAYNE PATCHES: 33265 37360 patch# 23 reference line: 35312 501.891 seconds. before reading done reading WAYNE load raw data , time = 23.10400998592377 ATTN ifrq ipol ln 8 3 37360 21.00000 IPOL, ITOP nblock 3 0 23 WAYNE Motion comp. coeff. calculated, time = 5.9241056442260742E-03 WAYNE Motion comp. added to patch, time = 8.133081078529358 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 2.7880668640136719E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 192.0066030025482 Writing 2208 lines of data to file WAYNE write output data 1.272465944290161 ==w out 23 4416 945 90439680 WAYNE PROCESS 224.5263810157776 Processing block number 24 WAYNE PATCHES: 34777 38872 patch# 24 reference line: 36824 726.418 seconds. before reading done reading WAYNE load raw data , time = 22.83303201198578 ATTN ifrq ipol ln 8 3 38872 21.00000 IPOL, ITOP nblock 3 0 24 WAYNE Motion comp. coeff. calculated, time = 5.6799650192260742E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 8 ..... WAYNE IS IN Processing 29 to 32 by # 7 Processing block number 29 WAYNE PATCHES: 42337 46432 patch# 29 reference line: 44384 2.204 seconds. before reading done reading WAYNE load raw data , time = 28.21431601047516 ATTN ifrq ipol ln 8 3 46432 21.00000 IPOL, ITOP nblock 3 0 29 WAYNE Motion comp. coeff. calculated, time = 6.3199996948242188E-03 WAYNE Motion comp. added to patch, time = 8.489482998847961 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.3040046691894531E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 213.2985659837723 Writing 2208 lines of data to file WAYNE write output data 1.277847051620483 ==w out 29 0 945 0 WAYNE PROCESS 251.2915680408478 Processing block number 30 WAYNE PATCHES: 43849 47944 patch# 30 reference line: 45896 253.496 seconds. before reading done reading WAYNE load raw data , time = 23.19183409214020 ATTN ifrq ipol ln 8 3 47944 21.00000 IPOL, ITOP nblock 3 0 30 WAYNE Motion comp. coeff. calculated, time = 5.7859420776367188E-03 WAYNE Motion comp. added to patch, time = 7.909983992576599 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5070905685424805E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 209.4782010316849 Writing 2208 lines of data to file WAYNE write output data 1.315795063972473 ==w out 30 2208 945 45219840 WAYNE PROCESS 241.9057329893112 Processing block number 31 WAYNE PATCHES: 45361 49456 patch# 31 reference line: 47408 495.402 seconds. before reading done reading WAYNE load raw data , time = 23.13033604621887 ATTN ifrq ipol ln 8 3 49456 21.00000 IPOL, ITOP nblock 3 0 31 WAYNE Motion comp. coeff. calculated, time = 5.8079957962036133E-03 WAYNE Motion comp. added to patch, time = 7.877991080284119 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5030374526977539E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 221.0517760515213 Writing 2208 lines of data to file WAYNE write output data 1.076595067977905 ==w out 31 4416 945 90439680 WAYNE PROCESS 253.1463180780411 Processing block number 32 WAYNE PATCHES: 46873 50968 patch# 32 reference line: 48920 748.548 seconds. before reading done reading WAYNE load raw data , time = 22.78412401676178 ATTN ifrq ipol ln 8 3 50968 21.00000 IPOL, ITOP nblock 3 0 32 WAYNE Motion comp. coeff. calculated, time = 5.7870149612426758E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 12097 16192 patch# 9 reference line: 14144 2.138 seconds. before reading done reading WAYNE load raw data , time = 28.54118406772614 ATTN ifrq ipol ln 8 3 16192 21.00000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 6.4259767532348633E-03 WAYNE Motion comp. added to patch, time = 8.607015013694763 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.7639141082763672E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 214.5405430793762 Writing 2208 lines of data to file WAYNE write output data 1.334413886070251 ==w out 9 0 945 0 WAYNE PROCESS 253.0352458953857 Processing block number 10 WAYNE PATCHES: 13609 17704 patch# 10 reference line: 15656 255.174 seconds. before reading done reading WAYNE load raw data , time = 23.26108098030090 ATTN ifrq ipol ln 8 3 17704 21.00000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 5.7339668273925781E-03 WAYNE Motion comp. added to patch, time = 8.096334934234619 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6389360427856445E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 209.7979429960251 Writing 2208 lines of data to file WAYNE write output data 1.284770011901855 ==w out 10 2208 945 45219840 WAYNE PROCESS 242.4498970508575 Processing block number 11 WAYNE PATCHES: 15121 19216 patch# 11 reference line: 17168 497.624 seconds. before reading done reading WAYNE load raw data , time = 23.21364796161652 ATTN ifrq ipol ln 8 3 19216 21.00000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 6.0999393463134766E-03 WAYNE Motion comp. added to patch, time = 8.182619929313660 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4579763412475586E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 220.5627740621567 Writing 2208 lines of data to file WAYNE write output data 1.084072947502136 ==w out 11 4416 945 90439680 WAYNE PROCESS 253.0531530380249 Processing block number 12 WAYNE PATCHES: 16633 20728 patch# 12 reference line: 18680 750.677 seconds. before reading done reading WAYNE load raw data , time = 22.89657998085022 ATTN ifrq ipol ln 8 3 20728 21.00000 IPOL, ITOP nblock 3 0 12 WAYNE Motion comp. coeff. calculated, time = 5.9249401092529297E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 7 ..... WAYNE IS IN Processing 25 to 28 by # 6 Processing block number 25 WAYNE PATCHES: 36289 40384 patch# 25 reference line: 38336 2.194 seconds. before reading done reading WAYNE load raw data , time = 29.49717903137207 ATTN ifrq ipol ln 8 3 40384 21.00000 IPOL, ITOP nblock 3 0 25 WAYNE Motion comp. coeff. calculated, time = 6.5140724182128906E-03 WAYNE Motion comp. added to patch, time = 8.566362977027893 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.4840106964111328E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 214.5162969827652 Writing 2208 lines of data to file WAYNE write output data 1.351617932319641 ==w out 25 0 945 0 WAYNE PROCESS 253.9434019327164 Processing block number 26 WAYNE PATCHES: 37801 41896 patch# 26 reference line: 39848 256.137 seconds. before reading done reading WAYNE load raw data , time = 24.75966405868530 ATTN ifrq ipol ln 8 3 41896 21.00000 IPOL, ITOP nblock 3 0 26 WAYNE Motion comp. coeff. calculated, time = 6.7700147628784180E-03 WAYNE Motion comp. added to patch, time = 7.852782011032104 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7199983596801758E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 210.2273190021515 Writing 2208 lines of data to file WAYNE write output data 1.251980066299438 ==w out 26 2208 945 45219840 WAYNE PROCESS 244.1026660203934 Processing block number 27 WAYNE PATCHES: 39313 43408 patch# 27 reference line: 41360 500.240 seconds. before reading done reading WAYNE load raw data , time = 24.67425191402435 ATTN ifrq ipol ln 8 3 43408 21.00000 IPOL, ITOP nblock 3 0 27 WAYNE Motion comp. coeff. calculated, time = 5.8969259262084961E-03 WAYNE Motion comp. added to patch, time = 7.977862954139709 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.7529001235961914E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 219.4065330028534 Writing 2208 lines of data to file WAYNE write output data 1.076036930084229 ==w out 27 4416 945 90439680 WAYNE PROCESS 253.1451189517975 Processing block number 28 WAYNE PATCHES: 40825 44920 patch# 28 reference line: 42872 753.386 seconds. before reading done reading WAYNE load raw data , time = 24.27487695217133 ATTN ifrq ipol ln 8 3 44920 21.00000 IPOL, ITOP nblock 3 0 28 WAYNE Motion comp. coeff. calculated, time = 5.8070421218872070E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 18145 22240 patch# 13 reference line: 20192 2.151 seconds. before reading done reading WAYNE load raw data , time = 28.47777807712555 ATTN ifrq ipol ln 8 3 22240 21.00000 IPOL, ITOP nblock 3 0 13 WAYNE Motion comp. coeff. calculated, time = 6.6250562667846680E-03 WAYNE Motion comp. added to patch, time = 8.906777024269104 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.6079883575439453E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 240.3332120180130 Writing 2208 lines of data to file WAYNE write output data 1.413257002830505 ==w out 13 0 945 0 WAYNE PROCESS 279.1431540250778 Processing block number 14 WAYNE PATCHES: 19657 23752 patch# 14 reference line: 21704 281.294 seconds. before reading done reading WAYNE load raw data , time = 23.79218494892120 ATTN ifrq ipol ln 8 3 23752 21.00000 IPOL, ITOP nblock 3 0 14 WAYNE Motion comp. coeff. calculated, time = 6.5759420394897461E-03 WAYNE Motion comp. added to patch, time = 8.543429017066956 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.3000707626342773E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 207.7556899785995 Writing 2208 lines of data to file WAYNE write output data 1.300664067268372 ==w out 14 2208 945 45219840 WAYNE PROCESS 241.4034759998322 Processing block number 15 WAYNE PATCHES: 21169 25264 patch# 15 reference line: 23216 522.698 seconds. before reading done reading WAYNE load raw data , time = 23.47625601291656 ATTN ifrq ipol ln 8 3 25264 21.00000 IPOL, ITOP nblock 3 0 15 WAYNE Motion comp. coeff. calculated, time = 6.4440965652465820E-03 WAYNE Motion comp. added to patch, time = 8.436202049255371 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.0670166015625000E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 211.9723860025406 Writing 2208 lines of data to file WAYNE write output data 1.096119046211243 ==w out 15 4416 945 90439680 WAYNE PROCESS 244.9921809434891 Processing block number 16 WAYNE PATCHES: 22681 26776 patch# 16 reference line: 24728 767.691 seconds. before reading done reading WAYNE load raw data , time = 23.31638407707214 ATTN ifrq ipol ln 8 3 26776 21.00000 IPOL, ITOP nblock 3 0 16 WAYNE Motion comp. coeff. calculated, time = 6.9940090179443359E-03 WAYNE Motion comp. added to patch, time = 8.101433038711548 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3679733276367188E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 143.0613369941711 Writing 2208 lines of data to file WAYNE write output data 1.187137007713318 ==w out 8 6624 945 135659520 WAYNE PROCESS 175.5657279491425 ==w out 9 8835 = 7.820065975189209 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.0520687103271484E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 135.5991719961166 Writing 2208 lines of data to file WAYNE write output data 1.107798933982849 ==w out 20 6624 945 135659520 WAYNE PROCESS 167.5600049495697 ==w out 21 8835 = 7.871279001235962 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0560026168823242E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 139.9456189870834 Writing 2208 lines of data to file WAYNE write output data 1.100921988487244 ==w out 24 6624 945 135659520 WAYNE PROCESS 171.7604379653931 ==w out 25 8835 = 7.801396012306213 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 2.0469427108764648E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 150.8139740228653 Writing 2208 lines of data to file WAYNE write output data 1.059358954429626 ==w out 32 6624 945 135659520 WAYNE PROCESS 182.4686720371246 ==w out 33 8835 = 8.166365981101990 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.0890235900878906E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 150.8458850383759 Writing 2208 lines of data to file WAYNE write output data 1.063174962997437 ==w out 12 6624 945 135659520 WAYNE PROCESS 182.9817370176315 ==w out 13 8835 = 7.923041939735413 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.1990537643432617E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 150.5015949010849 Writing 2208 lines of data to file WAYNE write output data 1.068922996520996 ==w out 28 6624 945 135659520 WAYNE PROCESS 183.7784829139709 ==w out 29 8835 = 8.367897987365723 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.0619630813598633E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 148.2303940057755 Writing 2208 lines of data to file WAYNE write output data 1.057760000228882 ==w out 16 6624 945 135659520 WAYNE PROCESS 180.9834729433060 ==w out 17 8835 1 77618 0 2 77591 0 3 77598 0 4 77612 0 5 77609 0 6 77613 0 7 77608 0 8 77607 0 9 77611 0 10 77610 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 83904kids= 10 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 4 gather image from processor # 5 4 gather image from processor # 6 4 gather image from processor # 7 4 gather image from processor # 8 3 gather image from processor # 9 3 WAYNE gather images takes: 5.9069037437438965E-02 WAYNE LOOP TIME: 956.9692959785461 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_c.vh_j /mnt/air65/airops/1359/ts1359_c.mocompv /mnt/air65/airops/1359/ts1359_c.dop /mnt/air65/airops/1359/ts1359_c.glb 2560 83904 update intf hdr ha: 7045.200 UPDATE: 2560 83904 3.331000 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_c.mocompv dopfile /mnt/air65/airops/1359/ts1359_c.dop globalfile /mnt/air65/airops/1359/ts1359_c.glb /mnt/air65/airops/1359/ts1359_c.glb 35 deskew line ra ha trc: 54.32829 105 8108.036 7045.200 -91.16894 after deskew line ra ha trc: 54.32829 105 8108.036 7045.200 -91.16894 lat1 lon1: 105 64.49897 -147.0439 83904 last ra n_ns ns: 8108.036 2 2 84008 83904 lati loni: 84008 64.49891 -147.9620 84008 2 center ra n_ns ns: 12368.38 1281 1281 42056 83904 lati loni: 42056 64.46047 -147.5018 42056 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_c.vh_j WAYNE FINAL PROCESS 959.0051400661469 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 6624 3 6624 3 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_c.vh_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_c.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.cv Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1359/ts1359_c.TB Name of the line output file? /mnt/air65/airops/1359/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.353852987289429 Deskewing 38 patches Processing block number 1 DEBUG 101 105.6150 102.0666 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 101 101 0 half line dmj dgc: 0 945 105 101 Actual deskew ireclen: 20480 ** 1 1104 0 1104 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 1105 0 1104 patch iptc,sj,dgj,dgi,id: 1 1105 101 101 1104 half line dmj dgc: 1 945 105 101 Actual deskew ireclen: 20480 ** 1 1104 1 2208 Writing data negflag .eq. 0 sj>s1: 1105 1 Zeroing lines in arrays Total # of output lines = 1 1104 Processing block number 2 DEBUG 105 108.4895 105.3056 0.0000000E+00 0.0000000E+00 1105 1517 4 408 patch iptc,sj,dgj,dgi,id: 2 1517 105 101 408 half line dmj dgc: 0 2457 108 101 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1517 1105 Zeroing lines in arrays Total # of output lines = 2 1516 1517 2621 0 1104 patch iptc,sj,dgj,dgi,id: 2 2621 105 105 1104 half line dmj dgc: 1 2457 108 101 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2621 1517 Zeroing lines in arrays Total # of output lines = 2 2620 Processing block number 3 DEBUG 101 109.8379 101.3443 0.0000000E+00 0.0000000E+00 2621 3025 -4 408 patch iptc,sj,dgj,dgi,id: 3 3025 101 105 408 half line dmj dgc: 0 3969 109 101 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3025 2621 Zeroing lines in arrays Total # of output lines = 3 3024 3025 4129 0 1104 patch iptc,sj,dgj,dgi,id: 3 4129 101 101 1104 half line dmj dgc: 1 3969 109 101 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4129 3025 Zeroing lines in arrays Total # of output lines = 3 4128 Processing block number 4 DEBUG 94 108.9433 94.20201 0.0000000E+00 0.0000000E+00 4129 4530 -7 408 patch iptc,sj,dgj,dgi,id: 4 4530 94 101 408 half line dmj dgc: 0 5481 108 101 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4530 4129 Zeroing lines in arrays Total # of output lines = 4 4529 4530 5634 0 1104 patch iptc,sj,dgj,dgi,id: 4 5634 94 94 1104 half line dmj dgc: 1 5481 108 101 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5634 4530 Zeroing lines in arrays Total # of output lines = 4 5633 Processing block number 5 DEBUG 88 108.4248 88.41370 0.0000000E+00 0.0000000E+00 5634 6036 -6 408 patch iptc,sj,dgj,dgi,id: 5 6036 88 94 408 half line dmj dgc: 0 6993 108 101 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6036 5634 Zeroing lines in arrays Total # of output lines = 5 6035 6036 7140 0 1104 patch iptc,sj,dgj,dgi,id: 5 7140 88 88 1104 half line dmj dgc: 1 6993 108 101 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7140 6036 Zeroing lines in arrays Total # of output lines = 5 7139 Processing block number 6 DEBUG 82 108.0399 82.23685 0.0000000E+00 0.0000000E+00 7140 7542 -6 408 patch iptc,sj,dgj,dgi,id: 6 7542 82 88 408 half line dmj dgc: 0 8505 107 101 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 7542 7140 Zeroing lines in arrays Total # of output lines = 6 7541 7542 8646 0 1104 patch iptc,sj,dgj,dgi,id: 6 8646 82 82 1104 half line dmj dgc: 1 8505 107 101 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 8646 7542 Zeroing lines in arrays Total # of output lines = 6 8645 Processing block number 7 DEBUG 77 106.9734 77.87621 0.0000000E+00 0.0000000E+00 8646 9049 -5 408 patch iptc,sj,dgj,dgi,id: 7 9049 77 82 408 half line dmj dgc: 0 10017 106 101 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 9049 8646 Zeroing lines in arrays Total # of output lines = 7 9048 9049 10153 0 1104 patch iptc,sj,dgj,dgi,id: 7 10153 77 77 1104 half line dmj dgc: 1 10017 106 101 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 sj>s1: 10153 9049 Zeroing lines in arrays Total # of output lines = 7 10152 Processing block number 8 DEBUG 74 104.6369 74.31785 0.0000000E+00 0.0000000E+00 10153 10558 -3 408 patch iptc,sj,dgj,dgi,id: 8 10558 74 77 408 half line dmj dgc: 0 11529 104 101 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 10558 10153 Zeroing lines in arrays Total # of output lines = 8 10557 10558 11662 0 1104 patch iptc,sj,dgj,dgi,id: 8 11662 74 74 1104 half line dmj dgc: 1 11529 104 101 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 11662 10558 Zeroing lines in arrays Total # of output lines = 8 11661 Processing block number 9 DEBUG 73 101.4395 73.65414 0.0000000E+00 0.0000000E+00 11662 12069 -1 408 patch iptc,sj,dgj,dgi,id: 9 12069 73 74 408 half line dmj dgc: 0 13041 101 101 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 12069 11662 Zeroing lines in arrays Total # of output lines = 9 12068 12069 13173 0 1104 patch iptc,sj,dgj,dgi,id: 9 885 73 73 1104 half line dmj dgc: 1 13041 101 101 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 s1>sj: 12069 885 Zeroing lines in arrays Total # of output lines = 9 13172 Processing block number 10 DEBUG 65 95.61197 65.85480 0.0000000E+00 0.0000000E+00 885 1285 -8 408 patch iptc,sj,dgj,dgi,id: 10 1285 65 73 408 half line dmj dgc: 0 14553 95 101 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 1285 885 Zeroing lines in arrays Total # of output lines = 10 13572 1285 2389 0 1104 patch iptc,sj,dgj,dgi,id: 10 2389 65 65 1104 half line dmj dgc: 1 14553 95 101 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 2389 1285 Zeroing lines in arrays Total # of output lines = 10 14676 Processing block number 11 DEBUG 56 89.93090 56.53845 0.0000000E+00 0.0000000E+00 2389 2788 -9 408 patch iptc,sj,dgj,dgi,id: 11 2788 56 65 408 half line dmj dgc: 0 16065 89 101 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 2788 2389 Zeroing lines in arrays Total # of output lines = 11 15075 2788 3892 0 1104 patch iptc,sj,dgj,dgi,id: 11 3892 56 56 1104 half line dmj dgc: 1 16065 89 101 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 3892 2788 Zeroing lines in arrays Total # of output lines = 11 16179 Processing block number 12 DEBUG 63 91.49802 63.45491 0.0000000E+00 0.0000000E+00 3892 4307 7 408 patch iptc,sj,dgj,dgi,id: 12 4307 63 56 408 half line dmj dgc: 0 17577 91 101 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 4307 3892 Zeroing lines in arrays Total # of output lines = 12 16594 4307 5411 0 1104 patch iptc,sj,dgj,dgi,id: 12 5411 63 63 1104 half line dmj dgc: 1 17577 91 101 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 5411 4307 Zeroing lines in arrays Total # of output lines = 12 17698 Processing block number 13 DEBUG 92 100.7429 92.97808 0.0000000E+00 0.0000000E+00 5411 5848 29 408 patch iptc,sj,dgj,dgi,id: 13 5848 92 63 408 half line dmj dgc: 0 19089 100 101 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 5848 5411 Zeroing lines in arrays Total # of output lines = 13 18135 5848 6952 0 1104 patch iptc,sj,dgj,dgi,id: 13 6952 92 92 1104 half line dmj dgc: 1 19089 100 101 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 6952 5848 Zeroing lines in arrays Total # of output lines = 13 19239 Processing block number 14 DEBUG 112 112.8123 127.8162 0.0000000E+00 0.0000000E+00 6952 7380 20 408 patch iptc,sj,dgj,dgi,id: 14 7380 112 92 408 half line dmj dgc: 0 20601 127 101 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 sj>s1: 7380 6952 Zeroing lines in arrays Total # of output lines = 14 19667 7380 8484 0 1104 patch iptc,sj,dgj,dgi,id: 14 8484 112 112 1104 half line dmj dgc: 1 20601 127 101 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 8484 7380 Zeroing lines in arrays Total # of output lines = 14 20771 Processing block number 15 DEBUG 120 121.0678 144.2556 0.0000000E+00 0.0000000E+00 8484 8900 8 408 patch iptc,sj,dgj,dgi,id: 15 8900 120 112 408 half line dmj dgc: 0 22113 144 101 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 8900 8484 Zeroing lines in arrays Total # of output lines = 15 21187 8900 10004 0 1104 patch iptc,sj,dgj,dgi,id: 15 10004 120 120 1104 half line dmj dgc: 1 22113 144 101 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 10004 8900 Zeroing lines in arrays Total # of output lines = 15 22291 Processing block number 16 DEBUG 118 118.2570 119.0069 0.0000000E+00 0.0000000E+00 10004 10410 -2 408 patch iptc,sj,dgj,dgi,id: 16 10410 118 120 408 half line dmj dgc: 0 23625 118 101 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 10410 10004 Zeroing lines in arrays Total # of output lines = 16 22697 10410 11514 0 1104 patch iptc,sj,dgj,dgi,id: 16 11514 118 118 1104 half line dmj dgc: 1 23625 118 101 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 11514 10410 Zeroing lines in arrays Total # of output lines = 16 23801 Processing block number 17 DEBUG 53 104.3656 53.48137 0.0000000E+00 0.0000000E+00 11514 11857 -65 408 patch iptc,sj,dgj,dgi,id: 17 11857 53 118 408 half line dmj dgc: 0 25137 104 101 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 11857 11514 Zeroing lines in arrays Total # of output lines = 17 24144 11857 12961 0 1104 patch iptc,sj,dgj,dgi,id: 17 673 53 53 1104 half line dmj dgc: 1 25137 104 101 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 s1>sj: 11857 673 Zeroing lines in arrays Total # of output lines = 17 25248 Processing block number 18 DEBUG -26 86.67496 -25.70652 0.0000000E+00 0.0000000E+00 673 1002 -79 408 patch iptc,sj,dgj,dgi,id: 18 1002 -26 53 408 half line dmj dgc: 0 26649 86 101 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 1002 673 Zeroing lines in arrays Total # of output lines = 18 25577 1002 2106 0 1104 patch iptc,sj,dgj,dgi,id: 18 2106 -26 -26 1104 half line dmj dgc: 1 26649 86 101 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 2106 1002 Zeroing lines in arrays Total # of output lines = 18 26681 Processing block number 19 DEBUG -98 69.55807 -97.68404 0.0000000E+00 0.0000000E+00 2106 2442 -72 408 patch iptc,sj,dgj,dgi,id: 19 2442 -98 -26 408 half line dmj dgc: 0 28161 69 101 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 2442 2106 Zeroing lines in arrays Total # of output lines = 19 27017 2442 3546 0 1104 patch iptc,sj,dgj,dgi,id: 19 3546 -98 -98 1104 half line dmj dgc: 1 28161 69 101 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 3546 2442 Zeroing lines in arrays Total # of output lines = 19 28121 Processing block number 20 DEBUG -161 53.05717 -160.4657 0.0000000E+00 0.0000000E+00 3546 3891 -63 408 patch iptc,sj,dgj,dgi,id: 20 3891 -161 -98 408 half line dmj dgc: 0 29673 52 101 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 3891 3546 Zeroing lines in arrays Total # of output lines = 20 28466 3891 4995 0 1104 patch iptc,sj,dgj,dgi,id: 20 4995 -161 -161 1104 half line dmj dgc: 1 29673 52 101 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 sj>s1: 4995 3891 Zeroing lines in arrays Total # of output lines = 20 29570 Processing block number 21 DEBUG -214 40.98838 -213.1528 0.0000000E+00 0.0000000E+00 4995 5350 -53 408 patch iptc,sj,dgj,dgi,id: 21 5350 -214 -161 408 half line dmj dgc: 0 31185 40 101 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 5350 4995 Zeroing lines in arrays Total # of output lines = 21 29925 5350 6454 0 1104 patch iptc,sj,dgj,dgi,id: 21 6454 -214 -214 1104 half line dmj dgc: 1 31185 40 101 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 6454 5350 Zeroing lines in arrays Total # of output lines = 21 31029 Processing block number 22 DEBUG -255 32.85714 -254.3762 0.0000000E+00 0.0000000E+00 6454 6821 -41 408 patch iptc,sj,dgj,dgi,id: 22 6821 -255 -214 408 half line dmj dgc: 0 32697 32 101 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Writing data negflag .eq. 0 sj>s1: 6821 6454 Zeroing lines in arrays Total # of output lines = 22 31396 6821 7925 0 1104 patch iptc,sj,dgj,dgi,id: 22 7925 -255 -255 1104 half line dmj dgc: 1 32697 32 101 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 7925 6821 Zeroing lines in arrays Total # of output lines = 22 32500 Processing block number 23 DEBUG -286 24.88532 -285.6058 0.0000000E+00 0.0000000E+00 7925 8302 -31 408 patch iptc,sj,dgj,dgi,id: 23 8302 -286 -255 408 half line dmj dgc: 0 34209 24 101 Actual deskew ireclen: 20480 ** 23 1104 0 49680 Writing data negflag .eq. 0 sj>s1: 8302 7925 Zeroing lines in arrays Total # of output lines = 23 32877 8302 9406 0 1104 patch iptc,sj,dgj,dgi,id: 23 9406 -286 -286 1104 half line dmj dgc: 1 34209 24 101 Actual deskew ireclen: 20480 ** 23 1104 1 50784 Writing data negflag .eq. 0 sj>s1: 9406 8302 Zeroing lines in arrays Total # of output lines = 23 33981 Processing block number 24 DEBUG -314 14.83429 -313.5128 0.0000000E+00 0.0000000E+00 9406 9786 -28 408 patch iptc,sj,dgj,dgi,id: 24 9786 -314 -286 408 half line dmj dgc: 0 35721 14 101 Actual deskew ireclen: 20480 ** 24 1104 0 51888 Writing data negflag .eq. 0 sj>s1: 9786 9406 Zeroing lines in arrays Total # of output lines = 24 34361 9786 10890 0 1104 patch iptc,sj,dgj,dgi,id: 24 10890 -314 -314 1104 half line dmj dgc: 1 35721 14 101 Actual deskew ireclen: 20480 ** 24 1104 1 52992 Writing data negflag .eq. 0 sj>s1: 10890 9786 Zeroing lines in arrays Total # of output lines = 24 35465 Processing block number 25 DEBUG -326 9.585295 -325.0514 0.0000000E+00 0.0000000E+00 10890 11286 -12 408 patch iptc,sj,dgj,dgi,id: 25 11286 -326 -314 408 half line dmj dgc: 0 37233 9 101 Actual deskew ireclen: 20480 ** 25 1104 0 54096 Writing data negflag .eq. 0 sj>s1: 11286 10890 Zeroing lines in arrays Total # of output lines = 25 35861 11286 12390 0 1104 patch iptc,sj,dgj,dgi,id: 25 102 -326 -326 1104 half line dmj dgc: 1 37233 9 101 Actual deskew ireclen: 20480 ** 25 1104 1 55200 Writing data negflag .eq. 0 s1>sj: 11286 102 Zeroing lines in arrays Total # of output lines = 25 36965 Processing block number 26 DEBUG -325 6.699907 -324.7992 0.0000000E+00 0.0000000E+00 102 511 1 408 patch iptc,sj,dgj,dgi,id: 26 511 -325 -326 408 half line dmj dgc: 0 38745 6 101 Actual deskew ireclen: 20480 ** 26 1104 0 56304 Writing data negflag .eq. 0 sj>s1: 511 102 Zeroing lines in arrays Total # of output lines = 26 37374 511 1615 0 1104 patch iptc,sj,dgj,dgi,id: 26 1615 -325 -325 1104 half line dmj dgc: 1 38745 6 101 Actual deskew ireclen: 20480 ** 26 1104 1 57408 Writing data negflag .eq. 0 sj>s1: 1615 511 Zeroing lines in arrays Total # of output lines = 26 38478 Processing block number 27 DEBUG -323 3.914320 -321.9713 0.0000000E+00 0.0000000E+00 1615 2025 2 408 patch iptc,sj,dgj,dgi,id: 27 2025 -323 -325 408 half line dmj dgc: 0 40257 3 101 Actual deskew ireclen: 20480 ** 27 1104 0 58512 Writing data negflag .eq. 0 sj>s1: 2025 1615 Zeroing lines in arrays Total # of output lines = 27 38888 2025 3129 0 1104 patch iptc,sj,dgj,dgi,id: 27 3129 -323 -323 1104 half line dmj dgc: 1 40257 3 101 Actual deskew ireclen: 20480 ** 27 1104 1 59616 Writing data negflag .eq. 0 sj>s1: 3129 2025 Zeroing lines in arrays Total # of output lines = 27 39992 Processing block number 28 DEBUG -336 -2.152873 -335.1115 0.0000000E+00 0.0000000E+00 3129 3524 -13 408 patch iptc,sj,dgj,dgi,id: 28 3524 -336 -323 408 half line dmj dgc: 0 41769 -3 101 Actual deskew ireclen: 20480 ** 28 1104 0 60720 Writing data negflag .eq. 0 sj>s1: 3524 3129 Zeroing lines in arrays Total # of output lines = 28 40387 3524 4628 0 1104 patch iptc,sj,dgj,dgi,id: 28 4628 -336 -336 1104 half line dmj dgc: 1 41769 -3 101 Actual deskew ireclen: 20480 ** 28 1104 1 61824 Writing data negflag .eq. 0 sj>s1: 4628 3524 Zeroing lines in arrays Total # of output lines = 28 41491 Processing block number 29 DEBUG -366 -10.18423 -365.4267 0.0000000E+00 0.0000000E+00 4628 5006 -30 408 patch iptc,sj,dgj,dgi,id: 29 5006 -366 -336 408 half line dmj dgc: 0 43281 -11 101 Actual deskew ireclen: 20480 ** 29 1104 0 62928 Writing data negflag .eq. 0 sj>s1: 5006 4628 Zeroing lines in arrays Total # of output lines = 29 41869 5006 6110 0 1104 patch iptc,sj,dgj,dgi,id: 29 6110 -366 -366 1104 half line dmj dgc: 1 43281 -11 101 Actual deskew ireclen: 20480 ** 29 1104 1 64032 Writing data negflag .eq. 0 sj>s1: 6110 5006 Zeroing lines in arrays Total # of output lines = 29 42973 Processing block number 30 DEBUG -406 -18.81351 -405.8046 0.0000000E+00 0.0000000E+00 6110 6478 -40 408 patch iptc,sj,dgj,dgi,id: 30 6478 -406 -366 408 half line dmj dgc: 0 44793 -19 101 Actual deskew ireclen: 20480 ** 30 1104 0 65136 Writing data negflag .eq. 0 sj>s1: 6478 6110 Zeroing lines in arrays Total # of output lines = 30 43341 6478 7582 0 1104 patch iptc,sj,dgj,dgi,id: 30 7582 -406 -406 1104 half line dmj dgc: 1 44793 -19 101 Actual deskew ireclen: 20480 ** 30 1104 1 66240 Writing data negflag .eq. 0 sj>s1: 7582 6478 Zeroing lines in arrays Total # of output lines = 30 44445 Processing block number 31 DEBUG -441 -24.36626 -440.1297 0.0000000E+00 0.0000000E+00 7582 7955 -35 408 patch iptc,sj,dgj,dgi,id: 31 7955 -441 -406 408 half line dmj dgc: 0 46305 -25 101 Actual deskew ireclen: 20480 ** 31 1104 0 67344 Writing data negflag .eq. 0 sj>s1: 7955 7582 Zeroing lines in arrays Total # of output lines = 31 44818 7955 9059 0 1104 patch iptc,sj,dgj,dgi,id: 31 9059 -441 -441 1104 half line dmj dgc: 1 46305 -25 101 Actual deskew ireclen: 20480 ** 31 1104 1 68448 Writing data negflag .eq. 0 sj>s1: 9059 7955 Zeroing lines in arrays Total # of output lines = 31 45922 Processing block number 32 DEBUG -462 -26.14564 -461.4617 0.0000000E+00 0.0000000E+00 9059 9446 -21 408 patch iptc,sj,dgj,dgi,id: 32 9446 -462 -441 408 half line dmj dgc: 0 47817 -27 101 Actual deskew ireclen: 20480 ** 32 1104 0 69552 Writing data negflag .eq. 0 sj>s1: 9446 9059 Zeroing lines in arrays Total # of output lines = 32 46309 9446 10550 0 1104 patch iptc,sj,dgj,dgi,id: 32 10550 -462 -462 1104 half line dmj dgc: 1 47817 -27 101 Actual deskew ireclen: 20480 ** 32 1104 1 70656 Writing data negflag .eq. 0 sj>s1: 10550 9446 Zeroing lines in arrays Total # of output lines = 32 47413 Processing block number 33 DEBUG -469 -25.68147 -468.3189 0.0000000E+00 0.0000000E+00 10550 10951 -7 408 patch iptc,sj,dgj,dgi,id: 33 10951 -469 -462 408 half line dmj dgc: 0 49329 -26 101 Actual deskew ireclen: 20480 ** 33 1104 0 71760 Writing data negflag .eq. 0 sj>s1: 10951 10550 Zeroing lines in arrays Total # of output lines = 33 47814 10951 12055 0 1104 patch iptc,sj,dgj,dgi,id: 33 12055 -469 -469 1104 half line dmj dgc: 1 49329 -26 101 Actual deskew ireclen: 20480 ** 33 1104 1 72864 Writing data negflag .eq. 0 sj>s1: 12055 10951 Zeroing lines in arrays Total # of output lines = 33 48918 Processing block number 34 DEBUG -467 -25.10448 -466.2517 0.0000000E+00 0.0000000E+00 12055 12465 2 408 patch iptc,sj,dgj,dgi,id: 34 177 -467 -469 408 half line dmj dgc: 0 50841 -26 101 Actual deskew ireclen: 20480 ** 34 1104 0 73968 Writing data negflag .eq. 0 s1>sj: 12055 177 Zeroing lines in arrays Total # of output lines = 34 49328 177 1281 0 1104 patch iptc,sj,dgj,dgi,id: 34 1281 -467 -467 1104 half line dmj dgc: 1 50841 -26 101 Actual deskew ireclen: 20480 ** 34 1104 1 75072 Writing data negflag .eq. 0 sj>s1: 1281 177 Zeroing lines in arrays Total # of output lines = 34 50432 Processing block number 35 DEBUG -474 -28.35188 -473.0450 0.0000000E+00 0.0000000E+00 1281 1682 -7 408 patch iptc,sj,dgj,dgi,id: 35 1682 -474 -467 408 half line dmj dgc: 0 52353 -29 101 Actual deskew ireclen: 20480 ** 35 1104 0 76176 Writing data negflag .eq. 0 sj>s1: 1682 1281 Zeroing lines in arrays Total # of output lines = 35 50833 1682 2786 0 1104 patch iptc,sj,dgj,dgi,id: 35 2786 -474 -474 1104 half line dmj dgc: 1 52353 -29 101 Actual deskew ireclen: 20480 ** 35 1104 1 77280 Writing data negflag .eq. 0 sj>s1: 2786 1682 Zeroing lines in arrays Total # of output lines = 35 51937 Processing block number 36 DEBUG -515 -40.83294 -514.1196 0.0000000E+00 0.0000000E+00 2786 3153 -41 408 patch iptc,sj,dgj,dgi,id: 36 3153 -515 -474 408 half line dmj dgc: 0 53865 -41 101 Actual deskew ireclen: 20480 ** 36 1104 0 78384 Writing data negflag .eq. 0 sj>s1: 3153 2786 Zeroing lines in arrays Total # of output lines = 36 52304 3153 4257 0 1104 patch iptc,sj,dgj,dgi,id: 36 4257 -515 -515 1104 half line dmj dgc: 1 53865 -41 101 Actual deskew ireclen: 20480 ** 36 1104 1 79488 Writing data negflag .eq. 0 sj>s1: 4257 3153 Zeroing lines in arrays Total # of output lines = 36 53408 Processing block number 37 DEBUG -565 -53.83257 -564.0799 0.0000000E+00 0.0000000E+00 4257 4615 -50 408 patch iptc,sj,dgj,dgi,id: 37 4615 -565 -515 408 half line dmj dgc: 0 55377 -54 101 Actual deskew ireclen: 20480 ** 37 1104 0 80592 Writing data negflag .eq. 0 sj>s1: 4615 4257 Zeroing lines in arrays Total # of output lines = 37 53766 4615 5719 0 1104 patch iptc,sj,dgj,dgi,id: 37 5719 -565 -565 1104 half line dmj dgc: 1 55377 -54 101 Actual deskew ireclen: 20480 ** 37 1104 1 81696 Writing data negflag .eq. 0 sj>s1: 5719 4615 Zeroing lines in arrays Total # of output lines = 37 54870 Processing block number 38 DEBUG -585 -57.00621 -584.1930 0.0000000E+00 0.0000000E+00 5719 5066 -20 -633 patch iptc,sj,dgj,dgi,id: 38 5066 -585 -565 -633 half line dmj dgc: 0 55848 -58 101 Actual deskew ireclen: 20480 ** 38 1104 0 82800 Zeroing lines in arrays Total # of output lines = 38 54870 5719 6170 0 1104 patch iptc,sj,dgj,dgi,id: 38 6170 -585 -585 1104 half line dmj dgc: 1 55848 -58 101 Actual deskew ireclen: 20480 ** 38 1104 1 83904 Writing data negflag .eq. 0 sj>s1: 6170 5719 Zeroing lines in arrays Total # of output lines = 38 55321 ia dmi dgi: 6170 -58 -585 Writing the last 1631 lines last half sj>s1 7801 6170 55321 WAYNE done patche 180.4497710466385 Total # of output lines = 56952 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 56952 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 181.5403180122375 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 0 AZ patch size: 4096 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.vv00c Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_c.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 2208 data points per patch Near range (m) = 8102.270 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.200000 Radar wavelength (m) = 5.6699999E-02 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.0000000E+00 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = 1.889000 1.726800 1.912000 Receive leverarm x,y,z = 1.889000 1.726800 1.912000 Name of raw data file? /mnt/air62/airops/1359/c_vv Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_c.mocompv Output file name w/o ext? /mnt/air65/airops/1359/ts1359_c Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vv Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_c.vv_j *** ipol itop: 4 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.cv WAYNE init fft, calc slant range, load unpack, interpo 1.3565000E-02 reading motion compensation data WAYNE read motion compen 1.306830 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 98 40.00000 22.50000 90.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4675281 start range comp, time = 1.829 WAYNE PREV 1.803598 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 9 ..... WAYNE IS IN Processing 33 to 35 by # 8 Processing block number 33 WAYNE PATCHES: 48385 52480 patch# 33 reference line: 50432 3.603 seconds. before reading done reading WAYNE load raw data , time = 26.99082207679749 ATTN ifrq ipol ln 8 4 52480 21.00000 IPOL, ITOP nblock 4 0 33 WAYNE Motion comp. coeff. calculated, time = 6.4020156860351563E-03 WAYNE Motion comp. added to patch, time = 8.429780006408691 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 3.0959844589233398E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 154.2246419191360 Writing 2208 lines of data to file WAYNE write output data 1.168820977210999 ==w out 33 0 945 0 WAYNE PROCESS 190.8252570629120 Processing block number 34 WAYNE PATCHES: 49897 53992 patch# 34 reference line: 51944 194.428 seconds. before reading done reading WAYNE load raw data , time = 22.75849890708923 ATTN ifrq ipol ln 8 4 53992 21.00000 IPOL, ITOP nblock 4 0 34 WAYNE Motion comp. coeff. calculated, time = 6.0069561004638672E-03 WAYNE Motion comp. added to patch, time = 7.921728014945984 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6270151138305664E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 148.4224029779434 Writing 2208 lines of data to file WAYNE write output data 1.271817922592163 ==w out 34 2208 945 45219840 WAYNE PROCESS 180.3846189975739 Processing block number 35 WAYNE PATCHES: 51409 55504 patch# 35 reference line: 53456 374.813 seconds. before reading done reading WAYNE load raw data , time = 22.89127600193024 ATTN ifrq ipol ln 8 4 55504 21.00000 IPOL, ITOP nblock 4 0 35 WAYNE Motion comp. coeff. calculated, time = 6.1109066009521484E-03 WAYNE Motion comp. added to patch, time = 7.912900090217590 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4899244308471680E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 142.9441090822220 Writing 2208 lines of data to file WAYNE write output data 1.326339006423950 ==w out 35 4416 945 90439680 WAYNE PROCESS 175.0847680568695 ==w out 36 6627 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 6049 10144 patch# 5 reference line: 8096 3.510 seconds. before reading done reading WAYNE load raw data , time = 26.47266793251038 ATTN ifrq ipol ln 8 4 10144 21.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 6.3810348510742188E-03 WAYNE Motion comp. added to patch, time = 8.554601073265076 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.1319856643676758E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 186.7788499593735 Writing 2208 lines of data to file WAYNE write output data 1.498171091079712 ==w out 5 0 945 0 WAYNE PROCESS 223.3156991004944 Processing block number 6 WAYNE PATCHES: 7561 11656 patch# 6 reference line: 9608 226.826 seconds. before reading done reading WAYNE load raw data , time = 23.17392098903656 ATTN ifrq ipol ln 8 4 11656 21.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 6.0811042785644531E-03 WAYNE Motion comp. added to patch, time = 8.170524954795837 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.0419826507568359E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 201.6701020002365 Writing 2208 lines of data to file WAYNE write output data 1.718968987464905 ==w out 6 2208 945 45219840 WAYNE PROCESS 234.7447090148926 Processing block number 7 WAYNE PATCHES: 9073 13168 patch# 7 reference line: 11120 461.572 seconds. before reading done reading WAYNE load raw data , time = 23.47651302814484 ATTN ifrq ipol ln 8 4 13168 21.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 7.1210861206054688E-03 WAYNE Motion comp. added to patch, time = 8.218910932540894 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.6539564132690430E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 175.9285600185394 Writing 2208 lines of data to file WAYNE write output data 1.345548987388611 ==w out 7 4416 945 90439680 WAYNE PROCESS 208.9811359643936 Processing block number 8 WAYNE PATCHES: 10585 14680 patch# 8 reference line: 12632 670.553 seconds. before reading done reading WAYNE load raw data , time = 22.68464601039886 ATTN ifrq ipol ln 8 4 14680 21.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 6.2830448150634766E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 12097 16192 patch# 9 reference line: 14144 3.521 seconds. before reading done reading WAYNE load raw data , time = 26.70958805084229 ATTN ifrq ipol ln 8 4 16192 21.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 6.4269304275512695E-03 WAYNE Motion comp. added to patch, time = 8.585225939750671 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.0269622802734375E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 186.5632569789886 Writing 2208 lines of data to file WAYNE write output data 1.501211047172546 ==w out 9 0 945 0 WAYNE PROCESS 223.3707000017166 Processing block number 10 WAYNE PATCHES: 13609 17704 patch# 10 reference line: 15656 226.892 seconds. before reading done reading WAYNE load raw data , time = 23.14873802661896 ATTN ifrq ipol ln 8 4 17704 21.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 6.0989856719970703E-03 WAYNE Motion comp. added to patch, time = 8.236740946769714 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7599334716796875E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 201.5427969694138 Writing 2208 lines of data to file WAYNE write output data 1.714664101600647 ==w out 10 2208 945 45219840 WAYNE PROCESS 234.6534600257874 Processing block number 11 WAYNE PATCHES: 15121 19216 patch# 11 reference line: 17168 461.546 seconds. before reading done reading WAYNE load raw data , time = 23.42641794681549 ATTN ifrq ipol ln 8 4 19216 21.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 7.1229934692382813E-03 WAYNE Motion comp. added to patch, time = 8.352189064025879 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5520324707031250E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 175.8430759906769 Writing 2208 lines of data to file WAYNE write output data 1.345175027847290 ==w out 11 4416 945 90439680 WAYNE PROCESS 208.9783070087433 Processing block number 12 WAYNE PATCHES: 16633 20728 patch# 12 reference line: 18680 670.525 seconds. before reading done reading WAYNE load raw data , time = 22.65992403030396 ATTN ifrq ipol ln 8 4 20728 21.00000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 6.1269998550415039E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 20 by # 4 Processing block number 17 WAYNE PATCHES: 24193 28288 patch# 17 reference line: 26240 3.549 seconds. before reading done reading WAYNE load raw data , time = 28.13148498535156 ATTN ifrq ipol ln 8 4 28288 21.00000 IPOL, ITOP nblock 4 0 17 WAYNE Motion comp. coeff. calculated, time = 6.4810514450073242E-03 WAYNE Motion comp. added to patch, time = 8.820502042770386 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.3230781555175781E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 213.7431019544601 Writing 2208 lines of data to file WAYNE write output data 1.491502046585083 ==w out 17 0 945 0 WAYNE PROCESS 252.1979850530624 Processing block number 18 WAYNE PATCHES: 25705 29800 patch# 18 reference line: 27752 255.747 seconds. before reading done reading WAYNE load raw data , time = 24.42130792140961 ATTN ifrq ipol ln 8 4 29800 21.00000 IPOL, ITOP nblock 4 0 18 WAYNE Motion comp. coeff. calculated, time = 5.6838989257812500E-03 WAYNE Motion comp. added to patch, time = 8.121703982353210 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5240182876586914E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 211.5742759704590 Writing 2208 lines of data to file WAYNE write output data 1.482967972755432 ==w out 18 2208 945 45219840 WAYNE PROCESS 245.6098870038986 Processing block number 19 WAYNE PATCHES: 27217 31312 patch# 19 reference line: 29264 501.358 seconds. before reading done reading WAYNE load raw data , time = 24.37765002250671 ATTN ifrq ipol ln 8 4 31312 21.00000 IPOL, ITOP nblock 4 0 19 WAYNE Motion comp. coeff. calculated, time = 5.7530403137207031E-03 WAYNE Motion comp. added to patch, time = 8.014143109321594 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4900436401367188E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 158.6531150341034 Writing 2208 lines of data to file WAYNE write output data 1.172024011611938 ==w out 19 4416 945 90439680 WAYNE PROCESS 192.2265650033951 Processing block number 20 WAYNE PATCHES: 28729 32824 patch# 20 reference line: 30776 693.585 seconds. before reading done reading WAYNE load raw data , time = 24.35967695713043 ATTN ifrq ipol ln 8 4 32824 21.00000 IPOL, ITOP nblock 4 0 20 WAYNE Motion comp. coeff. calculated, time = 6.1080455780029297E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -1.6498900E-04 7.8047598E-03 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 3.495 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 27.35417699813843 ATTN ifrq ipol ln 8 4 4096 21.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 6.4740180969238281E-03 TESTING 0.0000000E+00 62.12904 1.425901 WAYNE Motion comp. added to patch, time = 8.499860048294067 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 3.6059617996215820E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 62.12904 1.425901 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.6498900E-04 7.8047598E-03 WAYNE Azimuth compression done, time = 237.0327830314636 Writing 2208 lines of data to file WAYNE write output data 1.250887036323547 ==w out 1 0 945 0 WAYNE PROCESS 274.1496119499207 Processing block number 2 TESTING WHY -1.4803599E-04 8.0054598E-03 1512 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 277.645 seconds. TESTING 1513 before reading done reading WAYNE load raw data , time = 23.40005207061768 ATTN ifrq ipol ln 8 4 5608 21.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 6.1789751052856445E-03 TESTING 0.0000000E+00 61.53556 1.049637 WAYNE Motion comp. added to patch, time = 8.146959066390991 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.2379627227783203E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 61.53556 1.049637 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.4803599E-04 8.0054598E-03 WAYNE Azimuth compression done, time = 209.9403100013733 Writing 2208 lines of data to file WAYNE write output data 1.192756056785583 ==w out 2 2208 945 45219840 WAYNE PROCESS 242.6911070346832 Processing block number 3 TESTING WHY -3.9506299E-04 8.2445396E-03 1512 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 520.336 seconds. TESTING 3025 before reading done reading WAYNE load raw data , time = 23.14651799201965 ATTN ifrq ipol ln 8 4 7120 21.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 6.5129995346069336E-03 TESTING 0.0000000E+00 60.57881 0.8419955 WAYNE Motion comp. added to patch, time = 8.044055938720703 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7190446853637695E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z1 PROCESSING KID# 10 ..... WAYNE IS IN Processing 36 to 38 by # 9 Processing block number 36 WAYNE PATCHES: 52921 57016 patch# 36 reference line: 54968 3.613 seconds. before reading done reading WAYNE load raw data , time = 27.30569899082184 ATTN ifrq ipol ln 8 4 57016 21.00000 IPOL, ITOP nblock 4 0 36 WAYNE Motion comp. coeff. calculated, time = 6.3380002975463867E-03 WAYNE Motion comp. added to patch, time = 8.503051996231079 WAYNE Doppler estimation done, time = 1.8000602722167969E-05 WAYNE write deskew done, time = 4.7560930252075195E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 236.9511799812317 Writing 2208 lines of data to file WAYNE write output data 1.243223071098328 ==w out 36 0 945 0 WAYNE PROCESS 274.0167020559311 Processing block number 37 WAYNE PATCHES: 54433 58528 patch# 37 reference line: 56480 277.630 seconds. before reading done reading WAYNE load raw data , time = 23.79263103008270 ATTN ifrq ipol ln 8 4 58528 21.00000 IPOL, ITOP nblock 4 0 37 WAYNE Motion comp. coeff. calculated, time = 7.5379610061645508E-03 WAYNE Motion comp. added to patch, time = 8.079139947891235 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 3.9410591125488281E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 210.3708720207214 Writing 2208 lines of data to file WAYNE write output data 1.162130951881409 ==w out 37 2208 945 45219840 WAYNE PROCESS 243.4183229207993 Processing block number 38 WAYNE PATCHES: 54904 58999 patch# 38 reference line: 56951 521.049 seconds. before reading done reading WAYNE load raw data , time = 23.45379590988159 ATTN ifrq ipol ln 8 4 58999 21.00000 IPOL, ITOP nblock 4 0 38 WAYNE Motion comp. coeff. calculated, time = 6.5950155258178711E-03 WAYNE Motion comp. added to patch, time = 8.019587993621826 WAYNE Doppler estimation done, time = 2.0027160644531250E-05 WAYNE write deskew done, time = 3.5669803619384766E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 192.0536410808563 Writing 2208 lines of data to file WAYNE write output data 1.139562964439392 ==w out 38 4416 945 90439680 WAYNE PROCESS 224.6789469718933 ==w out 39 6627 PROCESSING KID# 7 ..... WAYNE IS IN Processing 25 to 28 by # 6 Processing block number 25 WAYNE PATCHES: 36289 40384 patch# 25 reference line: 38336 3.579 seconds. before reading done reading WAYNE load raw data , time = 27.23364901542664 ATTN ifrq ipol ln 8 4 40384 21.00000 IPOL, ITOP nblock 4 0 25 WAYNE Motion comp. coeff. calculated, time = 6.4629316329956055E-03 WAYNE Motion comp. added to patch, time = 8.459218025207520 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.3450126647949219E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 213.7423909902573 Writing 2208 lines of data to file WAYNE write output data 1.283475995063782 ==w out 25 0 945 0 WAYNE PROCESS 250.7305179834366 Processing block number 26 WAYNE PATCHES: 37801 41896 patch# 26 reference line: 39848 254.310 seconds. before reading done reading WAYNE load raw data , time = 23.44009900093079 ATTN ifrq ipol ln 8 4 41896 21.00000 IPOL, ITOP nblock 4 0 26 WAYNE Motion comp. coeff. calculated, time = 5.9269666671752930E-03 WAYNE Motion comp. added to patch, time = 7.811653017997742 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4590492248535156E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 211.0957709550858 Writing 2208 lines of data to file WAYNE write output data 1.328280925750732 ==w out 26 2208 945 45219840 WAYNE PROCESS 243.6856449842453 Processing block number 27 WAYNE PATCHES: 39313 43408 patch# 27 reference line: 41360 497.996 seconds. before reading done reading WAYNE load raw data , time = 23.41954994201660 ATTN ifrq ipol ln 8 4 43408 21.00000 IPOL, ITOP nblock 4 0 27 WAYNE Motion comp. coeff. calculated, time = 6.4200162887573242E-03 WAYNE Motion comp. added to patch, time = 7.890426039695740 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4240016937255859E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 185.9811480045319 Writing 2208 lines of data to file WAYNE write output data 1.315496921539307 ==w out 27 4416 945 90439680 WAYNE PROCESS 218.6168699264526 Processing block number 28 WAYNE PATCHES: 40825 44920 patch# 28 reference line: 42872 716.613 seconds. before reading done reading WAYNE load raw data , time = 23.33991396427155 ATTN ifrq ipol ln 8 4 44920 21.00000 IPOL, ITOP nblock 4 0 28 WAYNE Motion comp. coeff. calculated, time = 5.8180093765258789E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 18145 22240 patch# 13 reference line: 20192 3.537 seconds. before reading done reading WAYNE load raw data , time = 28.02371490001678 ATTN ifrq ipol ln 8 4 22240 21.00000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 6.3859224319458008E-03 WAYNE Motion comp. added to patch, time = 8.981459975242615 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 3.2780170440673828E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 213.7036650180817 Writing 2208 lines of data to file WAYNE write output data 1.490887045860291 ==w out 13 0 945 0 WAYNE PROCESS 252.2115000486374 Processing block number 14 WAYNE PATCHES: 19657 23752 patch# 14 reference line: 21704 255.748 seconds. before reading done reading WAYNE load raw data , time = 24.46910297870636 ATTN ifrq ipol ln 8 4 23752 21.00000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 5.9919357299804688E-03 WAYNE Motion comp. added to patch, time = 8.301221966743469 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5720596313476563E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 211.7006340026855 Writing 2208 lines of data to file WAYNE write output data 1.475236058235168 ==w out 14 2208 945 45219840 WAYNE PROCESS 245.9561020135880 Processing block number 15 WAYNE PATCHES: 21169 25264 patch# 15 reference line: 23216 501.705 seconds. before reading done reading WAYNE load raw data , time = 24.42953908443451 ATTN ifrq ipol ln 8 4 25264 21.00000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 5.8439970016479492E-03 WAYNE Motion comp. added to patch, time = 8.320677995681763 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6319026947021484E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 185.9005320072174 Writing 2208 lines of data to file WAYNE write output data 1.223690986633301 ==w out 15 4416 945 90439680 WAYNE PROCESS 219.8841320276260 Processing block number 16 WAYNE PATCHES: 22681 26776 patch# 16 reference line: 24728 721.589 seconds. before reading done reading WAYNE load raw data , time = 24.38215005397797 ATTN ifrq ipol ln 8 4 26776 21.00000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 5.9050321578979492E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 8 ..... WAYNE IS IN Processing 29 to 32 by # 7 Processing block number 29 WAYNE PATCHES: 42337 46432 patch# 29 reference line: 44384 3.591 seconds. before reading done reading WAYNE load raw data , time = 26.93078100681305 ATTN ifrq ipol ln 8 4 46432 21.00000 IPOL, ITOP nblock 4 0 29 WAYNE Motion comp. coeff. calculated, time = 6.4439773559570313E-03 WAYNE Motion comp. added to patch, time = 8.481428027153015 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 3.0779838562011719E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 233.7020390033722 Writing 2208 lines of data to file WAYNE write output data 1.136964917182922 ==w out 29 0 945 0 WAYNE PROCESS 270.2624319791794 Processing block number 30 WAYNE PATCHES: 43849 47944 patch# 30 reference line: 45896 273.854 seconds. before reading done reading WAYNE load raw data , time = 23.64714395999908 ATTN ifrq ipol ln 8 4 47944 21.00000 IPOL, ITOP nblock 4 0 30 WAYNE Motion comp. coeff. calculated, time = 6.3799619674682617E-03 WAYNE Motion comp. added to patch, time = 8.174216032028198 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.1210184097290039E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 201.3014879226685 Writing 2208 lines of data to file WAYNE write output data 1.340870976448059 ==w out 30 2208 945 45219840 WAYNE PROCESS 234.4753040075302 Processing block number 31 WAYNE PATCHES: 45361 49456 patch# 31 reference line: 47408 508.330 seconds. before reading done reading WAYNE load raw data , time = 23.09439802169800 ATTN ifrq ipol ln 8 4 49456 21.00000 IPOL, ITOP nblock 4 0 31 WAYNE Motion comp. coeff. calculated, time = 6.1990022659301758E-03 WAYNE Motion comp. added to patch, time = 7.922829985618591 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4870634078979492E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 193.6258950233459 Writing 2208 lines of data to file WAYNE write output data 1.181342959403992 ==w out 31 4416 945 90439680 WAYNE PROCESS 225.8345869779587 Processing block number 32 WAYNE PATCHES: 46873 50968 patch# 32 reference line: 48920 734.164 seconds. before reading done reading WAYNE load raw data , time = 23.00134706497192 ATTN ifrq ipol ln 8 4 50968 21.00000 IPOL, ITOP nblock 4 0 32 WAYNE Motion comp. coeff. calculated, time = 5.9200525283813477E-03 WAYNE Motion comp. added to patch, time PROCESSING KID# 6 ..... WAYNE IS IN Processing 21 to 24 by # 5 Processing block number 21 WAYNE PATCHES: 30241 34336 patch# 21 reference line: 32288 3.564 seconds. before reading done reading WAYNE load raw data , time = 26.53559303283691 ATTN ifrq ipol ln 8 4 34336 21.00000 IPOL, ITOP nblock 4 0 21 WAYNE Motion comp. coeff. calculated, time = 6.5180063247680664E-03 WAYNE Motion comp. added to patch, time = 8.382705926895142 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9940605163574219E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 236.2984100580215 Writing 2208 lines of data to file WAYNE write output data 1.143059968948364 ==w out 21 0 945 0 WAYNE PROCESS 272.3709269762039 Processing block number 22 WAYNE PATCHES: 31753 35848 patch# 22 reference line: 33800 275.935 seconds. before reading done reading WAYNE load raw data , time = 23.06078100204468 ATTN ifrq ipol ln 8 4 35848 21.00000 IPOL, ITOP nblock 4 0 22 WAYNE Motion comp. coeff. calculated, time = 6.1159133911132813E-03 WAYNE Motion comp. added to patch, time = 8.071712017059326 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.6660432815551758E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 211.0143629312515 Writing 2208 lines of data to file WAYNE write output data 1.153001070022583 ==w out 22 2208 945 45219840 WAYNE PROCESS 243.3109890222549 Processing block number 23 WAYNE PATCHES: 33265 37360 patch# 23 reference line: 35312 519.246 seconds. before reading done reading WAYNE load raw data , time = 22.95812404155731 ATTN ifrq ipol ln 8 4 37360 21.00000 IPOL, ITOP nblock 4 0 23 WAYNE Motion comp. coeff. calculated, time = 6.3340663909912109E-03 WAYNE Motion comp. added to patch, time = 8.119533061981201 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6760101318359375E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 192.4284659624100 Writing 2208 lines of data to file WAYNE write output data 1.138537049293518 ==w out 23 4416 945 90439680 WAYNE PROCESS 224.6552540063858 Processing block number 24 WAYNE PATCHES: 34777 38872 patch# 24 reference line: 36824 743.902 seconds. before reading done reading WAYNE load raw data , time = 22.82913100719452 ATTN ifrq ipol ln 8 4 38872 21.00000 IPOL, ITOP nblock 4 0 24 WAYNE Motion comp. coeff. calculated, time = 6.6729784011840820E-03 WAYNE Motion comp. added to patch, time = 8.330065965652466 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.1350383758544922E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 164.4667440652847 Writing 2208 lines of data to file WAYNE write output data 1.241719961166382 ==w out 12 6624 945 135659520 WAYNE PROCESS 196.7086579799652 ==w out 13 8835 = 8.134016036987305 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.1710395812988281E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 164.6339290142059 Writing 2208 lines of data to file WAYNE write output data 1.249361991882324 ==w out 8 6624 945 135659520 WAYNE PROCESS 196.7124049663544 ==w out 9 8835 = 7.910534024238586 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0639896392822266E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 144.7631390094757 Writing 2208 lines of data to file WAYNE write output data 1.137884020805359 ==w out 20 6624 945 135659520 WAYNE PROCESS 178.1813690662384 ==w out 21 8835 = 7.884757995605469 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0669698715209961E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 167.9485960006714 Writing 2208 lines of data to file WAYNE write output data 1.060932040214539 ==w out 28 6624 945 135659520 WAYNE PROCESS 200.2437840700150 ==w out 29 8835 = 7.860719084739685 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.1120309829711914E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 151.9364470243454 Writing 2208 lines of data to file WAYNE write output data 1.074118018150330 ==w out 32 6624 945 135659520 WAYNE PROCESS 183.8824640512466 ==w out 33 8835 = 8.259019970893860 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.0719766616821289E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 166.2925570011139 Writing 2208 lines of data to file WAYNE write output data 1.061076045036316 ==w out 16 6624 945 135659520 WAYNE PROCESS 200.0043809413910 ==w out 17 8835 = 8.065403103828430 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.1039247512817383E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection WAYNE Azimuth compression done, time = 149.8776170015335 Writing 2208 lines of data to file WAYNE write output data 1.066219925880432 ==w out 24 6624 945 135659520 WAYNE PROCESS 181.8492389917374 ==w out 25 8835 0 0.0000000E+00 60.57881 0.8419955 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -3.9506299E-04 8.2445396E-03 WAYNE Azimuth compression done, time = 179.3654420375824 Writing 2208 lines of data to file WAYNE write output data 1.240593910217285 ==w out 3 4416 945 90439680 WAYNE PROCESS 211.8069999217987 Processing block number 4 TESTING WHY -6.8573700E-04 8.3444603E-03 1512 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 732.144 seconds. TESTING 4537 before reading done reading WAYNE load raw data , time = 22.97518193721771 ATTN ifrq ipol ln 8 4 8632 21.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 6.2519311904907227E-03 TESTING 0.0000000E+00 59.25422 0.7873632 WAYNE Motion comp. added to patch, time = 8.024404048919678 WAYNE Doppler estimation done, time = 1.6093254089355469E-05 WAYNE write deskew done, time = 2.6550292968750000E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 98 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 372.0864 763.5447 range migration lines: 1 2584 range migration lines: 2585 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 59.25422 0.7873632 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.8573700E-04 8.3444603E-03 WAYNE Azimuth compression done, time = 165.7816770076752 Writing 2208 lines of data to file WAYNE write output data 1.058678984642029 ==w out 4 6624 945 135659520 WAYNE PROCESS 197.8500940799713 ==w out 5 8835 1 80262 0 2 80264 0 3 80259 0 4 80163 0 5 80260 0 6 80261 0 7 80230 0 8 80258 0 9 80231 0 10 80257 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 83904kids= 10 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 4 gather image from processor # 5 4 gather image from processor # 6 4 gather image from processor # 7 4 gather image from processor # 8 3 gather image from processor # 9 3 WAYNE gather images takes: 8.0541014671325684E-02 WAYNE LOOP TIME: 938.4398649930954 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_c.vv_j /mnt/air65/airops/1359/ts1359_c.mocompv /mnt/air65/airops/1359/ts1359_c.dop /mnt/air65/airops/1359/ts1359_c.glb 2560 83904 update intf hdr ha: 7045.200 UPDATE: 2560 83904 3.331000 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_c.mocompv dopfile /mnt/air65/airops/1359/ts1359_c.dop globalfile /mnt/air65/airops/1359/ts1359_c.glb /mnt/air65/airops/1359/ts1359_c.glb 35 deskew line ra ha trc: 54.32829 105 8108.036 7045.200 -91.16894 after deskew line ra ha trc: 54.32829 105 8108.036 7045.200 -91.16894 lat1 lon1: 105 64.49897 -147.0439 83904 last ra n_ns ns: 8108.036 2 2 84008 83904 lati loni: 84008 64.49891 -147.9620 84008 2 center ra n_ns ns: 12368.38 1281 1281 42056 83904 lati loni: 42056 64.46047 -147.5018 42056 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_c.vv_j WAYNE FINAL PROCESS 940.3703510761261 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 8832 4 6624 3 6624 3 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_c.vv_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_c.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.cv Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1359/ts1359_c.TT Name of the line output file? /mnt/air65/airops/1359/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 2.962468981742859 Deskewing 38 patches Processing block number 1 DEBUG 101 105.5984 102.0501 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 101 101 0 half line dmj dgc: 0 945 105 101 Actual deskew ireclen: 20480 ** 1 1104 0 1104 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 1105 0 1104 patch iptc,sj,dgj,dgi,id: 1 1105 101 101 1104 half line dmj dgc: 1 945 105 101 Actual deskew ireclen: 20480 ** 1 1104 1 2208 Writing data negflag .eq. 0 sj>s1: 1105 1 Zeroing lines in arrays Total # of output lines = 1 1104 Processing block number 2 DEBUG 105 108.4730 105.2890 0.0000000E+00 0.0000000E+00 1105 1517 4 408 patch iptc,sj,dgj,dgi,id: 2 1517 105 101 408 half line dmj dgc: 0 2457 108 101 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1517 1105 Zeroing lines in arrays Total # of output lines = 2 1516 1517 2621 0 1104 patch iptc,sj,dgj,dgi,id: 2 2621 105 105 1104 half line dmj dgc: 1 2457 108 101 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2621 1517 Zeroing lines in arrays Total # of output lines = 2 2620 Processing block number 3 DEBUG 101 109.8214 101.3278 0.0000000E+00 0.0000000E+00 2621 3025 -4 408 patch iptc,sj,dgj,dgi,id: 3 3025 101 105 408 half line dmj dgc: 0 3969 109 101 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3025 2621 Zeroing lines in arrays Total # of output lines = 3 3024 3025 4129 0 1104 patch iptc,sj,dgj,dgi,id: 3 4129 101 101 1104 half line dmj dgc: 1 3969 109 101 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4129 3025 Zeroing lines in arrays Total # of output lines = 3 4128 Processing block number 4 DEBUG 94 108.9268 94.18549 0.0000000E+00 0.0000000E+00 4129 4530 -7 408 patch iptc,sj,dgj,dgi,id: 4 4530 94 101 408 half line dmj dgc: 0 5481 108 101 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4530 4129 Zeroing lines in arrays Total # of output lines = 4 4529 4530 5634 0 1104 patch iptc,sj,dgj,dgi,id: 4 5634 94 94 1104 half line dmj dgc: 1 5481 108 101 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5634 4530 Zeroing lines in arrays Total # of output lines = 4 5633 Processing block number 5 DEBUG 88 108.4083 88.39718 0.0000000E+00 0.0000000E+00 5634 6036 -6 408 patch iptc,sj,dgj,dgi,id: 5 6036 88 94 408 half line dmj dgc: 0 6993 108 101 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6036 5634 Zeroing lines in arrays Total # of output lines = 5 6035 6036 7140 0 1104 patch iptc,sj,dgj,dgi,id: 5 7140 88 88 1104 half line dmj dgc: 1 6993 108 101 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7140 6036 Zeroing lines in arrays Total # of output lines = 5 7139 Processing block number 6 DEBUG 82 108.0234 82.22033 0.0000000E+00 0.0000000E+00 7140 7542 -6 408 patch iptc,sj,dgj,dgi,id: 6 7542 82 88 408 half line dmj dgc: 0 8505 107 101 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 7542 7140 Zeroing lines in arrays Total # of output lines = 6 7541 7542 8646 0 1104 patch iptc,sj,dgj,dgi,id: 6 8646 82 82 1104 half line dmj dgc: 1 8505 107 101 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 8646 7542 Zeroing lines in arrays Total # of output lines = 6 8645 Processing block number 7 DEBUG 77 106.9569 77.85969 0.0000000E+00 0.0000000E+00 8646 9049 -5 408 patch iptc,sj,dgj,dgi,id: 7 9049 77 82 408 half line dmj dgc: 0 10017 106 101 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 9049 8646 Zeroing lines in arrays Total # of output lines = 7 9048 9049 10153 0 1104 patch iptc,sj,dgj,dgi,id: 7 10153 77 77 1104 half line dmj dgc: 1 10017 106 101 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 sj>s1: 10153 9049 Zeroing lines in arrays Total # of output lines = 7 10152 Processing block number 8 DEBUG 74 104.6204 74.30133 0.0000000E+00 0.0000000E+00 10153 10558 -3 408 patch iptc,sj,dgj,dgi,id: 8 10558 74 77 408 half line dmj dgc: 0 11529 104 101 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 10558 10153 Zeroing lines in arrays Total # of output lines = 8 10557 10558 11662 0 1104 patch iptc,sj,dgj,dgi,id: 8 11662 74 74 1104 half line dmj dgc: 1 11529 104 101 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 11662 10558 Zeroing lines in arrays Total # of output lines = 8 11661 Processing block number 9 DEBUG 73 101.4230 73.63761 0.0000000E+00 0.0000000E+00 11662 12069 -1 408 patch iptc,sj,dgj,dgi,id: 9 12069 73 74 408 half line dmj dgc: 0 13041 101 101 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 12069 11662 Zeroing lines in arrays Total # of output lines = 9 12068 12069 13173 0 1104 patch iptc,sj,dgj,dgi,id: 9 885 73 73 1104 half line dmj dgc: 1 13041 101 101 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 s1>sj: 12069 885 Zeroing lines in arrays Total # of output lines = 9 13172 Processing block number 10 DEBUG 65 95.59545 65.83827 0.0000000E+00 0.0000000E+00 885 1285 -8 408 patch iptc,sj,dgj,dgi,id: 10 1285 65 73 408 half line dmj dgc: 0 14553 95 101 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 1285 885 Zeroing lines in arrays Total # of output lines = 10 13572 1285 2389 0 1104 patch iptc,sj,dgj,dgi,id: 10 2389 65 65 1104 half line dmj dgc: 1 14553 95 101 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 2389 1285 Zeroing lines in arrays Total # of output lines = 10 14676 Processing block number 11 DEBUG 56 89.91438 56.52193 0.0000000E+00 0.0000000E+00 2389 2788 -9 408 patch iptc,sj,dgj,dgi,id: 11 2788 56 65 408 half line dmj dgc: 0 16065 89 101 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 2788 2389 Zeroing lines in arrays Total # of output lines = 11 15075 2788 3892 0 1104 patch iptc,sj,dgj,dgi,id: 11 3892 56 56 1104 half line dmj dgc: 1 16065 89 101 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 3892 2788 Zeroing lines in arrays Total # of output lines = 11 16179 Processing block number 12 DEBUG 63 91.48151 63.43839 0.0000000E+00 0.0000000E+00 3892 4307 7 408 patch iptc,sj,dgj,dgi,id: 12 4307 63 56 408 half line dmj dgc: 0 17577 91 101 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 4307 3892 Zeroing lines in arrays Total # of output lines = 12 16594 4307 5411 0 1104 patch iptc,sj,dgj,dgi,id: 12 5411 63 63 1104 half line dmj dgc: 1 17577 91 101 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 5411 4307 Zeroing lines in arrays Total # of output lines = 12 17698 Processing block number 13 DEBUG 92 100.7263 92.96156 0.0000000E+00 0.0000000E+00 5411 5848 29 408 patch iptc,sj,dgj,dgi,id: 13 5848 92 63 408 half line dmj dgc: 0 19089 100 101 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 5848 5411 Zeroing lines in arrays Total # of output lines = 13 18135 5848 6952 0 1104 patch iptc,sj,dgj,dgi,id: 13 6952 92 92 1104 half line dmj dgc: 1 19089 100 101 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 6952 5848 Zeroing lines in arrays Total # of output lines = 13 19239 Processing block number 14 DEBUG 112 112.7958 127.7997 0.0000000E+00 0.0000000E+00 6952 7380 20 408 patch iptc,sj,dgj,dgi,id: 14 7380 112 92 408 half line dmj dgc: 0 20601 127 101 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 sj>s1: 7380 6952 Zeroing lines in arrays Total # of output lines = 14 19667 7380 8484 0 1104 patch iptc,sj,dgj,dgi,id: 14 8484 112 112 1104 half line dmj dgc: 1 20601 127 101 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 8484 7380 Zeroing lines in arrays Total # of output lines = 14 20771 Processing block number 15 DEBUG 120 121.0513 144.2391 0.0000000E+00 0.0000000E+00 8484 8900 8 408 patch iptc,sj,dgj,dgi,id: 15 8900 120 112 408 half line dmj dgc: 0 22113 144 101 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 8900 8484 Zeroing lines in arrays Total # of output lines = 15 21187 8900 10004 0 1104 patch iptc,sj,dgj,dgi,id: 15 10004 120 120 1104 half line dmj dgc: 1 22113 144 101 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 10004 8900 Zeroing lines in arrays Total # of output lines = 15 22291 Processing block number 16 DEBUG 118 118.2405 118.9903 0.0000000E+00 0.0000000E+00 10004 10410 -2 408 patch iptc,sj,dgj,dgi,id: 16 10410 118 120 408 half line dmj dgc: 0 23625 118 101 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 10410 10004 Zeroing lines in arrays Total # of output lines = 16 22697 10410 11514 0 1104 patch iptc,sj,dgj,dgi,id: 16 11514 118 118 1104 half line dmj dgc: 1 23625 118 101 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 11514 10410 Zeroing lines in arrays Total # of output lines = 16 23801 Processing block number 17 DEBUG 53 104.3491 53.46485 0.0000000E+00 0.0000000E+00 11514 11857 -65 408 patch iptc,sj,dgj,dgi,id: 17 11857 53 118 408 half line dmj dgc: 0 25137 104 101 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 11857 11514 Zeroing lines in arrays Total # of output lines = 17 24144 11857 12961 0 1104 patch iptc,sj,dgj,dgi,id: 17 673 53 53 1104 half line dmj dgc: 1 25137 104 101 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 s1>sj: 11857 673 Zeroing lines in arrays Total # of output lines = 17 25248 Processing block number 18 DEBUG -26 86.65844 -25.72304 0.0000000E+00 0.0000000E+00 673 1002 -79 408 patch iptc,sj,dgj,dgi,id: 18 1002 -26 53 408 half line dmj dgc: 0 26649 86 101 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 1002 673 Zeroing lines in arrays Total # of output lines = 18 25577 1002 2106 0 1104 patch iptc,sj,dgj,dgi,id: 18 2106 -26 -26 1104 half line dmj dgc: 1 26649 86 101 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 2106 1002 Zeroing lines in arrays Total # of output lines = 18 26681 Processing block number 19 DEBUG -98 69.54155 -97.70056 0.0000000E+00 0.0000000E+00 2106 2442 -72 408 patch iptc,sj,dgj,dgi,id: 19 2442 -98 -26 408 half line dmj dgc: 0 28161 69 101 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 2442 2106 Zeroing lines in arrays Total # of output lines = 19 27017 2442 3546 0 1104 patch iptc,sj,dgj,dgi,id: 19 3546 -98 -98 1104 half line dmj dgc: 1 28161 69 101 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 3546 2442 Zeroing lines in arrays Total # of output lines = 19 28121 Processing block number 20 DEBUG -161 53.04065 -160.4823 0.0000000E+00 0.0000000E+00 3546 3891 -63 408 patch iptc,sj,dgj,dgi,id: 20 3891 -161 -98 408 half line dmj dgc: 0 29673 52 101 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 3891 3546 Zeroing lines in arrays Total # of output lines = 20 28466 3891 4995 0 1104 patch iptc,sj,dgj,dgi,id: 20 4995 -161 -161 1104 half line dmj dgc: 1 29673 52 101 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 sj>s1: 4995 3891 Zeroing lines in arrays Total # of output lines = 20 29570 Processing block number 21 DEBUG -214 40.97186 -213.1694 0.0000000E+00 0.0000000E+00 4995 5350 -53 408 patch iptc,sj,dgj,dgi,id: 21 5350 -214 -161 408 half line dmj dgc: 0 31185 40 101 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 5350 4995 Zeroing lines in arrays Total # of output lines = 21 29925 5350 6454 0 1104 patch iptc,sj,dgj,dgi,id: 21 6454 -214 -214 1104 half line dmj dgc: 1 31185 40 101 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 6454 5350 Zeroing lines in arrays Total # of output lines = 21 31029 Processing block number 22 DEBUG -255 32.84061 -254.3928 0.0000000E+00 0.0000000E+00 6454 6821 -41 408 patch iptc,sj,dgj,dgi,id: 22 6821 -255 -214 408 half line dmj dgc: 0 32697 32 101 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Writing data negflag .eq. 0 sj>s1: 6821 6454 Zeroing lines in arrays Total # of output lines = 22 31396 6821 7925 0 1104 patch iptc,sj,dgj,dgi,id: 22 7925 -255 -255 1104 half line dmj dgc: 1 32697 32 101 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 7925 6821 Zeroing lines in arrays Total # of output lines = 22 32500 Processing block number 23 DEBUG -286 24.86879 -285.6223 0.0000000E+00 0.0000000E+00 7925 8302 -31 408 patch iptc,sj,dgj,dgi,id: 23 8302 -286 -255 408 half line dmj dgc: 0 34209 24 101 Actual deskew ireclen: 20480 ** 23 1104 0 49680 Writing data negflag .eq. 0 sj>s1: 8302 7925 Zeroing lines in arrays Total # of output lines = 23 32877 8302 9406 0 1104 patch iptc,sj,dgj,dgi,id: 23 9406 -286 -286 1104 half line dmj dgc: 1 34209 24 101 Actual deskew ireclen: 20480 ** 23 1104 1 50784 Writing data negflag .eq. 0 sj>s1: 9406 8302 Zeroing lines in arrays Total # of output lines = 23 33981 Processing block number 24 DEBUG -314 14.81776 -313.5294 0.0000000E+00 0.0000000E+00 9406 9786 -28 408 patch iptc,sj,dgj,dgi,id: 24 9786 -314 -286 408 half line dmj dgc: 0 35721 14 101 Actual deskew ireclen: 20480 ** 24 1104 0 51888 Writing data negflag .eq. 0 sj>s1: 9786 9406 Zeroing lines in arrays Total # of output lines = 24 34361 9786 10890 0 1104 patch iptc,sj,dgj,dgi,id: 24 10890 -314 -314 1104 half line dmj dgc: 1 35721 14 101 Actual deskew ireclen: 20480 ** 24 1104 1 52992 Writing data negflag .eq. 0 sj>s1: 10890 9786 Zeroing lines in arrays Total # of output lines = 24 35465 Processing block number 25 DEBUG -326 9.568771 -325.0679 0.0000000E+00 0.0000000E+00 10890 11286 -12 408 patch iptc,sj,dgj,dgi,id: 25 11286 -326 -314 408 half line dmj dgc: 0 37233 9 101 Actual deskew ireclen: 20480 ** 25 1104 0 54096 Writing data negflag .eq. 0 sj>s1: 11286 10890 Zeroing lines in arrays Total # of output lines = 25 35861 11286 12390 0 1104 patch iptc,sj,dgj,dgi,id: 25 102 -326 -326 1104 half line dmj dgc: 1 37233 9 101 Actual deskew ireclen: 20480 ** 25 1104 1 55200 Writing data negflag .eq. 0 s1>sj: 11286 102 Zeroing lines in arrays Total # of output lines = 25 36965 Processing block number 26 DEBUG -325 6.683384 -324.8157 0.0000000E+00 0.0000000E+00 102 511 1 408 patch iptc,sj,dgj,dgi,id: 26 511 -325 -326 408 half line dmj dgc: 0 38745 6 101 Actual deskew ireclen: 20480 ** 26 1104 0 56304 Writing data negflag .eq. 0 sj>s1: 511 102 Zeroing lines in arrays Total # of output lines = 26 37374 511 1615 0 1104 patch iptc,sj,dgj,dgi,id: 26 1615 -325 -325 1104 half line dmj dgc: 1 38745 6 101 Actual deskew ireclen: 20480 ** 26 1104 1 57408 Writing data negflag .eq. 0 sj>s1: 1615 511 Zeroing lines in arrays Total # of output lines = 26 38478 Processing block number 27 DEBUG -323 3.897798 -321.9878 0.0000000E+00 0.0000000E+00 1615 2025 2 408 patch iptc,sj,dgj,dgi,id: 27 2025 -323 -325 408 half line dmj dgc: 0 40257 3 101 Actual deskew ireclen: 20480 ** 27 1104 0 58512 Writing data negflag .eq. 0 sj>s1: 2025 1615 Zeroing lines in arrays Total # of output lines = 27 38888 2025 3129 0 1104 patch iptc,sj,dgj,dgi,id: 27 3129 -323 -323 1104 half line dmj dgc: 1 40257 3 101 Actual deskew ireclen: 20480 ** 27 1104 1 59616 Writing data negflag .eq. 0 sj>s1: 3129 2025 Zeroing lines in arrays Total # of output lines = 27 39992 Processing block number 28 DEBUG -336 -2.169396 -335.1280 0.0000000E+00 0.0000000E+00 3129 3524 -13 408 patch iptc,sj,dgj,dgi,id: 28 3524 -336 -323 408 half line dmj dgc: 0 41769 -3 101 Actual deskew ireclen: 20480 ** 28 1104 0 60720 Writing data negflag .eq. 0 sj>s1: 3524 3129 Zeroing lines in arrays Total # of output lines = 28 40387 3524 4628 0 1104 patch iptc,sj,dgj,dgi,id: 28 4628 -336 -336 1104 half line dmj dgc: 1 41769 -3 101 Actual deskew ireclen: 20480 ** 28 1104 1 61824 Writing data negflag .eq. 0 sj>s1: 4628 3524 Zeroing lines in arrays Total # of output lines = 28 41491 Processing block number 29 DEBUG -366 -10.20075 -365.4432 0.0000000E+00 0.0000000E+00 4628 5006 -30 408 patch iptc,sj,dgj,dgi,id: 29 5006 -366 -336 408 half line dmj dgc: 0 43281 -11 101 Actual deskew ireclen: 20480 ** 29 1104 0 62928 Writing data negflag .eq. 0 sj>s1: 5006 4628 Zeroing lines in arrays Total # of output lines = 29 41869 5006 6110 0 1104 patch iptc,sj,dgj,dgi,id: 29 6110 -366 -366 1104 half line dmj dgc: 1 43281 -11 101 Actual deskew ireclen: 20480 ** 29 1104 1 64032 Writing data negflag .eq. 0 sj>s1: 6110 5006 Zeroing lines in arrays Total # of output lines = 29 42973 Processing block number 30 DEBUG -406 -18.83004 -405.8211 0.0000000E+00 0.0000000E+00 6110 6478 -40 408 patch iptc,sj,dgj,dgi,id: 30 6478 -406 -366 408 half line dmj dgc: 0 44793 -19 101 Actual deskew ireclen: 20480 ** 30 1104 0 65136 Writing data negflag .eq. 0 sj>s1: 6478 6110 Zeroing lines in arrays Total # of output lines = 30 43341 6478 7582 0 1104 patch iptc,sj,dgj,dgi,id: 30 7582 -406 -406 1104 half line dmj dgc: 1 44793 -19 101 Actual deskew ireclen: 20480 ** 30 1104 1 66240 Writing data negflag .eq. 0 sj>s1: 7582 6478 Zeroing lines in arrays Total # of output lines = 30 44445 Processing block number 31 DEBUG -441 -24.38279 -440.1462 0.0000000E+00 0.0000000E+00 7582 7955 -35 408 patch iptc,sj,dgj,dgi,id: 31 7955 -441 -406 408 half line dmj dgc: 0 46305 -25 101 Actual deskew ireclen: 20480 ** 31 1104 0 67344 Writing data negflag .eq. 0 sj>s1: 7955 7582 Zeroing lines in arrays Total # of output lines = 31 44818 7955 9059 0 1104 patch iptc,sj,dgj,dgi,id: 31 9059 -441 -441 1104 half line dmj dgc: 1 46305 -25 101 Actual deskew ireclen: 20480 ** 31 1104 1 68448 Writing data negflag .eq. 0 sj>s1: 9059 7955 Zeroing lines in arrays Total # of output lines = 31 45922 Processing block number 32 DEBUG -462 -26.16216 -461.4782 0.0000000E+00 0.0000000E+00 9059 9446 -21 408 patch iptc,sj,dgj,dgi,id: 32 9446 -462 -441 408 half line dmj dgc: 0 47817 -27 101 Actual deskew ireclen: 20480 ** 32 1104 0 69552 Writing data negflag .eq. 0 sj>s1: 9446 9059 Zeroing lines in arrays Total # of output lines = 32 46309 9446 10550 0 1104 patch iptc,sj,dgj,dgi,id: 32 10550 -462 -462 1104 half line dmj dgc: 1 47817 -27 101 Actual deskew ireclen: 20480 ** 32 1104 1 70656 Writing data negflag .eq. 0 sj>s1: 10550 9446 Zeroing lines in arrays Total # of output lines = 32 47413 Processing block number 33 DEBUG -469 -25.69799 -468.3354 0.0000000E+00 0.0000000E+00 10550 10951 -7 408 patch iptc,sj,dgj,dgi,id: 33 10951 -469 -462 408 half line dmj dgc: 0 49329 -26 101 Actual deskew ireclen: 20480 ** 33 1104 0 71760 Writing data negflag .eq. 0 sj>s1: 10951 10550 Zeroing lines in arrays Total # of output lines = 33 47814 10951 12055 0 1104 patch iptc,sj,dgj,dgi,id: 33 12055 -469 -469 1104 half line dmj dgc: 1 49329 -26 101 Actual deskew ireclen: 20480 ** 33 1104 1 72864 Writing data negflag .eq. 0 sj>s1: 12055 10951 Zeroing lines in arrays Total # of output lines = 33 48918 Processing block number 34 DEBUG -467 -25.12100 -466.2682 0.0000000E+00 0.0000000E+00 12055 12465 2 408 patch iptc,sj,dgj,dgi,id: 34 177 -467 -469 408 half line dmj dgc: 0 50841 -26 101 Actual deskew ireclen: 20480 ** 34 1104 0 73968 Writing data negflag .eq. 0 s1>sj: 12055 177 Zeroing lines in arrays Total # of output lines = 34 49328 177 1281 0 1104 patch iptc,sj,dgj,dgi,id: 34 1281 -467 -467 1104 half line dmj dgc: 1 50841 -26 101 Actual deskew ireclen: 20480 ** 34 1104 1 75072 Writing data negflag .eq. 0 sj>s1: 1281 177 Zeroing lines in arrays Total # of output lines = 34 50432 Processing block number 35 DEBUG -474 -28.36840 -473.0615 0.0000000E+00 0.0000000E+00 1281 1682 -7 408 patch iptc,sj,dgj,dgi,id: 35 1682 -474 -467 408 half line dmj dgc: 0 52353 -29 101 Actual deskew ireclen: 20480 ** 35 1104 0 76176 Writing data negflag .eq. 0 sj>s1: 1682 1281 Zeroing lines in arrays Total # of output lines = 35 50833 1682 2786 0 1104 patch iptc,sj,dgj,dgi,id: 35 2786 -474 -474 1104 half line dmj dgc: 1 52353 -29 101 Actual deskew ireclen: 20480 ** 35 1104 1 77280 Writing data negflag .eq. 0 sj>s1: 2786 1682 Zeroing lines in arrays Total # of output lines = 35 51937 Processing block number 36 DEBUG -515 -40.84946 -514.1362 0.0000000E+00 0.0000000E+00 2786 3153 -41 408 patch iptc,sj,dgj,dgi,id: 36 3153 -515 -474 408 half line dmj dgc: 0 53865 -41 101 Actual deskew ireclen: 20480 ** 36 1104 0 78384 Writing data negflag .eq. 0 sj>s1: 3153 2786 Zeroing lines in arrays Total # of output lines = 36 52304 3153 4257 0 1104 patch iptc,sj,dgj,dgi,id: 36 4257 -515 -515 1104 half line dmj dgc: 1 53865 -41 101 Actual deskew ireclen: 20480 ** 36 1104 1 79488 Writing data negflag .eq. 0 sj>s1: 4257 3153 Zeroing lines in arrays Total # of output lines = 36 53408 Processing block number 37 DEBUG -565 -53.84909 -564.0965 0.0000000E+00 0.0000000E+00 4257 4615 -50 408 patch iptc,sj,dgj,dgi,id: 37 4615 -565 -515 408 half line dmj dgc: 0 55377 -54 101 Actual deskew ireclen: 20480 ** 37 1104 0 80592 Writing data negflag .eq. 0 sj>s1: 4615 4257 Zeroing lines in arrays Total # of output lines = 37 53766 4615 5719 0 1104 patch iptc,sj,dgj,dgi,id: 37 5719 -565 -565 1104 half line dmj dgc: 1 55377 -54 101 Actual deskew ireclen: 20480 ** 37 1104 1 81696 Writing data negflag .eq. 0 sj>s1: 5719 4615 Zeroing lines in arrays Total # of output lines = 37 54870 Processing block number 38 DEBUG -585 -57.02274 -584.2096 0.0000000E+00 0.0000000E+00 5719 5066 -20 -633 patch iptc,sj,dgj,dgi,id: 38 5066 -585 -565 -633 half line dmj dgc: 0 55848 -58 101 Actual deskew ireclen: 20480 ** 38 1104 0 82800 Zeroing lines in arrays Total # of output lines = 38 54870 5719 6170 0 1104 patch iptc,sj,dgj,dgi,id: 38 6170 -585 -585 1104 half line dmj dgc: 1 55848 -58 101 Actual deskew ireclen: 20480 ** 38 1104 1 83904 Writing data negflag .eq. 0 sj>s1: 6170 5719 Zeroing lines in arrays Total # of output lines = 38 55321 ia dmi dgi: 6170 -58 -585 Writing the last 1631 lines last half sj>s1 7801 6170 55321 WAYNE done patche 180.5908390283585 Total # of output lines = 56952 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 56952 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 181.8216780424118 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9549669 576.3618 146 -0.031 3046 0.000 576.36176 0.000022 0.000015 0.000000 r_peak,r_snr = 0.9474983 504.4459 246 -0.031 3046 0.031 504.44589 0.000027 0.000018 0.000000 r_peak,r_snr = 0.9448293 563.1066 346 -0.031 3046 0.000 563.10663 0.000026 0.000019 0.000000 r_peak,r_snr = 0.9554359 583.8990 446 -0.031 3046 0.031 583.89905 0.000021 0.000015 0.000000 r_peak,r_snr = 0.9547509 517.4854 546 -0.063 3046 0.000 517.48535 0.000021 0.000016 0.000000 r_peak,r_snr = 0.9602350 562.4601 646 -0.063 3046 0.000 562.46014 0.000018 0.000014 0.000000 r_peak,r_snr = 0.9577681 513.5129 746 -0.031 3046 0.031 513.51288 0.000021 0.000015 0.000000 r_peak,r_snr = 0.9494483 569.6370 846 -0.063 3046 0.000 569.63702 0.000024 0.000018 0.000000 r_peak,r_snr = 0.9430631 517.8884 946 -0.031 3046 0.000 517.88837 0.000027 0.000021 0.000000 r_peak,r_snr = 0.9450861 533.9407 1046 -0.031 3046 0.000 533.94073 0.000027 0.000020 0.000000 r_peak,r_snr = 0.9298623 483.0025 1146 -0.063 3046 0.000 483.00247 0.000035 0.000025 0.000000 r_peak,r_snr = 0.9334298 441.4182 1246 -0.031 3046 0.000 441.41821 0.000034 0.000025 0.000000 r_peak,r_snr = 0.9384505 482.9810 1346 -0.031 3046 0.000 482.98096 0.000031 0.000023 0.000000 r_peak,r_snr = 0.9077310 490.4083 1446 -0.031 3046 0.031 490.40826 0.000048 0.000036 0.000000 r_peak,r_snr = 0.9107833 618.4984 1546 -0.031 3046 0.000 618.49835 0.000043 0.000033 0.000000 r_peak,r_snr = 0.9064969 146.6514 1646 -0.031 3046 0.000 146.65140 0.000056 0.000044 0.000000 r_peak,r_snr = 0.8942736 381.6681 1746 -0.031 3046 0.031 381.66809 0.000058 0.000045 -0.000001 r_peak,r_snr = 0.8973954 229.7314 1846 0.000 3046 0.000 229.73140 0.000057 0.000047 0.000000 r_peak,r_snr = 0.8600400 388.5459 1946 -0.063 3046 0.000 388.54590 0.000079 0.000059 0.000000 r_peak,r_snr = 0.8203034 489.9533 2046 -0.063 3046 0.000 489.95328 0.000103 0.000076 0.000000 At line = 3400 Reading in data.... r_peak,r_snr = 0.9580274 648.1344 146 -0.031 3446 0.000 648.13440 0.000019 0.000014 0.000000 r_peak,r_snr = 0.9582612 468.7641 246 -0.031 3446 0.031 468.76413 0.000020 0.000015 0.000000 r_peak,r_snr = 0.9435562 452.9171 346 -0.031 3446 0.031 452.91714 0.000029 0.000020 -0.000001 r_peak,r_snr = 0.9576046 574.4839 446 -0.031 3446 0.031 574.48395 0.000020 0.000014 0.000000 r_peak,r_snr = 0.9664328 467.7615 546 -0.031 3446 0.000 467.76147 0.000016 0.000012 0.000000 r_peak,r_snr = 0.9569011 572.4579 646 -0.031 3446 0.000 572.45789 0.000021 0.000014 0.000000 r_peak,r_snr = 0.9524946 416.5069 746 -0.031 3446 0.000 416.50690 0.000023 0.000017 0.000000 r_peak,r_snr = 0.9536590 530.9313 846 -0.031 3446 0.031 530.93134 0.000022 0.000017 0.000000 r_peak,r_snr = 0.9480478 530.4834 946 -0.031 3446 0.000 530.48340 0.000025 0.000018 0.000000 r_peak,r_snr = 0.9392695 548.6421 1046 -0.031 3446 0.000 548.64209 0.000030 0.000022 0.000000 r_peak,r_snr = 0.9316778 297.9949 1146 -0.063 3446 0.000 297.99487 0.000034 0.000026 0.000000 r_peak,r_snr = 0.9209122 513.7266 1246 -0.031 3446 0.000 513.72662 0.000040 0.000029 0.000000 r_peak,r_snr = 0.9299206 542.1331 1346 -0.031 3446 0.031 542.13312 0.000035 0.000025 0.000000 r_peak,r_snr = 0.9189094 354.8799 1446 -0.031 3446 0.031 354.87991 0.000045 0.000033 0.000000 r_peak,r_snr = 0.9289582 415.4123 1546 -0.031 3446 0.031 415.41232 0.000038 0.000028 0.000001 r_peak,r_snr = 0.9146491 72.82970 1646 -0.031 3446 0.000 72.82970 0.000056 0.000043 0.000002 r_peak,r_snr = 0.9023716 339.2319 1746 -0.031 3446 0.031 339.23190 0.000054 0.000040 0.000000 r_peak,r_snr = 0.8812714 410.9909 1846 -0.031 3446 0.000 410.99091 0.000067 0.000049 -0.000001 r_peak,r_snr = 0.8846215 413.2563 1946 -0.031 3446 0.000 413.25635 0.000063 0.000047 0.000001 r_peak,r_snr = 0.8274190 485.2224 2046 -0.063 3446 0.031 485.22244 0.000100 0.000073 -0.000001 At line = 3800 Reading in data.... r_peak,r_snr = 0.9566803 558.8609 146 -0.031 3846 0.031 558.86090 0.000020 0.000015 0.000000 r_peak,r_snr = 0.9581966 444.6541 246 -0.031 3846 0.031 444.65411 0.000021 0.000015 0.000000 r_peak,r_snr = 0.9330214 456.5242 346 -0.031 3846 0.000 456.52417 0.000034 0.000025 0.000000 r_peak,r_snr = 0.9566127 563.3975 446 -0.031 3846 0.000 563.39746 0.000020 0.000016 0.000000 r_peak,r_snr = 0.9633774 489.4786 546 -0.031 3846 0.000 489.47861 0.000018 0.000013 0.000000 r_peak,r_snr = 0.9573879 552.6884 646 -0.031 3846 0.031 552.68842 0.000021 0.000014 0.000000 r_peak,r_snr = 0.9561678 524.5259 746 -0.063 3846 0.000 524.52588 0.000021 0.000015 0.000000 r_peak,r_snr = 0.9506142 548.2104 846 -0.031 3846 0.000 548.21039 0.000024 0.000017 0.000000 r_peak,r_snr = 0.9433480 407.8295 946 -0.063 3846 0.000 407.82950 0.000030 0.000021 0.000000 r_peak,r_snr = 0.9400924 472.1815 1046 -0.031 3846 0.031 472.18146 0.000030 0.000022 0.000000 r_peak,r_snr = 0.9304461 500.3077 1146 -0.031 3846 0.031 500.30771 0.000035 0.000026 0.000000 r_peak,r_snr = 0.9257771 538.2206 1246 -0.063 3846 0.031 538.22064 0.000038 0.000026 0.000000 r_peak,r_snr = 0.9316959 496.2820 1346 -0.031 3846 0.031 496.28204 0.000035 0.000025 0.000000 r_peak,r_snr = 0.9159275 525.0040 1446 -0.031 3846 0.000 525.00397 0.000043 0.000031 0.000000 r_peak,r_snr = 0.9291068 489.8678 1546 -0.031 3846 0.000 489.86777 0.000035 0.000026 0.000000 r_peak,r_snr = 0.9127621 275.4720 1646 -0.031 3846 0.000 275.47202 0.000050 0.000039 0.000001 r_peak,r_snr = 0.8932683 323.0379 1746 -0.063 3846 0.000 323.03790 0.000060 0.000046 0.000000 r_peak,r_snr = 0.8997003 442.0420 1846 -0.031 3846 0.031 442.04199 0.000054 0.000041 0.000000 r_peak,r_snr = 0.8673015 444.8126 1946 -0.031 3846 0.031 444.81259 0.000072 0.000055 -0.000001 r_peak,r_snr = 0.8721706 275.7448 2046 -0.063 3846 0.000 275.74475 0.000074 0.000059 -0.000002 At line = 4200 Reading in data.... r_peak,r_snr = 0.9648456 487.1842 146 -0.031 4246 0.000 487.18423 0.000017 0.000012 0.000000 r_peak,r_snr = 0.9557819 523.9149 246 -0.031 4246 0.031 523.91492 0.000022 0.000015 0.000000 r_peak,r_snr = 0.9566095 589.3651 346 -0.031 4246 0.031 589.36505 0.000021 0.000014 0.000000 r_peak,r_snr = 0.9558805 471.6283 446 -0.031 4246 0.031 471.62827 0.000022 0.000014 0.000000 r_peak,r_snr = 0.9592511 523.3068 546 -0.031 4246 0.031 523.30676 0.000020 0.000014 0.000000 r_peak,r_snr = 0.9540182 549.8168 646 -0.031 4246 0.000 549.81677 0.000022 0.000017 0.000000 r_peak,r_snr = 0.9559399 526.0367 746 -0.031 4246 0.000 526.03674 0.000021 0.000015 0.000000 r_peak,r_snr = 0.9492626 557.5415 846 -0.031 4246 0.000 557.54150 0.000024 0.000018 0.000000 r_peak,r_snr = 0.9445010 492.6027 946 -0.031 4246 0.000 492.60269 0.000027 0.000020 0.000000 r_peak,r_snr = 0.9405126 482.2788 1046 -0.031 4246 0.000 482.27884 0.000029 0.000021 0.000000 r_peak,r_snr = 0.9349813 527.4221 1146 -0.031 4246 0.000 527.42206 0.000032 0.000023 0.000000 r_peak,r_snr = 0.9337637 343.2957 1246 -0.031 4246 0.031 343.29572 0.000034 0.000025 0.000000 r_peak,r_snr = 0.9295283 432.2649 1346 -0.031 4246 0.031 432.26492 0.000036 0.000026 0.000000 r_peak,r_snr = 0.9060009 471.4501 1446 -0.063 4246 0.031 471.45013 0.000048 0.000036 0.000000 r_peak,r_snr = 0.9224638 491.3692 1546 -0.063 4246 0.031 491.36917 0.000039 0.000030 0.000000 r_peak,r_snr = 0.9147268 365.1618 1646 -0.031 4246 0.031 365.16183 0.000046 0.000034 0.000000 r_peak,r_snr = 0.8968840 415.3432 1746 -0.031 4246 0.031 415.34323 0.000056 0.000042 -0.000001 r_peak,r_snr = 0.9031454 218.0263 1846 -0.031 4246 0.031 218.02631 0.000054 0.000042 -0.000001 r_peak,r_snr = 0.8849222 101.9997 1946 -0.031 4246 0.031 101.99967 0.000068 0.000056 -0.000001 r_peak,r_snr = 0.8546549 325.8457 2046 -0.063 4246 0.031 325.84573 0.000087 0.000065 0.000000 At line = 4600 Reading in data.... r_peak,r_snr = 0.9615186 579.3928 146 -0.031 4646 0.031 579.39276 0.000018 0.000013 0.000000 r_peak,r_snr = 0.9548082 595.2554 246 -0.031 4646 0.031 595.25543 0.000021 0.000015 0.000000 r_peak,r_snr = 0.9546347 548.6411 346 -0.031 4646 0.031 548.64105 0.000022 0.000016 0.000000 r_peak,r_snr = 0.9561247 545.8131 446 -0.031 4646 0.031 545.81311 0.000021 0.000015 0.000000 r_peak,r_snr = 0.9583616 595.4633 546 -0.031 4646 0.000 595.46326 0.000019 0.000014 0.000000 r_peak,r_snr = 0.9607349 498.8796 646 -0.031 4646 0.000 498.87964 0.000019 0.000014 0.000000 r_peak,r_snr = 0.9517317 590.5022 746 -0.031 4646 0.031 590.50220 0.000023 0.000016 0.000000 r_peak,r_snr = 0.9505321 541.3862 846 -0.031 4646 0.031 541.38617 0.000024 0.000017 0.000000 r_peak,r_snr = 0.9425080 538.9530 946 -0.031 4646 0.000 538.95300 0.000027 0.000020 0.000000 r_peak,r_snr = 0.9410190 528.9879 1046 -0.031 4646 0.000 528.98785 0.000028 0.000021 0.000000 r_peak,r_snr = 0.9321285 639.2189 1146 -0.031 4646 0.031 639.21893 0.000032 0.000023 0.000000 r_peak,r_snr = 0.9356627 490.2947 1246 -0.031 4646 0.000 490.29474 0.000033 0.000023 0.000000 r_peak,r_snr = 0.9240872 511.8777 1346 -0.031 4646 0.031 511.87766 0.000039 0.000028 0.000000 r_peak,r_snr = 0.9271067 468.9664 1446 -0.031 4646 0.000 468.96640 0.000037 0.000027 0.000000 r_peak,r_snr = 0.9171237 515.5484 1546 -0.031 4646 0.031 515.54840 0.000041 0.000030 0.000000 r_peak,r_snr = 0.9119731 521.9055 1646 -0.063 4646 0.031 521.90546 0.000045 0.000033 0.000000 r_peak,r_snr = 0.8941498 488.0443 1746 -0.063 4646 0.031 488.04425 0.000056 0.000042 0.000000 r_peak,r_snr = 0.9087762 333.7591 1846 -0.031 4646 0.000 333.75906 0.000051 0.000039 0.000000 r_peak,r_snr = 0.8753108 362.6895 1946 -0.031 4646 0.031 362.68954 0.000070 0.000052 0.000000 r_peak,r_snr = 0.8759687 250.6124 2046 -0.031 4646 0.000 250.61241 0.000073 0.000054 0.000000 At line = 5000 Reading in data.... r_peak,r_snr = 0.9602743 613.1907 146 -0.031 5046 0.031 613.19073 0.000019 0.000013 0.000000 r_peak,r_snr = 0.9551910 534.1456 246 -0.031 5046 0.031 534.14563 0.000022 0.000015 0.000000 r_peak,r_snr = 0.9470768 600.9276 346 -0.031 5046 0.031 600.92755 0.000025 0.000018 -0.000001 r_peak,r_snr = 0.9567060 540.0897 446 -0.063 5046 0.031 540.08972 0.000020 0.000015 0.000000 r_peak,r_snr = 0.9575330 555.5314 546 -0.031 5046 0.000 555.53143 0.000020 0.000015 0.000000 r_peak,r_snr = 0.9590718 437.7797 646 -0.031 5046 0.000 437.77969 0.000020 0.000015 0.000000 r_peak,r_snr = 0.9551766 616.9164 746 -0.031 5046 0.000 616.91644 0.000021 0.000015 0.000000 r_peak,r_snr = 0.9504541 513.0092 846 -0.031 5046 0.031 513.00916 0.000024 0.000018 0.000000 r_peak,r_snr = 0.9501306 497.4556 946 -0.031 5046 0.000 497.45563 0.000024 0.000018 0.000000 r_peak,r_snr = 0.9405673 514.5941 1046 -0.031 5046 0.031 514.59406 0.000029 0.000021 0.000000 r_peak,r_snr = 0.9329558 553.5099 1146 -0.031 5046 0.000 553.50989 0.000032 0.000024 0.000000 r_peak,r_snr = 0.9363098 493.7455 1246 -0.031 5046 0.000 493.74548 0.000031 0.000023 0.000000 r_peak,r_snr = 0.9308257 447.0043 1346 -0.031 5046 0.000 447.00433 0.000034 0.000026 0.000000 r_peak,r_snr = 0.9218435 513.5679 1446 -0.031 5046 0.000 513.56787 0.000039 0.000029 0.000000 r_peak,r_snr = 0.9272431 325.0248 1546 -0.031 5046 0.000 325.02478 0.000038 0.000029 0.000000 r_peak,r_snr = 0.9078517 456.7853 1646 -0.031 5046 0.031 456.78531 0.000049 0.000036 0.000001 r_peak,r_snr = 0.9029740 222.8113 1746 -0.063 5046 0.000 222.81126 0.000057 0.000043 0.000000 r_peak,r_snr = 0.9015446 425.6454 1846 -0.063 5046 0.000 425.64542 0.000050 0.000040 0.000000 r_peak,r_snr = 0.8620672 416.3938 1946 -0.063 5046 0.000 416.39383 0.000078 0.000061 0.000000 r_peak,r_snr = 0.8434765 448.8498 2046 -0.063 5046 0.031 448.84982 0.000087 0.000069 -0.000001 At line = 5400 Reading in data.... r_peak,r_snr = 0.9572738 466.2881 146 -0.031 5446 0.031 466.28806 0.000021 0.000015 0.000000 r_peak,r_snr = 0.9524447 621.7100 246 -0.031 5446 0.000 621.71002 0.000022 0.000016 0.000000 r_peak,r_snr = 0.9541343 489.7655 346 -0.031 5446 0.031 489.76553 0.000022 0.000016 0.000000 r_peak,r_snr = 0.9538060 513.1485 446 -0.063 5446 0.031 513.14850 0.000022 0.000016 0.000000 r_peak,r_snr = 0.9576356 544.6279 546 -0.031 5446 0.000 544.62793 0.000020 0.000015 0.000000 r_peak,r_snr = 0.9605618 486.2420 646 -0.031 5446 0.000 486.24197 0.000019 0.000014 0.000000 r_peak,r_snr = 0.9564790 573.9877 746 -0.031 5446 0.000 573.98773 0.000020 0.000015 0.000000 r_peak,r_snr = 0.9523190 661.3158 846 -0.031 5446 0.000 661.31580 0.000022 0.000015 0.000000 r_peak,r_snr = 0.9454433 630.0291 946 -0.031 5446 0.031 630.02905 0.000025 0.000019 0.000000 r_peak,r_snr = 0.9402170 591.0839 1046 -0.031 5446 0.031 591.08392 0.000029 0.000020 0.000000 r_peak,r_snr = 0.9397429 543.2631 1146 -0.031 5446 0.000 543.26306 0.000030 0.000021 0.000000 r_peak,r_snr = 0.9264457 456.6354 1246 -0.031 5446 0.000 456.63538 0.000037 0.000028 0.000000 r_peak,r_snr = 0.9263929 494.3947 1346 -0.031 5446 0.000 494.39468 0.000036 0.000027 0.000000 r_peak,r_snr = 0.9242262 396.1923 1446 -0.031 5446 0.000 396.19226 0.000041 0.000030 0.000000 r_peak,r_snr = 0.9305308 287.9493 1546 -0.031 5446 0.031 287.94928 0.000038 0.000029 0.000000 r_peak,r_snr = 0.9147733 450.6937 1646 -0.063 5446 0.000 450.69370 0.000043 0.000033 0.000000 r_peak,r_snr = 0.9038764 219.8077 1746 -0.031 5446 0.031 219.80774 0.000053 0.000040 0.000000 r_peak,r_snr = 0.9075818 341.3872 1846 -0.031 5446 0.000 341.38724 0.000049 0.000039 0.000000 r_peak,r_snr = 0.8483325 398.6627 1946 -0.031 5446 0.031 398.66272 0.000089 0.000065 0.000001 r_peak,r_snr = 0.8344027 387.8819 2046 -0.063 5446 0.000 387.88187 0.000094 0.000075 0.000001 At line = 5800 Reading in data.... r_peak,r_snr = 0.9634567 496.1108 146 -0.031 5846 0.031 496.11081 0.000018 0.000013 0.000000 r_peak,r_snr = 0.9543381 489.6581 246 -0.031 5846 0.031 489.65814 0.000022 0.000016 0.000000 r_peak,r_snr = 0.9525003 486.2392 346 -0.031 5846 0.031 486.23917 0.000023 0.000016 0.000000 r_peak,r_snr = 0.9469056 426.2776 446 -0.063 5846 0.031 426.27756 0.000028 0.000019 0.000000 r_peak,r_snr = 0.9563878 572.8950 546 -0.031 5846 0.000 572.89496 0.000020 0.000015 0.000000 r_peak,r_snr = 0.9565694 651.3263 646 -0.031 5846 0.031 651.32629 0.000020 0.000014 0.000000 r_peak,r_snr = 0.9589039 451.0252 746 -0.031 5846 0.031 451.02521 0.000020 0.000015 0.000000 r_peak,r_snr = 0.9535283 463.5987 846 -0.031 5846 0.031 463.59866 0.000023 0.000017 0.000000 r_peak,r_snr = 0.9471081 566.2278 946 -0.031 5846 0.031 566.22784 0.000025 0.000018 0.000000 r_peak,r_snr = 0.9468586 587.2938 1046 -0.031 5846 0.031 587.29376 0.000024 0.000019 0.000000 r_peak,r_snr = 0.9343507 434.1386 1146 -0.031 5846 0.031 434.13861 0.000034 0.000024 0.000000 r_peak,r_snr = 0.9373407 460.0634 1246 -0.031 5846 0.000 460.06339 0.000031 0.000023 0.000000 r_peak,r_snr = 0.9258943 547.8239 1346 -0.031 5846 0.000 547.82391 0.000036 0.000026 0.000000 r_peak,r_snr = 0.9226766 410.7046 1446 -0.031 5846 0.031 410.70459 0.000042 0.000030 0.000000 r_peak,r_snr = 0.9268698 369.9484 1546 -0.031 5846 0.031 369.94839 0.000039 0.000030 0.000001 r_peak,r_snr = 0.9128668 471.1819 1646 -0.031 5846 0.031 471.18192 0.000047 0.000032 0.000000 r_peak,r_snr = 0.9100116 458.4088 1746 -0.031 5846 0.000 458.40878 0.000046 0.000035 0.000000 r_peak,r_snr = 0.9088845 374.5304 1846 -0.031 5846 0.031 374.53036 0.000050 0.000037 0.000001 r_peak,r_snr = 0.8867733 264.7053 1946 -0.031 5846 0.000 264.70532 0.000066 0.000048 -0.000001 r_peak,r_snr = 0.8438287 358.3610 2046 -0.031 5846 0.031 358.36102 0.000092 0.000070 0.000001 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.8699911 535.4309 146 0.031 3046 0.063 535.43091 0.000070 0.000049 -0.000001 r_peak,r_snr = 0.8500215 450.6675 246 0.031 3046 0.094 450.66748 0.000088 0.000060 -0.000001 r_peak,r_snr = 0.8576791 509.7800 346 0.031 3046 0.063 509.77997 0.000077 0.000057 -0.000001 r_peak,r_snr = 0.8916191 549.5250 446 0.031 3046 0.063 549.52496 0.000055 0.000040 -0.000001 r_peak,r_snr = 0.8795664 465.9866 546 0.000 3046 0.063 465.98660 0.000062 0.000048 0.000000 r_peak,r_snr = 0.9062503 529.3896 646 0.000 3046 0.063 529.38959 0.000045 0.000036 -0.000001 r_peak,r_snr = 0.8988985 468.3112 746 0.031 3046 0.063 468.31125 0.000053 0.000040 0.000001 r_peak,r_snr = 0.8808848 536.7066 846 0.031 3046 0.063 536.70660 0.000061 0.000048 0.000000 r_peak,r_snr = 0.8842532 455.2081 946 0.031 3046 0.063 455.20810 0.000060 0.000049 0.000000 r_peak,r_snr = 0.8916581 478.4936 1046 0.031 3046 0.063 478.49359 0.000058 0.000044 0.000000 r_peak,r_snr = 0.8713476 450.3758 1146 0.031 3046 0.063 450.37579 0.000069 0.000051 -0.000001 r_peak,r_snr = 0.8746264 410.3033 1246 0.031 3046 0.063 410.30325 0.000071 0.000054 -0.000001 r_peak,r_snr = 0.8757955 464.7439 1346 0.031 3046 0.063 464.74387 0.000067 0.000052 0.000000 r_peak,r_snr = 0.8493847 433.6960 1446 0.031 3046 0.063 433.69598 0.000085 0.000067 0.000001 r_peak,r_snr = 0.8473459 563.6323 1546 0.063 3046 0.063 563.63226 0.000080 0.000064 0.000001 r_peak,r_snr = 0.8223264 132.0964 1646 0.063 3046 0.094 132.09641 0.000123 0.000098 0.000000 r_peak,r_snr = 0.8090672 335.3134 1746 0.031 3046 0.094 335.31345 0.000119 0.000096 -0.000002 r_peak,r_snr = 0.8210046 192.9398 1846 0.063 3046 0.063 192.93982 0.000112 0.000096 0.000000 r_peak,r_snr = 0.7812694 337.0925 1946 0.031 3046 0.063 337.09253 0.000140 0.000109 0.000000 r_peak,r_snr = 0.7455026 442.8365 2046 0.031 3046 0.063 442.83646 0.000165 0.000129 0.000001 At line = 3400 Reading in data.... r_peak,r_snr = 0.8860403 601.3198 146 0.000 3446 0.063 601.31982 0.000058 0.000043 -0.000001 r_peak,r_snr = 0.8990583 450.5640 246 0.031 3446 0.094 450.56400 0.000051 0.000040 -0.000001 r_peak,r_snr = 0.8376417 429.0449 346 0.031 3446 0.063 429.04492 0.000096 0.000066 -0.000003 r_peak,r_snr = 0.8981994 532.7686 446 0.031 3446 0.063 532.76862 0.000053 0.000038 0.000000 r_peak,r_snr = 0.9172835 436.5136 546 0.031 3446 0.063 436.51358 0.000041 0.000032 0.000000 r_peak,r_snr = 0.8902979 539.3411 646 0.031 3446 0.063 539.34113 0.000057 0.000040 0.000000 r_peak,r_snr = 0.8777003 407.7483 746 0.031 3446 0.063 407.74832 0.000064 0.000051 -0.000001 r_peak,r_snr = 0.8963811 497.9053 846 0.031 3446 0.063 497.90527 0.000053 0.000041 -0.000001 r_peak,r_snr = 0.8829547 477.0313 946 0.000 3446 0.063 477.03134 0.000061 0.000046 0.000000 r_peak,r_snr = 0.8626058 510.1996 1046 0.031 3446 0.063 510.19965 0.000073 0.000056 0.000000 r_peak,r_snr = 0.8665007 259.3587 1146 0.031 3446 0.063 259.35867 0.000074 0.000059 0.000000 r_peak,r_snr = 0.8721754 502.1164 1246 0.031 3446 0.063 502.11639 0.000069 0.000050 -0.000001 r_peak,r_snr = 0.8677810 493.8076 1346 0.031 3446 0.063 493.80762 0.000070 0.000054 0.000000 r_peak,r_snr = 0.8696591 344.9091 1446 0.031 3446 0.063 344.90912 0.000077 0.000059 0.000000 r_peak,r_snr = 0.8677158 379.0753 1546 0.063 3446 0.063 379.07532 0.000076 0.000058 0.000001 r_peak,r_snr = 0.8659062 72.61047 1646 0.031 3446 0.063 72.61047 0.000095 0.000077 0.000004 r_peak,r_snr = 0.8390660 316.0553 1746 0.031 3446 0.094 316.05527 0.000097 0.000074 -0.000001 r_peak,r_snr = 0.7948956 385.4695 1846 0.031 3446 0.063 385.46948 0.000131 0.000099 -0.000002 r_peak,r_snr = 0.8198585 393.4103 1946 0.031 3446 0.063 393.41034 0.000110 0.000082 0.000001 r_peak,r_snr = 0.7598000 427.2087 2046 0.000 3446 0.063 427.20871 0.000154 0.000119 -0.000002 At line = 3800 Reading in data.... r_peak,r_snr = 0.8824618 502.4463 146 0.031 3846 0.063 502.44629 0.000060 0.000047 -0.000001 r_peak,r_snr = 0.8847653 423.5100 246 0.031 3846 0.094 423.50998 0.000063 0.000045 -0.000001 r_peak,r_snr = 0.8077528 404.4982 346 0.031 3846 0.063 404.49817 0.000116 0.000086 -0.000001 r_peak,r_snr = 0.8932173 529.8621 446 0.031 3846 0.063 529.86212 0.000054 0.000043 0.000000 r_peak,r_snr = 0.9108997 475.9587 546 0.031 3846 0.063 475.95874 0.000046 0.000034 0.000001 r_peak,r_snr = 0.8972418 531.6105 646 0.031 3846 0.063 531.61053 0.000053 0.000038 -0.000001 r_peak,r_snr = 0.9007416 493.3540 746 0.031 3846 0.063 493.35397 0.000050 0.000038 0.000000 r_peak,r_snr = 0.8845507 511.9770 846 0.031 3846 0.063 511.97702 0.000061 0.000045 0.000000 r_peak,r_snr = 0.8908520 401.8639 946 0.031 3846 0.063 401.86392 0.000062 0.000044 0.000000 r_peak,r_snr = 0.8815795 433.8515 1046 0.031 3846 0.063 433.85147 0.000063 0.000049 -0.000001 r_peak,r_snr = 0.8841052 480.9546 1146 0.031 3846 0.063 480.95462 0.000061 0.000047 -0.000001 r_peak,r_snr = 0.8733979 502.2013 1246 0.031 3846 0.063 502.20132 0.000069 0.000048 0.000000 r_peak,r_snr = 0.8776081 455.1480 1346 0.031 3846 0.063 455.14804 0.000066 0.000050 -0.000001 r_peak,r_snr = 0.8581270 518.2468 1446 0.031 3846 0.063 518.24677 0.000078 0.000057 -0.000001 r_peak,r_snr = 0.8787768 469.2342 1546 0.031 3846 0.063 469.23422 0.000064 0.000049 0.000000 r_peak,r_snr = 0.8227374 258.3997 1646 0.031 3846 0.063 258.39966 0.000117 0.000093 0.000001 r_peak,r_snr = 0.7720054 270.6732 1746 0.031 3846 0.063 270.67319 0.000154 0.000129 0.000002 r_peak,r_snr = 0.8179279 393.9713 1846 0.031 3846 0.063 393.97131 0.000111 0.000087 0.000000 r_peak,r_snr = 0.7956234 388.3271 1946 0.031 3846 0.094 388.32712 0.000126 0.000099 -0.000002 r_peak,r_snr = 0.8131688 272.2938 2046 0.031 3846 0.063 272.29376 0.000117 0.000097 -0.000002 At line = 4200 Reading in data.... r_peak,r_snr = 0.9068010 476.6595 146 0.031 4246 0.063 476.65955 0.000049 0.000035 -0.000001 r_peak,r_snr = 0.8908153 486.7050 246 0.031 4246 0.094 486.70499 0.000059 0.000040 -0.000001 r_peak,r_snr = 0.8930985 540.8679 346 0.031 4246 0.094 540.86786 0.000056 0.000039 -0.000001 r_peak,r_snr = 0.8858060 445.2874 446 0.031 4246 0.063 445.28738 0.000061 0.000042 -0.000001 r_peak,r_snr = 0.8972238 502.6537 546 0.031 4246 0.063 502.65375 0.000054 0.000040 -0.000001 r_peak,r_snr = 0.8731537 493.8230 646 0.031 4246 0.063 493.82297 0.000067 0.000053 -0.000001 r_peak,r_snr = 0.8962833 535.0139 746 0.031 4246 0.063 535.01385 0.000054 0.000038 0.000000 r_peak,r_snr = 0.8749110 527.0042 846 0.031 4246 0.063 527.00415 0.000065 0.000049 0.000000 r_peak,r_snr = 0.8869600 487.9458 946 0.031 4246 0.063 487.94583 0.000058 0.000044 0.000000 r_peak,r_snr = 0.8875281 455.6939 1046 0.031 4246 0.063 455.69388 0.000059 0.000044 -0.000001 r_peak,r_snr = 0.8779677 504.1410 1146 0.031 4246 0.063 504.14102 0.000065 0.000048 0.000000 r_peak,r_snr = 0.8661879 306.4951 1246 0.031 4246 0.094 306.49509 0.000076 0.000056 0.000000 r_peak,r_snr = 0.8627161 405.5126 1346 0.063 4246 0.063 405.51263 0.000078 0.000058 0.000000 r_peak,r_snr = 0.8549681 447.2516 1446 0.031 4246 0.063 447.25162 0.000079 0.000061 0.000001 r_peak,r_snr = 0.8568959 452.0180 1546 0.031 4246 0.094 452.01797 0.000079 0.000062 -0.000001 r_peak,r_snr = 0.8415702 339.4930 1646 0.031 4246 0.094 339.49298 0.000095 0.000073 0.000000 r_peak,r_snr = 0.8242907 368.1855 1746 0.031 4246 0.063 368.18555 0.000106 0.000081 -0.000001 r_peak,r_snr = 0.8191414 200.1578 1846 0.031 4246 0.063 200.15776 0.000115 0.000091 -0.000001 r_peak,r_snr = 0.7953393 101.9052 1946 0.000 4246 0.094 101.90520 0.000139 0.000119 -0.000001 r_peak,r_snr = 0.7919220 299.5869 2046 0.000 4246 0.063 299.58691 0.000136 0.000109 -0.000001 At line = 4600 Reading in data.... r_peak,r_snr = 0.8925610 551.1576 146 0.031 4646 0.094 551.15759 0.000054 0.000041 -0.000001 r_peak,r_snr = 0.8854494 551.7912 246 0.031 4646 0.094 551.79120 0.000058 0.000044 -0.000001 r_peak,r_snr = 0.8840092 509.3338 346 0.031 4646 0.094 509.33377 0.000061 0.000045 0.000000 r_peak,r_snr = 0.8951135 514.7194 446 0.031 4646 0.094 514.71942 0.000054 0.000040 -0.000001 r_peak,r_snr = 0.9003261 553.8661 546 0.031 4646 0.063 553.86609 0.000049 0.000037 0.000000 r_peak,r_snr = 0.9092919 479.0742 646 0.031 4646 0.063 479.07425 0.000048 0.000034 0.000001 r_peak,r_snr = 0.8932633 567.5491 746 0.000 4646 0.063 567.54913 0.000056 0.000040 0.000000 e vector 1 error r_peak,r_snr = 0.8958440 488.1203 846 0.031 4646 0.094 488.12027 0.000054 0.000041 0.000000 r_peak,r_snr = 0.8818018 484.8605 946 0.031 4646 0.094 484.86050 0.000061 0.000046 -0.000001 r_peak,r_snr = 0.8912681 506.7069 1046 0.031 4646 0.063 506.70688 0.000055 0.000042 -0.000001 r_peak,r_snr = 0.8881991 574.8396 1146 0.031 4646 0.063 574.83960 0.000056 0.000042 0.000000 r_peak,r_snr = 0.8838397 474.8149 1246 0.031 4646 0.063 474.81494 0.000063 0.000045 0.000001 r_peak,r_snr = 0.8727657 473.6286 1346 0.063 4646 0.063 473.62863 0.000072 0.000051 0.000000 r_peak,r_snr = 0.8672941 450.2538 1446 0.000 4646 0.063 450.25381 0.000072 0.000054 0.000000 r_peak,r_snr = 0.8513102 490.8058 1546 0.063 4646 0.063 490.80582 0.000080 0.000059 -0.000001 r_peak,r_snr = 0.8684084 504.0939 1646 0.031 4646 0.063 504.09387 0.000071 0.000053 0.000001 r_peak,r_snr = 0.8234195 442.5220 1746 0.000 4646 0.063 442.52203 0.000104 0.000079 0.000000 r_peak,r_snr = 0.8298612 310.5391 1846 0.031 4646 0.063 310.53909 0.000105 0.000087 -0.000002 r_peak,r_snr = 0.7993627 334.1381 1946 0.031 4646 0.063 334.13812 0.000124 0.000098 0.000000 r_peak,r_snr = 0.8084303 232.6280 2046 0.000 4646 0.063 232.62802 0.000126 0.000097 0.000001 At line = 5000 Reading in data.... r_peak,r_snr = 0.8949412 575.8496 146 0.031 5046 0.094 575.84961 0.000053 0.000039 0.000000 r_peak,r_snr = 0.8797961 507.2296 246 0.031 5046 0.094 507.22961 0.000064 0.000047 -0.000001 r_peak,r_snr = 0.8666037 549.2303 346 0.031 5046 0.063 549.23029 0.000071 0.000051 -0.000002 r_peak,r_snr = 0.8983508 501.5717 446 0.031 5046 0.094 501.57175 0.000050 0.000040 0.000000 r_peak,r_snr = 0.8969548 537.0809 546 0.000 5046 0.063 537.08093 0.000051 0.000040 -0.000001 r_peak,r_snr = 0.8985003 401.3990 646 0.031 5046 0.063 401.39905 0.000054 0.000040 -0.000001 r_peak,r_snr = 0.8986079 596.2683 746 0.000 5046 0.063 596.26831 0.000050 0.000037 0.000000 r_peak,r_snr = 0.8903129 467.0124 846 0.031 5046 0.094 467.01236 0.000058 0.000044 0.000000 r_peak,r_snr = 0.8914300 458.2808 946 0.031 5046 0.063 458.28082 0.000057 0.000043 0.000000 r_peak,r_snr = 0.8884171 500.9883 1046 0.031 5046 0.063 500.98828 0.000057 0.000044 0.000000 r_peak,r_snr = 0.8862959 534.9686 1146 0.031 5046 0.063 534.96857 0.000058 0.000043 0.000000 r_peak,r_snr = 0.8907020 468.7892 1246 0.031 5046 0.063 468.78918 0.000057 0.000044 0.000000 r_peak,r_snr = 0.8716691 415.4699 1346 0.031 5046 0.063 415.46991 0.000069 0.000053 -0.000001 r_peak,r_snr = 0.8443587 442.4968 1446 0.031 5046 0.094 442.49677 0.000087 0.000066 0.000001 r_peak,r_snr = 0.8556780 308.7299 1546 0.031 5046 0.063 308.72995 0.000084 0.000067 0.000000 r_peak,r_snr = 0.8474037 428.6000 1646 0.031 5046 0.063 428.60004 0.000087 0.000067 0.000001 r_peak,r_snr = 0.8162470 193.9796 1746 0.000 5046 0.063 193.97964 0.000123 0.000097 -0.000001 r_peak,r_snr = 0.8324503 397.9964 1846 0.031 5046 0.063 397.99640 0.000095 0.000077 0.000000 r_peak,r_snr = 0.7905247 374.0026 1946 0.031 5046 0.063 374.00262 0.000133 0.000107 0.000000 r_peak,r_snr = 0.7788031 409.8520 2046 0.031 5046 0.063 409.85199 0.000136 0.000112 -0.000001 At line = 5400 Reading in data.... r_peak,r_snr = 0.8700640 437.3320 146 0.031 5446 0.094 437.33203 0.000070 0.000052 0.000000 r_peak,r_snr = 0.8689139 560.7833 246 0.031 5446 0.094 560.78326 0.000068 0.000052 -0.000001 r_peak,r_snr = 0.8844638 468.2465 346 0.031 5446 0.063 468.24652 0.000061 0.000046 0.000000 r_peak,r_snr = 0.8865299 483.1550 446 0.000 5446 0.063 483.15503 0.000059 0.000044 -0.000001 r_peak,r_snr = 0.8880872 503.3775 546 0.031 5446 0.063 503.37750 0.000058 0.000044 -0.000001 r_peak,r_snr = 0.8994316 453.9698 646 0.031 5446 0.063 453.96979 0.000054 0.000041 -0.000001 r_peak,r_snr = 0.9006306 533.8935 746 0.000 5446 0.063 533.89349 0.000050 0.000038 0.000000 r_peak,r_snr = 0.9010974 586.1516 846 0.031 5446 0.063 586.15155 0.000049 0.000034 0.000000 r_peak,r_snr = 0.8942924 602.7529 946 0.031 5446 0.063 602.75293 0.000052 0.000039 0.000000 r_peak,r_snr = 0.8906437 556.2810 1046 0.031 5446 0.094 556.28101 0.000057 0.000041 0.000000 r_peak,r_snr = 0.8954450 526.5601 1146 0.031 5446 0.063 526.56006 0.000055 0.000040 0.000000 r_peak,r_snr = 0.8473200 410.2492 1246 0.031 5446 0.063 410.24924 0.000085 0.000067 -0.000001 r_peak,r_snr = 0.8645375 452.2765 1346 0.031 5446 0.063 452.27652 0.000072 0.000055 -0.000001 r_peak,r_snr = 0.8584302 344.2931 1446 0.031 5446 0.063 344.29309 0.000085 0.000064 0.000000 r_peak,r_snr = 0.8511413 261.6432 1546 0.031 5446 0.094 261.64322 0.000089 0.000070 -0.000001 r_peak,r_snr = 0.8617327 410.7999 1646 0.031 5446 0.063 410.79990 0.000075 0.000060 -0.000001 r_peak,r_snr = 0.7919806 180.0579 1746 0.031 5446 0.094 180.05788 0.000137 0.000106 0.000001 r_peak,r_snr = 0.8390347 340.3470 1846 0.063 5446 0.063 340.34695 0.000094 0.000076 -0.000001 r_peak,r_snr = 0.7826939 364.8842 1946 0.031 5446 0.094 364.88422 0.000142 0.000105 0.000001 r_peak,r_snr = 0.7665309 348.5639 2046 0.000 5446 0.094 348.56390 0.000149 0.000122 0.000001 At line = 5800 Reading in data.... r_peak,r_snr = 0.9001914 460.9843 146 0.031 5846 0.094 460.98431 0.000053 0.000039 0.000000 r_peak,r_snr = 0.8752036 447.5968 246 0.031 5846 0.094 447.59683 0.000068 0.000051 -0.000001 r_peak,r_snr = 0.8846027 464.5484 346 0.031 5846 0.063 464.54843 0.000061 0.000045 -0.000001 r_peak,r_snr = 0.8588216 382.3895 446 0.000 5846 0.063 382.38950 0.000084 0.000059 -0.000001 r_peak,r_snr = 0.8852101 517.6124 546 0.031 5846 0.094 517.61237 0.000057 0.000045 -0.000001 r_peak,r_snr = 0.9083570 603.1165 646 0.031 5846 0.063 603.11646 0.000044 0.000033 0.000000 r_peak,r_snr = 0.9090285 419.1506 746 0.000 5846 0.063 419.15060 0.000047 0.000036 0.000000 r_peak,r_snr = 0.8951219 428.8245 846 0.031 5846 0.094 428.82449 0.000057 0.000043 0.000000 r_peak,r_snr = 0.9053275 531.3190 946 0.031 5846 0.063 531.31903 0.000048 0.000035 -0.000001 r_peak,r_snr = 0.8923587 565.4681 1046 0.031 5846 0.094 565.46814 0.000052 0.000043 0.000001 r_peak,r_snr = 0.8692391 400.5652 1146 0.031 5846 0.063 400.56522 0.000075 0.000054 0.000000 r_peak,r_snr = 0.8694140 422.9755 1246 0.031 5846 0.063 422.97549 0.000071 0.000056 0.000001 r_peak,r_snr = 0.8589913 509.1360 1346 0.031 5846 0.063 509.13605 0.000074 0.000057 0.000001 r_peak,r_snr = 0.8704994 416.1761 1446 0.031 5846 0.094 416.17615 0.000074 0.000054 -0.000001 r_peak,r_snr = 0.8573930 351.8786 1546 0.031 5846 0.063 351.87863 0.000083 0.000067 0.000001 r_peak,r_snr = 0.8572441 437.9853 1646 0.031 5846 0.063 437.98526 0.000082 0.000059 -0.000001 r_peak,r_snr = 0.8488652 427.2525 1746 0.000 5846 0.063 427.25253 0.000084 0.000065 -0.000001 r_peak,r_snr = 0.8423243 346.0166 1846 0.063 5846 0.063 346.01657 0.000093 0.000074 0.000001 r_peak,r_snr = 0.8327628 268.2454 1946 0.031 5846 0.063 268.24536 0.000103 0.000079 -0.000001 r_peak,r_snr = 0.7631665 329.4566 2046 0.031 5846 0.094 329.45663 0.000155 0.000126 0.000002 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Correlation Coefficient Program ***** ***** ***** ***** This program creates a byte file ***** ***** that contains the correlation ***** ***** coeficient of two complex single ***** ***** look files. ***** ***** ***** ************************************************** Enter the name of the first complex file. Enter number of looks Enter the name of the second single look file 4.629600 0.5144000 9 Enter the output file name number of input lines: 56952 number of output lines: 6328 Reading data and doing multi-looking. + 1 + 577 + 1153 + 1729 + 2305 + 2881 + 3457 + 4033 + 4609 + 5185 + 5761 + 6337 + 6913 + 7489 + 8065 + 8641 + 9217 + 9793 + 10369 + 10945 + 11521 + 12097 + 12673 + 13249 + 13825 + 14401 + 14977 + 15553 + 16129 + 16705 + 17281 + 17857 + 18433 + 19009 + 19585 + 20161 + 20737 + 21313 + 21889 + 22465 + 23041 + 23617 + 24193 + 24769 + 25345 + 25921 + 26497 + 27073 + 27649 + 28225 + 28801 + 29377 + 29953 + 30529 + 31105 + 31681 + 32257 + 32833 + 33409 + 33985 + 34561 + 35137 + 35713 + 36289 + 36865 + 37441 + 38017 + 38593 + 39169 + 39745 + 40321 + 40897 + 41473 + 42049 + 42625 + 43201 + 43777 + 44353 + 44929 + 45505 + 46081 + 46657 + 47233 + 47809 + 48385 + 48961 + 49537 + 50113 + 50689 + 51265 + 51841 + 52417 + 52993 + 53569 + 54145 + 54721 + 55297 + 55873 + 56449 *** Filtering. o/p nlines: 6328 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Writing data out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Correlation Coefficient Program ***** ***** ***** ***** This program creates a byte file ***** ***** that contains the correlation ***** ***** coeficient of two complex single ***** ***** look files. ***** ***** ***** ************************************************** Enter the name of the first complex file. Enter number of looks Enter the name of the second single look file 4.629600 0.5144000 9 Enter the output file name number of input lines: 56952 number of output lines: 6328 Reading data and doing multi-looking. + 1 + 577 + 1153 + 1729 + 2305 + 2881 + 3457 + 4033 + 4609 + 5185 + 5761 + 6337 + 6913 + 7489 + 8065 + 8641 + 9217 + 9793 + 10369 + 10945 + 11521 + 12097 + 12673 + 13249 + 13825 + 14401 + 14977 + 15553 + 16129 + 16705 + 17281 + 17857 + 18433 + 19009 + 19585 + 20161 + 20737 + 21313 + 21889 + 22465 + 23041 + 23617 + 24193 + 24769 + 25345 + 25921 + 26497 + 27073 + 27649 + 28225 + 28801 + 29377 + 29953 + 30529 + 31105 + 31681 + 32257 + 32833 + 33409 + 33985 + 34561 + 35137 + 35713 + 36289 + 36865 + 37441 + 38017 + 38593 + 39169 + 39745 + 40321 + 40897 + 41473 + 42049 + 42625 + 43201 + 43777 + 44353 + 44929 + 45505 + 46081 + 46657 + 47233 + 47809 + 48385 + 48961 + 49537 + 50113 + 50689 + 51265 + 51841 + 52417 + 52993 + 53569 + 54145 + 54721 + 55297 + 55873 + 56449 *** Filtering. o/p nlines: 6328 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Writing data out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Correlation Coefficient Program ***** ***** ***** ***** This program creates a byte file ***** ***** that contains the correlation ***** ***** coeficient of two complex single ***** ***** look files. ***** ***** ***** ************************************************** Enter the name of the first complex file. Enter number of looks Enter the name of the second single look file 4.629600 0.5144000 9 Enter the output file name number of input lines: 56952 number of output lines: 6328 Reading data and doing multi-looking. + 1 + 577 + 1153 + 1729 + 2305 + 2881 + 3457 + 4033 + 4609 + 5185 + 5761 + 6337 + 6913 + 7489 + 8065 + 8641 + 9217 + 9793 + 10369 + 10945 + 11521 + 12097 + 12673 + 13249 + 13825 + 14401 + 14977 + 15553 + 16129 + 16705 + 17281 + 17857 + 18433 + 19009 + 19585 + 20161 + 20737 + 21313 + 21889 + 22465 + 23041 + 23617 + 24193 + 24769 + 25345 + 25921 + 26497 + 27073 + 27649 + 28225 + 28801 + 29377 + 29953 + 30529 + 31105 + 31681 + 32257 + 32833 + 33409 + 33985 + 34561 + 35137 + 35713 + 36289 + 36865 + 37441 + 38017 + 38593 + 39169 + 39745 + 40321 + 40897 + 41473 + 42049 + 42625 + 43201 + 43777 + 44353 + 44929 + 45505 + 46081 + 46657 + 47233 + 47809 + 48385 + 48961 + 49537 + 50113 + 50689 + 51265 + 51841 + 52417 + 52993 + 53569 + 54145 + 54721 + 55297 + 55873 + 56449 *** Filtering. o/p nlines: 6328 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Writing data out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** ***** This program creates a real multi- ***** ***** look file from a complex single look ***** ***** file. The real values represent ***** ***** POWER, not amplitude. Multi-looking ***** ***** is performed by summing POWER in the ***** ***** azimuth direction only. ***** ***** ***** ************************************************** Enter the name of the complex file. Enter the desired number of looks. Enter the output file name output azspace, azres: 4.629600 10.80000 + 100 + 200 + 300 + 400 + 500 + 600 + 700 + 800 + 900 + 1000 + 1100 + 1200 + 1300 + 1400 + 1500 + 1600 + 1700 + 1800 + 1900 + 2000 + 2100 + 2200 + 2300 + 2400 + 2500 + 2600 + 2700 + 2800 + 2900 + 3000 + 3100 + 3200 + 3300 + 3400 + 3500 + 3600 + 3700 + 3800 + 3900 + 4000 + 4100 + 4200 + 4300 + 4400 + 4500 + 4600 + 4700 + 4800 + 4900 + 5000 + 5100 + 5200 + 5300 + 5400 + 5500 + 5600 + 5700 + 5800 + 5900 + 6000 + 6100 + 6200 + 6300 Wed Mar 20 12:53:37 PST 2002 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** ***** This program creates a real multi- ***** ***** look file from a complex single look ***** ***** file. The real values represent ***** ***** POWER, not amplitude. Multi-looking ***** ***** is performed by summing POWER in the ***** ***** azimuth direction only. ***** ***** ***** ************************************************** Enter the name of the complex file. Enter the desired number of looks. Enter the output file name output azspace, azres: 4.629600 10.80000 + 100 + 200 + 300 + 400 + 500 + 600 + 700 + 800 + 900 + 1000 + 1100 + 1200 + 1300 + 1400 + 1500 + 1600 + 1700 + 1800 + 1900 + 2000 + 2100 + 2200 + 2300 + 2400 + 2500 + 2600 + 2700 + 2800 + 2900 + 3000 + 3100 + 3200 + 3300 + 3400 + 3500 + 3600 + 3700 + 3800 + 3900 + 4000 + 4100 + 4200 + 4300 + 4400 + 4500 + 4600 + 4700 + 4800 + 4900 + 5000 + 5100 + 5200 + 5300 + 5400 + 5500 + 5600 + 5700 + 5800 + 5900 + 6000 + 6100 + 6200 + 6300 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Interferometric Phase Generation ***** ***** ***** ***** This program calculates ***** ***** unwrapped phase from ***** ***** two complex single look files. ***** ***** ***** ************************************************** Enter the name of the top antenna complex file. size: 2560 56952 Enter number of looks Enter the name of the bottom antenna file. Enter the name of the correlation image file. Enter the cut-off for the correlation. Enter the maximum branch length. Enter the maximum phase noise in radians. Enter the name of the output phase file. size: 2560 6328 56952 Reading data and doing multi-looking. + 100 + 200 + 300 + 400 + 500 + 600 + 700 + 800 + 900 + 1000 + 1100 + 1200 + 1300 + 1400 + 1500 + 1600 + 1700 + 1800 + 1900 + 2000 + 2100 + 2200 + 2300 + 2400 + 2500 + 2600 + 2700 + 2800 + 2900 + 3000 + 3100 + 3200 + 3300 + 3400 + 3500 + 3600 + 3700 + 3800 + 3900 + 4000 + 4100 + 4200 + 4300 + 4400 + 4500 + 4600 + 4700 + 4800 + 4900 + 5000 + 5100 + 5200 + 5300 + 5400 + 5500 + 5600 + 5700 + 5800 + 5900 + 6000 + 6100 + 6200 + 6300 Filtering the interferogram 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Unwrapping the phases Enter seed point index (0> Error file = SCREEN Reading from: ts1359_c.rdf interferogram width: 2560 number of lines/patch: 1024 start line: 3 number of lines: 6327 start sample: 1 end sample: 2550 Interferogram File: /mnt/air65/airops/1359/ts1359_c.phase SLC Amplitudes File: /mnt/air65/airops/1359/ts1359_c.amp Filtered Interferogram File: filt_int Phase Gradient File: phase_slp Gradient Corrected Corr. File: gradient_cc Unwrapped Phase File: /mnt/air65/airops/1359/ts1359_c.unw_phase_mag Unwrapping Flag File: unwrap_flag Branch Cut Tree Type: GZW number of realizations of the trees: 3 minimum unwrap correlation threshold: 0.5000 maximum unwrap correlation threshold: 0.9000 bootstrap phase variance threshold: 2.0000 min. points overlap for the bootstrap: 16 phase gradient neutron flag: 0 phase gradient neutron threshold (radians): 0.5000 intensity neutron flag: 1 intensity neutron thres. (sigma above mean): 10.0000 maximum correlation for intensity neutrons: 0.8000 azimuth buffer size: 1024 overlap between azimuth patches: 64 total overlap between azimuth patches: 128 offset in overlap region for phase bootstrap: 64 lines to increment for the next patch: 896 number of patches: 7 PATCH: 1 starting line: 2 lines read: 1024 starting output line: 1 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 INIT_UNW_RT: correlation threshold: 0.5000000 GEN_NEUTRONS: average image intensity: 2.48527E-03 GEN_NEUTRONS: image intensity standard deviation: 3.38607E-03 GEN_NEUTRONS: image intensity neutrons: 27 INIT_UNW_RT: number of residues: 99 INIT_UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees INIT_UNW_RT: patch residual charge: 0 INIT_UNW_RT: number of unwrapping seeds: 157 seed: 1 range: 12 azimuth: 64 points unwrapped: 2533219 area fraction: 0.9809 average correlation of component: 0.9152 INIT_UNW_RT: largest component area: 0.9809 seed range: 12 INIT_UNW_RT: number of points for phase bootstrap: 7592 PATCH: 2 starting line: 898 lines read: 1024 starting output line: 65 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 2.43557E-03 GEN_NEUTRONS: image intensity standard deviation: 3.46923E-03 GEN_NEUTRONS: image intensity neutrons: 33 UNW_RT: number of residues: 62 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 2573131 area fraction: 0.99631 average correlation of connected component: 0.9256 number of points for phase bootstrap: 7592 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2573131 area fraction: 0.9963 UNW_RT: phase bootstrap points for next patch: 7614 PATCH: 3 starting line: 1794 lines read: 1024 starting output line: 65 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 2.41594E-03 GEN_NEUTRONS: image intensity standard deviation: 3.44740E-03 GEN_NEUTRONS: image intensity neutrons: 62 UNW_RT: number of residues: 3 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 2543948 area fraction: 0.98501 average correlation of connected component: 0.9061 number of points for phase bootstrap: 7614 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2543948 area fraction: 0.9850 UNW_RT: phase bootstrap points for next patch: 7569 PATCH: 4 starting line: 2690 lines read: 1024 starting output line: 65 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 2.52720E-03 GEN_NEUTRONS: image intensity standard deviation: 3.62759E-03 GEN_NEUTRONS: image intensity neutrons: 148 UNW_RT: number of residues: 12 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 2573624 area fraction: 0.99650 average correlation of connected component: 0.9086 number of points for phase bootstrap: 7563 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2573624 area fraction: 0.9965 UNW_RT: phase bootstrap points for next patch: 7605 PATCH: 5 starting line: 3586 lines read: 1024 starting output line: 65 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 2.39412E-03 GEN_NEUTRONS: image intensity standard deviation: 3.80413E-03 GEN_NEUTRONS: image intensity neutrons: 252 UNW_RT: number of residues: 19 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 2573302 area fraction: 0.99637 average correlation of connected component: 0.9178 number of points for phase bootstrap: 7599 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2573302 area fraction: 0.9964 UNW_RT: phase bootstrap points for next patch: 7605 PATCH: 6 starting line: 4482 lines read: 1024 starting output line: 65 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 2.32208E-03 GEN_NEUTRONS: image intensity standard deviation: 4.38464E-03 GEN_NEUTRONS: image intensity neutrons: 726 UNW_RT: number of residues: 0 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 2574069 area fraction: 0.99667 average correlation of connected component: 0.9056 number of points for phase bootstrap: 7599 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2574069 area fraction: 0.9967 UNW_RT: phase bootstrap points for next patch: 7605 PATCH: 7 starting line: 5378 lines read: 951 starting output line: 65 ending output line: 951 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 947 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 2.14651E-03 GEN_NEUTRONS: image intensity standard deviation: 3.44195E-03 GEN_NEUTRONS: image intensity neutrons: 540 UNW_RT: number of residues: 31 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 2325800 area fraction: 0.97025 average correlation of connected component: 0.9014 number of points for phase bootstrap: 7599 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2325800 area fraction: 0.9703 UNW_RT: phase bootstrap points for next patch: 7600 *** Normal Completion *** enter I/P file name (unw_phase_mag) /mnt/air65/airops/1359/ts1359_c.unw_phase_mag enter I/P file name for hdr (amp_file) /mnt/air65/airops/1359/ts1359_c.amp enter O/P file name for magitude file: /mnt/air65/airops/1359/ts1359_c.unw_vvvv enter O/P file name for phase file: /mnt/air65/airops/1359/ts1359_c.unw_intf Reading new header..STARTING at 0 r_new_hdr r_param_hdr ns nl offset : 2560 6328 20480 0 0 20480 1 10240 20480 100 1024000 532480 101 1034240 532480 200 2048000 1044480 201 2058240 1044480 300 3072000 1556480 301 3082240 1556480 400 4096000 2068480 401 4106240 2068480 500 5120000 2580480 501 5130240 2580480 600 6144000 3092480 601 6154240 3092480 700 7168000 3604480 701 7178240 3604480 800 8192000 4116480 801 8202240 4116480 900 9216000 4628480 901 9226240 4628480 1000 10240000 5140480 1001 10250240 5140480 1100 11264000 5652480 1101 11274240 5652480 1200 12288000 6164480 1201 12298240 6164480 1300 13312000 6676480 1301 13322240 6676480 1400 14336000 7188480 1401 14346240 7188480 1500 15360000 7700480 1501 15370240 7700480 1600 16384000 8212480 1601 16394240 8212480 1700 17408000 8724480 1701 17418240 8724480 1800 18432000 9236480 1801 18442240 9236480 1900 19456000 9748480 1901 19466240 9748480 2000 20480000 10260480 2001 20490240 10260480 2100 21504000 10772480 2101 21514240 10772480 2200 22528000 11284480 2201 22538240 11284480 2300 23552000 11796480 2301 23562240 11796480 2400 24576000 12308480 2401 24586240 12308480 2500 25600000 12820480 2501 25610240 12820480 2600 26624000 13332480 2601 26634240 13332480 2700 27648000 13844480 2701 27658240 13844480 2800 28672000 14356480 2801 28682240 14356480 2900 29696000 14868480 2901 29706240 14868480 3000 30720000 15380480 3001 30730240 15380480 3100 31744000 15892480 3101 31754240 15892480 3200 32768000 16404480 3201 32778240 16404480 3300 33792000 16916480 3301 33802240 16916480 3400 34816000 17428480 3401 34826240 17428480 3500 35840000 17940480 3501 35850240 17940480 3600 36864000 18452480 3601 36874240 18452480 3700 37888000 18964480 3701 37898240 18964480 3800 38912000 19476480 3801 38922240 19476480 3900 39936000 19988480 3901 39946240 19988480 4000 40960000 20500480 4001 40970240 20500480 4100 41984000 21012480 4101 41994240 21012480 4200 43008000 21524480 4201 43018240 21524480 4300 44032000 22036480 4301 44042240 22036480 4400 45056000 22548480 4401 45066240 22548480 4500 46080000 23060480 4501 46090240 23060480 4600 47104000 23572480 4601 47114240 23572480 4700 48128000 24084480 4701 48138240 24084480 4800 49152000 24596480 4801 49162240 24596480 4900 50176000 25108480 4901 50186240 25108480 5000 51200000 25620480 5001 51210240 25620480 5100 52224000 26132480 5101 52234240 26132480 5200 53248000 26644480 5201 53258240 26644480 5300 54272000 27156480 5301 54282240 27156480 5400 55296000 27668480 5401 55306240 27668480 5500 56320000 28180480 5501 56330240 28180480 5600 57344000 28692480 5601 57354240 28692480 5700 58368000 29204480 5701 58378240 29204480 5800 59392000 29716480 5801 59402240 29716480 5900 60416000 30228480 5901 60426240 30228480 6000 61440000 30740480 6001 61450240 30740480 6100 62464000 31252480 6101 62474240 31252480 6200 63488000 31764480 6201 63498240 31764480 6300 64512000 32276480 6301 64522240 32276480 6400 65536000 32788480 6401 65546240 32788480 6500 66560000 33300480 6501 66570240 33300480 6600 67584000 33812480 6601 67594240 33812480 6700 68608000 34324480 6701 68618240 34324480 6800 69632000 34836480 6801 69642240 34836480 6900 70656000 35348480 6901 70666240 35348480 7000 71680000 35860480 7001 71690240 35860480 7100 72704000 36372480 7101 72714240 36372480 7200 73728000 36884480 7201 73738240 36884480 7300 74752000 37396480 7301 74762240 37396480 7400 75776000 37908480 7401 75786240 37908480 7500 76800000 38420480 7501 76810240 38420480 7600 77824000 38932480 7601 77834240 38932480 7700 78848000 39444480 7701 78858240 39444480 7800 79872000 39956480 7801 79882240 39956480 7900 80896000 40468480 7901 80906240 40468480 8000 81920000 40980480 8001 81930240 40980480 8100 82944000 41492480 8101 82954240 41492480 8200 83968000 42004480 8201 83978240 42004480 8300 84992000 42516480 8301 85002240 42516480 8400 86016000 43028480 8401 86026240 43028480 8500 87040000 43540480 8501 87050240 43540480 8600 88064000 44052480 8601 88074240 44052480 8700 89088000 44564480 8701 89098240 44564480 8800 90112000 45076480 8801 90122240 45076480 8900 91136000 45588480 8901 91146240 45588480 9000 92160000 46100480 9001 92170240 46100480 9100 93184000 46612480 9101 93194240 46612480 9200 94208000 47124480 9201 94218240 47124480 9300 95232000 47636480 9301 95242240 47636480 9400 96256000 48148480 9401 96266240 48148480 9500 97280000 48660480 9501 97290240 48660480 9600 98304000 49172480 9601 98314240 49172480 9700 99328000 49684480 9701 99338240 49684480 9800 100352000 50196480 9801 100362240 50196480 9900 101376000 50708480 9901 101386240 50708480 10000 102400000 51220480 10001 102410240 51220480 10100 103424000 51732480 10101 103434240 51732480 10200 104448000 52244480 10201 104458240 52244480 10300 105472000 52756480 10301 105482240 52756480 10400 106496000 53268480 10401 106506240 53268480 10500 107520000 53780480 10501 107530240 53780480 10600 108544000 54292480 10601 108554240 54292480 10700 109568000 54804480 10701 109578240 54804480 10800 110592000 55316480 10801 110602240 55316480 10900 111616000 55828480 10901 111626240 55828480 11000 112640000 56340480 11001 112650240 56340480 11100 113664000 56852480 11101 113674240 56852480 11200 114688000 57364480 11201 114698240 57364480 11300 115712000 57876480 11301 115722240 57876480 11400 116736000 58388480 11401 116746240 58388480 11500 117760000 58900480 11501 117770240 58900480 11600 118784000 59412480 11601 118794240 59412480 11700 119808000 59924480 11701 119818240 59924480 11800 120832000 60436480 11801 120842240 60436480 11900 121856000 60948480 11901 121866240 60948480 12000 122880000 61460480 12001 122890240 61460480 12100 123904000 61972480 12101 123914240 61972480 12200 124928000 62484480 12201 124938240 62484480 12300 125952000 62996480 12301 125962240 62996480 12400 126976000 63508480 12401 126986240 63508480 12500 128000000 64020480 12501 128010240 64020480 12600 129024000 64532480 12601 129034240 64532480 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Phase Screen Generation Program ***** ***** ***** ***** This program calculates ***** ***** a phase screen ***** ***** using flat terrain area ***** ***** ***** ************************************************** Enter the name of the interferogram file. interfeogram fd: 3 interfeogram fd: 3 Enter the name of the raw lines file. raw line fd: 4 Enter the name of the output averaged lines file. Enter the file with the global line Without the extension. Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.vh00c Number of lines in mocomp file: 59000 Transmit leverarm: 1.889000 1.726800 1.912000 Receive levararm: 1.872000 0.6771000 -0.3541000 Enter the motion compensation file name. Enter the name of the angle file. Enter the name of the output phase screen file Is this pingpong (long baseline) data (def=y)? Reading unwrapped phase Reading mask 6328 Ave phase (rad), standard dev: -13.13062 3.385153 Total number of pixels averaged: 31747344 Phase Adjustment in cycles: -2.089803 Multi-looking lines 6328 read lines.dat: 1 40960 read lines.dat: 1001 92200960 read lines.dat: 2001 184360960 read lines.dat: 3001 276520960 read lines.dat: 4001 368680960 read lines.dat: 5001 460840960 read lines.dat: 6001 553000960 Cosine angle calculation Writing cos(angle) out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** DEM Generation Program ***** ***** ***** ***** This program creates DEM from ***** ***** unwrapped phase file. ***** ***** ***** ************************************************** Enter the heoght bias: 0.0000000E+00 Enter the phase bias (# of 2pi) : 0.0000000E+00 Enter the name of the unwrapped phase file. ns np: 2560 6328 ***del_cp del_hp: 0.0000000E+00 0.0000000E+00 Enter the name of the raw lines file. Enter the file with the global line Please enter the name of the sensor file. sensor file:/mnt/air62/airops/1359/sensor.vh00c Transmit leverarm: 1.889000 1.726800 1.912000 Receive levararm: 1.872000 0.6771000 -0.3541000 1st &total # lines: 1 59000 How many transmitting antennas for this combination? ping - pong mode long baseline = 2; 1 otherwise. Enter the phase screen filename. Enter the name of the peg point file. Enter the motion compensation file name. xv0,h_p c s xv: 1 7495.192 7495.181 60.86635 217.7969 -1.1625111E-02 1)xr yr zr: 1.874704 0.6780815 -0.3375264 xv0 ,h_p c s xv: 100 7495.192 7495.177 60.85872 217.7969 -1.5557282E-02 100)xr yr zr: 1.874699 0.6781273 -0.3374614 -14837.73 255.2820 7495.177 Enter the interf. calibration file name. HDDT: 98 ==xv0 h_a== 7495.192 7045.200 449.9922 ==r0 bw wavl dx dr== 8102.270 40.00000 5.6699999E-02 0.5100000 3.331000 ==phbt phtp calf==band 51.30000 85.60000 43.59380 C 5.6699999E-02 40.00000 C-band 2 3 blocks , lines: 11 5 hddt ash cln cph0: 98 1.101000 0.0000000E+00 61.76000 ==ph0 cal-dph cph0: 96.06000 -34.30000 61.76000 Enter the name of the DEM file. Enter the name of the s,c file. CP write NewHead: 0 1000 CP write ParHead: 10240 5000 Ambiguity number = 0.0000000E+00 Do I use this (y/n) Enter the ambiguity to use. Enter the flag for calibration output yes=1: 0 Reading unwrapped phase 6328 3 Reading mask Reading line files Translating the phases to height. ==look_agl==: 1 1836 0.5165769 xv ha cos(p): -0.3947876 0.7998959 0.9999712 xv0 maphgt rf: 7495.192 449.9922 8102.449 **Bliine(100) dy dz:** 1.037041 2.271984 plane sch 0.0000000E+00 0.0000000E+00 0.0000000E+00 ==look_agl==: 2560 1839 1.133230 xv ha cos(p): -0.3958155 0.7999483 0.9999712 xv0 maphgt rf: 7495.192 449.9922 16626.39 **Bliine(100) dy dz:** 1.036942 2.272030 plane sch 0.0000000E+00 0.0000000E+00 0.0000000E+00 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Along-track offset = -14324.40 Writing map out. cal_cp lines: 2560 6328 30720 file cal_cp.dat: 2560 6328 30720 ******************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Scattering area and Incidence Angle ***** ***** Calculations ***** ***** ***** ***** This program usdes the DEM to calculate the ***** ***** size of the scattering area to be used in ***** ***** data calibration. It also calculates the ***** ***** local incidence angle for each pixel. ***** ***** ***** ******************************************************** Enter the name of the dem input file. Enter the name of the correlation file. What is the lowest correlation to use? Enter the name of the scattering area file. Enter the name of the incidence angle file. Enter the global reference line filename headers_sgi: 3 5000 10240 10240 headers_sgi: 3 5000 10240 2560 Reading height information 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Calculating slopes... Range direction.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Azimuth direction.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Incidence angle and scattering area.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Filtering the results. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Writing files out. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 ANTENNA_DIR:/u/argus0/airops/OPS/data_proc/ **************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Single Channel Radiometric Correction ***** ***** ***** ***** This program performs the radiometric ***** ***** correction on single channel data. It ***** ***** is intended to replace the old synoptic ***** ***** data. When topography is available, ***** ***** it is used when corrections are ***** ***** performed. ***** ***** ***** **************************************************** Enter the name of the input file. intf lun: 3 inunitvvvv lun: 3 Enter the name of output file. Select the polarization combination: (1) HH (2) HV (3) VH (4) VV Is this TOPSAR data? parhead(296:300): 98 HDDT: 98 Enter the name of the calibration file. attenuation: 11.00000 11.00000 11.00000 11.00000 +base diff: -0.8500000 0.0000000E+00 -0.8500000 0.0000000E+00 C-band dhh dhv dhh_l dcal_l: 88.31000 96.80000 139.6400 89.40000 topsar C-band: gain caltone: 88.31000 96.80000 -196.1100 ipol ahh,ahv,avh,AVV: 4 -11.85000 -11.00000 -11.85000 -196.1100 C-band ANT:/u/argus0/airops/OPS/data_proc/TOPSAR_C.ANT Enter the name of the motion compensation file. motion lun: 5 How many lines of raw data? cal vv gain, rosa cal: 97.10000 -196.1100 Input ground spacing ? cross-track ground spacing: 5.000000 Radiometric Correction Vectors file: /mnt/air65/airops/1359/ts1359_c.rad_vec vec_len Rn ha y0out dyout: 17688 16626.30 7045.200 4001.492 5.000000 3.331000 NSAMP vec_len rg_len nbytes: 2560 2211 17688 Enter the file with the data lines per pixel. lines lun: 6 Is there a DEM available? Enter the name of the DEM file. dem lun: 7 Byte offset to DEM data: 0 20480 Enter the name of the global reference file Enter the scattering area file name. sca lun: 8 Now doing the actual calibration 250 6328 500 6328 750 6328 1000 6328 1250 6328 1500 6328 1750 6328 2000 6328 2250 6328 2500 6328 2750 6328 3000 6328 3250 6328 3500 6328 3750 6328 4000 6328 4250 6328 4500 6328 4750 6328 5000 6328 5250 6328 5500 6328 5750 6328 6000 6328 6250 6328 peg points: 64.53551 -147.3541 -90.88881 64.53551 -147.3541 -90.88881 RICHARDSON270-1 NAME OF HEADER PARAMETER SITE NAME Richardson270-1 LATITUDE OF SITE (DEGREES) 64.4500 LONGITUDE OF SITE (DEGREES) -145.2500 IMAGE TITLE RICHARDSON270-1 HDDT ID 98 FREQUENCY C POLARIZATION VV CCT TYPE TS CCT ID 1359 ARCHIVAL FLAG 0 TRANSFER START FRAMECOUNT 2472559 PROCESSOR START FRAMECOUNT 2472559 LATITUDE AT START OF SCENE (DEGREES) 64.4990 LONGITUDE AT START OF SCENE (DEGREES) -147.0439 LATITUDE AT END OF SCENE (DEGREES) 64.4989 LONGITUDE AT END OF SCENE (DEGREES) -147.9620 APPROXIMATE STARTING HDDT FOOTAGE 173996 DATE OF ACQUISITION (GMT) 21-OCT-00 TIME OF ACQUISITION: GMT DAY 295 TIME OF ACQUISITION: SECONDS IN DAY 64399.0 RECORD WINDOW DURATION (MICROSECONDS) 64 FREQUENCIES COLLECTED PLC DIGITAL DELAY (MICROSECONDS) 86.0 CHIRP DELAY (MICROSECONDS) 32.5 PROCESSOR DELAY (RAW SAMPLES) 0 PRF AT START OF TRANSFER (HZ) 846.3 SAMPLING RATE (MHZ) 90.00 CENTER FREQUENCY AT VIDEO (MHZ) 22.50 CHIRP BANDWIDTH (MHZ) 40.00 TYPE OF CHIRP USED (ANALOG OR DIGITAL) DIGITAL PULSE LENGTH (MICROSECONDS) 10.00 PROCESSOR WAVELENGTH (METERS) 0.05670 BAROMETRIC ALTITUDE (METERS) 7920.5 RADAR ALTITUDE (METERS) 7045.2 ALTITUDE USED IN PROCESSOR (METERS) 7045.2 ELEVATION OF INVESTIGATOR SITE (METERS) 450 AIRCRAFT TRACK ANGLE (DEGREES) -91.2 AIRCRAFT YAW ANGLE (DEGREES) 0.0 AIRCRAFT PITCH ANGLE (DEGREES) 0.5 AIRCRAFT ROLL ANGLE (DEGREES) 0.2 PROCESSOR YAW ANGLE USED (DEGREES) VARIABLE PROCESSOR PITCH ANGLE USED (DEGREES) VARIABLE PROCESSOR ROLL ANGLE USED (DEGREES) VARIABLE NOMINAL PRF RATIO (HZ/KNOT) 1.000 NOMINAL PRF RATIO (1/METERS) 1.944 PRF RATIO CORRECTION FACTOR USED 1.0000 RANGE FFT SIZE 8192 AZIMUTH FFT SIZE 4096 FRAME SIZE (RANGE LINES) 2208 NUMBER OF FRAMES PROCESSED 38 RANGE ALIGNMENT DELAY USED,HH (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,HV (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,VH (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,VV (MICROSEC) 0.0000 NEAR SLANT RANGE (METERS) 8102.27 FAR SLANT RANGE (METERS) 16626.36 NEAR LOOK ANGLE (DEGREES) 29.6 FAR LOOK ANGLE (DEGEES) 64.9 NUMBER OF LOOKS PROCESSED IN AZIMUTH 9 NUMBER OF LOOKS PROCESSED IN RANGE 1 RANGE WEIGHTING USED COS2 RANGE WEIGHTING COEFFICIENT 0.100 AZIMUTH WEIGHTING USED NONE AZIMUTH WEIGHTING COEFFICIENT 1.000 PERCENT OF PRF BANDWIDTH PROCESSED 42.9 DESKEW FLAG (1=DESKEWED, 2=NOT DESKEWED) 1 SLANT RANGE SAMPLE SPACING (METERS) 3.3300 NOMINAL SLANT RANGE RESOLUTION (METERS) 5.5 AZIMUTH SAMPLE SPACING (METERS) 0.5100 NOMINAL AZIMUTH RESOLUTION (METERS) 10.8 NUMBER OF INTERPOLATION PNTS USED IN RMC 8 AZIMUTH REFERENCE SIZE/LOOK, NEAR RANGE VARIABLE AZIMUTH REFERENCE SIZE/LOOK, FAR RANGE VARIABLE IMAGE CENTER LATITUDE (DEGREES) 64.4605 IMAGE CENTER LONGITUDE (DEGREES) -147.5018 CALTONE VIDEO FREQUENCY 43.5938 CALTONE POWER MEASURED, DB, HH 97.4 CALTONE POWER MEASURED, DB, HV 97.2 CALTONE POWER MEASURED, DB, VH 97.4 CALTONE POWER MEASURED, DB, VV 97.1 CALIBRATION FACTOR APPLIED, DB, HH 0 CALIBRATION FACTOR APPLIED, DB, HV 0 CALIBRATION FACTOR APPLIED, DB, VH 0 CALIBRATION FACTOR APPLIED, DB, VV -99 MEASURED AND CORRECTED HV/VH POWER RATIO 0.000 MEASURED AND CORRECTED HV/VH PHASE (DEG) 0.0 CALTONE PHASE MEASURED, DEG, HH 51.3 CALTONE PHASE MEASURED, DEG, HV 85.6 CALTONE PHASE MEASURED, DEG, VH 51.0 CALTONE PHASE MEASURED, DEG, VV 85.7 GENERAL SCALE FACTOR 0.0 GPS ALTITUDE, M 6872.2 LATITUDE OF PEG POINT 64.5355148 LONGITUDE OF PEG POINT -147.3541412 HEADING AT PEG POINT -90.8888092 P-BAND RFI FILTER APPLIED FLAG NO P-BAND RFI FILTER ALGORITHM ALONG-TRACK OFFSET S0 (M) 0.00 CROSS-TRACK OFFSET C0 (M) 0.00 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 846.3000 40.00000 10.00000 proj4 nsampr 2211 15463.78 7045.200 4001.492 5.000000 8102.270 # header output no1 no2 no3: 3 1 1 1 Byte offset to cali header out: 0 Byte offset to calheader in: 0 Byte offset to dem header 17688 Byte offset to first data line: 26532 Peg point parameters: 64.53551 -147.3541 -90.88881 Offset Parameters: s0 (m) = -14324.40 c0 (m) = 4001.492 Reading data. 10240 2211 6328 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Initializing output array. Resampling the data: one pass (DEM version). + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 360447 2211 5859 -10000.00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 846.3000 40.00000 10.00000 nsampr O/p: 2211 15463.78 7045.200 4001.492 5.000000 # header output no1 no2 no3: 2 1 1 0 Byte offset to cali header out: 0 Byte offset to calheader in: 0 Byte offset to dem header 0 Byte offset to first data line: 17688 Reading data. 10240 2211 6328 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Initializing output array. Near Range = 4001.492 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Resampling the data: second pass. 2560 6328 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 348770 2211 5859 0.0000000E+00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 846.3000 40.00000 10.00000 nsampr O/p: 2211 15463.78 7045.200 4001.492 5.000000 # header output no1 no2 no3: 5 1 1 3 Byte offset to cali header out: 17688 Byte offset to calheader in: 20480 Byte offset to dem header 0 Byte offset to first data line: 44220 headers_sgi: 3 17688 30720 26532 projcr4 cal vector VV:ireclenr,nsampr,nbytes,calvecr VV cal vector: 8844 2211 17688 26532 Reading data. 10240 2211 6328 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Initializing output array. Near Range = 4001.492 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Resampling the data: second pass. 2560 6328 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 348770 2211 5859 0.0000000E+00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting BYTE data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 846.3000 40.00000 10.00000 nsampr O/p: 2211 15463.78 7045.200 4001.492 5.000000 Number of header no123: 4 1 3 0 Byte offset to calibration header: 0 Byte offset to dem header: 0 Byte offset to first data line: 8844 Reading data. 2560 2211 6328 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Initializing output array. Near Range = 4001.492 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Resampling the data: second pass--fill only. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Number of holes filled by WAYNE (byte) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting BYTE data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 846.3000 40.00000 10.00000 nsampr O/p: 2211 15463.78 7045.200 4001.492 5.000000 Number of header no123: 4 1 3 0 Byte offset to calibration header: 0 Byte offset to dem header: 0 Byte offset to first data line: 8844 Reading data. 2560 2211 6328 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Initializing output array. Near Range = 4001.492 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Resampling the data: second pass--fill only. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Number of holes filled by WAYNE (byte) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 frequency that is currently being worked on Enter filename (c band demgr): Enter filename (l band demgr): Enter filename (c band vvgr): Enter filename (l band vvgr): Enter filename (c band incgr): Enter filename (l band incgr): Enter filename (c band corgr): Enter filename (l band corgr): working on c band now working on dem load values from dem & update param header working on vv load values update param header only from passing in parameters working on inc load values update param header only from passing in parameters working on cor load values update param header only from passing in parameters ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** DEM Format Program ***** ***** ***** ***** This program outputs heights in ***** ***** 16 bit numbers. ***** ***** ***** ************************************************** Enter the name of the file to be formatted. ibytesdemheadin: 17688 Reading the data .. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 Enter the output file name. ibytesdemheadin: 17688 Finding the maximum and minimum heights.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 Minimum, Maximum heights: 399.5542 1088.063 Suggest we use 4.2023219E-02 as increment. Do you agree? Changing to INTEGER*2 format... 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** CVV Format Program ***** ***** ***** ***** This program outputs C-band RCS in ***** ***** 16 bit numbers. ***** ***** ***** ************************************************** Enter the name of the file to be formatted. ns np offset: 2211 5859 44220 ns np offset: 2211 5859 44220 ibytesvectorin nvector: 26532 17688 Reading the data .. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 Finding the average RCS.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 Average RCS (dB) = -24.93133 Enter the output file name. cal offset: 13266 1 2 data offset: 35376 1 2 1 4 17688 Changing to INTEGER*2 format... 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 *** Convert real*4 to Byte image *** Enter data file to be converted: /mnt/air65/airops/1359/ts1359_c.vvgr channel= 3 Reading the header. New header present. Record length = 8844 Number of samples per line = 2211 Number of lines in image = 5859 Offset to data = 44220 Status = 0 New header is OK nsamp,nlines,ioff 2211 5859 44220 Enter data file for saving byte output: 33 0.2498406 0.0000000E+00 65 0.2498406 0.0000000E+00 97 0.2638289 0.0000000E+00 129 0.2638289 0.0000000E+00 161 0.2638289 0.0000000E+00 193 0.2638289 0.0000000E+00 225 0.2638289 0.0000000E+00 257 0.2638289 0.0000000E+00 289 0.2638289 0.0000000E+00 321 0.2638289 0.0000000E+00 353 0.2638289 0.0000000E+00 385 0.2638289 0.0000000E+00 417 0.2638289 0.0000000E+00 449 0.2638289 0.0000000E+00 481 0.2638289 0.0000000E+00 513 0.2638289 0.0000000E+00 545 0.2638289 0.0000000E+00 577 0.2638289 0.0000000E+00 609 0.2638289 0.0000000E+00 641 0.2638289 0.0000000E+00 673 0.2638289 0.0000000E+00 705 0.2638289 0.0000000E+00 737 0.2638289 0.0000000E+00 769 0.2638289 0.0000000E+00 801 0.2638289 0.0000000E+00 833 0.2638289 0.0000000E+00 865 0.2638289 0.0000000E+00 897 0.2638289 0.0000000E+00 929 0.2638289 0.0000000E+00 961 0.2638289 0.0000000E+00 993 0.2638289 0.0000000E+00 1025 0.2638289 0.0000000E+00 1057 0.2638289 0.0000000E+00 1089 0.2638289 0.0000000E+00 1121 0.2638289 0.0000000E+00 1153 0.2638289 0.0000000E+00 1185 0.2638289 0.0000000E+00 1217 0.2796289 0.0000000E+00 1249 0.2796289 0.0000000E+00 1281 0.2796289 0.0000000E+00 1313 0.2796289 0.0000000E+00 1345 0.2796289 0.0000000E+00 1377 0.2796289 0.0000000E+00 1409 0.2796289 0.0000000E+00 1441 0.2796289 0.0000000E+00 1473 0.2796289 0.0000000E+00 1505 0.2796289 0.0000000E+00 1537 0.2796289 0.0000000E+00 1569 0.2796289 0.0000000E+00 1601 0.2796289 0.0000000E+00 1633 0.2796289 0.0000000E+00 1665 0.2796289 0.0000000E+00 1697 0.2796289 0.0000000E+00 1729 0.2796289 0.0000000E+00 1761 0.2796289 0.0000000E+00 1793 0.2796289 0.0000000E+00 1825 0.2796289 0.0000000E+00 1857 0.2796289 0.0000000E+00 1889 0.2796289 0.0000000E+00 1921 0.2796289 0.0000000E+00 1953 0.2796289 0.0000000E+00 1985 0.2796289 0.0000000E+00 2017 0.2796289 0.0000000E+00 2049 0.2796289 0.0000000E+00 2081 0.2796289 0.0000000E+00 2113 0.2796289 0.0000000E+00 2145 0.2796289 0.0000000E+00 2177 0.2796289 0.0000000E+00 2209 0.2796289 0.0000000E+00 2241 0.2796289 0.0000000E+00 2273 0.2796289 0.0000000E+00 2305 0.2796289 0.0000000E+00 2337 0.2796289 0.0000000E+00 2369 0.2796289 0.0000000E+00 2401 0.2796289 0.0000000E+00 2433 0.2796289 0.0000000E+00 2465 0.2796289 0.0000000E+00 2497 0.2796289 0.0000000E+00 2529 0.2796289 0.0000000E+00 2561 0.2796289 0.0000000E+00 2593 0.2796289 0.0000000E+00 2625 0.2796289 0.0000000E+00 2657 0.2796289 0.0000000E+00 2689 0.2796289 0.0000000E+00 2721 0.2796289 0.0000000E+00 2753 0.2796289 0.0000000E+00 2785 0.2796289 0.0000000E+00 2817 0.2796289 0.0000000E+00 2849 0.2796289 0.0000000E+00 2881 0.2796289 0.0000000E+00 2913 0.2819698 0.0000000E+00 2945 0.2819698 0.0000000E+00 2977 0.2819698 0.0000000E+00 3009 0.2819698 0.0000000E+00 3041 0.2819698 0.0000000E+00 3073 0.2819698 0.0000000E+00 3105 0.2819698 0.0000000E+00 3137 0.2819698 0.0000000E+00 3169 0.2819698 0.0000000E+00 3201 0.2819698 0.0000000E+00 3233 0.2819698 0.0000000E+00 3265 0.2819698 0.0000000E+00 3297 0.2825677 0.0000000E+00 3329 0.2825677 0.0000000E+00 3361 0.2825677 0.0000000E+00 3393 0.2825677 0.0000000E+00 3425 0.2825677 0.0000000E+00 3457 0.2825677 0.0000000E+00 3489 0.2849955 0.0000000E+00 3521 0.2849955 0.0000000E+00 3553 0.2849955 0.0000000E+00 3585 0.2849955 0.0000000E+00 3617 0.2849955 0.0000000E+00 3649 0.2849955 0.0000000E+00 3681 0.2849955 0.0000000E+00 3713 0.2880029 0.0000000E+00 3745 0.2880029 0.0000000E+00 3777 0.2880029 0.0000000E+00 3809 0.2880029 0.0000000E+00 3841 0.2880029 0.0000000E+00 3873 0.2880029 0.0000000E+00 3905 0.2880029 0.0000000E+00 3937 0.2880029 0.0000000E+00 3969 0.2880029 0.0000000E+00 4001 0.2880029 0.0000000E+00 4033 0.2880029 0.0000000E+00 4065 0.2880029 0.0000000E+00 4097 0.2880029 0.0000000E+00 4129 0.2880029 0.0000000E+00 4161 0.2880029 0.0000000E+00 4193 0.2880029 0.0000000E+00 4225 0.2880029 0.0000000E+00 4257 0.2880029 0.0000000E+00 4289 0.2880029 0.0000000E+00 4321 0.2880029 0.0000000E+00 4353 0.2880029 0.0000000E+00 4385 0.2880029 0.0000000E+00 4417 0.2880029 0.0000000E+00 4449 0.2880029 0.0000000E+00 4481 0.2880029 0.0000000E+00 4513 0.2880029 0.0000000E+00 4545 0.2880029 0.0000000E+00 4577 0.2880029 0.0000000E+00 4609 0.2880029 0.0000000E+00 4641 0.2880029 0.0000000E+00 4673 0.2880029 0.0000000E+00 4705 0.2880029 0.0000000E+00 4737 0.2880029 0.0000000E+00 4769 0.2880029 0.0000000E+00 4801 0.2880029 0.0000000E+00 4833 0.2880029 0.0000000E+00 4865 0.2880029 0.0000000E+00 4897 0.2880029 0.0000000E+00 4929 0.2880029 0.0000000E+00 4961 0.2880029 0.0000000E+00 4993 0.2880029 0.0000000E+00 5025 0.2880029 0.0000000E+00 5057 0.2880029 0.0000000E+00 5089 0.2880029 0.0000000E+00 5121 0.2880029 0.0000000E+00 5153 0.2880029 0.0000000E+00 5185 0.2880029 0.0000000E+00 5217 0.2880029 0.0000000E+00 5249 0.2880029 0.0000000E+00 5281 0.2880029 0.0000000E+00 5313 0.2880029 0.0000000E+00 5345 0.2880029 0.0000000E+00 5377 0.2880029 0.0000000E+00 5409 0.2880029 0.0000000E+00 5441 0.2880029 0.0000000E+00 5473 0.2880029 0.0000000E+00 5505 0.2880029 0.0000000E+00 5537 0.2880029 0.0000000E+00 5569 0.2880029 0.0000000E+00 5601 0.2880029 0.0000000E+00 5633 0.2880029 0.0000000E+00 5665 0.2880029 0.0000000E+00 5697 0.2880029 0.0000000E+00 5729 0.2880029 0.0000000E+00 5761 0.2880029 0.0000000E+00 5793 0.2880029 0.0000000E+00 5825 0.2880029 0.0000000E+00 5857 0.2880029 0.0000000E+00 Min, Max r_scale = 0.0000000E+00 0.2880029 0.5000000 Do you want to change these variables? yes=1 0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050 1100 1150 1200 1250 1300 1350 1400 1450 1500 1550 1600 1650 1700 1750 1800 1850 1900 1950 2000 2050 2100 2150 2200 2250 2300 2350 2400 2450 2500 2550 2600 2650 2700 2750 2800 2850 2900 2950 3000 3050 3100 3150 3200 3250 3300 3350 3400 3450 3500 3550 3600 3650 3700 3750 3800 3850 3900 3950 4000 4050 4100 4150 4200 4250 4300 4350 4400 4450 4500 4550 4600 4650 4700 4750 4800 4850 4900 4950 5000 5050 5100 5150 5200 5250 5300 5350 5400 5450 5500 5550 5600 5650 5700 5750 5800 5850 done Wed Mar 20 20:48:17 PST 2002 Wed Mar 20 20:48:17 PST 2002 ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** 02001 tape error DOY 40 instead of 268 Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -0.5025000 hddt: 98 Reading and decoding header file... Finished reading the header file... Data acquired after 1995 January. i_yearind subcomm mon i_1995 : 8 1 Operator Comments: - - - - - - - - - - - - - - - - - - - - - EGI GPS started to report good FOM and SV status, blended time i s goody bad but the position and speed look close; low drift; a lmost complete undercast; smooth ride; Ashtech looks OK William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1359/l.hdr Which frequency? (C,L or P) frq:L number of channels transferred: # channels: 4 number of bytes/chan: # bytes: 6144 total # of lines transferred: total lines: 59000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1359/ts1359_l.par enter first header to read: the 1st line: 1 enter year data taken: year: 0 enter HDDT ID for raw data: SONY tapeid: 98 enter HDDT TID <0> : Sony TID: 173996 enter the title of image: title image RICHARDSON270-1 enter the CCT (job) ID: cct: 1359 target:Richardson270-1 prod ID(cctid):1359 chrp_delay from subcomm header tapeID: 32.45000 98 HDR Version: 000214 BW L C P: 404020 fs: 909045 Pulse W L C P:101010 1998 P-band fc? 22.50000 alt used in processor: 450.0000 idelay,chrp_delay,xdelay 86 32.45000 -0.5025000 near range delr windelay: 8102.265 3.331027 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 chrp_bndx f_cal 40.00000 43.59375 Parameter header created .. IGI lat: 1 64.53672749921679 IGI lon: 1 -147.0369177963585 *get_subcomm_aipt year*10+mon; i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 86.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):86 86.00000000000000 startrng(m) elecdelay: 8102.267048972740 3.2450000000000003E-05 >> start range = 8102.2670 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 9 0 >> ratn_phv = 0 5 0 >> ratn_pvh = 0 3 0 >> ratn_pvv = 0 11 0 >> ratn_lhh = 0 13 0 >> ratn_lhv = 0 13 0 >> ratn_lvh = 0 13 0 >> ratn_lvv = 0 13 0 >> ratn_chh = 0 11 10 >> ratn_chv = 0 11 10 >> ratn_cvh = 0 11 10 >> ratn_cvv = 0 11 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN rec,inu_lat,inu_lon,dads_lat,dads_lon,dads_balt 117888 64.53672749921679 -147.0369177963585 64.53666666666666 -147.0233333333333 7922.666400000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 7227.417600000001 0.4000000000000000 0.4000000000000000 269.0000000000000 0.5000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 64.53672027587891 -147.0375061035156 0.0000000000000000E+00 0.0000000000000000E+00 25422799.00000000 ****gps_frame**** 2472322 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8102.267048972740 1 921 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 2531036.233441911 34032.63934234110 gpsT doy: 295 10 21 gpsT: 25422799.27900000 2000 10 21 17 53 19 0.2790000000000000 week# 1 F10 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 582799.4073300001 EGI msg 1 msl alt(from eo17): 6866.029835449219 EGI msg 1 wander angle(from eo17): -93.65295410156250 EGI09 lat: 64.53672749921679 EGI09 lon: -147.0369177963585 EGI09 alt: 6138.000000000000 EGI09 Height_above_ellipsoid - height_msl: 5.181600000000000 EGI-09 word11 gps Vel East m/s: -190.9338389259339 EGI-09 word12 gps Vel North m/s: -4.414084638977051 EGI-09 word13 gps Vel Upper m/s: 0.5135951042175293 EGI-09 GPS Position FOM : 3.000000000000000 EGI-09 flag: for 4 satellites in operation: 1 EGI-09 flag: for at least 1 satellite in operation: 0 EGI-09 flag: for EGR invalid=1: 0 EGI-09 flag: for EGR RPU fail=1: 0 EGI-09 flag: for EGR AE fail=1: 0 EGI-09 flag: for EGR Battery fail=1: 0 EO-17(13or26)blended FOM 1 538 98FF EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 64384.92987060547 EGI-09 Time Valid: 3.088896000000000 EGI-18 dec32 Vel North m/s: -8.459745407104492 EGI-18 dec32 Vel East m/s: -130.8010864257813 EGI-18 dec32 Vel Upper m/s: 0.3098876476287842 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 51.87500000000000 48.50000000000000 75.75000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.3242187500000000E-03 8.6669921875000000E-03 1.4526367187500000E-02 EGI-13 GPS sigma roll/pitch/az: 5.4641513360102008E-04 5.4641513360102008E-04 4.1527550153677524E-03 r_time_tag_17: 0.2472960000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: -11.68757497558594 217.4831506530762 -0.1103502410888672 EO17 wrander az roll pitch az: -1.634552403291394 0.1043701171875000 0.4614257812500000 -91.17004394531250 EO17 r_cnexx/y/z: 0.4295562449842691 1.8633993342518806E-02 0.9028478609398007 EO17 r_lon: -147.0438861753792 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E 48DF D6B8 dec64: DD85 487B 80FD 6B8D r_hwgpstime(1): 582797.9899223950 r_utctime_18: 64384.98992239299 EGI-18 dec32 lat: 64.53668844845545 EGI-18 dec32 lon: -147.0359411309657 EGI-18 dec32 sea level alt: 7479.427734375000 EGI-18 dec32 WGS84 alt: 7484.869140625000 WGS84_alt-msl_alt: 5.441406250000000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 2 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 1 e22_msg(5) satellite 3: 5 e22_msg(7) satellite 4: 1D e22_msg(9) satellite 5: 14 EGI-22 Tdop: 3.093750000000000 2.843750000000000 1.734375000000000 2.250000000000000 1.234375000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -2.841600000000000 geod_utctime time_tag_17 time_valid: 64384.92987060547 4.441560000000001 3.088896000000000 r_utc_ttag r_del_time_18: 582799.2825346075 2.0000000000000001E-09 J2000 r_hwtime = 25422799.40733000 GPS J2000 time = 25422799.28253461 Message 1 Time = 25422799.40733000 INS Time = 0.3722880000000000 Roll angle = 0.1153564453125000 Pitch angle = 0.4614257812500000 Heading angle = -91.17004394531250 Long. acc = 8.0000000000000002E-02 Lat. acc = -8.0000000000000002E-02 Norm. acc = -9.790000000000001 East vel. = -217.7850000000000 North vel. = -2.249000000000000 Up vel. = -0.1120000000000000 True Grnd Spd = 217.7968750000000 Altitude = 6871.000000000000 Latitude = 64.53496545553207 Longitude = -147.0444527082145 Message 6 Week = 60 GPS Time = 25422799.28253461 GDOP = 3.093750000000000 PDOP = 2.843750000000000 HDOP = 1.734375000000000 VDOP = 2.250000000000000 TDOP = 1.234375000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 64.53668844845545 GPS Lon = -147.0359411309657 GPS Alt = 7484.869140625000 GPS East Vel = -130.8010864257813 GPS North Vel = -8.459745407104492 GPS Up Vel = 0.3098876476287842 Message 4 Sigma Pos x = 51.87500000000000 Sigma Pos y = 48.50000000000000 Sigma Pos z = 75.75000000000000 Sigma Vel x = 7.3242187500000000E-03 Sigma Vel y = 8.6669921875000000E-03 Sigma Vel z = 1.4526367187500000E-02 Message 7 Satellites used = 20 1 5 29 20 0 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 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Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25422799.2790 25422940.0670 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41731 -92.05444 -90.85693 0.3508634 0 trc -90.77667 -91.19164 -90.38178 0.2695506 0 tgs 216.98597 216.46875 217.79688 0.4741712 0 roll 0.13832 -0.79102 0.51086 0.3043874 0 pitch 0.51765 0.42297 0.60425 0.0475950 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10966 -147.04445 0.0188433 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82872 7220.40720 7272.52800 8.7072295 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.97205 6872.41466 0.1294044 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67505 -147.04445 0.1820150 0 hwalt 6874.99191 6871.97205 6877.47842 1.9090197 0 hwev -216.96904 -217.79500 -216.45100 0.4853267 0 hwnv -2.94187 -4.50300 -1.44900 1.0153794 0 hwuv -0.09021 -0.44500 0.15300 0.1174736 0 hwroll 0.13814 -0.79102 0.51086 0.3045462 0 hwpitch 0.51778 0.42297 0.60425 0.0475771 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509856 0 hwtrc -90.77732 -91.19164 -90.38178 0.2696450 0 hwtgs 216.98414 216.46875 217.79688 0.4735069 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... startrec+1,startrec+nrec-1: 2 117888 1 117888 hdrgpssec-1 t_prf-1 117888 25422939.06734767 1.1881999671459198E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 921 25422938.00000000 2589548 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25422800.00000000 i_yearind 20008 GPS time for first pulse = 25422799.27941999 25422799.27900000 New startrecT: 25422799.27941999 25422799.40733000 1 New start and number of records = 110 117743 New start and number of blocks = 1 921 +6+r_hwhead(10/200): 0.0000000000000000E+00 -5.4931640625000000E-03 -91.17004394531250 GPS trend coefficients = 0.2829942787700419 -1.477262220312721 1.367087980251437 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41736 -92.05444 -90.85693 0.3508594 0 trc -90.77672 -91.19164 -90.38178 0.2695653 0 tgs 216.98536 216.46875 217.79688 0.4737697 0 roll 0.13824 -0.79102 0.50537 0.3045045 0 pitch 0.51768 0.42297 0.60425 0.0475770 0 delx 0.25729 0.00000 0.25737 0.0007503 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10959 -147.04452 0.0188430 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82839 7220.40720 7272.52800 8.7045964 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.96401 6872.27357 0.0733314 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67498 -147.04452 0.1820150 0 hwalt 6874.99191 6871.97207 6877.47840 1.9090194 0 hwev -216.96904 -217.79500 -216.45100 0.4853269 0 hwnv -2.94187 -4.50300 -1.44900 1.0153801 0 hwuv -0.09021 -0.44500 0.15300 0.1174735 0 hwroll 0.13811 -0.79102 0.50537 0.3045445 0 hwpitch 0.51777 0.42297 0.60425 0.0475749 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509732 0 hwtrc -90.77732 -91.19137 -90.38231 0.2696166 0 hwtgs 216.98420 216.46875 217.79688 0.4735351 0 Finished final analysis of data... Average Barometric Altitude = 7920.473560912081 Average Radar Altitude = 7248.828393485350 Average GPS Altitude = 6872.170367048145 >>Record # : 128 >>GPS Stuff = 0.00 0 0 0 0 >>Record # : 0 >>GPS Stuff = Lock vertical accel to OLD gps(+1) or bar(-1) or IGI (0) ==> DGPS=2 OLDgps=1 0=EGI/igi -1=barometer 2 i_yearind DGPS 2000 : 20008 DGPS(PacRim2000) cmd_pbn: /u/Reading from stdin argus0/airops/OPS/QA_Proc/pbn_decode.pl /mnt/air62/airops/1359/l.hdr > dgps.txyz ->ngpslock dgps: 2 ->Read DGPS & got txyz(trgps),gps_sch,peg point: dgps.txyz DGPS file: dgps.txyz Searching GPS data file for corresponding data... dgps_pacrim2k line: 924 Number of valid data points = 924 Start time GPS data = 25422798.00002220 End time GPS data = 25422938.00002177 Positions and Distances Start position = 64.5360586 -147.1960009 7491.434 End position = 64.5343785 -147.5118135 7489.710 Loxodromic Heading (deg) = -90.7080131 Loxodromic Distance (km) = 15158.1520749 Geodesic Heading (deg) = -90.5654456 Geodesic Distance (km) = 15158.1362549 Peg latitude and longitude = 64.5355159 -147.3541361 Peg heading = -90.8888123 Rotation matrix First row = -0.362028153 -0.551172665 -0.751760806 Second row = -0.231935192 0.834364556 -0.500041853 Third row = 0.902851972 -0.006669442 -0.429899797 Translation vector Vector = -0.69411 -0.44469 -38653.55965 Local Radius of Curvature = 6395608.956179346 startrec dgps_pacrim2k: 110 117743 **i_ts: 110 25422799.40800000 25422798.00002220 1.407977800816298 Start and end pulse used = 110 116148 gmt sec s e = 25422799.40800000 25422936.99987973 dgps sec s = 25422798.00002220 25422937.00002178 r_tsv: -2309758.905137389 -1497824.918705536 5742457.621946460 r_tev: -2326326.121893520 -1472636.015751767 5742280.883069825 lat/lon r_geodis: 1.126378495408110 -2.566289013407446 1.126315733833988 -2.577239234879388 30114.13310583908 Ellipsoidal delta s (m) = 0.2595195807049335 DGPS... lat/lon r_geodis: 9.6977775030725551E-06 -2.3758585080489469E-03 -4.4441293614411313E-07 2.3326944703466182E-03 30114.13345847621 Delta s on reference surface = 0.2595195837439133 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1359/ts1359_l.peg DGPS Peg latitude and longitude = 64.5355159 -147.3541361 DGPS Peg heading = -90.8888123 == dgps_egi == r_hwheadf: -91.17004394531250 -1.0986328125000000E-02 0.0000000000000000E+00 110 Making final angle restore...Honeywell -91.17004394531250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 2.4337037346356243E-04 Standard deviation of difference = 2.0624109116932946E-04 Making fits... Vertical fit coefficients = 7495.192152808554 -9.0302881305518667E-02 1.5091061216199186E-04 Cross track fit coefficients = -194.6020313630832 3.8490070952079236E-02 -3.6789710074577181E-04 Along track fit coefficients = -43.54890057780549 -0.3304737129536273 1.1788842991683236E-03 avg alt (1): 7495.192152808554 alt r_avgrefh: 7492.608619266713 i_yearind p-hgt t-hgt: 20008 7495.192152808554 450.0000 avg_ralt tmp: 7045.192382812500 7045.192 enter proc_alt: -1.000000 yaw: -1.1027005E-03 -91.17004394531250 -91.16894124482687 110 tape #: 98 PRF at the start of the run: 846.3100641614319 846.3101 Miscellaneous Information Start range = 8102.267048972740 Start ground range = 4001.499171814253 Time orgin = 25422799.27941999 Pulse spacing = 0.2572936563082597 First frame = 2472668 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /mnt/air65/airops/1359/ts1359_l.mocomp Name of the H-pol motion compensation file? /mnt/air65/airops/1359/ts1359_l.mocomph Name of the V-pol motion compensation file? /mnt/air65/airops/1359/ts1359_l.mocompv How many lines per polarization? 59000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 + 90001 + 100001 + 110001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LHH Enter the paramater file name. /mnt/air65/airops/1359/ts1359_l.par Enter the raw data file name. /mnt/air62/airops/1359/l_hh Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_l.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_l_hh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_l_hh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_l_hh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_l_hh.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (-53.60204,0.0000000E+00) (35.73469,0.0000000E+00) (62.53571,0.0000000E+00) attenuation (dB): 13.00000 no_loop: 64 Pulse#/no_loop: 1 1057 4.5212179E+08 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 86.51895 Power RMS: 0.1082532 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 21180.96 Amp. RMS: 76.31514 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -1.027795 Phase RMS: 0.2269329 Incoherent PH 1st: -1.012296 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 86.52262 CalTone Power Coherently dB : 86.51895 Incoherent PW - Coherent PW : 3.6697388E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 21189.30 CalTone Amplitude Coherently : 21180.96 Incoherent Amp.- Coherent Amp. : 8.345703 ------------ *** ------------ running time (sec): 32.83 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LHV Enter the paramater file name. /mnt/air65/airops/1359/ts1359_l.par Enter the raw data file name. /mnt/air62/airops/1359/l_hv Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_l.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_l_hv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_l_hv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_l_hv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_l_hv.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (35.73469,0.0000000E+00) (-84.86990,0.0000000E+00) (22.33418,0.0000000E+00) attenuation (dB): 13.00000 no_loop: 64 Pulse#/no_loop: 1 1057 8.9534118E+08 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 89.48943 Power RMS: 7.3287748E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 29817.60 Amp. RMS: 69.28204 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -83.81105 Phase RMS: 0.1126735 Incoherent PH 1st: -83.79637 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 89.49089 CalTone Power Coherently dB : 89.48943 Incoherent PW - Coherent PW : 1.4648438E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 29844.65 CalTone Amplitude Coherently : 29817.60 Incoherent Amp.- Coherent Amp. : 27.05273 ------------ *** ------------ running time (sec): 29.52 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LVH Enter the paramater file name. /mnt/air65/airops/1359/ts1359_l.par Enter the raw data file name. /mnt/air62/airops/1359/l_vh Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_l.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_l_vh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_l_vh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_l_vh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_l_vh.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (31.26785,0.0000000E+00) (-62.53571,0.0000000E+00) (8.933673,0.0000000E+00) attenuation (dB): 13.00000 no_loop: 64 Pulse#/no_loop: 1 1057 4.5519606E+08 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 86.56005 Power RMS: 7.9672180E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 21281.74 Amp. RMS: 72.00000 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -0.9074354 Phase RMS: 0.2307587 Incoherent PH 1st: -0.9222763 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 86.56158 CalTone Power Coherently dB : 86.56005 Incoherent PW - Coherent PW : 1.5335083E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 21316.96 CalTone Amplitude Coherently : 21281.74 Incoherent Amp.- Coherent Amp. : 35.21680 ------------ *** ------------ running time (sec): 29.31 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LVV Enter the paramater file name. /mnt/air65/airops/1359/ts1359_l.par Enter the raw data file name. /mnt/air62/airops/1359/l_vv Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_l.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_l_vv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_l_vv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_l_vv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_l_vv.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1057 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (-31.26785,0.0000000E+00) (-8.933673,0.0000000E+00) (-22.33418,0.0000000E+00) attenuation (dB): 13.00000 no_loop: 64 Pulse#/no_loop: 1 1057 8.9274586E+08 plot_x: 920 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 89.50167 Power RMS: 3.8273279E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 29859.61 Amp. RMS: 64.99231 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -83.85407 Phase RMS: 0.1230314 Incoherent PH 1st: -83.83281 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 89.49917 CalTone Power Coherently dB : 89.50167 Incoherent PW - Coherent PW : -2.5024414E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 29872.96 CalTone Amplitude Coherently : 29859.61 Incoherent Amp.- Coherent Amp. : 13.34570 ------------ *** ------------ running time (sec): 29.51 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: 72.23108 -1.1195161E-03 z fit: constant and linear terms: 0.1650286 -6.7065244E-05 y and z standard deviations (meters) 5.419737 0.8858395 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 15 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 2.3586746E-02 2.4196953E-02 2.5032172E-02 2.3727523E-02 Differences = -5.4910034E-04 6.1105937E-05 8.9632533E-04 -4.0832348E-04 PATCH NUMER 2 First line = 3493 Averages = 2.5195252E-02 2.3948168E-02 2.3769895E-02 2.3092521E-02 Differences = 1.1937935E-03 -5.3290278E-05 -2.3156404E-04 -9.0893731E-04 PATCH NUMER 3 First line = 6985 Averages = 2.3592347E-02 2.3493594E-02 2.2763167E-02 2.2176288E-02 Differences = 5.8599561E-04 4.8724189E-04 -2.4318509E-04 -8.3006360E-04 PATCH NUMER 4 First line = 10477 Averages = 2.2884913E-02 2.2111636E-02 2.0872686E-02 1.7997827E-02 Differences = 1.9181557E-03 1.1448786E-03 -9.4071031E-05 -2.9689297E-03 PATCH NUMER 5 First line = 13969 Averages = 2.1903621E-02 1.8281823E-02 1.9650802E-02 2.4991838E-02 Differences = 6.9659390E-04 -2.9252041E-03 -1.5562251E-03 3.7848111E-03 PATCH NUMER 6 First line = 17461 Averages = 1.8601060E-02 2.3157956E-02 2.8799320E-02 2.8662294E-02 Differences = -6.2041134E-03 -1.6472172E-03 3.9941464E-03 3.8571209E-03 PATCH NUMER 7 First line = 20953 Averages = 2.7343716E-02 2.9664725E-02 2.2808377E-02 1.2731176E-02 Differences = 4.2066704E-03 6.5276790E-03 -3.2866932E-04 -1.0405870E-02 PATCH NUMER 8 First line = 24445 Averages = 2.5743781E-02 1.5258532E-02 7.4573755E-03 -1.0680156E-03 Differences = 1.3895782E-02 3.4105331E-03 -4.3906234E-03 -1.2916015E-02 PATCH NUMER 9 First line = 27937 Averages = 9.6233543E-03 1.3769080E-03 -4.3869484E-03 -7.8163892E-03 Differences = 9.9241268E-03 1.6776806E-03 -4.0861759E-03 -7.5156167E-03 PATCH NUMER 10 First line = 31429 Averages = -3.5242043E-03 -6.3067926E-03 -1.1481368E-02 -1.3652157E-02 Differences = 5.2169510E-03 2.4343627E-03 -2.7402127E-03 -4.9110018E-03 PATCH NUMER 11 First line = 34921 Averages = -1.0026008E-02 -1.3556506E-02 -1.3312547E-02 -1.4289900E-02 Differences = 2.7702460E-03 -7.6025259E-04 -5.1629264E-04 -1.4936458E-03 PATCH NUMER 12 First line = 38413 Averages = -1.3284215E-02 -1.4030435E-02 -1.6389776E-02 -2.1346277E-02 Differences = 2.9784692E-03 2.2322489E-03 -1.2709200E-04 -5.0835926E-03 PATCH NUMER 13 First line = 41905 Averages = -1.5377203E-02 -1.9806607E-02 -2.4446603E-02 -2.5794983E-02 Differences = 5.9791803E-03 1.5497766E-03 -3.0902196E-03 -4.4385996E-03 PATCH NUMER 14 First line = 45397 Averages = -2.3397831E-02 -2.5692960E-02 -2.6111018E-02 -2.5813766E-02 Differences = 1.8560681E-03 -4.3906085E-04 -8.5711852E-04 -5.5986643E-04 PATCH NUMER 15 First line = 48889 Averages = -2.6082864E-02 -2.5969215E-02 -2.5640616E-02 -3.6420155E-02 Differences = 2.4453886E-03 2.5590379E-03 2.8876364E-03 -7.8919027E-03 PATCH NUMER 16 First line = 52381 last black mod_64: 51 59000 52381 8192 Averages = -2.5029499E-02 -3.3300098E-02 -3.7680939E-02 -3.6820877E-02 Differences = 8.1784092E-03 -9.2189759E-05 -4.4730306E-03 -3.6129691E-03 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.hh00l Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_l.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 4192 data points per patch Near range (m) = 8102.270 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 2.400000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -0.5548000 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = -7.0571043E-02 1.677678 1.921095 Receive leverarm x,y,z = -7.0571043E-02 1.677678 1.921095 Name of raw data file? /mnt/air62/airops/1359/l_hh Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_l.mocomph Output file name w/o ext? /mnt/air65/airops/1359/ts1359_l Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_l.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.lh WAYNE init fft, calc slant range, load unpack, interpo 1.3803001E-02 reading motion compensation data WAYNE read motion compen 1.366051 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 98 40.00000 22.50000 90.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4660379 start range comp, time = 1.923 WAYNE PREV 1.861900 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 9 ..... WAYNE IS IN Processing 15 to 15 by # 8 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 2.177 seconds. before reading done reading WAYNE load raw data , time = 48.49924600124359 ATTN ifrq ipol ln 4 1 57080 13.00000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4998925 shift in azimuth *fractional pixel= -0.4998925 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1957049369812012E-02 WAYNE Motion comp. added to patch, time = 17.11388099193573 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.3829212188720703E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 338.4616580009460 Writing 4192 lines of data to file WAYNE write output data 2.292526006698608 ==w out 15 0 2001 0 WAYNE PROCESS 406.3848500251770 ==w out 16 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 50808 58999 patch# 16 reference line: 54903 2.192 seconds. before reading done reading WAYNE load raw data , time = 47.18458390235901 ATTN ifrq ipol ln 4 1 58999 13.00000 IPOL, ITOP nblock 1 0 16 ****shift in azimuth (fractional pixel)= -0.4998845 shift in azimuth *fractional pixel= -0.4998845 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1813998222351074E-02 WAYNE Motion comp. added to patch, time = 17.14869797229767 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8868913650512695E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 424.5438089370728 Writing 4192 lines of data to file WAYNE write output data 2.140239953994751 ==w out 16 0 2001 0 WAYNE PROCESS 491.0337729454041 ==w out 17 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 14 to 14 by # 7 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 2.168 seconds. before reading done reading WAYNE load raw data , time = 47.58405995368958 ATTN ifrq ipol ln 4 1 53588 13.00000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4998858 shift in azimuth *fractional pixel= -0.4998858 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1866927146911621E-02 WAYNE Motion comp. added to patch, time = 17.07858991622925 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9300451278686523E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 430.3356229066849 Writing 4192 lines of data to file WAYNE write output data 2.230376005172729 ==w out 14 0 2001 0 WAYNE PROCESS 497.2454119920731 ==w out 15 4195 PROCESSING KID# 7 ..... WAYNE IS IN Processing 13 to 13 by # 6 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 2.150 seconds. before reading done reading WAYNE load raw data , time = 51.03409504890442 ATTN ifrq ipol ln 4 1 50096 13.00000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4999055 shift in azimuth *fractional pixel= -0.4999055 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2014031410217285E-02 WAYNE Motion comp. added to patch, time = 17.53318905830383 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.2399892807006836E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 456.7486870288849 Writing 4192 lines of data to file WAYNE write output data 2.047927021980286 ==w out 13 0 2001 0 WAYNE PROCESS 527.3812960386276 ==w out 14 4195 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 2.090 seconds. before reading done reading WAYNE load raw data , time = 45.95007705688477 ATTN ifrq ipol ln 4 1 15176 13.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4999701 shift in azimuth *fractional pixel= -0.4999701 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1798024177551270E-02 WAYNE Motion comp. added to patch, time = 17.68932700157166 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7489662170410156E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 385.6490130424500 Writing 4192 lines of data to file WAYNE write output data 2.526097059249878 ==w out 3 0 2001 0 WAYNE PROCESS 451.8310270309448 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 453.921 seconds. before reading done reading WAYNE load raw data , time = 45.35799801349640 ATTN ifrq ipol ln 4 1 18668 13.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4999764 shift in azimuth *fractional pixel= -0.4999764 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2019991874694824E-02 WAYNE Motion comp. added to patch, time = 16.39114093780518 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.7153015136718750E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 272.4312099218369 Writing 4192 lines of data to file WAYNE write output data 2.139976978302002 ==w out 4 4192 2001 85852160 WAYNE PROCESS 336.3611179590225 ==w out 5 8387 PROCESSING KID# 6 ..... WAYNE IS IN Processing 11 to 12 by # 5 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 2.144 seconds. before reading done reading WAYNE load raw data , time = 46.90740203857422 ATTN ifrq ipol ln 4 1 43112 13.00000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4999129 shift in azimuth *fractional pixel= -0.4999129 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1844038963317871E-02 WAYNE Motion comp. added to patch, time = 17.08295798301697 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 3.0400753021240234E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 403.1751239299774 Writing 4192 lines of data to file WAYNE write output data 2.463894963264465 ==w out 11 0 2001 0 WAYNE PROCESS 469.6462749242783 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 471.791 seconds. before reading done reading WAYNE load raw data , time = 45.83678102493286 ATTN ifrq ipol ln 4 1 46604 13.00000 IPOL, ITOP nblock 1 0 12 ****shift in azimuth (fractional pixel)= -0.4999264 shift in azimuth *fractional pixel= -0.4999264 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1061906814575195E-02 WAYNE Motion comp. added to patch, time = 15.83786797523499 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.3859033584594727E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 293.9238579273224 Writing 4192 lines of data to file WAYNE write output data 2.128764033317566 ==w out 12 4192 2001 85852160 WAYNE PROCESS 357.7537800073624 ==w out 13 8387 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 8 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 2.116 seconds. before reading done reading WAYNE load raw data , time = 47.85224699974060 ATTN ifrq ipol ln 4 1 29144 13.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4999788 shift in azimuth *fractional pixel= -0.4999788 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2173056602478027E-02 WAYNE Motion comp. added to patch, time = 18.29037594795227 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.2849311828613281E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 430.2341500520706 Writing 4192 lines of data to file WAYNE write output data 2.246282100677490 ==w out 7 0 2001 0 WAYNE PROCESS 498.6405160427094 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 500.757 seconds. before reading done reading WAYNE load raw data , time = 46.71252596378326 ATTN ifrq ipol ln 4 1 32636 13.00000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4999564 shift in azimuth *fractional pixel= -0.4999564 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1227011680603027E-02 WAYNE Motion comp. added to patch, time = 16.36917698383331 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4387955665588379E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 295.5119839906693 Writing 4192 lines of data to file WAYNE write output data 1.983270049095154 ==w out 8 4192 2001 85852160 WAYNE PROCESS 360.6140850782394 ==w out 9 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 2.103 seconds. before reading done reading WAYNE load raw data , time = 46.19428694248199 ATTN ifrq ipol ln 4 1 22160 13.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4999788 shift in azimuth *fractional pixel= -0.4999788 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1681914329528809E-02 WAYNE Motion comp. added to patch, time = 17.68079006671906 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9400587081909180E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 457.3689090013504 Writing 4192 lines of data to file WAYNE write output data 2.107267975807190 ==w out 5 0 2001 0 WAYNE PROCESS 523.3675839900970 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 525.471 seconds. before reading done reading WAYNE load raw data , time = 44.95647299289703 ATTN ifrq ipol ln 4 1 25652 13.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4999834 shift in azimuth *fractional pixel= -0.4999834 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1190891265869141E-02 WAYNE Motion comp. added to patch, time = 16.60824406147003 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.5410137176513672E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 284.7685430049896 Writing 4192 lines of data to file WAYNE write output data 1.987134933471680 ==w out 6 4192 2001 85852160 WAYNE PROCESS 348.3394489288330 ==w out 7 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -3.7577801E-04 8.0601303E-03 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.079 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 46.50171399116516 ATTN ifrq ipol ln 4 1 8192 13.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999724 shift in azimuth *fractional pixel= -0.4999724 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1783003807067871E-02 TESTING 0.0000000E+00 60.83782 1.103669 WAYNE Motion comp. added to patch, time = 17.21107304096222 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8330087661743164E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 60.83782 1.103669 HEY,dt,fract,ye,pe -0.4999724 1.000000 -3.7577801E-04 8.0601303E-03 WAYNE Azimuth compression done, time = 464.9627549648285 Writing 4192 lines of data to file WAYNE write output data 2.042531013488770 ==w out 1 0 2001 0 WAYNE PROCESS 530.7344089746475 Processing block number 2 TESTING WHY -8.3963899E-04 8.4267398E-03 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 532.814 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 45.10715699195862 ATTN ifrq ipol ln 4 1 11684 13.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999721 shift in azimuth *fractional pixel= -0.4999721 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1255979537963867E-02 TESTING 0.0000000E+00 57.84470 0.7313270 WAYNE Motion comp. added to patch, time = 16.22035801410675 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4963974952697754E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 57.84470 0.7313270 HEY,dt,fract,ye,pe -0.4999721 1.000000 -8.3963899E-04 8.4267398E-03 WAYNE Azimuth compression done, time = 283.9592590332031 Writing 4192 lines of data to file WAYNE write output data 2.031992912292480 ==w out 2 4192 2001 85852160 WAYNE PROCESS 347.3562829494476 ==w out 3 8387 PROCESSING KID# 5 ..... WAYNE IS IN Processing 9 to 10 by # 4 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 2.136 seconds. before reading done reading WAYNE load raw data , time = 47.21398401260376 ATTN ifrq ipol ln 4 1 36128 13.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4999344 shift in azimuth *fractional pixel= -0.4999344 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2058973312377930E-02 WAYNE Motion comp. added to patch, time = 17.17023503780365 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6530027389526367E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 455.9298340082169 Writing 4192 lines of data to file WAYNE write output data 2.102995038032532 ==w out 9 0 2001 0 WAYNE PROCESS 522.4335709810257 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 524.569 seconds. before reading done reading WAYNE load raw data , time = 45.94600296020508 ATTN ifrq ipol ln 4 1 39620 13.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4999150 shift in azimuth *fractional pixel= -0.4999150 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1270046234130859E-02 WAYNE Motion comp. added to patch, time = 16.03392398357391 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.2443890571594238E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 292.1200760602951 Writing 4192 lines of data to file WAYNE write output data 2.037827014923096 ==w out 10 4192 2001 85852160 WAYNE PROCESS 356.1729179620743 ==w out 11 8387 1 42050 0 2 42053 0 3 42106 0 4 42084 0 5 42090 0 6 42093 0 7 42091 0 8 42092 0 9 42089 0 10 42094 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 67072kids= 10 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 2 gather image from processor # 4 2 gather image from processor # 5 2 gather image from processor # 6 1 gather image from processor # 7 1 gather image from processor # 8 1 gather image from processor # 9 1 WAYNE gather images takes: 0.2234950065612793 WAYNE LOOP TIME: 889.3590849637985 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_l.hh_j /mnt/air65/airops/1359/ts1359_l.mocomph /mnt/air65/airops/1359/ts1359_l.dop /mnt/air65/airops/1359/ts1359_l.glb 2560 67072 update intf hdr ha: 7045.200 UPDATE: 2560 67072 3.331000 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_l.mocomph dopfile /mnt/air65/airops/1359/ts1359_l.dop globalfile /mnt/air65/airops/1359/ts1359_l.glb /mnt/air65/airops/1359/ts1359_l.glb 35 deskew line ra ha trc: 55.28423 107 8108.036 7045.200 -91.16894 after deskew line ra ha trc: 55.28423 107 8108.036 7045.200 -91.16894 lat1 lon1: 107 64.49897 -147.0440 67072 last ra n_ns ns: 8108.036 2 2 67178 67072 lati loni: 67178 64.49891 -147.7781 67178 2 center ra n_ns ns: 12368.38 1281 1281 33642 67072 lati loni: 33642 64.46047 -147.4099 33642 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_l.hh_j WAYNE FINAL PROCESS 891.4439541101456 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8384 2 8384 2 8384 2 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_l.hh_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_l.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.lh Line up to another frequency [y/n]? y Name of the deskew file to line up to? /mnt/air62/airops/1359/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /mnt/air65/airops/1359/ts1359_l.TT Name of the line output file? /mnt/air65/airops/1359/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 4.796772956848145 Deskewing 16 patches Processing block number 1 DEBUG 99 106.9511 98.87190 -0.4999724 -0.4999724 patch iptc,sj,dgj,dgi,id: 1 1055 99 99 0 half line dmj dgc: 0 2001 107 101 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1055 1 Zeroing lines in arrays Total # of output lines = 1 1054 1055 3151 0 2096 patch iptc,sj,dgj,dgi,id: 1 3151 99 99 2096 half line dmj dgc: 1 2001 107 101 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3151 1055 Zeroing lines in arrays Total # of output lines = 1 3150 Processing block number 2 DEBUG 90 108.3555 90.30634 -0.4999721 -0.4999721 3151 4538 -9 1396 patch iptc,sj,dgj,dgi,id: 2 4538 90 99 1396 half line dmj dgc: 0 5493 108 101 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4538 3151 Zeroing lines in arrays Total # of output lines = 2 4537 4538 6634 0 2096 patch iptc,sj,dgj,dgi,id: 2 6634 90 90 2096 half line dmj dgc: 1 5493 108 101 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6634 4538 Zeroing lines in arrays Total # of output lines = 2 6633 Processing block number 3 DEBUG 79 105.6774 79.22968 -0.4999701 -0.4999701 6634 8019 -11 1396 patch iptc,sj,dgj,dgi,id: 3 8019 79 90 1396 half line dmj dgc: 0 8985 106 101 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8019 6634 Zeroing lines in arrays Total # of output lines = 3 8018 8019 10115 0 2096 patch iptc,sj,dgj,dgi,id: 3 10115 79 79 2096 half line dmj dgc: 1 8985 106 101 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10115 8019 Zeroing lines in arrays Total # of output lines = 3 10114 Processing block number 4 DEBUG 66 97.77099 66.18861 -0.4999764 -0.4999764 10115 11498 -13 1396 patch iptc,sj,dgj,dgi,id: 4 11498 66 79 1396 half line dmj dgc: 0 12477 98 101 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11498 10115 Zeroing lines in arrays Total # of output lines = 4 11497 11498 13594 0 2096 patch iptc,sj,dgj,dgi,id: 4 1306 66 66 2096 half line dmj dgc: 1 12477 98 101 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11498 1306 Zeroing lines in arrays Total # of output lines = 4 13593 Processing block number 5 DEBUG 76 96.53201 76.35272 -0.4999788 -0.4999788 1306 2712 10 1396 patch iptc,sj,dgj,dgi,id: 5 2712 76 66 1396 half line dmj dgc: 0 15969 96 101 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2712 1306 Zeroing lines in arrays Total # of output lines = 5 14999 2712 4808 0 2096 patch iptc,sj,dgj,dgi,id: 5 4808 76 76 2096 half line dmj dgc: 1 15969 96 101 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4808 2712 Zeroing lines in arrays Total # of output lines = 5 17095 Processing block number 6 DEBUG 108 108.0478 108.9892 -0.4999834 -0.4999834 4808 6236 32 1396 patch iptc,sj,dgj,dgi,id: 6 6236 108 76 1396 half line dmj dgc: 0 19461 109 101 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6236 4808 Zeroing lines in arrays Total # of output lines = 6 18523 6236 8332 0 2096 patch iptc,sj,dgj,dgi,id: 6 8332 108 108 2096 half line dmj dgc: 1 19461 109 101 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8332 6236 Zeroing lines in arrays Total # of output lines = 6 20619 Processing block number 7 DEBUG 76 107.0072 76.49744 -0.4999788 -0.4999788 8332 9696 -32 1396 patch iptc,sj,dgj,dgi,id: 7 9696 76 108 1396 half line dmj dgc: 0 22953 107 101 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9696 8332 Zeroing lines in arrays Total # of output lines = 7 21983 9696 11792 0 2096 patch iptc,sj,dgj,dgi,id: 7 11792 76 76 2096 half line dmj dgc: 1 22953 107 101 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11792 9696 Zeroing lines in arrays Total # of output lines = 7 24079 Processing block number 8 DEBUG -55 78.10847 -55.28962 -0.4999564 -0.4999564 11792 13057 -131 1396 patch iptc,sj,dgj,dgi,id: 8 769 -55 76 1396 half line dmj dgc: 0 26445 78 101 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11792 769 Zeroing lines in arrays Total # of output lines = 8 25344 769 2865 0 2096 patch iptc,sj,dgj,dgi,id: 8 2865 -55 -55 2096 half line dmj dgc: 1 26445 78 101 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 2865 769 Zeroing lines in arrays Total # of output lines = 8 27440 Processing block number 9 DEBUG -194 46.28289 -194.0739 -0.4999344 -0.4999344 2865 4122 -139 1396 patch iptc,sj,dgj,dgi,id: 9 4122 -194 -55 1396 half line dmj dgc: 0 29937 46 101 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4122 2865 Zeroing lines in arrays Total # of output lines = 9 28697 4122 6218 0 2096 patch iptc,sj,dgj,dgi,id: 9 6218 -194 -194 2096 half line dmj dgc: 1 29937 46 101 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6218 4122 Zeroing lines in arrays Total # of output lines = 9 30793 Processing block number 10 DEBUG -284 22.57809 -284.0435 -0.4999150 -0.4999150 6218 7524 -90 1396 patch iptc,sj,dgj,dgi,id: 10 7524 -284 -194 1396 half line dmj dgc: 0 33429 22 101 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7524 6218 Zeroing lines in arrays Total # of output lines = 10 32099 7524 9620 0 2096 patch iptc,sj,dgj,dgi,id: 10 9620 -284 -284 2096 half line dmj dgc: 1 33429 22 101 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9620 7524 Zeroing lines in arrays Total # of output lines = 10 34195 Processing block number 11 DEBUG -319 9.069233 -318.7521 -0.4999129 -0.4999129 9620 10981 -35 1396 patch iptc,sj,dgj,dgi,id: 11 10981 -319 -284 1396 half line dmj dgc: 0 36921 9 101 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10981 9620 Zeroing lines in arrays Total # of output lines = 11 35556 10981 13077 0 2096 patch iptc,sj,dgj,dgi,id: 11 789 -319 -319 2096 half line dmj dgc: 1 36921 9 101 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10981 789 Zeroing lines in arrays Total # of output lines = 11 37652 Processing block number 12 DEBUG -346 -3.038136 -346.3430 -0.4999264 -0.4999264 789 2158 -27 1396 patch iptc,sj,dgj,dgi,id: 12 2158 -346 -319 1396 half line dmj dgc: 0 40413 -3 101 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2158 789 Zeroing lines in arrays Total # of output lines = 12 39021 2158 4254 0 2096 patch iptc,sj,dgj,dgi,id: 12 4254 -346 -346 2096 half line dmj dgc: 1 40413 -3 101 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 4254 2158 Zeroing lines in arrays Total # of output lines = 12 41117 Processing block number 13 DEBUG -403 -16.85501 -402.8708 -0.4999055 -0.4999055 4254 5593 -57 1396 patch iptc,sj,dgj,dgi,id: 13 5593 -403 -346 1396 half line dmj dgc: 0 43905 -17 101 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 5593 4254 Zeroing lines in arrays Total # of output lines = 13 42456 5593 7689 0 2096 patch iptc,sj,dgj,dgi,id: 13 7689 -403 -403 2096 half line dmj dgc: 1 43905 -17 101 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 7689 5593 Zeroing lines in arrays Total # of output lines = 13 44552 Processing block number 14 DEBUG -455 -25.34896 -454.5045 -0.4998858 -0.4998858 7689 9033 -52 1396 patch iptc,sj,dgj,dgi,id: 14 9033 -455 -403 1396 half line dmj dgc: 0 47397 -25 101 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9033 7689 Zeroing lines in arrays Total # of output lines = 14 45896 9033 11129 0 2096 patch iptc,sj,dgj,dgi,id: 14 11129 -455 -455 2096 half line dmj dgc: 1 47397 -25 101 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 11129 9033 Zeroing lines in arrays Total # of output lines = 14 47992 Processing block number 15 DEBUG -492 -33.84801 -492.3776 -0.4998925 -0.4998925 11129 12488 -37 1396 patch iptc,sj,dgj,dgi,id: 15 200 -492 -455 1396 half line dmj dgc: 0 50889 -34 101 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 11129 200 Zeroing lines in arrays Total # of output lines = 15 49351 200 2296 0 2096 patch iptc,sj,dgj,dgi,id: 15 2296 -492 -492 2096 half line dmj dgc: 1 50889 -34 101 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2296 200 Zeroing lines in arrays Total # of output lines = 15 51447 Processing block number 16 DEBUG -540 -47.54345 -540.2201 -0.4998845 -0.4998845 2296 2071 -48 -177 patch iptc,sj,dgj,dgi,id: 16 2071 -540 -492 -177 half line dmj dgc: 0 52808 -48 101 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Zeroing lines in arrays Total # of output lines = 16 51447 2296 4167 0 2096 patch iptc,sj,dgj,dgi,id: 16 4167 -540 -540 2096 half line dmj dgc: 1 52808 -48 101 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 4167 2296 Zeroing lines in arrays Total # of output lines = 16 53318 ia dmi dgi: 4167 -48 -540 Writing the last 2588 lines last half sj>s1 6755 4167 53318 WAYNE done patche 203.3515919446945 Total # of output lines = 55906 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 55906 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 204.0553820133209 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.hv00l Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_l.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 4192 data points per patch Near range (m) = 8102.270 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 2.400000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -0.7274000 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = -7.0571043E-02 1.677678 1.921095 Receive leverarm x,y,z = -5.5424944E-02 1.026312 2.6845539E-02 Name of raw data file? /mnt/air62/airops/1359/l_hv Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_l.mocomph Output file name w/o ext? /mnt/air65/airops/1359/ts1359_l Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hv Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_l.hv_j *** ipol itop: 2 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.lh WAYNE init fft, calc slant range, load unpack, interpo 1.3448000E-02 reading motion compensation data WAYNE read motion compen 1.377544 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 98 40.00000 22.50000 90.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4620950 start range comp, time = 1.869 WAYNE PREV 1.868072 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 8 ..... WAYNE IS IN Processing 14 to 14 by # 7 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 2.109 seconds. before reading done reading WAYNE load raw data , time = 46.67651200294495 ATTN ifrq ipol ln 4 2 53588 13.00000 IPOL, ITOP nblock 2 0 14 ****shift in azimuth (fractional pixel)= -0.4998858 shift in azimuth *fractional pixel= -0.4998858 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1799931526184082E-02 WAYNE Motion comp. added to patch, time = 17.06817305088043 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6969909667968750E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 371.3987360000610 Writing 4192 lines of data to file WAYNE write output data 2.524387001991272 ==w out 14 0 2001 0 WAYNE PROCESS 437.6839560270309 ==w out 15 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 50808 58999 patch# 16 reference line: 54903 2.134 seconds. before reading done reading WAYNE load raw data , time = 47.00402200222015 ATTN ifrq ipol ln 4 2 58999 13.00000 IPOL, ITOP nblock 2 0 16 ****shift in azimuth (fractional pixel)= -0.4998845 shift in azimuth *fractional pixel= -0.4998845 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1910915374755859E-02 WAYNE Motion comp. added to patch, time = 17.34444606304169 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.7821063995361328E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 370.9155809879303 Writing 4192 lines of data to file WAYNE write output data 2.549190044403076 ==w out 16 0 2001 0 WAYNE PROCESS 437.8296749591827 ==w out 17 4195 PROCESSING KID# 7 ..... WAYNE IS IN Processing 13 to 13 by # 6 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 2.094 seconds. before reading done reading WAYNE load raw data , time = 49.10478103160858 ATTN ifrq ipol ln 4 2 50096 13.00000 IPOL, ITOP nblock 2 0 13 ****shift in azimuth (fractional pixel)= -0.4999055 shift in azimuth *fractional pixel= -0.4999055 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1911034584045410E-02 WAYNE Motion comp. added to patch, time = 17.36966598033905 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.2429695129394531E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 414.1633059978485 Writing 4192 lines of data to file WAYNE write output data 2.212826967239380 ==w out 13 0 2001 0 WAYNE PROCESS 482.8679670095444 ==w out 14 4195 PROCESSING KID# 9 ..... WAYNE IS IN Processing 15 to 15 by # 8 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 2.120 seconds. before reading done reading WAYNE load raw data , time = 47.40460896492004 ATTN ifrq ipol ln 4 2 57080 13.00000 IPOL, ITOP nblock 2 0 15 ****shift in azimuth (fractional pixel)= -0.4998925 shift in azimuth *fractional pixel= -0.4998925 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1861920356750488E-02 WAYNE Motion comp. added to patch, time = 17.06494200229645 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7730464935302734E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 469.9552880525589 Writing 4192 lines of data to file WAYNE write output data 2.311247944831848 ==w out 15 0 2001 0 WAYNE PROCESS 536.7526209354401 ==w out 16 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 9 to 10 by # 4 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 2.073 seconds. before reading done reading WAYNE load raw data , time = 47.69110989570618 ATTN ifrq ipol ln 4 2 36128 13.00000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4999344 shift in azimuth *fractional pixel= -0.4999344 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2023091316223145E-02 WAYNE Motion comp. added to patch, time = 17.12160301208496 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.8209686279296875E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 319.4439800977707 Writing 4192 lines of data to file WAYNE write output data 2.269577980041504 ==w out 9 0 2001 0 WAYNE PROCESS 386.5430479049683 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 388.616 seconds. before reading done reading WAYNE load raw data , time = 46.71322607994080 ATTN ifrq ipol ln 4 2 39620 13.00000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4999150 shift in azimuth *fractional pixel= -0.4999150 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1978030204772949E-02 WAYNE Motion comp. added to patch, time = 16.25062489509583 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.0724048614501953E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.9668589830399 Writing 4192 lines of data to file WAYNE write output data 2.151229977607727 ==w out 10 4192 2001 85852160 WAYNE PROCESS 337.1259969472885 ==w out 11 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 2.037 seconds. before reading done reading WAYNE load raw data , time = 46.23803091049194 ATTN ifrq ipol ln 4 2 15176 13.00000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4999701 shift in azimuth *fractional pixel= -0.4999701 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1738061904907227E-02 WAYNE Motion comp. added to patch, time = 17.70590400695801 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7230978012084961E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 414.2920610904694 Writing 4192 lines of data to file WAYNE write output data 2.224759936332703 ==w out 3 0 2001 0 WAYNE PROCESS 480.4769459962845 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 482.514 seconds. before reading done reading WAYNE load raw data , time = 45.02970707416534 ATTN ifrq ipol ln 4 2 18668 13.00000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4999764 shift in azimuth *fractional pixel= -0.4999764 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1116027832031250E-02 WAYNE Motion comp. added to patch, time = 16.30007195472717 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 1.9207000732421875E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 276.8276729583740 Writing 4192 lines of data to file WAYNE write output data 2.050915956497192 ==w out 4 4192 2001 85852160 WAYNE PROCESS 340.2400389909744 ==w out 5 8387 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 8 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 2.063 seconds. before reading done reading WAYNE load raw data , time = 47.07328808307648 ATTN ifrq ipol ln 4 2 29144 13.00000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4999788 shift in azimuth *fractional pixel= -0.4999788 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1919021606445313E-02 WAYNE Motion comp. added to patch, time = 18.46281707286835 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.8160810470581055E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 419.8092250823975 Writing 4192 lines of data to file WAYNE write output data 2.309834003448486 ==w out 7 0 2001 0 WAYNE PROCESS 487.6717749834061 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 489.735 seconds. before reading done reading WAYNE load raw data , time = 45.60327899456024 ATTN ifrq ipol ln 4 2 32636 13.00000 IPOL, ITOP nblock 2 0 8 ****shift in azimuth (fractional pixel)= -0.4999564 shift in azimuth *fractional pixel= -0.4999564 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1060953140258789E-02 WAYNE Motion comp. added to patch, time = 16.37942492961884 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.7699947357177734E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 276.4935129880905 Writing 4192 lines of data to file WAYNE write output data 2.043429017066956 ==w out 8 4192 2001 85852160 WAYNE PROCESS 340.5597969293594 ==w out 9 8387 PROCESSING KID# 6 ..... WAYNE IS IN Processing 11 to 12 by # 5 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 2.084 seconds. before reading done reading WAYNE load raw data , time = 46.87452900409698 ATTN ifrq ipol ln 4 2 43112 13.00000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4999129 shift in azimuth *fractional pixel= -0.4999129 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1790990829467773E-02 WAYNE Motion comp. added to patch, time = 17.12442195415497 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7849674224853516E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 470.4292989969254 Writing 4192 lines of data to file WAYNE write output data 2.315685033798218 ==w out 11 0 2001 0 WAYNE PROCESS 536.7602030038834 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 538.845 seconds. before reading done reading WAYNE load raw data , time = 45.34004592895508 ATTN ifrq ipol ln 4 2 46604 13.00000 IPOL, ITOP nblock 2 0 12 ****shift in azimuth (fractional pixel)= -0.4999264 shift in azimuth *fractional pixel= -0.4999264 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1392951011657715E-02 WAYNE Motion comp. added to patch, time = 15.92550992965698 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.1564970016479492E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 281.8238350152969 Writing 4192 lines of data to file WAYNE write output data 2.010455012321472 ==w out 12 4192 2001 85852160 WAYNE PROCESS 345.1242109537125 ==w out 13 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -3.7577801E-04 8.0601303E-03 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.018 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 47.62442505359650 ATTN ifrq ipol ln 4 2 8192 13.00000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4999724 shift in azimuth *fractional pixel= -0.4999724 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1934041976928711E-02 TESTING 7.5730495E-03 60.51213 0.1565443 WAYNE Motion comp. added to patch, time = 17.56611895561218 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.1509399414062500E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 7.5730495E-03 60.51213 0.1565443 HEY,dt,fract,ye,pe -0.4999724 1.000000 -3.7577801E-04 8.0601303E-03 WAYNE Azimuth compression done, time = 469.4937170743942 Writing 4192 lines of data to file WAYNE write output data 2.313943028450012 ==w out 1 0 2001 0 WAYNE PROCESS 537.0151489973068 Processing block number 2 TESTING WHY -8.3963899E-04 8.4267398E-03 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 539.034 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 46.10095691680908 ATTN ifrq ipol ln 4 2 11684 13.00000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4999721 shift in azimuth *fractional pixel= -0.4999721 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1386036872863770E-02 TESTING 7.5730495E-03 57.51902 -0.2157977 WAYNE Motion comp. added to patch, time = 16.17305898666382 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7395963668823242E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 7.5730495E-03 57.51902 -0.2157977 HEY,dt,fract,ye,pe -0.4999721 1.000000 -8.3963899E-04 8.4267398E-03 WAYNE Azimuth compression done, time = 281.1316720247269 Writing 4192 lines of data to file WAYNE write output data 2.050302028656006 ==w out 2 4192 2001 85852160 WAYNE PROCESS 345.4961990118027 ==w out 3 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 2.047 seconds. before reading done reading WAYNE load raw data , time = 46.46366202831268 ATTN ifrq ipol ln 4 2 22160 13.00000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4999788 shift in azimuth *fractional pixel= -0.4999788 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1618971824645996E-02 WAYNE Motion comp. added to patch, time = 18.07461094856262 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8469562530517578E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 470.5412710905075 Writing 4192 lines of data to file WAYNE write output data 2.279775023460388 ==w out 5 0 2001 0 WAYNE PROCESS 537.3757510185242 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 539.423 seconds. before reading done reading WAYNE load raw data , time = 45.32522010803223 ATTN ifrq ipol ln 4 2 25652 13.00000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4999834 shift in azimuth *fractional pixel= -0.4999834 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1293888092041016E-02 WAYNE Motion comp. added to patch, time = 16.64821302890778 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.4535069465637207E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 282.3768869638443 Writing 4192 lines of data to file WAYNE write output data 1.996017932891846 ==w out 6 4192 2001 85852160 WAYNE PROCESS 346.3736389875412 ==w out 7 8387 1 44507 0 2 44505 0 3 44506 0 4 44509 0 5 44494 0 6 44501 0 7 44499 0 8 44489 0 9 44503 0 10 44497 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 67072kids= 10 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 2 gather image from processor # 4 2 gather image from processor # 5 2 gather image from processor # 6 1 gather image from processor # 7 1 gather image from processor # 8 1 gather image from processor # 9 1 WAYNE gather images takes: 0.3039250373840332 WAYNE LOOP TIME: 894.5580899715424 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_l.hv_j /mnt/air65/airops/1359/ts1359_l.mocomph /mnt/air65/airops/1359/ts1359_l.dop /mnt/air65/airops/1359/ts1359_l.glb 2560 67072 update intf hdr ha: 7045.200 UPDATE: 2560 67072 3.331000 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_l.mocomph dopfile /mnt/air65/airops/1359/ts1359_l.dop globalfile /mnt/air65/airops/1359/ts1359_l.glb /mnt/air65/airops/1359/ts1359_l.glb 35 deskew line ra ha trc: 55.28423 107 8108.036 7045.200 -91.16894 after deskew line ra ha trc: 55.28423 107 8108.036 7045.200 -91.16894 lat1 lon1: 107 64.49897 -147.0440 67072 last ra n_ns ns: 8108.036 2 2 67178 67072 lati loni: 67178 64.49891 -147.7781 67178 2 center ra n_ns ns: 12368.38 1281 1281 33642 67072 lati loni: 33642 64.46047 -147.4099 33642 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_l.hv_j WAYNE FINAL PROCESS 896.4907139539719 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8384 2 8384 2 8384 2 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_l.hv_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_l.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.lh Line up to another frequency [y/n]? y Name of the deskew file to line up to? /mnt/air62/airops/1359/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /mnt/air65/airops/1359/ts1359_l.TB Name of the line output file? /mnt/air65/airops/1359/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 2.949880003929138 Deskewing 16 patches Processing block number 1 DEBUG 99 106.9364 98.85718 -0.4999724 -0.4999724 patch iptc,sj,dgj,dgi,id: 1 1055 99 99 0 half line dmj dgc: 0 2001 107 101 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1055 1 Zeroing lines in arrays Total # of output lines = 1 1054 1055 3151 0 2096 patch iptc,sj,dgj,dgi,id: 1 3151 99 99 2096 half line dmj dgc: 1 2001 107 101 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3151 1055 Zeroing lines in arrays Total # of output lines = 1 3150 Processing block number 2 DEBUG 90 108.3408 90.29161 -0.4999721 -0.4999721 3151 4538 -9 1396 patch iptc,sj,dgj,dgi,id: 2 4538 90 99 1396 half line dmj dgc: 0 5493 108 101 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4538 3151 Zeroing lines in arrays Total # of output lines = 2 4537 4538 6634 0 2096 patch iptc,sj,dgj,dgi,id: 2 6634 90 90 2096 half line dmj dgc: 1 5493 108 101 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6634 4538 Zeroing lines in arrays Total # of output lines = 2 6633 Processing block number 3 DEBUG 79 105.6626 79.21495 -0.4999701 -0.4999701 6634 8019 -11 1396 patch iptc,sj,dgj,dgi,id: 3 8019 79 90 1396 half line dmj dgc: 0 8985 106 101 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8019 6634 Zeroing lines in arrays Total # of output lines = 3 8018 8019 10115 0 2096 patch iptc,sj,dgj,dgi,id: 3 10115 79 79 2096 half line dmj dgc: 1 8985 106 101 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10115 8019 Zeroing lines in arrays Total # of output lines = 3 10114 Processing block number 4 DEBUG 66 97.75627 66.17388 -0.4999764 -0.4999764 10115 11498 -13 1396 patch iptc,sj,dgj,dgi,id: 4 11498 66 79 1396 half line dmj dgc: 0 12477 98 101 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11498 10115 Zeroing lines in arrays Total # of output lines = 4 11497 11498 13594 0 2096 patch iptc,sj,dgj,dgi,id: 4 1306 66 66 2096 half line dmj dgc: 1 12477 98 101 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11498 1306 Zeroing lines in arrays Total # of output lines = 4 13593 Processing block number 5 DEBUG 76 96.51730 76.33801 -0.4999788 -0.4999788 1306 2712 10 1396 patch iptc,sj,dgj,dgi,id: 5 2712 76 66 1396 half line dmj dgc: 0 15969 96 101 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2712 1306 Zeroing lines in arrays Total # of output lines = 5 14999 2712 4808 0 2096 patch iptc,sj,dgj,dgi,id: 5 4808 76 76 2096 half line dmj dgc: 1 15969 96 101 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4808 2712 Zeroing lines in arrays Total # of output lines = 5 17095 Processing block number 6 DEBUG 108 108.0331 108.9745 -0.4999834 -0.4999834 4808 6236 32 1396 patch iptc,sj,dgj,dgi,id: 6 6236 108 76 1396 half line dmj dgc: 0 19461 109 101 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6236 4808 Zeroing lines in arrays Total # of output lines = 6 18523 6236 8332 0 2096 patch iptc,sj,dgj,dgi,id: 6 8332 108 108 2096 half line dmj dgc: 1 19461 109 101 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8332 6236 Zeroing lines in arrays Total # of output lines = 6 20619 Processing block number 7 DEBUG 76 106.9924 76.48272 -0.4999788 -0.4999788 8332 9696 -32 1396 patch iptc,sj,dgj,dgi,id: 7 9696 76 108 1396 half line dmj dgc: 0 22953 107 101 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9696 8332 Zeroing lines in arrays Total # of output lines = 7 21983 9696 11792 0 2096 patch iptc,sj,dgj,dgi,id: 7 11792 76 76 2096 half line dmj dgc: 1 22953 107 101 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11792 9696 Zeroing lines in arrays Total # of output lines = 7 24079 Processing block number 8 DEBUG -55 78.09375 -55.30434 -0.4999564 -0.4999564 11792 13057 -131 1396 patch iptc,sj,dgj,dgi,id: 8 769 -55 76 1396 half line dmj dgc: 0 26445 78 101 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11792 769 Zeroing lines in arrays Total # of output lines = 8 25344 769 2865 0 2096 patch iptc,sj,dgj,dgi,id: 8 2865 -55 -55 2096 half line dmj dgc: 1 26445 78 101 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 2865 769 Zeroing lines in arrays Total # of output lines = 8 27440 Processing block number 9 DEBUG -194 46.26817 -194.0887 -0.4999344 -0.4999344 2865 4122 -139 1396 patch iptc,sj,dgj,dgi,id: 9 4122 -194 -55 1396 half line dmj dgc: 0 29937 46 101 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4122 2865 Zeroing lines in arrays Total # of output lines = 9 28697 4122 6218 0 2096 patch iptc,sj,dgj,dgi,id: 9 6218 -194 -194 2096 half line dmj dgc: 1 29937 46 101 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6218 4122 Zeroing lines in arrays Total # of output lines = 9 30793 Processing block number 10 DEBUG -284 22.56337 -284.0582 -0.4999150 -0.4999150 6218 7524 -90 1396 patch iptc,sj,dgj,dgi,id: 10 7524 -284 -194 1396 half line dmj dgc: 0 33429 22 101 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7524 6218 Zeroing lines in arrays Total # of output lines = 10 32099 7524 9620 0 2096 patch iptc,sj,dgj,dgi,id: 10 9620 -284 -284 2096 half line dmj dgc: 1 33429 22 101 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9620 7524 Zeroing lines in arrays Total # of output lines = 10 34195 Processing block number 11 DEBUG -319 9.054512 -318.7668 -0.4999129 -0.4999129 9620 10981 -35 1396 patch iptc,sj,dgj,dgi,id: 11 10981 -319 -284 1396 half line dmj dgc: 0 36921 9 101 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10981 9620 Zeroing lines in arrays Total # of output lines = 11 35556 10981 13077 0 2096 patch iptc,sj,dgj,dgi,id: 11 789 -319 -319 2096 half line dmj dgc: 1 36921 9 101 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10981 789 Zeroing lines in arrays Total # of output lines = 11 37652 Processing block number 12 DEBUG -346 -3.052856 -346.3578 -0.4999264 -0.4999264 789 2158 -27 1396 patch iptc,sj,dgj,dgi,id: 12 2158 -346 -319 1396 half line dmj dgc: 0 40413 -3 101 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2158 789 Zeroing lines in arrays Total # of output lines = 12 39021 2158 4254 0 2096 patch iptc,sj,dgj,dgi,id: 12 4254 -346 -346 2096 half line dmj dgc: 1 40413 -3 101 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 4254 2158 Zeroing lines in arrays Total # of output lines = 12 41117 Processing block number 13 DEBUG -403 -16.86974 -402.8856 -0.4999055 -0.4999055 4254 5593 -57 1396 patch iptc,sj,dgj,dgi,id: 13 5593 -403 -346 1396 half line dmj dgc: 0 43905 -17 101 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 5593 4254 Zeroing lines in arrays Total # of output lines = 13 42456 5593 7689 0 2096 patch iptc,sj,dgj,dgi,id: 13 7689 -403 -403 2096 half line dmj dgc: 1 43905 -17 101 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 7689 5593 Zeroing lines in arrays Total # of output lines = 13 44552 Processing block number 14 DEBUG -455 -25.36368 -454.5193 -0.4998858 -0.4998858 7689 9033 -52 1396 patch iptc,sj,dgj,dgi,id: 14 9033 -455 -403 1396 half line dmj dgc: 0 47397 -25 101 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9033 7689 Zeroing lines in arrays Total # of output lines = 14 45896 9033 11129 0 2096 patch iptc,sj,dgj,dgi,id: 14 11129 -455 -455 2096 half line dmj dgc: 1 47397 -25 101 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 11129 9033 Zeroing lines in arrays Total # of output lines = 14 47992 Processing block number 15 DEBUG -492 -33.86272 -492.3924 -0.4998925 -0.4998925 11129 12488 -37 1396 patch iptc,sj,dgj,dgi,id: 15 200 -492 -455 1396 half line dmj dgc: 0 50889 -34 101 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 11129 200 Zeroing lines in arrays Total # of output lines = 15 49351 200 2296 0 2096 patch iptc,sj,dgj,dgi,id: 15 2296 -492 -492 2096 half line dmj dgc: 1 50889 -34 101 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2296 200 Zeroing lines in arrays Total # of output lines = 15 51447 Processing block number 16 DEBUG -540 -47.55817 -540.2348 -0.4998845 -0.4998845 2296 2071 -48 -177 patch iptc,sj,dgj,dgi,id: 16 2071 -540 -492 -177 half line dmj dgc: 0 52808 -48 101 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Zeroing lines in arrays Total # of output lines = 16 51447 2296 4167 0 2096 patch iptc,sj,dgj,dgi,id: 16 4167 -540 -540 2096 half line dmj dgc: 1 52808 -48 101 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 4167 2296 Zeroing lines in arrays Total # of output lines = 16 53318 ia dmi dgi: 4167 -48 -540 Writing the last 2588 lines last half sj>s1 6755 4167 53318 WAYNE done patche 204.2204179763794 Total # of output lines = 55906 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 55906 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 204.8779889345169 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.vh00l Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_l.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 4192 data points per patch Near range (m) = 8102.270 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 2.400000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -0.7274000 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = -5.5424944E-02 1.026312 2.6845539E-02 Receive leverarm x,y,z = -7.0571043E-02 1.677678 1.921095 Name of raw data file? /mnt/air62/airops/1359/l_vh Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_l.mocompv Output file name w/o ext? /mnt/air65/airops/1359/ts1359_l Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vh Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_l.vh_j *** ipol itop: 3 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.lv WAYNE init fft, calc slant range, load unpack, interpo 1.3406999E-02 reading motion compensation data WAYNE read motion compen 1.382205 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 98 40.00000 22.50000 90.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4633210 start range comp, time = 1.914 WAYNE PREV 1.874157 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 13 to 13 by # 6 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 2.141 seconds. before reading done reading WAYNE load raw data , time = 56.54425096511841 ATTN ifrq ipol ln 4 3 50096 13.00000 IPOL, ITOP nblock 3 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1924028396606445E-02 WAYNE Motion comp. added to patch, time = 17.35818302631378 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 3.3240318298339844E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 361.7958589792252 Writing 4192 lines of data to file WAYNE write output data 2.221565008163452 ==w out 13 0 2001 0 WAYNE PROCESS 437.9377120733261 ==w out 14 4195 PROCESSING KID# 9 ..... WAYNE IS IN Processing 15 to 15 by # 8 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 2.169 seconds. before reading done reading WAYNE load raw data , time = 55.38054203987122 ATTN ifrq ipol ln 4 3 57080 13.00000 IPOL, ITOP nblock 3 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1861920356750488E-02 WAYNE Motion comp. added to patch, time = 17.09255397319794 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7400255203247070E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 424.1460039615631 Writing 4192 lines of data to file WAYNE write output data 2.674037933349609 ==w out 15 0 2001 0 WAYNE PROCESS 499.3097640275955 ==w out 16 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 14 to 14 by # 7 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 2.153 seconds. before reading done reading WAYNE load raw data , time = 54.28184807300568 ATTN ifrq ipol ln 4 3 53588 13.00000 IPOL, ITOP nblock 3 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1783957481384277E-02 WAYNE Motion comp. added to patch, time = 17.04680097103119 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6839971542358398E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 475.0683429241180 Writing 4192 lines of data to file WAYNE write output data 2.379570007324219 ==w out 14 0 2001 0 WAYNE PROCESS 548.7928980588913 ==w out 15 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 50808 58999 patch# 16 reference line: 54903 2.184 seconds. before reading done reading WAYNE load raw data , time = 54.79646909236908 ATTN ifrq ipol ln 4 3 58999 13.00000 IPOL, ITOP nblock 3 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1588931083679199E-02 WAYNE Motion comp. added to patch, time = 17.11106300354004 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.8439760208129883E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 474.5228769779205 Writing 4192 lines of data to file WAYNE write output data 2.390421032905579 ==w out 16 0 2001 0 WAYNE PROCESS 548.8375200033188 ==w out 17 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 8 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 2.106 seconds. before reading done reading WAYNE load raw data , time = 53.97763299942017 ATTN ifrq ipol ln 4 3 29144 13.00000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1703968048095703E-02 WAYNE Motion comp. added to patch, time = 18.15061104297638 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7519464492797852E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 325.0950059890747 Writing 4192 lines of data to file WAYNE write output data 2.242367029190063 ==w out 7 0 2001 0 WAYNE PROCESS 399.4818140268326 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 401.588 seconds. before reading done reading WAYNE load raw data , time = 46.18833410739899 ATTN ifrq ipol ln 4 3 32636 13.00000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 1.2386083602905273E-02 WAYNE Motion comp. added to patch, time = 16.58101606369019 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.1379113197326660E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 278.2039339542389 Writing 4192 lines of data to file WAYNE write output data 2.153209090232849 ==w out 8 4192 2001 85852160 WAYNE PROCESS 343.1617270708084 ==w out 9 8387 PROCESSING KID# 5 ..... WAYNE IS IN Processing 9 to 10 by # 4 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 2.119 seconds. before reading done reading WAYNE load raw data , time = 53.78180408477783 ATTN ifrq ipol ln 4 3 36128 13.00000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1674046516418457E-02 WAYNE Motion comp. added to patch, time = 17.05535900592804 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9959678649902344E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 360.8434160947800 Writing 4192 lines of data to file WAYNE write output data 2.255576014518738 ==w out 9 0 2001 0 WAYNE PROCESS 433.9526129961014 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 436.071 seconds. before reading done reading WAYNE load raw data , time = 46.28308594226837 ATTN ifrq ipol ln 4 3 39620 13.00000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1355996131896973E-02 WAYNE Motion comp. added to patch, time = 16.15120601654053 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5311946868896484E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 275.5882980823517 Writing 4192 lines of data to file WAYNE write output data 2.061200976371765 ==w out 10 4192 2001 85852160 WAYNE PROCESS 340.1219340562820 ==w out 11 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 2.084 seconds. before reading done reading WAYNE load raw data , time = 53.17468595504761 ATTN ifrq ipol ln 4 3 15176 13.00000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1747956275939941E-02 WAYNE Motion comp. added to patch, time = 17.53266704082489 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7459859848022461E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 423.6977590322495 Writing 4192 lines of data to file WAYNE write output data 2.246972084045410 ==w out 3 0 2001 0 WAYNE PROCESS 496.6683340072632 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 498.752 seconds. before reading done reading WAYNE load raw data , time = 45.27737808227539 ATTN ifrq ipol ln 4 3 18668 13.00000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1201024055480957E-02 WAYNE Motion comp. added to patch, time = 16.31235802173615 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 7.7177047729492188E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 282.1545228958130 Writing 4192 lines of data to file WAYNE write output data 1.967568993568420 ==w out 4 4192 2001 85852160 WAYNE PROCESS 345.8015359640121 ==w out 5 8387 PROCESSING KID# 6 ..... WAYNE IS IN Processing 11 to 12 by # 5 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 2.146 seconds. before reading done reading WAYNE load raw data , time = 55.97166395187378 ATTN ifrq ipol ln 4 3 43112 13.00000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1801004409790039E-02 WAYNE Motion comp. added to patch, time = 17.18193590641022 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.9720067977905273E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 423.5301350355148 Writing 4192 lines of data to file WAYNE write output data 2.686931014060974 ==w out 11 0 2001 0 WAYNE PROCESS 499.3872770071030 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 501.533 seconds. before reading done reading WAYNE load raw data , time = 48.20709002017975 ATTN ifrq ipol ln 4 3 46604 13.00000 IPOL, ITOP nblock 3 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1999011039733887E-02 WAYNE Motion comp. added to patch, time = 15.87244904041290 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3716926574707031E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 281.4738680124283 Writing 4192 lines of data to file WAYNE write output data 1.998677015304565 ==w out 12 4192 2001 85852160 WAYNE PROCESS 347.5893180370331 ==w out 13 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -3.7577801E-04 8.0601303E-03 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.070 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 53.40549302101135 ATTN ifrq ipol ln 4 3 8192 13.00000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1658072471618652E-02 TESTING -7.5730495E-03 60.53371 0.1521765 WAYNE Motion comp. added to patch, time = 17.24137699604034 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6839971542358398E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 -7.5730495E-03 60.53371 0.1521765 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -3.7577801E-04 8.0601303E-03 WAYNE Azimuth compression done, time = 462.9596220254898 Writing 4192 lines of data to file WAYNE write output data 2.064805984497070 ==w out 1 0 2001 0 WAYNE PROCESS 535.6871680021286 Processing block number 2 TESTING WHY -8.3963899E-04 8.4267398E-03 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 537.757 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 45.33235192298889 ATTN ifrq ipol ln 4 3 11684 13.00000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1376976966857910E-02 TESTING -7.5730495E-03 57.53995 -0.2202715 WAYNE Motion comp. added to patch, time = 16.19917905330658 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4144053459167480E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 -7.5730495E-03 57.53995 -0.2202715 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -8.3963899E-04 8.4267398E-03 WAYNE Azimuth compression done, time = 278.1132990121841 Writing 4192 lines of data to file WAYNE write output data 1.950299978256226 ==w out 2 4192 2001 85852160 WAYNE PROCESS 341.6319099664688 ==w out 3 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 2.096 seconds. before reading done reading WAYNE load raw data , time = 53.23644793033600 ATTN ifrq ipol ln 4 3 22160 13.00000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1656999588012695E-02 WAYNE Motion comp. added to patch, time = 18.03677999973297 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7009248733520508E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 475.5846539735794 Writing 4192 lines of data to file WAYNE write output data 2.382218956947327 ==w out 5 0 2001 0 WAYNE PROCESS 549.2562919855118 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 551.353 seconds. before reading done reading WAYNE load raw data , time = 45.29907202720642 ATTN ifrq ipol ln 4 3 25652 13.00000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1525988578796387E-02 WAYNE Motion comp. added to patch, time = 16.71235203742981 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0946979522705078E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 279.6187930107117 Writing 4192 lines of data to file WAYNE write output data 1.978771924972534 ==w out 6 4192 2001 85852160 WAYNE PROCESS 343.6428699493408 ==w out 7 8387 1 46882 0 2 46881 0 3 46880 0 4 46885 0 5 46879 0 6 46877 0 7 46872 0 8 46878 0 9 46873 0 10 46875 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 67072kids= 10 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 2 gather image from processor # 4 2 gather image from processor # 5 2 gather image from processor # 6 1 gather image from processor # 7 1 gather image from processor # 8 1 gather image from processor # 9 1 WAYNE gather images takes: 0.3011100292205811 WAYNE LOOP TIME: 903.6782430410385 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_l.vh_j /mnt/air65/airops/1359/ts1359_l.mocompv /mnt/air65/airops/1359/ts1359_l.dop /mnt/air65/airops/1359/ts1359_l.glb 2560 67072 update intf hdr ha: 7045.200 UPDATE: 2560 67072 3.331000 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_l.mocompv dopfile /mnt/air65/airops/1359/ts1359_l.dop globalfile /mnt/air65/airops/1359/ts1359_l.glb /mnt/air65/airops/1359/ts1359_l.glb 35 deskew line ra ha trc: 55.28423 107 8108.036 7045.200 -91.16894 after deskew line ra ha trc: 55.28423 107 8108.036 7045.200 -91.16894 lat1 lon1: 107 64.49897 -147.0440 67072 last ra n_ns ns: 8108.036 2 2 67178 67072 lati loni: 67178 64.49891 -147.7781 67178 2 center ra n_ns ns: 12368.38 1281 1281 33642 67072 lati loni: 33642 64.46047 -147.4099 33642 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_l.vh_j WAYNE FINAL PROCESS 905.6894559860229 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8384 2 8384 2 8384 2 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_l.vh_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_l.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.lv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /mnt/air62/airops/1359/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /mnt/air65/airops/1359/ts1359_l.BT Name of the line output file? /mnt/air65/airops/1359/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.747236967086792 Deskewing 16 patches Processing block number 1 DEBUG 99 107.4658 99.38659 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1055 99 99 0 half line dmj dgc: 0 2001 107 101 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1055 1 Zeroing lines in arrays Total # of output lines = 1 1054 1055 3151 0 2096 patch iptc,sj,dgj,dgi,id: 1 3151 99 99 2096 half line dmj dgc: 1 2001 107 101 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3151 1055 Zeroing lines in arrays Total # of output lines = 1 3150 Processing block number 2 DEBUG 90 108.8702 90.82102 0.0000000E+00 0.0000000E+00 3151 4538 -9 1396 patch iptc,sj,dgj,dgi,id: 2 4538 90 99 1396 half line dmj dgc: 0 5493 108 101 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4538 3151 Zeroing lines in arrays Total # of output lines = 2 4537 4538 6634 0 2096 patch iptc,sj,dgj,dgi,id: 2 6634 90 90 2096 half line dmj dgc: 1 5493 108 101 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6634 4538 Zeroing lines in arrays Total # of output lines = 2 6633 Processing block number 3 DEBUG 79 106.1920 79.74436 0.0000000E+00 0.0000000E+00 6634 8019 -11 1396 patch iptc,sj,dgj,dgi,id: 3 8019 79 90 1396 half line dmj dgc: 0 8985 106 101 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8019 6634 Zeroing lines in arrays Total # of output lines = 3 8018 8019 10115 0 2096 patch iptc,sj,dgj,dgi,id: 3 10115 79 79 2096 half line dmj dgc: 1 8985 106 101 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10115 8019 Zeroing lines in arrays Total # of output lines = 3 10114 Processing block number 4 DEBUG 66 98.28568 66.70330 0.0000000E+00 0.0000000E+00 10115 11498 -13 1396 patch iptc,sj,dgj,dgi,id: 4 11498 66 79 1396 half line dmj dgc: 0 12477 98 101 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11498 10115 Zeroing lines in arrays Total # of output lines = 4 11497 11498 13594 0 2096 patch iptc,sj,dgj,dgi,id: 4 1306 66 66 2096 half line dmj dgc: 1 12477 98 101 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11498 1306 Zeroing lines in arrays Total # of output lines = 4 13593 Processing block number 5 DEBUG 76 97.04671 76.86742 0.0000000E+00 0.0000000E+00 1306 2712 10 1396 patch iptc,sj,dgj,dgi,id: 5 2712 76 66 1396 half line dmj dgc: 0 15969 96 101 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2712 1306 Zeroing lines in arrays Total # of output lines = 5 14999 2712 4808 0 2096 patch iptc,sj,dgj,dgi,id: 5 4808 76 76 2096 half line dmj dgc: 1 15969 96 101 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4808 2712 Zeroing lines in arrays Total # of output lines = 5 17095 Processing block number 6 DEBUG 108 108.5625 109.5039 0.0000000E+00 0.0000000E+00 4808 6236 32 1396 patch iptc,sj,dgj,dgi,id: 6 6236 108 76 1396 half line dmj dgc: 0 19461 109 101 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6236 4808 Zeroing lines in arrays Total # of output lines = 6 18523 6236 8332 0 2096 patch iptc,sj,dgj,dgi,id: 6 8332 108 108 2096 half line dmj dgc: 1 19461 109 101 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8332 6236 Zeroing lines in arrays Total # of output lines = 6 20619 Processing block number 7 DEBUG 76 107.5219 77.01213 0.0000000E+00 0.0000000E+00 8332 9696 -32 1396 patch iptc,sj,dgj,dgi,id: 7 9696 76 108 1396 half line dmj dgc: 0 22953 107 101 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9696 8332 Zeroing lines in arrays Total # of output lines = 7 21983 9696 11792 0 2096 patch iptc,sj,dgj,dgi,id: 7 11792 76 76 2096 half line dmj dgc: 1 22953 107 101 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11792 9696 Zeroing lines in arrays Total # of output lines = 7 24079 Processing block number 8 DEBUG -55 78.62314 -54.77494 0.0000000E+00 0.0000000E+00 11792 13057 -131 1396 patch iptc,sj,dgj,dgi,id: 8 769 -55 76 1396 half line dmj dgc: 0 26445 78 101 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11792 769 Zeroing lines in arrays Total # of output lines = 8 25344 769 2865 0 2096 patch iptc,sj,dgj,dgi,id: 8 2865 -55 -55 2096 half line dmj dgc: 1 26445 78 101 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 2865 769 Zeroing lines in arrays Total # of output lines = 8 27440 Processing block number 9 DEBUG -194 46.79758 -193.5592 0.0000000E+00 0.0000000E+00 2865 4122 -139 1396 patch iptc,sj,dgj,dgi,id: 9 4122 -194 -55 1396 half line dmj dgc: 0 29937 46 101 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4122 2865 Zeroing lines in arrays Total # of output lines = 9 28697 4122 6218 0 2096 patch iptc,sj,dgj,dgi,id: 9 6218 -194 -194 2096 half line dmj dgc: 1 29937 46 101 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6218 4122 Zeroing lines in arrays Total # of output lines = 9 30793 Processing block number 10 DEBUG -284 23.09272 -283.5288 0.0000000E+00 0.0000000E+00 6218 7524 -90 1396 patch iptc,sj,dgj,dgi,id: 10 7524 -284 -194 1396 half line dmj dgc: 0 33429 22 101 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7524 6218 Zeroing lines in arrays Total # of output lines = 10 32099 7524 9620 0 2096 patch iptc,sj,dgj,dgi,id: 10 9620 -284 -284 2096 half line dmj dgc: 1 33429 22 101 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9620 7524 Zeroing lines in arrays Total # of output lines = 10 34195 Processing block number 11 DEBUG -319 9.583867 -318.2375 0.0000000E+00 0.0000000E+00 9620 10981 -35 1396 patch iptc,sj,dgj,dgi,id: 11 10981 -319 -284 1396 half line dmj dgc: 0 36921 9 101 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10981 9620 Zeroing lines in arrays Total # of output lines = 11 35556 10981 13077 0 2096 patch iptc,sj,dgj,dgi,id: 11 789 -319 -319 2096 half line dmj dgc: 1 36921 9 101 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10981 789 Zeroing lines in arrays Total # of output lines = 11 37652 Processing block number 12 DEBUG -346 -2.523488 -345.8284 0.0000000E+00 0.0000000E+00 789 2158 -27 1396 patch iptc,sj,dgj,dgi,id: 12 2158 -346 -319 1396 half line dmj dgc: 0 40413 -3 101 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2158 789 Zeroing lines in arrays Total # of output lines = 12 39021 2158 4254 0 2096 patch iptc,sj,dgj,dgi,id: 12 4254 -346 -346 2096 half line dmj dgc: 1 40413 -3 101 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 4254 2158 Zeroing lines in arrays Total # of output lines = 12 41117 Processing block number 13 DEBUG -403 -16.34039 -402.3562 0.0000000E+00 0.0000000E+00 4254 5593 -57 1396 patch iptc,sj,dgj,dgi,id: 13 5593 -403 -346 1396 half line dmj dgc: 0 43905 -17 101 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 5593 4254 Zeroing lines in arrays Total # of output lines = 13 42456 5593 7689 0 2096 patch iptc,sj,dgj,dgi,id: 13 7689 -403 -403 2096 half line dmj dgc: 1 43905 -17 101 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 7689 5593 Zeroing lines in arrays Total # of output lines = 13 44552 Processing block number 14 DEBUG -455 -24.83439 -453.9901 0.0000000E+00 0.0000000E+00 7689 9033 -52 1396 patch iptc,sj,dgj,dgi,id: 14 9033 -455 -403 1396 half line dmj dgc: 0 47397 -25 101 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9033 7689 Zeroing lines in arrays Total # of output lines = 14 45896 9033 11129 0 2096 patch iptc,sj,dgj,dgi,id: 14 11129 -455 -455 2096 half line dmj dgc: 1 47397 -25 101 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 11129 9033 Zeroing lines in arrays Total # of output lines = 14 47992 Processing block number 15 DEBUG -492 -33.33339 -491.8630 0.0000000E+00 0.0000000E+00 11129 12488 -37 1396 patch iptc,sj,dgj,dgi,id: 15 200 -492 -455 1396 half line dmj dgc: 0 50889 -34 101 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 11129 200 Zeroing lines in arrays Total # of output lines = 15 49351 200 2296 0 2096 patch iptc,sj,dgj,dgi,id: 15 2296 -492 -492 2096 half line dmj dgc: 1 50889 -34 101 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2296 200 Zeroing lines in arrays Total # of output lines = 15 51447 Processing block number 16 DEBUG -540 -47.02885 -539.7055 0.0000000E+00 0.0000000E+00 2296 2071 -48 -177 patch iptc,sj,dgj,dgi,id: 16 2071 -540 -492 -177 half line dmj dgc: 0 52808 -48 101 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Zeroing lines in arrays Total # of output lines = 16 51447 2296 4167 0 2096 patch iptc,sj,dgj,dgi,id: 16 4167 -540 -540 2096 half line dmj dgc: 1 52808 -48 101 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 4167 2296 Zeroing lines in arrays Total # of output lines = 16 53318 ia dmi dgi: 4167 -48 -540 Writing the last 2588 lines last half sj>s1 6755 4167 53318 WAYNE done patche 203.7228720188141 Total # of output lines = 55906 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 55906 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 204.3861409425735 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.vv00l Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_l.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 4192 data points per patch Near range (m) = 8102.270 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 2.400000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -0.9000000 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = -5.5424944E-02 1.026312 2.6845539E-02 Receive leverarm x,y,z = -5.5424944E-02 1.026312 2.6845539E-02 Name of raw data file? /mnt/air62/airops/1359/l_vv Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_l.mocompv Output file name w/o ext? /mnt/air65/airops/1359/ts1359_l Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vv Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_l.vv_j *** ipol itop: 4 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.lv WAYNE init fft, calc slant range, load unpack, interpo 1.3482995E-02 reading motion compensation data WAYNE read motion compen 1.379382 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 98 40.00000 22.50000 90.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4626759 start range comp, time = 1.867 WAYNE PREV 1.870919 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 8 ..... WAYNE IS IN Processing 14 to 14 by # 7 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 2.081 seconds. before reading done reading WAYNE load raw data , time = 55.27305710315704 ATTN ifrq ipol ln 4 4 53588 13.00000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1705040931701660E-02 WAYNE Motion comp. added to patch, time = 17.18617308139801 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 3.5630464553833008E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 455.8302290439606 Writing 4192 lines of data to file WAYNE write output data 2.332577943801880 ==w out 14 0 2001 0 WAYNE PROCESS 530.6398439407349 ==w out 15 4195 PROCESSING KID# 9 ..... WAYNE IS IN Processing 15 to 15 by # 8 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 2.096 seconds. before reading done reading WAYNE load raw data , time = 54.13875401020050 ATTN ifrq ipol ln 4 4 57080 13.00000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1881947517395020E-02 WAYNE Motion comp. added to patch, time = 16.97837901115417 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9079914093017578E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 458.3786920309067 Writing 4192 lines of data to file WAYNE write output data 2.535642981529236 ==w out 15 0 2001 0 WAYNE PROCESS 532.0480840206146 ==w out 16 4195 PROCESSING KID# 7 ..... WAYNE IS IN Processing 13 to 13 by # 6 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 2.069 seconds. before reading done reading WAYNE load raw data , time = 53.75550293922424 ATTN ifrq ipol ln 4 4 50096 13.00000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1974096298217773E-02 WAYNE Motion comp. added to patch, time = 17.11186301708221 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6959180831909180E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 459.1614739894867 Writing 4192 lines of data to file WAYNE write output data 2.477342009544373 ==w out 13 0 2001 0 WAYNE PROCESS 532.5227470397949 ==w out 14 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 50808 58999 patch# 16 reference line: 54903 2.109 seconds. before reading done reading WAYNE load raw data , time = 54.55078101158142 ATTN ifrq ipol ln 4 4 58999 13.00000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1649012565612793E-02 WAYNE Motion comp. added to patch, time = 16.99772298336029 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7489662170410156E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 459.0093129873276 Writing 4192 lines of data to file WAYNE write output data 2.292703032493591 ==w out 16 0 2001 0 WAYNE PROCESS 532.8667440414429 ==w out 17 4195 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 2.006 seconds. before reading done reading WAYNE load raw data , time = 53.42988502979279 ATTN ifrq ipol ln 4 4 15176 13.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1528015136718750E-02 WAYNE Motion comp. added to patch, time = 17.33240699768066 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6459693908691406E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 315.1940759420395 Writing 4192 lines of data to file WAYNE write output data 2.349812984466553 ==w out 3 0 2001 0 WAYNE PROCESS 388.3220579624176 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 390.329 seconds. before reading done reading WAYNE load raw data , time = 45.91614997386932 ATTN ifrq ipol ln 4 4 18668 13.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.2070059776306152E-02 WAYNE Motion comp. added to patch, time = 16.53545498847961 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7581930160522461E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 282.3532750606537 Writing 4192 lines of data to file WAYNE write output data 2.161299943923950 ==w out 4 4192 2001 85852160 WAYNE PROCESS 347.0072109699249 ==w out 5 8387 PROCESSING KID# 5 ..... WAYNE IS IN Processing 9 to 10 by # 4 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 2.046 seconds. before reading done reading WAYNE load raw data , time = 53.93087697029114 ATTN ifrq ipol ln 4 4 36128 13.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1821985244750977E-02 WAYNE Motion comp. added to patch, time = 17.05288100242615 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7469396591186523E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 437.2675900459290 Writing 4192 lines of data to file WAYNE write output data 2.026580929756165 ==w out 9 0 2001 0 WAYNE PROCESS 510.2942079305649 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 512.340 seconds. before reading done reading WAYNE load raw data , time = 45.84933996200562 ATTN ifrq ipol ln 4 4 39620 13.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 1.0919094085693359E-02 WAYNE Motion comp. added to patch, time = 15.98142099380493 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.0331978797912598E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 283.8328490257263 Writing 4192 lines of data to file WAYNE write output data 1.960096955299377 ==w out 10 4192 2001 85852160 WAYNE PROCESS 347.6564239263535 ==w out 11 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 2.020 seconds. before reading done reading WAYNE load raw data , time = 53.28554689884186 ATTN ifrq ipol ln 4 4 22160 13.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1588096618652344E-02 WAYNE Motion comp. added to patch, time = 17.73067593574524 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7580261230468750E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 439.0814230442047 Writing 4192 lines of data to file WAYNE write output data 2.034232974052429 ==w out 5 0 2001 0 WAYNE PROCESS 512.1481649875641 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 514.168 seconds. before reading done reading WAYNE load raw data , time = 45.06761205196381 ATTN ifrq ipol ln 4 4 25652 13.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 1.0982036590576172E-02 WAYNE Motion comp. added to patch, time = 16.55690801143646 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 6.5519809722900391E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 287.3021531105042 Writing 4192 lines of data to file WAYNE write output data 1.958706021308899 ==w out 6 4192 2001 85852160 WAYNE PROCESS 350.9043989181519 ==w out 7 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -3.7577801E-04 8.0601303E-03 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 1.993 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 53.62323701381683 ATTN ifrq ipol ln 4 4 8192 13.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1815071105957031E-02 TESTING 0.0000000E+00 60.20802 -0.7949482 WAYNE Motion comp. added to patch, time = 17.26661098003387 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8760433197021484E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 60.20802 -0.7949482 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -3.7577801E-04 8.0601303E-03 WAYNE Azimuth compression done, time = 457.7057830095291 Writing 4192 lines of data to file WAYNE write output data 2.500657916069031 ==w out 1 0 2001 0 WAYNE PROCESS 531.1125789880753 Processing block number 2 TESTING WHY -8.3963899E-04 8.4267398E-03 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 533.106 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 45.06641590595245 ATTN ifrq ipol ln 4 4 11684 13.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1193990707397461E-02 TESTING 0.0000000E+00 57.21426 -1.167396 WAYNE Motion comp. added to patch, time = 16.20582699775696 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.3849964141845703E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 57.21426 -1.167396 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -8.3963899E-04 8.4267398E-03 WAYNE Azimuth compression done, time = 277.2472469806671 Writing 4192 lines of data to file WAYNE write output data 1.960502982139587 ==w out 2 4192 2001 85852160 WAYNE PROCESS 340.5163520574570 ==w out 3 8387 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 8 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 2.032 seconds. before reading done reading WAYNE load raw data , time = 54.52366495132446 ATTN ifrq ipol ln 4 4 29144 13.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1788010597229004E-02 WAYNE Motion comp. added to patch, time = 17.75715005397797 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 3.3400058746337891E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 452.0943269729614 Writing 4192 lines of data to file WAYNE write output data 2.110734939575195 ==w out 7 0 2001 0 WAYNE PROCESS 526.5028989315033 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 528.536 seconds. before reading done reading WAYNE load raw data , time = 46.00559711456299 ATTN ifrq ipol ln 4 4 32636 13.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1199951171875000E-02 WAYNE Motion comp. added to patch, time = 16.33598709106445 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.0223021507263184E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 284.6221948862076 Writing 4192 lines of data to file WAYNE write output data 1.957775115966797 ==w out 8 4192 2001 85852160 WAYNE PROCESS 348.9544041156769 ==w out 9 8387 PROCESSING KID# 6 ..... WAYNE IS IN Processing 11 to 12 by # 5 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 2.059 seconds. before reading done reading WAYNE load raw data , time = 56.02835190296173 ATTN ifrq ipol ln 4 4 43112 13.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1768102645874023E-02 WAYNE Motion comp. added to patch, time = 17.23676991462708 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 2.9289722442626953E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 451.8294579982758 Writing 4192 lines of data to file WAYNE write output data 2.121261000633240 ==w out 11 0 2001 0 WAYNE PROCESS 527.2331339120865 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 529.292 seconds. before reading done reading WAYNE load raw data , time = 47.73868799209595 ATTN ifrq ipol ln 4 4 46604 13.00000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1291027069091797E-02 WAYNE Motion comp. added to patch, time = 15.93958592414856 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8400063514709473E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 397.4499 815.5923 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 284.4749969244003 Writing 4192 lines of data to file WAYNE write output data 1.959187030792236 ==w out 12 4192 2001 85852160 WAYNE PROCESS 350.1536329984665 ==w out 13 8387 1 49386 0 2 49385 0 3 49291 0 4 49293 0 5 49378 0 6 49382 0 7 49377 0 8 49237 0 9 49249 0 10 49381 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 67072kids= 10 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 2 gather image from processor # 4 2 gather image from processor # 5 2 gather image from processor # 6 1 gather image from processor # 7 1 gather image from processor # 8 1 gather image from processor # 9 1 WAYNE gather images takes: 0.1658359766006470 WAYNE LOOP TIME: 888.0835629701614 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_l.vv_j /mnt/air65/airops/1359/ts1359_l.mocompv /mnt/air65/airops/1359/ts1359_l.dop /mnt/air65/airops/1359/ts1359_l.glb 2560 67072 update intf hdr ha: 7045.200 UPDATE: 2560 67072 3.331000 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_l.mocompv dopfile /mnt/air65/airops/1359/ts1359_l.dop globalfile /mnt/air65/airops/1359/ts1359_l.glb /mnt/air65/airops/1359/ts1359_l.glb 35 deskew line ra ha trc: 55.28423 107 8108.036 7045.200 -91.16894 after deskew line ra ha trc: 55.28423 107 8108.036 7045.200 -91.16894 lat1 lon1: 107 64.49897 -147.0440 67072 last ra n_ns ns: 8108.036 2 2 67178 67072 lati loni: 67178 64.49891 -147.7781 67178 2 center ra n_ns ns: 12368.38 1281 1281 33642 67072 lati loni: 33642 64.46047 -147.4099 33642 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_l.vv_j WAYNE FINAL PROCESS 889.9975769519806 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8384 2 8384 2 8384 2 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_l.vv_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_l.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.lv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /mnt/air62/airops/1359/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /mnt/air65/airops/1359/ts1359_l.BB Name of the line output file? /mnt/air65/airops/1359/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 2.970274925231934 Deskewing 16 patches Processing block number 1 DEBUG 99 107.4511 99.37187 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1055 99 99 0 half line dmj dgc: 0 2001 107 101 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1055 1 Zeroing lines in arrays Total # of output lines = 1 1054 1055 3151 0 2096 patch iptc,sj,dgj,dgi,id: 1 3151 99 99 2096 half line dmj dgc: 1 2001 107 101 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3151 1055 Zeroing lines in arrays Total # of output lines = 1 3150 Processing block number 2 DEBUG 90 108.8555 90.80630 0.0000000E+00 0.0000000E+00 3151 4538 -9 1396 patch iptc,sj,dgj,dgi,id: 2 4538 90 99 1396 half line dmj dgc: 0 5493 108 101 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4538 3151 Zeroing lines in arrays Total # of output lines = 2 4537 4538 6634 0 2096 patch iptc,sj,dgj,dgi,id: 2 6634 90 90 2096 half line dmj dgc: 1 5493 108 101 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6634 4538 Zeroing lines in arrays Total # of output lines = 2 6633 Processing block number 3 DEBUG 79 106.1773 79.72964 0.0000000E+00 0.0000000E+00 6634 8019 -11 1396 patch iptc,sj,dgj,dgi,id: 3 8019 79 90 1396 half line dmj dgc: 0 8985 106 101 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8019 6634 Zeroing lines in arrays Total # of output lines = 3 8018 8019 10115 0 2096 patch iptc,sj,dgj,dgi,id: 3 10115 79 79 2096 half line dmj dgc: 1 8985 106 101 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10115 8019 Zeroing lines in arrays Total # of output lines = 3 10114 Processing block number 4 DEBUG 66 98.27097 66.68858 0.0000000E+00 0.0000000E+00 10115 11498 -13 1396 patch iptc,sj,dgj,dgi,id: 4 11498 66 79 1396 half line dmj dgc: 0 12477 98 101 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11498 10115 Zeroing lines in arrays Total # of output lines = 4 11497 11498 13594 0 2096 patch iptc,sj,dgj,dgi,id: 4 1306 66 66 2096 half line dmj dgc: 1 12477 98 101 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11498 1306 Zeroing lines in arrays Total # of output lines = 4 13593 Processing block number 5 DEBUG 76 97.03199 76.85270 0.0000000E+00 0.0000000E+00 1306 2712 10 1396 patch iptc,sj,dgj,dgi,id: 5 2712 76 66 1396 half line dmj dgc: 0 15969 96 101 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2712 1306 Zeroing lines in arrays Total # of output lines = 5 14999 2712 4808 0 2096 patch iptc,sj,dgj,dgi,id: 5 4808 76 76 2096 half line dmj dgc: 1 15969 96 101 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4808 2712 Zeroing lines in arrays Total # of output lines = 5 17095 Processing block number 6 DEBUG 108 108.5478 109.4892 0.0000000E+00 0.0000000E+00 4808 6236 32 1396 patch iptc,sj,dgj,dgi,id: 6 6236 108 76 1396 half line dmj dgc: 0 19461 109 101 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6236 4808 Zeroing lines in arrays Total # of output lines = 6 18523 6236 8332 0 2096 patch iptc,sj,dgj,dgi,id: 6 8332 108 108 2096 half line dmj dgc: 1 19461 109 101 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8332 6236 Zeroing lines in arrays Total # of output lines = 6 20619 Processing block number 7 DEBUG 76 107.5071 76.99741 0.0000000E+00 0.0000000E+00 8332 9696 -32 1396 patch iptc,sj,dgj,dgi,id: 7 9696 76 108 1396 half line dmj dgc: 0 22953 107 101 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9696 8332 Zeroing lines in arrays Total # of output lines = 7 21983 9696 11792 0 2096 patch iptc,sj,dgj,dgi,id: 7 11792 76 76 2096 half line dmj dgc: 1 22953 107 101 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11792 9696 Zeroing lines in arrays Total # of output lines = 7 24079 Processing block number 8 DEBUG -55 78.60842 -54.78967 0.0000000E+00 0.0000000E+00 11792 13057 -131 1396 patch iptc,sj,dgj,dgi,id: 8 769 -55 76 1396 half line dmj dgc: 0 26445 78 101 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11792 769 Zeroing lines in arrays Total # of output lines = 8 25344 769 2865 0 2096 patch iptc,sj,dgj,dgi,id: 8 2865 -55 -55 2096 half line dmj dgc: 1 26445 78 101 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 2865 769 Zeroing lines in arrays Total # of output lines = 8 27440 Processing block number 9 DEBUG -194 46.78286 -193.5739 0.0000000E+00 0.0000000E+00 2865 4122 -139 1396 patch iptc,sj,dgj,dgi,id: 9 4122 -194 -55 1396 half line dmj dgc: 0 29937 46 101 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4122 2865 Zeroing lines in arrays Total # of output lines = 9 28697 4122 6218 0 2096 patch iptc,sj,dgj,dgi,id: 9 6218 -194 -194 2096 half line dmj dgc: 1 29937 46 101 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6218 4122 Zeroing lines in arrays Total # of output lines = 9 30793 Processing block number 10 DEBUG -284 23.07800 -283.5435 0.0000000E+00 0.0000000E+00 6218 7524 -90 1396 patch iptc,sj,dgj,dgi,id: 10 7524 -284 -194 1396 half line dmj dgc: 0 33429 22 101 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7524 6218 Zeroing lines in arrays Total # of output lines = 10 32099 7524 9620 0 2096 patch iptc,sj,dgj,dgi,id: 10 9620 -284 -284 2096 half line dmj dgc: 1 33429 22 101 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9620 7524 Zeroing lines in arrays Total # of output lines = 10 34195 Processing block number 11 DEBUG -319 9.569146 -318.2522 0.0000000E+00 0.0000000E+00 9620 10981 -35 1396 patch iptc,sj,dgj,dgi,id: 11 10981 -319 -284 1396 half line dmj dgc: 0 36921 9 101 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10981 9620 Zeroing lines in arrays Total # of output lines = 11 35556 10981 13077 0 2096 patch iptc,sj,dgj,dgi,id: 11 789 -319 -319 2096 half line dmj dgc: 1 36921 9 101 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10981 789 Zeroing lines in arrays Total # of output lines = 11 37652 Processing block number 12 DEBUG -346 -2.538209 -345.8431 0.0000000E+00 0.0000000E+00 789 2158 -27 1396 patch iptc,sj,dgj,dgi,id: 12 2158 -346 -319 1396 half line dmj dgc: 0 40413 -3 101 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2158 789 Zeroing lines in arrays Total # of output lines = 12 39021 2158 4254 0 2096 patch iptc,sj,dgj,dgi,id: 12 4254 -346 -346 2096 half line dmj dgc: 1 40413 -3 101 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 4254 2158 Zeroing lines in arrays Total # of output lines = 12 41117 Processing block number 13 DEBUG -403 -16.35511 -402.3709 0.0000000E+00 0.0000000E+00 4254 5593 -57 1396 patch iptc,sj,dgj,dgi,id: 13 5593 -403 -346 1396 half line dmj dgc: 0 43905 -17 101 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 5593 4254 Zeroing lines in arrays Total # of output lines = 13 42456 5593 7689 0 2096 patch iptc,sj,dgj,dgi,id: 13 7689 -403 -403 2096 half line dmj dgc: 1 43905 -17 101 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 7689 5593 Zeroing lines in arrays Total # of output lines = 13 44552 Processing block number 14 DEBUG -455 -24.84912 -454.0048 0.0000000E+00 0.0000000E+00 7689 9033 -52 1396 patch iptc,sj,dgj,dgi,id: 14 9033 -455 -403 1396 half line dmj dgc: 0 47397 -25 101 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9033 7689 Zeroing lines in arrays Total # of output lines = 14 45896 9033 11129 0 2096 patch iptc,sj,dgj,dgi,id: 14 11129 -455 -455 2096 half line dmj dgc: 1 47397 -25 101 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 11129 9033 Zeroing lines in arrays Total # of output lines = 14 47992 Processing block number 15 DEBUG -492 -33.34811 -491.8777 0.0000000E+00 0.0000000E+00 11129 12488 -37 1396 patch iptc,sj,dgj,dgi,id: 15 200 -492 -455 1396 half line dmj dgc: 0 50889 -34 101 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 11129 200 Zeroing lines in arrays Total # of output lines = 15 49351 200 2296 0 2096 patch iptc,sj,dgj,dgi,id: 15 2296 -492 -492 2096 half line dmj dgc: 1 50889 -34 101 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2296 200 Zeroing lines in arrays Total # of output lines = 15 51447 Processing block number 16 DEBUG -540 -47.04356 -539.7202 0.0000000E+00 0.0000000E+00 2296 2071 -48 -177 patch iptc,sj,dgj,dgi,id: 16 2071 -540 -492 -177 half line dmj dgc: 0 52808 -48 101 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Zeroing lines in arrays Total # of output lines = 16 51447 2296 4167 0 2096 patch iptc,sj,dgj,dgi,id: 16 4167 -540 -540 2096 half line dmj dgc: 1 52808 -48 101 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 4167 2296 Zeroing lines in arrays Total # of output lines = 16 53318 ia dmi dgi: 4167 -48 -540 Writing the last 2588 lines last half sj>s1 6755 4167 53318 WAYNE done patche 193.7955999374390 Total # of output lines = 55906 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 55906 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 194.4635429382324 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9753634 109.0594 146 -0.031 3046 -0.031 109.05943 0.000012 0.000044 0.000001 r_peak,r_snr = 0.9751909 107.7820 246 -0.031 3046 0.000 107.78203 0.000012 0.000040 0.000000 r_peak,r_snr = 0.9779328 122.1680 346 -0.031 3046 -0.031 122.16801 0.000010 0.000035 0.000000 r_peak,r_snr = 0.9779896 103.4123 446 -0.031 3046 -0.031 103.41232 0.000010 0.000040 0.000000 r_peak,r_snr = 0.9760061 102.7986 546 -0.031 3046 0.000 102.79865 0.000012 0.000039 0.000000 r_peak,r_snr = 0.9800240 100.8961 646 -0.031 3046 0.000 100.89607 0.000010 0.000035 0.000000 r_peak,r_snr = 0.9760261 116.2268 746 -0.031 3046 -0.031 116.22682 0.000011 0.000040 0.000000 r_peak,r_snr = 0.9737440 113.8347 846 -0.031 3046 -0.063 113.83472 0.000012 0.000046 0.000000 r_peak,r_snr = 0.9684551 104.2481 946 -0.031 3046 -0.031 104.24806 0.000015 0.000057 -0.000001 r_peak,r_snr = 0.9762825 76.63999 1046 -0.031 3046 -0.031 76.63999 0.000012 0.000046 -0.000001 r_peak,r_snr = 0.9785576 88.73766 1146 -0.031 3046 -0.031 88.73766 0.000011 0.000040 0.000001 r_peak,r_snr = 0.9774001 99.97107 1246 -0.031 3046 0.000 99.97107 0.000012 0.000038 0.000000 r_peak,r_snr = 0.9841828 101.6539 1346 -0.031 3046 0.000 101.65386 0.000008 0.000028 0.000000 r_peak,r_snr = 0.9744669 97.66533 1446 -0.031 3046 0.000 97.66533 0.000013 0.000047 0.000000 r_peak,r_snr = 0.9733033 105.8619 1546 -0.031 3046 0.000 105.86185 0.000013 0.000044 0.000001 r_peak,r_snr = 0.9827701 56.68161 1646 -0.031 3046 -0.031 56.68161 0.000009 0.000038 -0.000001 r_peak,r_snr = 0.9859305 106.3754 1746 -0.031 3046 0.000 106.37537 0.000007 0.000026 0.000000 r_peak,r_snr = 0.9894871 27.39621 1846 -0.031 3046 0.000 27.39621 0.000006 0.000024 0.000000 r_peak,r_snr = 0.9597256 92.10458 1946 -0.063 3046 0.000 92.10458 0.000020 0.000073 0.000001 r_peak,r_snr = 0.9569073 90.08538 2046 -0.063 3046 -0.031 90.08538 0.000023 0.000078 0.000002 At line = 3400 Reading in data.... r_peak,r_snr = 0.9813321 92.49485 146 -0.031 3446 -0.031 92.49485 0.000009 0.000035 0.000000 r_peak,r_snr = 0.9775280 115.1740 246 -0.031 3446 -0.031 115.17403 0.000010 0.000036 -0.000001 r_peak,r_snr = 0.9675825 126.5348 346 -0.031 3446 -0.031 126.53475 0.000014 0.000055 -0.000001 r_peak,r_snr = 0.9779093 105.7880 446 -0.031 3446 -0.063 105.78799 0.000010 0.000040 0.000000 r_peak,r_snr = 0.9793288 120.1880 546 -0.031 3446 0.000 120.18796 0.000009 0.000035 0.000000 r_peak,r_snr = 0.9762635 124.2565 646 -0.031 3446 0.000 124.25645 0.000011 0.000040 0.000000 r_peak,r_snr = 0.9781365 96.83858 746 -0.031 3446 -0.031 96.83858 0.000011 0.000041 0.000000 r_peak,r_snr = 0.9732111 113.3887 846 -0.031 3446 -0.031 113.38869 0.000013 0.000046 0.000000 r_peak,r_snr = 0.9762049 84.55076 946 -0.063 3446 -0.031 84.55076 0.000012 0.000041 0.000000 r_peak,r_snr = 0.9832704 109.5630 1046 -0.031 3446 -0.031 109.56300 0.000008 0.000027 0.000000 r_peak,r_snr = 0.9777226 88.99771 1146 -0.031 3446 0.000 88.99771 0.000012 0.000037 0.000000 r_peak,r_snr = 0.9717867 118.5380 1246 -0.031 3446 0.000 118.53802 0.000013 0.000047 0.000000 r_peak,r_snr = 0.9741467 93.92992 1346 -0.031 3446 -0.031 93.92992 0.000013 0.000049 0.000000 r_peak,r_snr = 0.9658113 98.36286 1446 -0.031 3446 0.000 98.36286 0.000016 0.000062 0.000000 r_peak,r_snr = 0.9711550 99.12619 1546 -0.031 3446 0.000 99.12619 0.000015 0.000051 0.000000 r_peak,r_snr = 0.9837916 34.40444 1646 -0.031 3446 0.000 34.40444 0.000010 0.000039 0.000000 r_peak,r_snr = 0.9885426 75.29462 1746 -0.031 3446 -0.031 75.29462 0.000006 0.000022 0.000001 r_peak,r_snr = 0.9733475 93.28632 1846 -0.031 3446 0.000 93.28632 0.000013 0.000053 0.000001 r_peak,r_snr = 0.9804564 70.17975 1946 -0.031 3446 0.000 70.17975 0.000010 0.000037 0.000000 r_peak,r_snr = 0.9468389 102.9074 2046 -0.031 3446 -0.031 102.90738 0.000026 0.000101 -0.000001 At line = 3800 Reading in data.... r_peak,r_snr = 0.9758757 100.1870 146 -0.031 3846 -0.031 100.18703 0.000011 0.000040 0.000001 r_peak,r_snr = 0.9746690 118.2743 246 -0.031 3846 0.000 118.27431 0.000012 0.000045 0.000001 r_peak,r_snr = 0.9716644 100.9571 346 -0.031 3846 -0.031 100.95711 0.000014 0.000051 -0.000001 r_peak,r_snr = 0.9786919 104.0753 446 -0.031 3846 0.000 104.07526 0.000010 0.000038 0.000000 r_peak,r_snr = 0.9777082 103.8377 546 -0.031 3846 0.000 103.83768 0.000011 0.000039 0.000000 r_peak,r_snr = 0.9732000 108.6867 646 -0.031 3846 0.000 108.68674 0.000013 0.000048 -0.000001 r_peak,r_snr = 0.9796426 85.53424 746 -0.031 3846 0.000 85.53424 0.000011 0.000038 0.000001 r_peak,r_snr = 0.9795005 101.5058 846 -0.031 3846 -0.031 101.50579 0.000010 0.000037 0.000000 e vector 2 error r_peak,r_snr = 0.9796169 95.44940 946 -0.031 3846 0.000 95.44940 0.000011 0.000035 0.000000 r_peak,r_snr = 0.9782438 104.1348 1046 -0.031 3846 -0.031 104.13479 0.000010 0.000038 -0.000001 r_peak,r_snr = 0.9740343 104.2857 1146 -0.031 3846 0.000 104.28569 0.000013 0.000043 0.000000 r_peak,r_snr = 0.9691846 115.5985 1246 -0.031 3846 0.000 115.59846 0.000015 0.000047 0.000000 r_peak,r_snr = 0.9734224 117.5690 1346 -0.031 3846 0.000 117.56898 0.000013 0.000044 -0.000001 r_peak,r_snr = 0.9760519 72.11820 1446 -0.031 3846 -0.031 72.11820 0.000013 0.000046 0.000000 r_peak,r_snr = 0.9754012 70.47485 1546 -0.031 3846 0.000 70.47485 0.000013 0.000047 -0.000001 r_peak,r_snr = 0.9778869 84.26834 1646 -0.031 3846 -0.031 84.26834 0.000012 0.000044 0.000001 r_peak,r_snr = 0.9844585 68.76862 1746 -0.063 3846 -0.063 68.76862 0.000008 0.000032 -0.000001 r_peak,r_snr = 0.9760747 80.82493 1846 -0.031 3846 0.000 80.82493 0.000013 0.000045 -0.000001 r_peak,r_snr = 0.9743977 47.38845 1946 -0.031 3846 0.031 47.38845 0.000015 0.000054 -0.000001 r_peak,r_snr = 0.9795825 62.08237 2046 -0.031 3846 0.000 62.08237 0.000011 0.000041 0.000001 At line = 4200 Reading in data.... r_peak,r_snr = 0.9790091 104.1448 146 -0.031 4246 -0.031 104.14479 0.000010 0.000037 0.000001 r_peak,r_snr = 0.9772834 110.9162 246 -0.031 4246 0.000 110.91620 0.000011 0.000039 0.000000 r_peak,r_snr = 0.9817879 102.2981 346 -0.031 4246 -0.031 102.29813 0.000009 0.000031 0.000000 r_peak,r_snr = 0.9740584 89.61224 446 -0.031 4246 -0.031 89.61224 0.000013 0.000045 0.000000 r_peak,r_snr = 0.9757211 114.0671 546 -0.031 4246 -0.031 114.06712 0.000012 0.000039 0.000001 r_peak,r_snr = 0.9752552 113.3958 646 -0.031 4246 -0.031 113.39580 0.000011 0.000044 0.000001 e vector 2 error r_peak,r_snr = 0.9766215 80.83765 746 -0.031 4246 0.000 80.83765 0.000012 0.000045 0.000000 r_peak,r_snr = 0.9794586 107.1999 846 -0.031 4246 -0.031 107.19991 0.000010 0.000035 -0.000001 r_peak,r_snr = 0.9824700 104.2954 946 -0.031 4246 -0.031 104.29536 0.000009 0.000031 -0.000001 r_peak,r_snr = 0.9783438 109.3515 1046 -0.031 4246 -0.031 109.35148 0.000010 0.000038 0.000000 r_peak,r_snr = 0.9697881 88.66616 1146 -0.031 4246 -0.031 88.66616 0.000015 0.000058 0.000001 r_peak,r_snr = 0.9800040 91.91961 1246 -0.031 4246 0.000 91.91961 0.000011 0.000035 0.000000 r_peak,r_snr = 0.9722201 102.9010 1346 -0.031 4246 -0.031 102.90098 0.000014 0.000048 -0.000001 r_peak,r_snr = 0.9700604 105.2491 1446 -0.031 4246 0.000 105.24914 0.000015 0.000052 -0.000001 r_peak,r_snr = 0.9708553 93.30375 1546 -0.031 4246 0.031 93.30375 0.000015 0.000056 0.000000 r_peak,r_snr = 0.9806893 78.78884 1646 -0.031 4246 -0.031 78.78884 0.000010 0.000041 -0.000001 r_peak,r_snr = 0.9850627 52.13959 1746 -0.031 4246 -0.031 52.13959 0.000009 0.000030 0.000000 r_peak,r_snr = 0.9800458 83.89922 1846 -0.031 4246 0.000 83.89922 0.000010 0.000040 0.000000 r_peak,r_snr = 0.9764947 69.07880 1946 -0.031 4246 -0.031 69.07880 0.000012 0.000052 0.000000 r_peak,r_snr = 0.9617261 97.28862 2046 -0.063 4246 -0.031 97.28862 0.000019 0.000071 0.000002 At line = 4600 Reading in data.... r_peak,r_snr = 0.9768071 103.9644 146 -0.031 4646 -0.031 103.96442 0.000012 0.000039 0.000000 r_peak,r_snr = 0.9811385 103.2862 246 -0.031 4646 -0.031 103.28623 0.000010 0.000033 -0.000001 r_peak,r_snr = 0.9731700 110.2555 346 -0.031 4646 -0.031 110.25546 0.000013 0.000047 0.000000 r_peak,r_snr = 0.9748818 91.76585 446 -0.031 4646 -0.031 91.76585 0.000012 0.000048 -0.000001 r_peak,r_snr = 0.9778565 114.0121 546 -0.031 4646 0.000 114.01208 0.000010 0.000039 0.000001 r_peak,r_snr = 0.9780547 95.52061 646 -0.031 4646 0.000 95.52061 0.000011 0.000040 0.000000 r_peak,r_snr = 0.9729914 114.6493 746 -0.031 4646 -0.031 114.64935 0.000013 0.000046 0.000000 r_peak,r_snr = 0.9804959 97.67959 846 -0.031 4646 -0.031 97.67959 0.000010 0.000034 0.000000 r_peak,r_snr = 0.9732014 62.55083 946 -0.031 4646 -0.031 62.55083 0.000014 0.000051 0.000001 r_peak,r_snr = 0.9714641 112.5968 1046 -0.031 4646 -0.031 112.59676 0.000013 0.000048 0.000001 r_peak,r_snr = 0.9706252 116.5975 1146 -0.031 4646 -0.031 116.59749 0.000014 0.000051 0.000000 r_peak,r_snr = 0.9804549 91.67767 1246 -0.031 4646 0.000 91.67767 0.000010 0.000036 0.000001 r_peak,r_snr = 0.9710212 125.7356 1346 -0.031 4646 0.031 125.73560 0.000013 0.000048 0.000001 r_peak,r_snr = 0.9735304 86.96036 1446 -0.031 4646 -0.031 86.96036 0.000012 0.000047 0.000000 r_peak,r_snr = 0.9609562 118.0871 1546 -0.031 4646 -0.031 118.08711 0.000019 0.000065 0.000002 r_peak,r_snr = 0.9746407 108.4243 1646 -0.031 4646 -0.031 108.42434 0.000012 0.000042 0.000000 r_peak,r_snr = 0.9657167 107.0319 1746 -0.031 4646 0.000 107.03187 0.000017 0.000060 0.000000 r_peak,r_snr = 0.9715313 97.70127 1846 -0.031 4646 -0.031 97.70127 0.000014 0.000052 0.000001 r_peak,r_snr = 0.9663205 103.7309 1946 -0.063 4646 -0.031 103.73093 0.000017 0.000061 0.000001 r_peak,r_snr = 0.9667149 62.59871 2046 -0.031 4646 -0.031 62.59871 0.000019 0.000071 0.000000 At line = 5000 Reading in data.... r_peak,r_snr = 0.9672382 99.06828 146 -0.031 5046 0.000 99.06828 0.000016 0.000066 0.000000 r_peak,r_snr = 0.9755167 95.42984 246 -0.031 5046 0.000 95.42984 0.000012 0.000038 0.000000 r_peak,r_snr = 0.9730392 106.0011 346 0.000 5046 -0.063 106.00110 0.000014 0.000047 0.000000 r_peak,r_snr = 0.9796966 101.2310 446 -0.031 5046 -0.031 101.23102 0.000009 0.000036 0.000000 r_peak,r_snr = 0.9793475 110.8408 546 -0.031 5046 -0.031 110.84076 0.000010 0.000036 -0.000001 r_peak,r_snr = 0.9632249 95.40687 646 -0.031 5046 -0.031 95.40687 0.000018 0.000061 0.000000 r_peak,r_snr = 0.9719332 110.4153 746 -0.031 5046 0.000 110.41527 0.000013 0.000051 0.000000 r_peak,r_snr = 0.9719591 94.11964 846 -0.031 5046 -0.031 94.11964 0.000013 0.000051 0.000000 r_peak,r_snr = 0.9793761 76.10438 946 -0.031 5046 -0.063 76.10438 0.000010 0.000040 0.000000 r_peak,r_snr = 0.9673586 114.1335 1046 -0.031 5046 0.000 114.13347 0.000016 0.000056 0.000000 r_peak,r_snr = 0.9718369 101.7952 1146 -0.031 5046 -0.031 101.79525 0.000013 0.000053 -0.000001 r_peak,r_snr = 0.9762852 105.4059 1246 -0.031 5046 0.000 105.40593 0.000011 0.000045 0.000000 r_peak,r_snr = 0.9730580 111.7717 1346 -0.031 5046 0.000 111.77173 0.000013 0.000046 0.000000 r_peak,r_snr = 0.9800006 88.91812 1446 -0.031 5046 0.000 88.91812 0.000009 0.000039 0.000000 r_peak,r_snr = 0.9788752 78.24902 1546 -0.031 5046 0.000 78.24902 0.000011 0.000045 0.000000 r_peak,r_snr = 0.9707534 101.8508 1646 -0.031 5046 -0.031 101.85082 0.000014 0.000053 0.000000 r_peak,r_snr = 0.9828576 42.54646 1746 -0.031 5046 -0.031 42.54646 0.000009 0.000033 0.000001 r_peak,r_snr = 0.9741766 62.52552 1846 -0.031 5046 -0.031 62.52552 0.000013 0.000055 0.000001 r_peak,r_snr = 0.9654641 98.31909 1946 -0.063 5046 -0.031 98.31909 0.000017 0.000064 0.000000 r_peak,r_snr = 0.9678791 95.71989 2046 -0.031 5046 0.000 95.71989 0.000016 0.000061 0.000001 At line = 5400 Reading in data.... r_peak,r_snr = 0.9718065 110.0643 146 -0.031 5446 0.000 110.06432 0.000013 0.000051 0.000000 r_peak,r_snr = 0.9712408 114.9127 246 -0.031 5446 -0.031 114.91272 0.000013 0.000047 -0.000001 r_peak,r_snr = 0.9752359 104.2647 346 -0.031 5446 -0.031 104.26474 0.000013 0.000041 0.000000 r_peak,r_snr = 0.9784304 94.92112 446 -0.031 5446 -0.031 94.92112 0.000011 0.000036 0.000000 r_peak,r_snr = 0.9661981 130.5417 546 -0.031 5446 0.000 130.54167 0.000015 0.000055 -0.000001 r_peak,r_snr = 0.9702629 105.5995 646 -0.031 5446 0.000 105.59951 0.000015 0.000052 0.000000 r_peak,r_snr = 0.9697651 99.37302 746 -0.031 5446 -0.031 99.37302 0.000015 0.000050 0.000001 r_peak,r_snr = 0.9764488 95.10942 846 -0.031 5446 0.000 95.10942 0.000012 0.000046 0.000000 r_peak,r_snr = 0.9775329 120.5857 946 -0.031 5446 -0.031 120.58575 0.000011 0.000034 -0.000001 r_peak,r_snr = 0.9713158 94.14606 1046 -0.031 5446 -0.031 94.14606 0.000014 0.000049 0.000000 r_peak,r_snr = 0.9625731 91.46606 1146 -0.063 5446 0.000 91.46606 0.000018 0.000064 0.000000 r_peak,r_snr = 0.9780733 117.3716 1246 -0.031 5446 -0.031 117.37158 0.000010 0.000036 0.000000 r_peak,r_snr = 0.9779413 98.65923 1346 -0.031 5446 0.000 98.65923 0.000010 0.000042 0.000000 r_peak,r_snr = 0.9771827 98.02505 1446 -0.031 5446 0.000 98.02505 0.000012 0.000043 -0.000001 r_peak,r_snr = 0.9785928 91.01568 1546 -0.031 5446 -0.031 91.01568 0.000011 0.000038 0.000000 r_peak,r_snr = 0.9759251 80.80370 1646 -0.031 5446 -0.031 80.80370 0.000012 0.000048 0.000001 r_peak,r_snr = 0.9831930 91.68782 1746 -0.031 5446 0.000 91.68782 0.000008 0.000031 0.000000 r_peak,r_snr = 0.9770442 55.41706 1846 -0.031 5446 0.031 55.41706 0.000012 0.000048 -0.000001 r_peak,r_snr = 0.9654455 77.88615 1946 -0.063 5446 0.000 77.88615 0.000018 0.000073 -0.000001 r_peak,r_snr = 0.9535381 106.9942 2046 -0.031 5446 0.000 106.99425 0.000023 0.000085 -0.000002 At line = 5800 Reading in data.... r_peak,r_snr = 0.9682716 133.7959 146 -0.031 5846 -0.031 133.79587 0.000014 0.000048 0.000000 r_peak,r_snr = 0.9775604 89.35358 246 -0.031 5846 -0.031 89.35358 0.000011 0.000045 0.000000 r_peak,r_snr = 0.9718043 116.0991 346 -0.031 5846 -0.031 116.09913 0.000013 0.000049 0.000000 r_peak,r_snr = 0.9767607 103.7789 446 -0.031 5846 -0.063 103.77888 0.000012 0.000041 0.000001 r_peak,r_snr = 0.9730594 99.06947 546 -0.031 5846 -0.031 99.06947 0.000014 0.000046 0.000001 r_peak,r_snr = 0.9779965 109.7806 646 -0.031 5846 -0.031 109.78060 0.000010 0.000038 0.000000 r_peak,r_snr = 0.9705852 108.7937 746 -0.031 5846 0.000 108.79366 0.000014 0.000048 0.000000 r_peak,r_snr = 0.9739105 86.25471 846 -0.031 5846 0.000 86.25471 0.000013 0.000047 -0.000001 r_peak,r_snr = 0.9763047 87.43975 946 -0.031 5846 -0.031 87.43975 0.000012 0.000041 0.000000 r_peak,r_snr = 0.9670827 119.7632 1046 -0.031 5846 -0.063 119.76317 0.000015 0.000052 0.000000 r_peak,r_snr = 0.9781348 81.62973 1146 -0.031 5846 -0.031 81.62973 0.000012 0.000046 0.000000 r_peak,r_snr = 0.9777872 104.6283 1246 -0.031 5846 0.000 104.62831 0.000010 0.000040 0.000001 r_peak,r_snr = 0.9804817 87.14983 1346 -0.031 5846 -0.031 87.14983 0.000010 0.000040 0.000000 r_peak,r_snr = 0.9746600 91.26194 1446 -0.063 5846 0.000 91.26194 0.000012 0.000049 0.000001 r_peak,r_snr = 0.9756708 75.21469 1546 -0.031 5846 0.000 75.21469 0.000013 0.000045 0.000000 r_peak,r_snr = 0.9765483 83.90433 1646 -0.031 5846 0.000 83.90433 0.000012 0.000045 0.000000 r_peak,r_snr = 0.9779242 92.46761 1746 -0.031 5846 0.000 92.46761 0.000011 0.000039 -0.000001 r_peak,r_snr = 0.9724914 86.03496 1846 -0.063 5846 -0.031 86.03496 0.000014 0.000057 -0.000001 r_peak,r_snr = 0.9725101 90.64458 1946 -0.031 5846 -0.031 90.64458 0.000014 0.000053 -0.000001 r_peak,r_snr = 0.9662068 77.40631 2046 -0.031 5846 0.031 77.40631 0.000019 0.000072 -0.000001 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9657452 108.2151 146 0.000 3046 0.031 108.21510 0.000017 0.000062 0.000001 r_peak,r_snr = 0.9673342 107.4496 246 0.000 3046 0.000 107.44961 0.000016 0.000054 0.000000 r_peak,r_snr = 0.9724086 121.9301 346 0.031 3046 0.000 121.93006 0.000013 0.000044 -0.000001 r_peak,r_snr = 0.9749072 102.5209 446 -0.031 3046 0.000 102.52087 0.000012 0.000046 0.000000 r_peak,r_snr = 0.9681639 97.90823 546 0.000 3046 0.031 97.90823 0.000016 0.000053 0.000000 r_peak,r_snr = 0.9744421 99.12550 646 0.000 3046 0.031 99.12550 0.000014 0.000046 0.000000 r_peak,r_snr = 0.9673769 114.1056 746 -0.031 3046 0.031 114.10561 0.000015 0.000055 0.000000 r_peak,r_snr = 0.9689259 113.1957 846 0.000 3046 0.000 113.19566 0.000014 0.000055 0.000000 r_peak,r_snr = 0.9634938 104.3949 946 -0.031 3046 -0.031 104.39491 0.000018 0.000067 -0.000001 r_peak,r_snr = 0.9652625 79.48254 1046 0.000 3046 0.031 79.48254 0.000018 0.000069 -0.000001 r_peak,r_snr = 0.9662236 87.13778 1146 -0.031 3046 0.000 87.13778 0.000018 0.000066 0.000001 r_peak,r_snr = 0.9663010 96.99085 1246 -0.031 3046 0.063 96.99085 0.000018 0.000060 0.000000 r_peak,r_snr = 0.9716442 101.9896 1346 -0.031 3046 0.031 101.98962 0.000014 0.000051 0.000000 r_peak,r_snr = 0.9630860 98.94890 1446 -0.031 3046 0.031 98.94890 0.000019 0.000070 0.000001 r_peak,r_snr = 0.9579511 106.0033 1546 -0.031 3046 0.063 106.00327 0.000022 0.000072 0.000002 r_peak,r_snr = 0.9689361 53.65364 1646 -0.031 3046 -0.031 53.65364 0.000018 0.000071 -0.000002 r_peak,r_snr = 0.9749613 105.4470 1746 -0.031 3046 0.031 105.44696 0.000012 0.000047 0.000000 r_peak,r_snr = 0.9804868 27.48164 1846 -0.031 3046 0.031 27.48164 0.000012 0.000046 0.000000 r_peak,r_snr = 0.9379115 94.42830 1946 -0.031 3046 0.000 94.42830 0.000032 0.000118 0.000002 r_peak,r_snr = 0.9309307 89.76250 2046 -0.031 3046 0.000 89.76250 0.000038 0.000131 0.000003 At line = 3400 Reading in data.... r_peak,r_snr = 0.9713875 91.14027 146 0.000 3446 0.000 91.14027 0.000014 0.000055 0.000000 r_peak,r_snr = 0.9695665 114.3742 246 0.000 3446 0.000 114.37421 0.000014 0.000050 -0.000001 r_peak,r_snr = 0.9576346 126.1393 346 0.000 3446 0.031 126.13926 0.000019 0.000073 -0.000001 r_peak,r_snr = 0.9752606 102.8197 446 -0.031 3446 -0.031 102.81972 0.000012 0.000046 -0.000001 r_peak,r_snr = 0.9751124 121.4917 546 0.000 3446 0.000 121.49171 0.000011 0.000042 0.000000 r_peak,r_snr = 0.9666697 120.6301 646 -0.031 3446 0.031 120.63008 0.000015 0.000058 0.000000 r_peak,r_snr = 0.9675295 95.84418 746 -0.031 3446 0.000 95.84418 0.000017 0.000063 0.000000 r_peak,r_snr = 0.9687238 111.5489 846 -0.031 3446 0.000 111.54886 0.000015 0.000055 0.000001 r_peak,r_snr = 0.9693400 81.92665 946 -0.031 3446 0.000 81.92665 0.000016 0.000055 -0.000001 r_peak,r_snr = 0.9709148 107.8517 1046 -0.031 3446 -0.031 107.85172 0.000014 0.000048 0.000000 r_peak,r_snr = 0.9652697 88.04815 1146 0.000 3446 0.031 88.04815 0.000019 0.000060 0.000001 r_peak,r_snr = 0.9574535 116.8501 1246 0.000 3446 0.031 116.85012 0.000020 0.000074 0.000000 r_peak,r_snr = 0.9646007 93.36430 1346 -0.031 3446 0.031 93.36430 0.000019 0.000068 0.000000 r_peak,r_snr = 0.9509611 97.39114 1446 -0.031 3446 0.031 97.39114 0.000024 0.000093 0.000001 r_peak,r_snr = 0.9579348 98.19532 1546 -0.031 3446 0.031 98.19532 0.000023 0.000077 0.000000 r_peak,r_snr = 0.9733174 32.09103 1646 -0.031 3446 0.000 32.09103 0.000016 0.000067 0.000000 r_peak,r_snr = 0.9784653 74.46950 1746 -0.031 3446 0.000 74.46950 0.000012 0.000043 0.000001 r_peak,r_snr = 0.9540312 92.39444 1846 -0.031 3446 0.000 92.39444 0.000023 0.000096 0.000002 r_peak,r_snr = 0.9642681 69.53199 1946 -0.031 3446 0.031 69.53199 0.000019 0.000072 0.000000 r_peak,r_snr = 0.9131677 99.64038 2046 -0.031 3446 -0.031 99.64038 0.000045 0.000180 -0.000001 At line = 3800 Reading in data.... r_peak,r_snr = 0.9634632 105.0287 146 0.000 3846 0.000 105.02869 0.000018 0.000062 0.000001 r_peak,r_snr = 0.9648693 117.6703 246 0.000 3846 0.031 117.67031 0.000016 0.000064 0.000001 r_peak,r_snr = 0.9644895 99.93755 346 0.000 3846 0.031 99.93755 0.000017 0.000066 -0.000001 r_peak,r_snr = 0.9718634 102.9302 446 -0.031 3846 0.031 102.93019 0.000014 0.000052 0.000000 r_peak,r_snr = 0.9693759 103.5570 546 0.000 3846 0.031 103.55703 0.000015 0.000056 0.000000 r_peak,r_snr = 0.9666753 105.5880 646 0.000 3846 0.000 105.58798 0.000016 0.000062 -0.000001 r_peak,r_snr = 0.9720127 83.83590 746 -0.031 3846 0.031 83.83590 0.000015 0.000053 0.000001 r_peak,r_snr = 0.9700322 100.2376 846 0.000 3846 0.000 100.23765 0.000015 0.000055 0.000001 r_peak,r_snr = 0.9731953 97.86520 946 0.000 3846 0.000 97.86520 0.000014 0.000046 0.000000 r_peak,r_snr = 0.9679670 103.5406 1046 -0.031 3846 0.000 103.54059 0.000016 0.000057 -0.000001 r_peak,r_snr = 0.9659164 103.4902 1146 0.000 3846 0.031 103.49023 0.000017 0.000057 0.000000 r_peak,r_snr = 0.9566883 113.1664 1246 -0.031 3846 0.031 113.16644 0.000022 0.000069 0.000001 r_peak,r_snr = 0.9635091 116.6275 1346 -0.031 3846 0.031 116.62750 0.000018 0.000062 -0.000001 r_peak,r_snr = 0.9650408 72.32262 1446 -0.031 3846 0.031 72.32262 0.000019 0.000070 0.000000 r_peak,r_snr = 0.9615499 68.40343 1546 -0.031 3846 0.063 68.40343 0.000022 0.000077 -0.000002 r_peak,r_snr = 0.9598123 84.06172 1646 -0.031 3846 0.000 84.06172 0.000021 0.000083 0.000001 r_peak,r_snr = 0.9710580 67.97837 1746 -0.031 3846 -0.031 67.97837 0.000016 0.000063 -0.000001 r_peak,r_snr = 0.9597566 80.18477 1846 -0.031 3846 0.031 80.18477 0.000022 0.000080 -0.000002 r_peak,r_snr = 0.9510344 46.55747 1946 -0.031 3846 0.031 46.55747 0.000030 0.000108 -0.000002 r_peak,r_snr = 0.9681703 62.00398 2046 -0.031 3846 0.031 62.00398 0.000018 0.000067 0.000001 At line = 4200 Reading in data.... r_peak,r_snr = 0.9703429 100.5326 146 0.000 4246 0.031 100.53258 0.000015 0.000055 0.000001 r_peak,r_snr = 0.9719105 108.3272 246 0.000 4246 0.000 108.32722 0.000014 0.000050 -0.000001 r_peak,r_snr = 0.9749559 100.2373 346 0.000 4246 0.000 100.23732 0.000012 0.000043 0.000000 r_peak,r_snr = 0.9708503 83.97275 446 0.000 4246 0.000 83.97275 0.000015 0.000053 0.000000 r_peak,r_snr = 0.9679370 114.8158 546 0.000 4246 0.000 114.81584 0.000016 0.000052 0.000001 r_peak,r_snr = 0.9677441 110.4512 646 0.000 4246 -0.031 110.45116 0.000015 0.000060 0.000001 r_peak,r_snr = 0.9700273 81.39584 746 0.000 4246 0.031 81.39584 0.000015 0.000059 0.000000 r_peak,r_snr = 0.9743247 105.2844 846 0.000 4246 0.000 105.28438 0.000013 0.000044 -0.000001 r_peak,r_snr = 0.9732552 101.8057 946 0.000 4246 0.000 101.80566 0.000013 0.000048 -0.000001 r_peak,r_snr = 0.9694752 107.3589 1046 -0.031 4246 0.000 107.35888 0.000015 0.000055 0.000000 r_peak,r_snr = 0.9571007 89.88233 1146 -0.031 4246 0.000 89.88233 0.000022 0.000083 0.000001 r_peak,r_snr = 0.9691991 91.77147 1246 -0.031 4246 0.031 91.77147 0.000017 0.000055 -0.000001 r_peak,r_snr = 0.9610054 103.1873 1346 -0.031 4246 0.000 103.18732 0.000020 0.000070 -0.000001 r_peak,r_snr = 0.9571342 104.7650 1446 -0.031 4246 0.031 104.76502 0.000022 0.000077 -0.000001 r_peak,r_snr = 0.9591016 89.67281 1546 -0.031 4246 0.031 89.67281 0.000022 0.000083 0.000000 r_peak,r_snr = 0.9674004 77.69118 1646 -0.031 4246 -0.031 77.69118 0.000017 0.000074 -0.000001 r_peak,r_snr = 0.9746300 51.05357 1746 -0.031 4246 0.000 51.05357 0.000015 0.000053 -0.000001 r_peak,r_snr = 0.9637406 81.75932 1846 -0.031 4246 0.000 81.75932 0.000019 0.000076 0.000000 r_peak,r_snr = 0.9579731 67.67270 1946 -0.063 4246 0.031 67.67270 0.000023 0.000098 0.000000 r_peak,r_snr = 0.9417366 94.66174 2046 -0.031 4246 0.000 94.66174 0.000030 0.000114 0.000003 At line = 4600 Reading in data.... r_peak,r_snr = 0.9651671 103.7546 146 0.000 4646 0.000 103.75459 0.000018 0.000061 0.000000 r_peak,r_snr = 0.9721828 101.6453 246 0.000 4646 0.000 101.64534 0.000015 0.000049 -0.000001 r_peak,r_snr = 0.9656374 110.7166 346 0.000 4646 -0.031 110.71662 0.000017 0.000060 0.000000 r_peak,r_snr = 0.9711688 89.61376 446 -0.031 4646 0.000 89.61376 0.000015 0.000056 -0.000001 r_peak,r_snr = 0.9706987 109.5371 546 -0.031 4646 0.000 109.53710 0.000014 0.000054 0.000001 e vector 2 error r_peak,r_snr = 0.9694909 91.85923 646 -0.031 4646 -0.031 91.85923 0.000015 0.000057 0.000000 r_peak,r_snr = 0.9659441 112.7522 746 0.000 4646 0.000 112.75224 0.000016 0.000059 0.000000 r_peak,r_snr = 0.9741251 98.96739 846 -0.031 4646 -0.031 98.96739 0.000013 0.000045 0.000000 r_peak,r_snr = 0.9651906 57.66035 946 -0.031 4646 0.000 57.66035 0.000018 0.000068 0.000002 r_peak,r_snr = 0.9625592 110.9610 1046 -0.031 4646 -0.031 110.96100 0.000018 0.000065 0.000002 r_peak,r_snr = 0.9566882 111.5707 1146 -0.031 4646 0.000 111.57074 0.000021 0.000078 0.000001 r_peak,r_snr = 0.9679886 90.29524 1246 -0.031 4646 0.031 90.29524 0.000017 0.000060 0.000002 r_peak,r_snr = 0.9589897 124.8591 1346 -0.031 4646 0.000 124.85909 0.000019 0.000071 0.000001 r_peak,r_snr = 0.9626043 83.16798 1446 -0.031 4646 0.000 83.16798 0.000018 0.000068 0.000000 r_peak,r_snr = 0.9426956 116.9463 1546 -0.031 4646 0.031 116.94630 0.000029 0.000100 0.000003 r_peak,r_snr = 0.9589485 106.6475 1646 -0.031 4646 0.000 106.64748 0.000020 0.000071 0.000000 r_peak,r_snr = 0.9445083 104.1786 1746 -0.031 4646 0.031 104.17862 0.000028 0.000103 0.000000 r_peak,r_snr = 0.9512778 97.14022 1846 -0.031 4646 0.000 97.14022 0.000026 0.000093 0.000001 r_peak,r_snr = 0.9511861 103.9773 1946 -0.031 4646 0.031 103.97727 0.000025 0.000091 0.000001 r_peak,r_snr = 0.9468843 64.70253 2046 -0.031 4646 0.000 64.70253 0.000031 0.000117 0.000001 At line = 5000 Reading in data.... r_peak,r_snr = 0.9595076 96.81232 146 0.000 5046 0.031 96.81232 0.000020 0.000084 -0.000001 r_peak,r_snr = 0.9662695 89.27642 246 0.000 5046 0.000 89.27642 0.000017 0.000055 0.000000 r_peak,r_snr = 0.9656982 104.5069 346 0.000 5046 -0.031 104.50689 0.000018 0.000060 0.000000 r_peak,r_snr = 0.9711651 100.2650 446 -0.031 5046 0.000 100.26497 0.000014 0.000052 0.000000 r_peak,r_snr = 0.9713659 109.3656 546 0.000 5046 0.000 109.36556 0.000014 0.000052 -0.000002 r_peak,r_snr = 0.9573072 92.89859 646 0.000 5046 0.031 92.89859 0.000021 0.000073 0.000000 r_peak,r_snr = 0.9644516 108.0089 746 0.000 5046 0.031 108.00886 0.000017 0.000067 0.000001 r_peak,r_snr = 0.9620531 93.11136 846 -0.031 5046 0.000 93.11136 0.000018 0.000070 0.000000 r_peak,r_snr = 0.9680496 77.51071 946 -0.031 5046 0.000 77.51071 0.000016 0.000064 0.000000 r_peak,r_snr = 0.9569006 112.4922 1046 -0.031 5046 0.000 112.49223 0.000021 0.000076 0.000000 r_peak,r_snr = 0.9628644 101.8656 1146 0.000 5046 0.000 101.86559 0.000018 0.000071 -0.000001 r_peak,r_snr = 0.9661923 104.0616 1246 -0.031 5046 0.000 104.06158 0.000016 0.000066 0.000000 r_peak,r_snr = 0.9571044 109.9919 1346 -0.031 5046 0.031 109.99190 0.000020 0.000077 0.000000 r_peak,r_snr = 0.9660962 87.91921 1446 -0.031 5046 0.000 87.91921 0.000016 0.000068 0.000001 r_peak,r_snr = 0.9650591 77.83556 1546 -0.031 5046 0.063 77.83556 0.000019 0.000077 0.000001 r_peak,r_snr = 0.9545308 102.2091 1646 -0.031 5046 0.000 102.20909 0.000022 0.000085 -0.000001 r_peak,r_snr = 0.9679822 42.53178 1746 -0.031 5046 0.000 42.53178 0.000018 0.000065 0.000001 r_peak,r_snr = 0.9606338 61.21385 1846 -0.031 5046 0.000 61.21385 0.000020 0.000088 0.000002 r_peak,r_snr = 0.9459063 97.42439 1946 -0.031 5046 0.000 97.42439 0.000028 0.000106 -0.000001 r_peak,r_snr = 0.9522598 95.45653 2046 0.000 5046 0.000 95.45653 0.000025 0.000095 0.000001 At line = 5400 Reading in data.... r_peak,r_snr = 0.9639094 108.8750 146 0.000 5446 0.031 108.87498 0.000017 0.000066 0.000000 r_peak,r_snr = 0.9604287 115.8512 246 0.000 5446 0.031 115.85117 0.000018 0.000067 -0.000002 r_peak,r_snr = 0.9689579 104.0553 346 0.000 5446 0.000 104.05525 0.000016 0.000052 0.000000 r_peak,r_snr = 0.9720044 96.88541 446 -0.031 5446 0.000 96.88541 0.000014 0.000048 0.000000 r_peak,r_snr = 0.9578109 129.8249 546 -0.031 5446 0.031 129.82487 0.000019 0.000069 -0.000001 r_peak,r_snr = 0.9629521 102.7573 646 0.000 5446 0.000 102.75734 0.000019 0.000067 0.000001 r_peak,r_snr = 0.9635357 99.28591 746 -0.031 5446 0.000 99.28591 0.000018 0.000062 0.000001 r_peak,r_snr = 0.9701142 94.38509 846 -0.031 5446 0.000 94.38509 0.000016 0.000060 0.000000 r_peak,r_snr = 0.9641074 118.3774 946 -0.031 5446 -0.031 118.37743 0.000018 0.000057 -0.000001 r_peak,r_snr = 0.9638357 91.62509 1046 -0.031 5446 -0.031 91.62509 0.000017 0.000064 0.000000 r_peak,r_snr = 0.9455489 87.27423 1146 -0.031 5446 0.031 87.27423 0.000027 0.000098 0.000000 r_peak,r_snr = 0.9646383 114.5469 1246 0.000 5446 0.000 114.54688 0.000017 0.000060 0.000000 r_peak,r_snr = 0.9622558 95.22474 1346 -0.031 5446 0.031 95.22474 0.000018 0.000077 -0.000001 r_peak,r_snr = 0.9637229 96.10680 1446 -0.031 5446 0.000 96.10680 0.000019 0.000070 -0.000001 r_peak,r_snr = 0.9638258 87.27968 1546 -0.031 5446 0.031 87.27968 0.000019 0.000067 0.000000 r_peak,r_snr = 0.9645161 79.12179 1646 -0.031 5446 0.000 79.12179 0.000018 0.000073 0.000001 r_peak,r_snr = 0.9670672 92.41782 1746 -0.031 5446 0.000 92.41782 0.000017 0.000062 0.000000 r_peak,r_snr = 0.9623126 51.94201 1846 0.000 5446 0.063 51.94201 0.000021 0.000082 -0.000001 r_peak,r_snr = 0.9467219 79.02693 1946 -0.063 5446 0.031 79.02693 0.000028 0.000117 -0.000001 r_peak,r_snr = 0.9254470 104.4450 2046 -0.031 5446 0.000 104.44495 0.000039 0.000147 -0.000004 At line = 5800 Reading in data.... r_peak,r_snr = 0.9607836 129.9031 146 0.031 5846 0.000 129.90314 0.000018 0.000062 0.000000 r_peak,r_snr = 0.9662480 88.68472 246 0.000 5846 0.031 88.68472 0.000017 0.000070 -0.000001 r_peak,r_snr = 0.9681347 114.4006 346 0.000 5846 0.000 114.40062 0.000015 0.000057 0.000000 r_peak,r_snr = 0.9679100 102.2950 446 0.000 5846 0.000 102.29504 0.000016 0.000058 0.000001 r_peak,r_snr = 0.9611388 97.11271 546 -0.031 5846 0.000 97.11271 0.000020 0.000069 0.000001 r_peak,r_snr = 0.9725928 108.8017 646 0.000 5846 0.000 108.80172 0.000013 0.000048 0.000000 r_peak,r_snr = 0.9646815 107.1355 746 -0.031 5846 0.000 107.13550 0.000017 0.000059 0.000000 r_peak,r_snr = 0.9645533 84.08772 846 -0.031 5846 0.000 84.08772 0.000018 0.000066 -0.000001 r_peak,r_snr = 0.9726784 88.26817 946 0.000 5846 0.000 88.26817 0.000014 0.000048 0.000000 r_peak,r_snr = 0.9565135 115.5479 1046 0.000 5846 -0.031 115.54785 0.000021 0.000072 0.000000 r_peak,r_snr = 0.9647568 79.26157 1146 0.000 5846 0.031 79.26157 0.000019 0.000077 0.000000 r_peak,r_snr = 0.9676471 104.5932 1246 -0.031 5846 0.031 104.59325 0.000015 0.000059 0.000002 r_peak,r_snr = 0.9695383 87.14937 1346 -0.031 5846 0.031 87.14937 0.000015 0.000064 0.000000 r_peak,r_snr = 0.9621509 89.14951 1446 -0.031 5846 0.000 89.14951 0.000019 0.000076 0.000002 r_peak,r_snr = 0.9668550 73.92484 1546 -0.031 5846 0.063 73.92484 0.000018 0.000063 0.000000 r_peak,r_snr = 0.9630929 83.34197 1646 -0.031 5846 0.031 83.34197 0.000020 0.000074 0.000000 r_peak,r_snr = 0.9623948 89.99402 1746 -0.031 5846 0.031 89.99402 0.000020 0.000068 -0.000001 r_peak,r_snr = 0.9550011 83.91565 1846 -0.031 5846 0.000 83.91565 0.000024 0.000099 -0.000002 r_peak,r_snr = 0.9614071 87.42460 1946 -0.031 5846 0.000 87.42460 0.000020 0.000079 -0.000002 r_peak,r_snr = 0.9506114 77.89935 2046 -0.031 5846 0.000 77.89935 0.000028 0.000108 -0.000001 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Correlation Coefficient Program ***** ***** ***** ***** This program creates a byte file ***** ***** that contains the correlation ***** ***** coeficient of two complex single ***** ***** look files. ***** ***** ***** ************************************************** Enter the name of the first complex file. Enter number of looks Enter the name of the second single look file 4.629600 0.5144000 9 Enter the output file name number of input lines: 55906 number of output lines: 6211 Reading data and doing multi-looking. + 1 + 577 + 1153 + 1729 + 2305 + 2881 + 3457 + 4033 + 4609 + 5185 + 5761 + 6337 + 6913 + 7489 + 8065 + 8641 + 9217 + 9793 + 10369 + 10945 + 11521 + 12097 + 12673 + 13249 + 13825 + 14401 + 14977 + 15553 + 16129 + 16705 + 17281 + 17857 + 18433 + 19009 + 19585 + 20161 + 20737 + 21313 + 21889 + 22465 + 23041 + 23617 + 24193 + 24769 + 25345 + 25921 + 26497 + 27073 + 27649 + 28225 + 28801 + 29377 + 29953 + 30529 + 31105 + 31681 + 32257 + 32833 + 33409 + 33985 + 34561 + 35137 + 35713 + 36289 + 36865 + 37441 + 38017 + 38593 + 39169 + 39745 + 40321 + 40897 + 41473 + 42049 + 42625 + 43201 + 43777 + 44353 + 44929 + 45505 + 46081 + 46657 + 47233 + 47809 + 48385 + 48961 + 49537 + 50113 + 50689 + 51265 + 51841 + 52417 + 52993 + 53569 + 54145 + 54721 + 55297 + 55873 *** Filtering. o/p nlines: 6211 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Writing data out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Correlation Coefficient Program ***** ***** ***** ***** This program creates a byte file ***** ***** that contains the correlation ***** ***** coeficient of two complex single ***** ***** look files. ***** ***** ***** ************************************************** Enter the name of the first complex file. Enter number of looks Enter the name of the second single look file 4.629600 0.5144000 9 Enter the output file name number of input lines: 55906 number of output lines: 6211 Reading data and doing multi-looking. + 1 + 577 + 1153 + 1729 + 2305 + 2881 + 3457 + 4033 + 4609 + 5185 + 5761 + 6337 + 6913 + 7489 + 8065 + 8641 + 9217 + 9793 + 10369 + 10945 + 11521 + 12097 + 12673 + 13249 + 13825 + 14401 + 14977 + 15553 + 16129 + 16705 + 17281 + 17857 + 18433 + 19009 + 19585 + 20161 + 20737 + 21313 + 21889 + 22465 + 23041 + 23617 + 24193 + 24769 + 25345 + 25921 + 26497 + 27073 + 27649 + 28225 + 28801 + 29377 + 29953 + 30529 + 31105 + 31681 + 32257 + 32833 + 33409 + 33985 + 34561 + 35137 + 35713 + 36289 + 36865 + 37441 + 38017 + 38593 + 39169 + 39745 + 40321 + 40897 + 41473 + 42049 + 42625 + 43201 + 43777 + 44353 + 44929 + 45505 + 46081 + 46657 + 47233 + 47809 + 48385 + 48961 + 49537 + 50113 + 50689 + 51265 + 51841 + 52417 + 52993 + 53569 + 54145 + 54721 + 55297 + 55873 *** Filtering. o/p nlines: 6211 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Writing data out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Correlation Coefficient Program ***** ***** ***** ***** This program creates a byte file ***** ***** that contains the correlation ***** ***** coeficient of two complex single ***** ***** look files. ***** ***** ***** ************************************************** Enter the name of the first complex file. Enter number of looks Enter the name of the second single look file 4.629600 0.5144000 9 Enter the output file name number of input lines: 55906 number of output lines: 6211 Reading data and doing multi-looking. + 1 + 577 + 1153 + 1729 + 2305 + 2881 + 3457 + 4033 + 4609 + 5185 + 5761 + 6337 + 6913 + 7489 + 8065 + 8641 + 9217 + 9793 + 10369 + 10945 + 11521 + 12097 + 12673 + 13249 + 13825 + 14401 + 14977 + 15553 + 16129 + 16705 + 17281 + 17857 + 18433 + 19009 + 19585 + 20161 + 20737 + 21313 + 21889 + 22465 + 23041 + 23617 + 24193 + 24769 + 25345 + 25921 + 26497 + 27073 + 27649 + 28225 + 28801 + 29377 + 29953 + 30529 + 31105 + 31681 + 32257 + 32833 + 33409 + 33985 + 34561 + 35137 + 35713 + 36289 + 36865 + 37441 + 38017 + 38593 + 39169 + 39745 + 40321 + 40897 + 41473 + 42049 + 42625 + 43201 + 43777 + 44353 + 44929 + 45505 + 46081 + 46657 + 47233 + 47809 + 48385 + 48961 + 49537 + 50113 + 50689 + 51265 + 51841 + 52417 + 52993 + 53569 + 54145 + 54721 + 55297 + 55873 *** Filtering. o/p nlines: 6211 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Writing data out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** ***** This program creates a real multi- ***** ***** look file from a complex single look ***** ***** file. The real values represent ***** ***** POWER, not amplitude. Multi-looking ***** ***** is performed by summing POWER in the ***** ***** azimuth direction only. ***** ***** ***** ************************************************** Enter the name of the complex file. Enter the desired number of looks. Enter the output file name output azspace, azres: 4.629600 21.60000 + 100 + 200 + 300 + 400 + 500 + 600 + 700 + 800 + 900 + 1000 + 1100 + 1200 + 1300 + 1400 + 1500 + 1600 + 1700 + 1800 + 1900 + 2000 + 2100 + 2200 + 2300 + 2400 + 2500 + 2600 + 2700 + 2800 + 2900 + 3000 + 3100 + 3200 + 3300 + 3400 + 3500 + 3600 + 3700 + 3800 + 3900 + 4000 + 4100 + 4200 + 4300 + 4400 + 4500 + 4600 + 4700 + 4800 + 4900 + 5000 + 5100 + 5200 + 5300 + 5400 + 5500 + 5600 + 5700 + 5800 + 5900 + 6000 + 6100 + 6200 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Interferometric Phase Generation ***** ***** ***** ***** This program calculates ***** ***** unwrapped phase from ***** ***** two complex single look files. ***** ***** ***** ************************************************** Enter the name of the top antenna complex file. size: 2560 55906 Enter number of looks Enter the name of the bottom antenna file. Enter the name of the correlation image file. Enter the cut-off for the correlation. Enter the maximum branch length. Enter the maximum phase noise in radians. Enter the name of the output phase file. size: 2560 6211 55906 Reading data and doing multi-looking. + 100 + 200 + 300 + 400 + 500 + 600 + 700 + 800 + 900 + 1000 + 1100 + 1200 + 1300 + 1400 + 1500 + 1600 + 1700 + 1800 + 1900 + 2000 + 2100 + 2200 + 2300 + 2400 + 2500 + 2600 + 2700 + 2800 + 2900 + 3000 + 3100 + 3200 + 3300 + 3400 + 3500 + 3600 + 3700 + 3800 + 3900 + 4000 + 4100 + 4200 + 4300 + 4400 + 4500 + 4600 + 4700 + 4800 + 4900 + 5000 + 5100 + 5200 + 5300 + 5400 + 5500 + 5600 + 5700 + 5800 + 5900 + 6000 + 6100 + 6200 Filtering the interferogram 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Unwrapping the phases Enter seed point index (0> Error file = SCREEN Reading from: ts1359_l.rdf interferogram width: 2560 number of lines/patch: 1024 start line: 3 number of lines: 6210 start sample: 1 end sample: 2550 Interferogram File: /mnt/air65/airops/1359/ts1359_l.phase SLC Amplitudes File: /mnt/air65/airops/1359/ts1359_l.amp Filtered Interferogram File: filt_int Phase Gradient File: phase_slp Gradient Corrected Corr. File: gradient_cc Unwrapped Phase File: /mnt/air65/airops/1359/ts1359_l.unw_phase_mag Unwrapping Flag File: unwrap_flag Branch Cut Tree Type: GZW number of realizations of the trees: 3 minimum unwrap correlation threshold: 0.5000 maximum unwrap correlation threshold: 0.9000 bootstrap phase variance threshold: 2.0000 min. points overlap for the bootstrap: 16 phase gradient neutron flag: 0 phase gradient neutron threshold (radians): 0.5000 intensity neutron flag: 1 intensity neutron thres. (sigma above mean): 10.0000 maximum correlation for intensity neutrons: 0.8000 azimuth buffer size: 1024 overlap between azimuth patches: 64 total overlap between azimuth patches: 128 offset in overlap region for phase bootstrap: 64 lines to increment for the next patch: 896 number of patches: 7 PATCH: 1 starting line: 2 lines read: 1024 starting output line: 1 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 INIT_UNW_RT: correlation threshold: 0.5000000 GEN_NEUTRONS: average image intensity: 7.34750E-04 GEN_NEUTRONS: image intensity standard deviation: 9.39353E-04 GEN_NEUTRONS: image intensity neutrons: 213 INIT_UNW_RT: number of residues: 0 INIT_UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees INIT_UNW_RT: patch residual charge: 0 INIT_UNW_RT: number of unwrapping seeds: 157 INIT_UNW_RT: largest component area: 0.0000 seed range: 12 WARNING: INIT_UNW_RT: no region of the patch could be unwrapped WARNING: INIT_UNW_RT: no unwrapped points available for phase bootstap PATCH: 2 starting line: 898 lines read: 1024 starting output line: 65 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 INIT_UNW_RT: correlation threshold: 0.5000000 GEN_NEUTRONS: average image intensity: 8.00676E-04 GEN_NEUTRONS: image intensity standard deviation: 9.74874E-04 GEN_NEUTRONS: image intensity neutrons: 183 INIT_UNW_RT: number of residues: 3 INIT_UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees INIT_UNW_RT: patch residual charge: 0 INIT_UNW_RT: number of unwrapping seeds: 157 seed: 1 range: 12 azimuth: 64 points unwrapped: 2578826 area fraction: 0.9985 average correlation of component: 0.9949 INIT_UNW_RT: largest component area: 0.9985 seed range: 12 INIT_UNW_RT: number of points for phase bootstrap: 7624 PATCH: 3 starting line: 1794 lines read: 1024 starting output line: 65 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 8.42308E-04 GEN_NEUTRONS: image intensity standard deviation: 9.77305E-04 GEN_NEUTRONS: image intensity neutrons: 224 UNW_RT: number of residues: 0 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 2580016 area fraction: 0.99897 average correlation of connected component: 0.9953 number of points for phase bootstrap: 7624 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2580016 area fraction: 0.9990 UNW_RT: phase bootstrap points for next patch: 7603 PATCH: 4 starting line: 2690 lines read: 1024 starting output line: 65 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 1.01266E-03 GEN_NEUTRONS: image intensity standard deviation: 1.24269E-03 GEN_NEUTRONS: image intensity neutrons: 275 UNW_RT: number of residues: 0 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 2574913 area fraction: 0.99700 average correlation of connected component: 0.9955 number of points for phase bootstrap: 7597 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2574913 area fraction: 0.9970 UNW_RT: phase bootstrap points for next patch: 7604 PATCH: 5 starting line: 3586 lines read: 1024 starting output line: 65 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 1.03323E-03 GEN_NEUTRONS: image intensity standard deviation: 1.37494E-03 GEN_NEUTRONS: image intensity neutrons: 235 UNW_RT: number of residues: 0 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 2574120 area fraction: 0.99669 average correlation of connected component: 0.9949 number of points for phase bootstrap: 7598 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2574120 area fraction: 0.9967 UNW_RT: phase bootstrap points for next patch: 7605 PATCH: 6 starting line: 4482 lines read: 1024 starting output line: 65 ending output line: 960 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 1020 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 9.39568E-04 GEN_NEUTRONS: image intensity standard deviation: 1.33996E-03 GEN_NEUTRONS: image intensity neutrons: 353 UNW_RT: number of residues: 0 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 2574282 area fraction: 0.99675 average correlation of connected component: 0.9946 number of points for phase bootstrap: 7599 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2574282 area fraction: 0.9968 UNW_RT: phase bootstrap points for next patch: 7605 PATCH: 7 starting line: 5378 lines read: 834 starting output line: 65 ending output line: 834 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 830 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 8.35234E-04 GEN_NEUTRONS: image intensity standard deviation: 1.08727E-03 GEN_NEUTRONS: image intensity neutrons: 307 UNW_RT: number of residues: 4 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 2036087 area fraction: 0.96971 average correlation of connected component: 1.0072 number of points for phase bootstrap: 7599 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2036087 area fraction: 0.9697 UNW_RT: phase bootstrap points for next patch: 7604 *** Normal Completion *** enter I/P file name (unw_phase_mag) /mnt/air65/airops/1359/ts1359_l.unw_phase_mag enter I/P file name for hdr (amp_file) /mnt/air65/airops/1359/ts1359_l.amp enter O/P file name for magitude file: /mnt/air65/airops/1359/ts1359_l.unw_vvvv enter O/P file name for phase file: /mnt/air65/airops/1359/ts1359_l.unw_intf Reading new header..STARTING at 0 r_new_hdr r_param_hdr ns nl offset : 2560 6211 20480 0 0 20480 1 10240 20480 100 1024000 532480 101 1034240 532480 200 2048000 1044480 201 2058240 1044480 300 3072000 1556480 301 3082240 1556480 400 4096000 2068480 401 4106240 2068480 500 5120000 2580480 501 5130240 2580480 600 6144000 3092480 601 6154240 3092480 700 7168000 3604480 701 7178240 3604480 800 8192000 4116480 801 8202240 4116480 900 9216000 4628480 901 9226240 4628480 1000 10240000 5140480 1001 10250240 5140480 1100 11264000 5652480 1101 11274240 5652480 1200 12288000 6164480 1201 12298240 6164480 1300 13312000 6676480 1301 13322240 6676480 1400 14336000 7188480 1401 14346240 7188480 1500 15360000 7700480 1501 15370240 7700480 1600 16384000 8212480 1601 16394240 8212480 1700 17408000 8724480 1701 17418240 8724480 1800 18432000 9236480 1801 18442240 9236480 1900 19456000 9748480 1901 19466240 9748480 2000 20480000 10260480 2001 20490240 10260480 2100 21504000 10772480 2101 21514240 10772480 2200 22528000 11284480 2201 22538240 11284480 2300 23552000 11796480 2301 23562240 11796480 2400 24576000 12308480 2401 24586240 12308480 2500 25600000 12820480 2501 25610240 12820480 2600 26624000 13332480 2601 26634240 13332480 2700 27648000 13844480 2701 27658240 13844480 2800 28672000 14356480 2801 28682240 14356480 2900 29696000 14868480 2901 29706240 14868480 3000 30720000 15380480 3001 30730240 15380480 3100 31744000 15892480 3101 31754240 15892480 3200 32768000 16404480 3201 32778240 16404480 3300 33792000 16916480 3301 33802240 16916480 3400 34816000 17428480 3401 34826240 17428480 3500 35840000 17940480 3501 35850240 17940480 3600 36864000 18452480 3601 36874240 18452480 3700 37888000 18964480 3701 37898240 18964480 3800 38912000 19476480 3801 38922240 19476480 3900 39936000 19988480 3901 39946240 19988480 4000 40960000 20500480 4001 40970240 20500480 4100 41984000 21012480 4101 41994240 21012480 4200 43008000 21524480 4201 43018240 21524480 4300 44032000 22036480 4301 44042240 22036480 4400 45056000 22548480 4401 45066240 22548480 4500 46080000 23060480 4501 46090240 23060480 4600 47104000 23572480 4601 47114240 23572480 4700 48128000 24084480 4701 48138240 24084480 4800 49152000 24596480 4801 49162240 24596480 4900 50176000 25108480 4901 50186240 25108480 5000 51200000 25620480 5001 51210240 25620480 5100 52224000 26132480 5101 52234240 26132480 5200 53248000 26644480 5201 53258240 26644480 5300 54272000 27156480 5301 54282240 27156480 5400 55296000 27668480 5401 55306240 27668480 5500 56320000 28180480 5501 56330240 28180480 5600 57344000 28692480 5601 57354240 28692480 5700 58368000 29204480 5701 58378240 29204480 5800 59392000 29716480 5801 59402240 29716480 5900 60416000 30228480 5901 60426240 30228480 6000 61440000 30740480 6001 61450240 30740480 6100 62464000 31252480 6101 62474240 31252480 6200 63488000 31764480 6201 63498240 31764480 6300 64512000 32276480 6301 64522240 32276480 6400 65536000 32788480 6401 65546240 32788480 6500 66560000 33300480 6501 66570240 33300480 6600 67584000 33812480 6601 67594240 33812480 6700 68608000 34324480 6701 68618240 34324480 6800 69632000 34836480 6801 69642240 34836480 6900 70656000 35348480 6901 70666240 35348480 7000 71680000 35860480 7001 71690240 35860480 7100 72704000 36372480 7101 72714240 36372480 7200 73728000 36884480 7201 73738240 36884480 7300 74752000 37396480 7301 74762240 37396480 7400 75776000 37908480 7401 75786240 37908480 7500 76800000 38420480 7501 76810240 38420480 7600 77824000 38932480 7601 77834240 38932480 7700 78848000 39444480 7701 78858240 39444480 7800 79872000 39956480 7801 79882240 39956480 7900 80896000 40468480 7901 80906240 40468480 8000 81920000 40980480 8001 81930240 40980480 8100 82944000 41492480 8101 82954240 41492480 8200 83968000 42004480 8201 83978240 42004480 8300 84992000 42516480 8301 85002240 42516480 8400 86016000 43028480 8401 86026240 43028480 8500 87040000 43540480 8501 87050240 43540480 8600 88064000 44052480 8601 88074240 44052480 8700 89088000 44564480 8701 89098240 44564480 8800 90112000 45076480 8801 90122240 45076480 8900 91136000 45588480 8901 91146240 45588480 9000 92160000 46100480 9001 92170240 46100480 9100 93184000 46612480 9101 93194240 46612480 9200 94208000 47124480 9201 94218240 47124480 9300 95232000 47636480 9301 95242240 47636480 9400 96256000 48148480 9401 96266240 48148480 9500 97280000 48660480 9501 97290240 48660480 9600 98304000 49172480 9601 98314240 49172480 9700 99328000 49684480 9701 99338240 49684480 9800 100352000 50196480 9801 100362240 50196480 9900 101376000 50708480 9901 101386240 50708480 10000 102400000 51220480 10001 102410240 51220480 10100 103424000 51732480 10101 103434240 51732480 10200 104448000 52244480 10201 104458240 52244480 10300 105472000 52756480 10301 105482240 52756480 10400 106496000 53268480 10401 106506240 53268480 10500 107520000 53780480 10501 107530240 53780480 10600 108544000 54292480 10601 108554240 54292480 10700 109568000 54804480 10701 109578240 54804480 10800 110592000 55316480 10801 110602240 55316480 10900 111616000 55828480 10901 111626240 55828480 11000 112640000 56340480 11001 112650240 56340480 11100 113664000 56852480 11101 113674240 56852480 11200 114688000 57364480 11201 114698240 57364480 11300 115712000 57876480 11301 115722240 57876480 11400 116736000 58388480 11401 116746240 58388480 11500 117760000 58900480 11501 117770240 58900480 11600 118784000 59412480 11601 118794240 59412480 11700 119808000 59924480 11701 119818240 59924480 11800 120832000 60436480 11801 120842240 60436480 11900 121856000 60948480 11901 121866240 60948480 12000 122880000 61460480 12001 122890240 61460480 12100 123904000 61972480 12101 123914240 61972480 12200 124928000 62484480 12201 124938240 62484480 12300 125952000 62996480 12301 125962240 62996480 12400 126976000 63508480 12401 126986240 63508480 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Phase Screen Generation Program ***** ***** ***** ***** This program calculates ***** ***** a phase screen ***** ***** using flat terrain area ***** ***** ***** ************************************************** Enter the name of the interferogram file. interfeogram fd: 3 interfeogram fd: 3 Enter the name of the raw lines file. raw line fd: 4 Enter the name of the output averaged lines file. Enter the file with the global line Without the extension. Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.hv00l Number of lines in mocomp file: 59000 Transmit leverarm: -7.0571043E-02 1.677678 1.921095 Receive levararm: -5.5424944E-02 1.026312 2.6845539E-02 Enter the motion compensation file name. Enter the name of the angle file. Enter the name of the output phase screen file Is this pingpong (long baseline) data (def=y)? Reading unwrapped phase Reading mask 6211 Ave phase (rad), standard dev: 0.1367981 0.5817643 Total number of pixels averaged: 26488890 Phase Adjustment in cycles: 2.1772092E-02 Multi-looking lines 6211 read lines.dat: 1 40960 read lines.dat: 1001 92200960 read lines.dat: 2001 184360960 read lines.dat: 3001 276520960 read lines.dat: 4001 368680960 read lines.dat: 5001 460840960 read lines.dat: 6001 553000960 Cosine angle calculation Writing cos(angle) out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** DEM Generation Program ***** ***** ***** ***** This program creates DEM from ***** ***** unwrapped phase file. ***** ***** ***** ************************************************** Enter the heoght bias: 0.0000000E+00 Enter the phase bias (# of 2pi) : 0.0000000E+00 Enter the name of the unwrapped phase file. ns np: 2560 6211 ***del_cp del_hp: 0.0000000E+00 0.0000000E+00 Enter the name of the raw lines file. Enter the file with the global line Please enter the name of the sensor file. sensor file:/mnt/air62/airops/1359/sensor.hv00l Transmit leverarm: -7.0571043E-02 1.677678 1.921095 Receive levararm: -5.5424944E-02 1.026312 2.6845539E-02 1st &total # lines: 1 59000 How many transmitting antennas for this combination? ping - pong mode long baseline = 2; 1 otherwise. Enter the phase screen filename. Enter the name of the peg point file. Enter the motion compensation file name. xv0,h_p c s xv: 1 7495.192 7495.181 60.86635 217.7969 -1.1625111E-02 1)xr yr zr: -5.5676188E-02 1.026235 2.9154841E-02 xv0 ,h_p c s xv: 100 7495.192 7495.177 60.85861 217.7969 -1.5592180E-02 100)xr yr zr: -5.5683658E-02 1.026232 2.9253228E-02 -14837.73 255.2820 7495.177 Enter the interf. calibration file name. HDDT: 98 ==xv0 h_a== 7495.192 7045.200 449.9922 ==r0 bw wavl dx dr== 8102.270 40.00000 0.2422600 0.5100000 3.331000 ==phbt phtp calf==band -1.000000 -83.80000 43.59380 L 0.2422600 40.00000 L-band 0 1 blocks , lines: 11 5 hddt ash cln cph0: 98 0.4000000 0.0000000E+00 45.90000 L-band cal ph: -82.80000 -83.80000 -1.000000 ==ph0 cal-dph cph0: 128.7000 -82.80000 45.90000 Enter the name of the DEM file. Enter the name of the s,c file. CP write NewHead: 0 1000 CP write ParHead: 10240 5000 Ambiguity number = 0.0000000E+00 Do I use this (y/n) Enter the ambiguity to use. Enter the flag for calibration output yes=1: 0 Reading unwrapped phase 6211 3 Reading mask Reading line files Translating the phases to height. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Along-track offset = -9892.886 Writing map out. cal_cp lines: 2560 6211 30720 file cal_cp.dat: 2560 6211 30720 ******************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Scattering area and Incidence Angle ***** ***** Calculations ***** ***** ***** ***** This program usdes the DEM to calculate the ***** ***** size of the scattering area to be used in ***** ***** data calibration. It also calculates the ***** ***** local incidence angle for each pixel. ***** ***** ***** ******************************************************** Enter the name of the dem input file. Enter the name of the correlation file. What is the lowest correlation to use? Enter the name of the scattering area file. Enter the name of the incidence angle file. Enter the global reference line filename headers_sgi: 3 5000 10240 10240 headers_sgi: 3 5000 10240 2560 Reading height information 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Calculating slopes... Range direction.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Azimuth direction.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Incidence angle and scattering area.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Filtering the results. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 Writing files out. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 5888 6144 ANTENNA_DIR:/u/argus0/airops/OPS/data_proc/ **************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Single Channel Radiometric Correction ***** ***** ***** ***** This program performs the radiometric ***** ***** correction on single channel data. It ***** ***** is intended to replace the old synoptic ***** ***** data. When topography is available, ***** ***** it is used when corrections are ***** ***** performed. ***** ***** ***** **************************************************** Enter the name of the input file. intf lun: 3 inunitvvvv lun: 3 Enter the name of output file. Select the polarization combination: (1) HH (2) HV (3) VH (4) VV Is this TOPSAR data? parhead(296:300): 98 HDDT: 98 Enter the name of the calibration file. attenuation: 6.000000 6.000000 6.000000 6.000000 +base diff: -1.190000 0.0000000E+00 -1.190000 0.0000000E+00 L-band dhh dhv dhh_l dcal_l: 88.31000 96.80000 139.6400 89.40000 topsar L-band: gain caltone: 139.6400 89.40000 -235.0400 ipol ahh,ahv,avh,AVV: 4 -7.190000 -6.000000 -7.190000 -235.0400 L-band ANT:/u/argus0/airops/OPS/data_proc/TOPSAR_LV98.ANT Enter the name of the motion compensation file. motion lun: 5 How many lines of raw data? cal vv gain, rosa cal: 89.50000 -235.0400 Input ground spacing ? cross-track ground spacing: 5.000000 Radiometric Correction Vectors file: /mnt/air65/airops/1359/ts1359_l.rad_vec vec_len Rn ha y0out dyout: 17688 16626.30 7045.200 4001.492 5.000000 3.331000 NSAMP vec_len rg_len nbytes: 2560 2211 17688 Enter the file with the data lines per pixel. lines lun: 6 Is there a DEM available? Enter the name of the DEM file. dem lun: 7 Byte offset to DEM data: 0 20480 Enter the name of the global reference file Enter the scattering area file name. sca lun: 8 Now doing the actual calibration 250 6211 500 6211 750 6211 1000 6211 1250 6211 1500 6211 1750 6211 2000 6211 2250 6211 2500 6211 2750 6211 3000 6211 3250 6211 3500 6211 3750 6211 4000 6211 4250 6211 4500 6211 4750 6211 5000 6211 5250 6211 5500 6211 5750 6211 6000 6211 peg points: 64.53551 -147.3541 -90.88881 64.53551 -147.3541 -90.88881 RICHARDSON270-1 NAME OF HEADER PARAMETER SITE NAME Richardson270-1 LATITUDE OF SITE (DEGREES) 64.4500 LONGITUDE OF SITE (DEGREES) -145.2500 IMAGE TITLE RICHARDSON270-1 HDDT ID 98 FREQUENCY L POLARIZATION VV CCT TYPE TS CCT ID 1359 ARCHIVAL FLAG 0 TRANSFER START FRAMECOUNT 2472559 PROCESSOR START FRAMECOUNT 2472559 LATITUDE AT START OF SCENE (DEGREES) 64.4990 LONGITUDE AT START OF SCENE (DEGREES) -147.0440 LATITUDE AT END OF SCENE (DEGREES) 64.4989 LONGITUDE AT END OF SCENE (DEGREES) -147.7781 APPROXIMATE STARTING HDDT FOOTAGE 173996 DATE OF ACQUISITION (GMT) 21-OCT-00 TIME OF ACQUISITION: GMT DAY 295 TIME OF ACQUISITION: SECONDS IN DAY 64399.0 RECORD WINDOW DURATION (MICROSECONDS) 64 FREQUENCIES COLLECTED PLC DIGITAL DELAY (MICROSECONDS) 86.0 CHIRP DELAY (MICROSECONDS) 32.5 PROCESSOR DELAY (RAW SAMPLES) 0 PRF AT START OF TRANSFER (HZ) 846.3 SAMPLING RATE (MHZ) 90.00 CENTER FREQUENCY AT VIDEO (MHZ) 22.50 CHIRP BANDWIDTH (MHZ) 40.00 TYPE OF CHIRP USED (ANALOG OR DIGITAL) DIGITAL PULSE LENGTH (MICROSECONDS) 10.00 PROCESSOR WAVELENGTH (METERS) 0.24226 BAROMETRIC ALTITUDE (METERS) 7920.5 RADAR ALTITUDE (METERS) 7045.2 ALTITUDE USED IN PROCESSOR (METERS) 7045.2 ELEVATION OF INVESTIGATOR SITE (METERS) 450 AIRCRAFT TRACK ANGLE (DEGREES) -91.2 AIRCRAFT YAW ANGLE (DEGREES) 0.0 AIRCRAFT PITCH ANGLE (DEGREES) 0.5 AIRCRAFT ROLL ANGLE (DEGREES) 0.2 PROCESSOR YAW ANGLE USED (DEGREES) VARIABLE PROCESSOR PITCH ANGLE USED (DEGREES) VARIABLE PROCESSOR ROLL ANGLE USED (DEGREES) VARIABLE NOMINAL PRF RATIO (HZ/KNOT) 1.000 NOMINAL PRF RATIO (1/METERS) 1.944 PRF RATIO CORRECTION FACTOR USED 1.0000 RANGE FFT SIZE 8192 AZIMUTH FFT SIZE 8192 FRAME SIZE (RANGE LINES) 4192 NUMBER OF FRAMES PROCESSED 16 RANGE ALIGNMENT DELAY USED,HH (MICROSEC) 0.0123 RANGE ALIGNMENT DELAY USED,HV (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,VH (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,VV (MICROSEC) 0.0000 NEAR SLANT RANGE (METERS) 8102.27 FAR SLANT RANGE (METERS) 16626.36 NEAR LOOK ANGLE (DEGREES) 29.6 FAR LOOK ANGLE (DEGEES) 64.9 NUMBER OF LOOKS PROCESSED IN AZIMUTH 9 NUMBER OF LOOKS PROCESSED IN RANGE 1 RANGE WEIGHTING USED COS2 RANGE WEIGHTING COEFFICIENT 0.100 AZIMUTH WEIGHTING USED NONE AZIMUTH WEIGHTING COEFFICIENT 1.000 PERCENT OF PRF BANDWIDTH PROCESSED 21.4 DESKEW FLAG (1=DESKEWED, 2=NOT DESKEWED) 1 SLANT RANGE SAMPLE SPACING (METERS) 3.3300 NOMINAL SLANT RANGE RESOLUTION (METERS) 5.5 AZIMUTH SAMPLE SPACING (METERS) 0.5100 NOMINAL AZIMUTH RESOLUTION (METERS) 21.6 NUMBER OF INTERPOLATION PNTS USED IN RMC 8 AZIMUTH REFERENCE SIZE/LOOK, NEAR RANGE VARIABLE AZIMUTH REFERENCE SIZE/LOOK, FAR RANGE VARIABLE IMAGE CENTER LATITUDE (DEGREES) 64.4605 IMAGE CENTER LONGITUDE (DEGREES) -147.4099 CALTONE VIDEO FREQUENCY 43.5938 CALTONE POWER MEASURED, DB, HH 86.5 CALTONE POWER MEASURED, DB, HV 89.5 CALTONE POWER MEASURED, DB, VH 86.6 CALTONE POWER MEASURED, DB, VV 89.5 CALIBRATION FACTOR APPLIED, DB, HH 0 CALIBRATION FACTOR APPLIED, DB, HV 0 CALIBRATION FACTOR APPLIED, DB, VH 0 CALIBRATION FACTOR APPLIED, DB, VV -146 MEASURED AND CORRECTED HV/VH POWER RATIO 0.000 MEASURED AND CORRECTED HV/VH PHASE (DEG) 0.0 CALTONE PHASE MEASURED, DEG, HH -1.0 CALTONE PHASE MEASURED, DEG, HV -83.8 CALTONE PHASE MEASURED, DEG, VH -0.9 CALTONE PHASE MEASURED, DEG, VV -83.9 GENERAL SCALE FACTOR 0.0 GPS ALTITUDE, M 6872.2 LATITUDE OF PEG POINT 64.5355148 LONGITUDE OF PEG POINT -147.3541412 HEADING AT PEG POINT -90.8888092 P-BAND RFI FILTER APPLIED FLAG NO P-BAND RFI FILTER ALGORITHM ALONG-TRACK OFFSET S0 (M) 0.00 CROSS-TRACK OFFSET C0 (M) 0.00 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 846.3000 40.00000 10.00000 proj4 nsampr 2211 15463.78 7045.200 4001.492 5.000000 8102.270 # header output no1 no2 no3: 3 1 1 1 Byte offset to cali header out: 0 Byte offset to calheader in: 0 Byte offset to dem header 17688 Byte offset to first data line: 26532 Peg point parameters: 64.53551 -147.3541 -90.88881 Offset Parameters: s0 (m) = -9892.900 c0 (m) = 4001.492 Reading data. 10240 2211 6211 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Initializing output array. Resampling the data: one pass (DEM version). + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2260492 2211 5750 -10000.00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 846.3000 40.00000 10.00000 nsampr O/p: 2211 15463.78 7045.200 4001.492 5.000000 # header output no1 no2 no3: 2 1 1 0 Byte offset to cali header out: 0 Byte offset to calheader in: 0 Byte offset to dem header 0 Byte offset to first data line: 17688 Reading data. 10240 2211 6211 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Initializing output array. Near Range = 4001.492 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Resampling the data: second pass. 2560 6211 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2259771 2211 5750 0.0000000E+00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 846.3000 40.00000 10.00000 nsampr O/p: 2211 15463.78 7045.200 4001.492 5.000000 # header output no1 no2 no3: 5 1 1 3 Byte offset to cali header out: 17688 Byte offset to calheader in: 20480 Byte offset to dem header 0 Byte offset to first data line: 44220 headers_sgi: 3 17688 30720 26532 projcr4 cal vector VV:ireclenr,nsampr,nbytes,calvecr VV cal vector: 8844 2211 17688 26532 Reading data. 10240 2211 6211 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Initializing output array. Near Range = 4001.492 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Resampling the data: second pass. 2560 6211 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2257105 2211 5750 0.0000000E+00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting BYTE data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 846.3000 40.00000 10.00000 nsampr O/p: 2211 15463.78 7045.200 4001.492 5.000000 Number of header no123: 4 1 3 0 Byte offset to calibration header: 0 Byte offset to dem header: 0 Byte offset to first data line: 8844 Reading data. 2560 2211 6211 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Initializing output array. Near Range = 4001.492 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Resampling the data: second pass--fill only. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Number of holes filled by WAYNE (byte) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting BYTE data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 846.3000 40.00000 10.00000 nsampr O/p: 2211 15463.78 7045.200 4001.492 5.000000 Number of header no123: 4 1 3 0 Byte offset to calibration header: 0 Byte offset to dem header: 0 Byte offset to first data line: 8844 Reading data. 2560 2211 6211 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Initializing output array. Near Range = 4001.492 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Resampling the data: second pass--fill only. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 Number of holes filled by WAYNE (byte) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 frequency that is currently being worked on Enter filename (c band demgr): Enter filename (l band demgr): Enter filename (c band vvgr): Enter filename (l band vvgr): Enter filename (c band incgr): Enter filename (l band incgr): Enter filename (c band corgr): Enter filename (l band corgr): working on l band now working on dem Reading dem header..STARTING at 17688 working on vv load values update param header only from passing in parameters working on inc load values update param header only from passing in parameters working on cor load values update param header only from passing in parameters Enter number of set to convert: Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 2211 2211 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 dumping the rest 56 dumping the rest 57 dumping the rest 58 dumping the rest 59 dumping the rest 60 dumping the rest 61 dumping the rest 62 dumping the rest 63 dumping the rest 64 dumping the rest 65 dumping the rest 66 dumping the rest 67 dumping the rest 68 dumping the rest 69 dumping the rest 70 dumping the rest 71 dumping the rest 72 dumping the rest 73 dumping the rest 74 dumping the rest 75 dumping the rest 76 dumping the rest 77 dumping the rest 78 dumping the rest 79 dumping the rest 80 dumping the rest 81 dumping the rest 82 dumping the rest 83 dumping the rest 84 dumping the rest 85 dumping the rest 86 dumping the rest 87 dumping the rest 88 dumping the rest 89 dumping the rest 90 dumping the rest 91 dumping the rest 92 dumping the rest 93 dumping the rest 94 dumping the rest 95 dumping the rest 96 dumping the rest 97 dumping the rest 98 dumping the rest 99 dumping the rest 100 dumping the rest 101 dumping the rest 102 dumping the rest 103 dumping the rest 104 dumping the rest 105 dumping the rest 106 dumping the rest 107 dumping the rest 108 dumping the rest 109 Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 2211 2211 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 dumping the rest 56 dumping the rest 57 dumping the rest 58 dumping the rest 59 dumping the rest 60 dumping the rest 61 dumping the rest 62 dumping the rest 63 dumping the rest 64 dumping the rest 65 dumping the rest 66 dumping the rest 67 dumping the rest 68 dumping the rest 69 dumping the rest 70 dumping the rest 71 dumping the rest 72 dumping the rest 73 dumping the rest 74 dumping the rest 75 dumping the rest 76 dumping the rest 77 dumping the rest 78 dumping the rest 79 dumping the rest 80 dumping the rest 81 dumping the rest 82 dumping the rest 83 dumping the rest 84 dumping the rest 85 dumping the rest 86 dumping the rest 87 dumping the rest 88 dumping the rest 89 dumping the rest 90 dumping the rest 91 dumping the rest 92 dumping the rest 93 dumping the rest 94 dumping the rest 95 dumping the rest 96 dumping the rest 97 dumping the rest 98 dumping the rest 99 dumping the rest 100 dumping the rest 101 dumping the rest 102 dumping the rest 103 dumping the rest 104 dumping the rest 105 dumping the rest 106 dumping the rest 107 dumping the rest 108 dumping the rest 109 Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 8844 0 26532 8844 0 53064 8844 0 79596 8844 0 26532 8844 0 53064 8844 0 26532 8844 0 53064 8844 0 26532 8844 0 53064 106128 17688 8844 8844 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 dumping the rest 56 dumping the rest 57 dumping the rest 58 dumping the rest 59 dumping the rest 60 dumping the rest 61 dumping the rest 62 dumping the rest 63 dumping the rest 64 dumping the rest 65 dumping the rest 66 dumping the rest 67 dumping the rest 68 dumping the rest 69 dumping the rest 70 dumping the rest 71 dumping the rest 72 dumping the rest 73 dumping the rest 74 dumping the rest 75 dumping the rest 76 dumping the rest 77 dumping the rest 78 dumping the rest 79 dumping the rest 80 dumping the rest 81 dumping the rest 82 dumping the rest 83 dumping the rest 84 dumping the rest 85 dumping the rest 86 dumping the rest 87 dumping the rest 88 dumping the rest 89 dumping the rest 90 dumping the rest 91 dumping the rest 92 dumping the rest 93 dumping the rest 94 dumping the rest 95 dumping the rest 96 dumping the rest 97 dumping the rest 98 dumping the rest 99 dumping the rest 100 dumping the rest 101 dumping the rest 102 dumping the rest 103 dumping the rest 104 dumping the rest 105 dumping the rest 106 dumping the rest 107 dumping the rest 108 dumping the rest 109 Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 8844 8844 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 dumping the rest 56 dumping the rest 57 dumping the rest 58 dumping the rest 59 dumping the rest 60 dumping the rest 61 dumping the rest 62 dumping the rest 63 dumping the rest 64 dumping the rest 65 dumping the rest 66 dumping the rest 67 dumping the rest 68 dumping the rest 69 dumping the rest 70 dumping the rest 71 dumping the rest 72 dumping the rest 73 dumping the rest 74 dumping the rest 75 dumping the rest 76 dumping the rest 77 dumping the rest 78 dumping the rest 79 dumping the rest 80 dumping the rest 81 dumping the rest 82 dumping the rest 83 dumping the rest 84 dumping the rest 85 dumping the rest 86 dumping the rest 87 dumping the rest 88 dumping the rest 89 dumping the rest 90 dumping the rest 91 dumping the rest 92 dumping the rest 93 dumping the rest 94 dumping the rest 95 dumping the rest 96 dumping the rest 97 dumping the rest 98 dumping the rest 99 dumping the rest 100 dumping the rest 101 dumping the rest 102 dumping the rest 103 dumping the rest 104 dumping the rest 105 dumping the rest 106 dumping the rest 107 dumping the rest 108 dumping the rest 109 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** DEM Format Program ***** ***** ***** ***** This program outputs heights in ***** ***** 16 bit numbers. ***** ***** ***** ************************************************** Enter the name of the file to be formatted. ibytesdemheadin: 17688 Reading the data .. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 Enter the output file name. ibytesdemheadin: 17688 Finding the maximum and minimum heights.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 Minimum, Maximum heights: 158.0525 425.5746 Suggest we use 1.6328257E-02 as increment. Do you agree? Changing to INTEGER*2 format... 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** CVV Format Program ***** ***** ***** ***** This program outputs C-band RCS in ***** ***** 16 bit numbers. ***** ***** ***** ************************************************** Enter the name of the file to be formatted. ns np offset: 2211 5859 106128 ns np offset: 2211 5859 106128 ibytesvectorin nvector: 79596 17688 Reading the data .. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 Finding the average RCS.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 Average RCS (dB) = -26.79798 Enter the output file name. cal offset: 13266 1 2 data offset: 35376 1 2 1 4 17688 Changing to INTEGER*2 format... 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 5632 *** Convert real*4 to Byte image *** Enter data file to be converted: /mnt/air65/airops/1359/ts1359_l.vvgr channel= 3 Reading the header. New header present. Record length = 8844 Number of samples per line = 2211 Number of lines in image = 5859 Offset to data = 106128 Status = 0 New header is OK nsamp,nlines,ioff 2211 5859 106128 Enter data file for saving byte output: 33 0.0000000E+00 0.0000000E+00 65 0.0000000E+00 0.0000000E+00 97 0.0000000E+00 0.0000000E+00 129 0.0000000E+00 0.0000000E+00 161 0.0000000E+00 0.0000000E+00 193 0.0000000E+00 0.0000000E+00 225 0.0000000E+00 0.0000000E+00 257 0.0000000E+00 0.0000000E+00 289 0.0000000E+00 0.0000000E+00 321 0.0000000E+00 0.0000000E+00 353 0.0000000E+00 0.0000000E+00 385 0.0000000E+00 0.0000000E+00 417 0.0000000E+00 0.0000000E+00 449 0.0000000E+00 0.0000000E+00 481 0.0000000E+00 0.0000000E+00 513 0.0000000E+00 0.0000000E+00 545 0.0000000E+00 0.0000000E+00 577 0.0000000E+00 0.0000000E+00 609 0.0000000E+00 0.0000000E+00 641 0.0000000E+00 0.0000000E+00 673 0.0000000E+00 0.0000000E+00 705 0.0000000E+00 0.0000000E+00 737 0.0000000E+00 0.0000000E+00 769 0.0000000E+00 0.0000000E+00 801 0.0000000E+00 0.0000000E+00 833 0.0000000E+00 0.0000000E+00 865 0.0000000E+00 0.0000000E+00 897 0.2290255 0.0000000E+00 929 0.2388331 0.0000000E+00 961 0.2779624 0.0000000E+00 993 0.2779624 0.0000000E+00 1025 0.2779624 0.0000000E+00 1057 0.2779624 0.0000000E+00 1089 0.2779624 0.0000000E+00 1121 0.2779624 0.0000000E+00 1153 0.2779624 0.0000000E+00 1185 0.2779624 0.0000000E+00 1217 0.2779624 0.0000000E+00 1249 0.2779624 0.0000000E+00 1281 0.2779624 0.0000000E+00 1313 0.2779624 0.0000000E+00 1345 0.2779624 0.0000000E+00 1377 0.2786045 0.0000000E+00 1409 0.2786045 0.0000000E+00 1441 0.2786045 0.0000000E+00 1473 0.2786045 0.0000000E+00 1505 0.2786045 0.0000000E+00 1537 0.2786045 0.0000000E+00 1569 0.2786045 0.0000000E+00 1601 0.2928843 0.0000000E+00 1633 0.2928843 0.0000000E+00 1665 0.3493292 0.0000000E+00 1697 0.3493292 0.0000000E+00 1729 0.3802283 0.0000000E+00 1761 0.5442159 0.0000000E+00 1793 0.5442159 0.0000000E+00 1825 0.5442159 0.0000000E+00 1857 0.5442159 0.0000000E+00 1889 0.5442159 0.0000000E+00 1921 0.5442159 0.0000000E+00 1953 0.5442159 0.0000000E+00 1985 0.5442159 0.0000000E+00 2017 0.5442159 0.0000000E+00 2049 0.5442159 0.0000000E+00 2081 0.5442159 0.0000000E+00 2113 0.5442159 0.0000000E+00 2145 0.5442159 0.0000000E+00 2177 0.5442159 0.0000000E+00 2209 0.5442159 0.0000000E+00 2241 0.5442159 0.0000000E+00 2273 0.5442159 0.0000000E+00 2305 0.5442159 0.0000000E+00 2337 0.5442159 0.0000000E+00 2369 0.5442159 0.0000000E+00 2401 0.5442159 0.0000000E+00 2433 0.5442159 0.0000000E+00 2465 0.5442159 0.0000000E+00 2497 0.5442159 0.0000000E+00 2529 0.5442159 0.0000000E+00 2561 0.5442159 0.0000000E+00 2593 0.5442159 0.0000000E+00 2625 0.5442159 0.0000000E+00 2657 0.5442159 0.0000000E+00 2689 0.5442159 0.0000000E+00 2721 0.5442159 0.0000000E+00 2753 0.5442159 0.0000000E+00 2785 0.5442159 0.0000000E+00 2817 0.5442159 0.0000000E+00 2849 0.5442159 0.0000000E+00 2881 0.5442159 0.0000000E+00 2913 0.5442159 0.0000000E+00 2945 0.5442159 0.0000000E+00 2977 0.5442159 0.0000000E+00 3009 0.5442159 0.0000000E+00 3041 0.5442159 0.0000000E+00 3073 0.5442159 0.0000000E+00 3105 0.5442159 0.0000000E+00 3137 0.5442159 0.0000000E+00 3169 0.5442159 0.0000000E+00 3201 0.5442159 0.0000000E+00 3233 0.5442159 0.0000000E+00 3265 0.5442159 0.0000000E+00 3297 0.5442159 0.0000000E+00 3329 0.5442159 0.0000000E+00 3361 0.5442159 0.0000000E+00 3393 0.5442159 0.0000000E+00 3425 0.5442159 0.0000000E+00 3457 0.5442159 0.0000000E+00 3489 0.5442159 0.0000000E+00 3521 0.5442159 0.0000000E+00 3553 0.5442159 0.0000000E+00 3585 0.5442159 0.0000000E+00 3617 0.5442159 0.0000000E+00 3649 0.5442159 0.0000000E+00 3681 0.5442159 0.0000000E+00 3713 0.5442159 0.0000000E+00 3745 0.5442159 0.0000000E+00 3777 0.5442159 0.0000000E+00 3809 0.5442159 0.0000000E+00 3841 0.5442159 0.0000000E+00 3873 0.5442159 0.0000000E+00 3905 0.5442159 0.0000000E+00 3937 0.5442159 0.0000000E+00 3969 0.5442159 0.0000000E+00 4001 0.5442159 0.0000000E+00 4033 0.5442159 0.0000000E+00 4065 0.5442159 0.0000000E+00 4097 0.5645130 0.0000000E+00 4129 0.5645130 0.0000000E+00 4161 0.5645130 0.0000000E+00 4193 0.5645130 0.0000000E+00 4225 0.5645130 0.0000000E+00 4257 0.5645130 0.0000000E+00 4289 0.5645130 0.0000000E+00 4321 0.5645130 0.0000000E+00 4353 0.5645130 0.0000000E+00 4385 0.5645130 0.0000000E+00 4417 0.5645130 0.0000000E+00 4449 0.5645130 0.0000000E+00 4481 0.5645130 0.0000000E+00 4513 0.5645130 0.0000000E+00 4545 0.5645130 0.0000000E+00 4577 0.5645130 0.0000000E+00 4609 0.5645130 0.0000000E+00 4641 0.5645130 0.0000000E+00 4673 0.5645130 0.0000000E+00 4705 0.5645130 0.0000000E+00 4737 0.5645130 0.0000000E+00 4769 0.5645130 0.0000000E+00 4801 0.5645130 0.0000000E+00 4833 0.5645130 0.0000000E+00 4865 0.5645130 0.0000000E+00 4897 0.5645130 0.0000000E+00 4929 0.5645130 0.0000000E+00 4961 0.5645130 0.0000000E+00 4993 0.5645130 0.0000000E+00 5025 0.5645130 0.0000000E+00 5057 0.5645130 0.0000000E+00 5089 0.5645130 0.0000000E+00 5121 0.5645130 0.0000000E+00 5153 0.5645130 0.0000000E+00 5185 0.5645130 0.0000000E+00 5217 0.5645130 0.0000000E+00 5249 0.5645130 0.0000000E+00 5281 0.5645130 0.0000000E+00 5313 0.5645130 0.0000000E+00 5345 0.5645130 0.0000000E+00 5377 0.5645130 0.0000000E+00 5409 0.5645130 0.0000000E+00 5441 0.5645130 0.0000000E+00 5473 0.5645130 0.0000000E+00 5505 0.5645130 0.0000000E+00 5537 0.5645130 0.0000000E+00 5569 0.5645130 0.0000000E+00 5601 0.5645130 0.0000000E+00 5633 0.5645130 0.0000000E+00 5665 0.5645130 0.0000000E+00 5697 0.5645130 0.0000000E+00 5729 0.5645130 0.0000000E+00 5761 0.5645130 0.0000000E+00 5793 0.5645130 0.0000000E+00 5825 0.5645130 0.0000000E+00 5857 0.5645130 0.0000000E+00 Min, Max r_scale = 0.0000000E+00 0.5645130 0.5000000 Do you want to change these variables? yes=1 0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050 1100 1150 1200 1250 1300 1350 1400 1450 1500 1550 1600 1650 1700 1750 1800 1850 1900 1950 2000 2050 2100 2150 2200 2250 2300 2350 2400 2450 2500 2550 2600 2650 2700 2750 2800 2850 2900 2950 3000 3050 3100 3150 3200 3250 3300 3350 3400 3450 3500 3550 3600 3650 3700 3750 3800 3850 3900 3950 4000 4050 4100 4150 4200 4250 4300 4350 4400 4450 4500 4550 4600 4650 4700 4750 4800 4850 4900 4950 5000 5050 5100 5150 5200 5250 5300 5350 5400 5450 5500 5550 5600 5650 5700 5750 5800 5850 done Wed Mar 20 22:35:50 PST 2002 Wed Mar 20 22:35:50 PST 2002 Wed Mar 20 22:35:50 PST 2002 No match No match ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** 02001 tape error DOY 40 instead of 268 Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -1.027807 hddt: 98 Reading and decoding header file... Finished reading the header file... Data acquired after 1995 January. i_yearind subcomm mon i_1995 : 8 1 Operator Comments: - - - - - - - - - - - - - - - - - - - - - EGI GPS started to report good FOM and SV status, blended time i s goody bad but the position and speed look close; low drift; a lmost complete undercast; smooth ride; Ashtech looks OK William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1359/p.hdr Which frequency? (C,L or P) frq:P number of channels transferred: # channels: 4 number of bytes/chan: # bytes: 0 total # of lines transferred: total lines: 59000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1359/ts1359_p.par enter first header to read: the 1st line: 1 enter year data taken: year: 0 enter HDDT ID for raw data: SONY tapeid: 98 enter HDDT TID <0> : Sony TID: 173996 enter the title of image: title image RICHARDSON270-1 enter the CCT (job) ID: cct: 1359 target:Richardson270-1 prod ID(cctid):1359 chrp_delay from subcomm header tapeID: 32.45000 98 HDR Version: 000214 BW L C P: 404020 fs: 909045 Pulse W L C P:101010 1998 P-band fc? 11.25000 alt used in processor: 450.0000 gen_par_aipt P-band fs ntapeid: 45.00000 98 idelay,chrp_delay,xdelay 86 32.45000 -1.027807 near range delr windelay: 8181.007 6.662055 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 chrp_bndx f_cal 20.00000 21.44531 Parameter header created .. IGI lat: 1 64.53672749921679 IGI lon: 1 -147.0369177963585 *get_subcomm_aipt year*10+mon; i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 86.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):86 86.00000000000000 startrng(m) elecdelay: 8181.008602849635 3.2450000000000003E-05 >> start range = 8181.0086 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 9 0 >> ratn_phv = 0 5 0 >> ratn_pvh = 0 3 0 >> ratn_pvv = 0 11 0 >> ratn_lhh = 0 13 0 >> ratn_lhv = 0 13 0 >> ratn_lvh = 0 13 0 >> ratn_lvv = 0 13 0 >> ratn_chh = 0 11 10 >> ratn_chv = 0 11 10 >> ratn_cvh = 0 11 10 >> ratn_cvv = 0 11 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN rec,inu_lat,inu_lon,dads_lat,dads_lon,dads_balt 117888 64.53672749921679 -147.0369177963585 64.53666666666666 -147.0233333333333 7922.666400000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 7227.417600000001 0.4000000000000000 0.4000000000000000 269.0000000000000 0.5000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 64.53672027587891 -147.0375061035156 0.0000000000000000E+00 0.0000000000000000E+00 25422799.00000000 ****gps_frame**** 2472322 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8181.008602849635 1 921 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 2531036.233441911 34032.63934234110 gpsT doy: 295 10 21 gpsT: 25422799.27900000 2000 10 21 17 53 19 0.2790000000000000 week# 1 F10 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 582799.4073300001 EGI msg 1 msl alt(from eo17): 6866.029835449219 EGI msg 1 wander angle(from eo17): -93.65295410156250 EGI09 lat: 64.53672749921679 EGI09 lon: -147.0369177963585 EGI09 alt: 6138.000000000000 EGI09 Height_above_ellipsoid - height_msl: 5.181600000000000 EGI-09 word11 gps Vel East m/s: -190.9338389259339 EGI-09 word12 gps Vel North m/s: -4.414084638977051 EGI-09 word13 gps Vel Upper m/s: 0.5135951042175293 EGI-09 GPS Position FOM : 3.000000000000000 EGI-09 flag: for 4 satellites in operation: 1 EGI-09 flag: for at least 1 satellite in operation: 0 EGI-09 flag: for EGR invalid=1: 0 EGI-09 flag: for EGR RPU fail=1: 0 EGI-09 flag: for EGR AE fail=1: 0 EGI-09 flag: for EGR Battery fail=1: 0 EO-17(13or26)blended FOM 1 538 98FF EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 64384.92987060547 EGI-09 Time Valid: 3.088896000000000 EGI-18 dec32 Vel North m/s: -8.459745407104492 EGI-18 dec32 Vel East m/s: -130.8010864257813 EGI-18 dec32 Vel Upper m/s: 0.3098876476287842 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 51.87500000000000 48.50000000000000 75.75000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.3242187500000000E-03 8.6669921875000000E-03 1.4526367187500000E-02 EGI-13 GPS sigma roll/pitch/az: 5.4641513360102008E-04 5.4641513360102008E-04 4.1527550153677524E-03 r_time_tag_17: 0.2472960000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: -11.68757497558594 217.4831506530762 -0.1103502410888672 EO17 wrander az roll pitch az: -1.634552403291394 0.1043701171875000 0.4614257812500000 -91.17004394531250 EO17 r_cnexx/y/z: 0.4295562449842691 1.8633993342518806E-02 0.9028478609398007 EO17 r_lon: -147.0438861753792 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E 48DF D6B8 dec64: DD85 487B 80FD 6B8D r_hwgpstime(1): 582797.9899223950 r_utctime_18: 64384.98992239299 EGI-18 dec32 lat: 64.53668844845545 EGI-18 dec32 lon: -147.0359411309657 EGI-18 dec32 sea level alt: 7479.427734375000 EGI-18 dec32 WGS84 alt: 7484.869140625000 WGS84_alt-msl_alt: 5.441406250000000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 2 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 1 e22_msg(5) satellite 3: 5 e22_msg(7) satellite 4: 1D e22_msg(9) satellite 5: 14 EGI-22 Tdop: 3.093750000000000 2.843750000000000 1.734375000000000 2.250000000000000 1.234375000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -2.841600000000000 geod_utctime time_tag_17 time_valid: 64384.92987060547 4.441560000000001 3.088896000000000 r_utc_ttag r_del_time_18: 582799.2825346075 2.0000000000000001E-09 J2000 r_hwtime = 25422799.40733000 GPS J2000 time = 25422799.28253461 Message 1 Time = 25422799.40733000 INS Time = 0.3722880000000000 Roll angle = 0.1153564453125000 Pitch angle = 0.4614257812500000 Heading angle = -91.17004394531250 Long. acc = 8.0000000000000002E-02 Lat. acc = -8.0000000000000002E-02 Norm. acc = -9.790000000000001 East vel. = -217.7850000000000 North vel. = -2.249000000000000 Up vel. = -0.1120000000000000 True Grnd Spd = 217.7968750000000 Altitude = 6871.000000000000 Latitude = 64.53496545553207 Longitude = -147.0444527082145 Message 6 Week = 60 GPS Time = 25422799.28253461 GDOP = 3.093750000000000 PDOP = 2.843750000000000 HDOP = 1.734375000000000 VDOP = 2.250000000000000 TDOP = 1.234375000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 64.53668844845545 GPS Lon = -147.0359411309657 GPS Alt = 7484.869140625000 GPS East Vel = -130.8010864257813 GPS North Vel = -8.459745407104492 GPS Up Vel = 0.3098876476287842 Message 4 Sigma Pos x = 51.87500000000000 Sigma Pos y = 48.50000000000000 Sigma Pos z = 75.75000000000000 Sigma Vel x = 7.3242187500000000E-03 Sigma Vel y = 8.6669921875000000E-03 Sigma Vel z = 1.4526367187500000E-02 Message 7 Satellites used = 20 1 5 29 20 0 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 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Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Honeywell EGI98Fall for gps-hgt 8937 20008 6872.244444295027 Done decoding data from header array... Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25422799.2790 25422940.0670 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41731 -92.05444 -90.85693 0.3508634 0 trc -90.77667 -91.19164 -90.38178 0.2695506 0 tgs 216.98597 216.46875 217.79688 0.4741712 0 roll 0.13832 -0.79102 0.51086 0.3043874 0 pitch 0.51765 0.42297 0.60425 0.0475950 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10966 -147.04445 0.0188433 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82872 7220.40720 7272.52800 8.7072295 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.97205 6872.41466 0.1294044 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67505 -147.04445 0.1820150 0 hwalt 6874.99191 6871.97205 6877.47842 1.9090197 0 hwev -216.96904 -217.79500 -216.45100 0.4853267 0 hwnv -2.94187 -4.50300 -1.44900 1.0153794 0 hwuv -0.09021 -0.44500 0.15300 0.1174736 0 hwroll 0.13814 -0.79102 0.51086 0.3045462 0 hwpitch 0.51778 0.42297 0.60425 0.0475771 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509856 0 hwtrc -90.77732 -91.19164 -90.38178 0.2696450 0 hwtgs 216.98414 216.46875 217.79688 0.4735069 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... startrec+1,startrec+nrec-1: 2 117888 1 117888 hdrgpssec-1 t_prf-1 117888 25422939.06734767 1.1881999671459198E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 921 25422938.00000000 2589548 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25422800.00000000 i_yearind 20008 GPS time for first pulse = 25422799.27941999 25422799.27900000 New startrecT: 25422799.27941999 25422799.40733000 1 New start and number of records = 110 117743 New start and number of blocks = 1 921 +6+r_hwhead(10/200): 0.0000000000000000E+00 -5.4931640625000000E-03 -91.17004394531250 GPS trend coefficients = 0.2829942787700419 -1.477262220312721 1.367087980251437 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00118 0.00119 0.0000026 0 hdg -91.41736 -92.05444 -90.85693 0.3508594 0 trc -90.77672 -91.19164 -90.38178 0.2695653 0 tgs 216.98536 216.46875 217.79688 0.4737697 0 roll 0.13824 -0.79102 0.50537 0.3045045 0 pitch 0.51768 0.42297 0.60425 0.0475770 0 delx 0.25729 0.00000 0.25737 0.0007503 0 lati 64.53482 64.53468 64.53497 0.0000822 0 loni -147.07706 -147.10959 -147.04452 0.0188430 0 latd 64.53535 64.53333 64.53667 0.0011693 0 lond -147.33745 -147.65167 -147.02333 0.1823237 0 balt 7920.47356 7918.09440 7922.97120 1.2355633 0 ralt 7248.82839 7220.40720 7272.52800 8.7045964 0 dpth 0.48860 0.40000 0.60000 0.0597706 0 droll 0.38599 -0.60000 0.80000 0.3105271 0 thd 268.80152 268.20000 269.30000 0.3447416 0 dad 0.45147 0.30000 0.70000 0.1054463 0 latg 64.53522 64.53311 64.53672 0.0010213 0 long -147.35200 -147.66492 -147.03751 0.1821448 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 6872.17037 6871.96401 6872.27357 0.0733314 0 phh_aten 9.00000 9.00000 9.00000 0.0000000 0 phv_aten 5.00000 5.00000 5.00000 0.0000000 0 pvh_aten 3.00000 3.00000 3.00000 0.0000000 0 pvv_aten 11.00000 11.00000 11.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 0.0000000 0 chh_aten 21.00000 21.00000 21.00000 0.0000000 0 chv_aten 21.00000 21.00000 21.00000 0.0000000 0 cvh_aten 21.00000 21.00000 21.00000 0.0000000 0 cvv_aten 21.00000 21.00000 21.00000 0.0000000 0 hwlat 64.53345 64.53130 64.53497 0.0010390 0 hwlon -147.36022 -147.67498 -147.04452 0.1820150 0 hwalt 6874.99191 6871.97207 6877.47840 1.9090194 0 hwev -216.96904 -217.79500 -216.45100 0.4853269 0 hwnv -2.94187 -4.50300 -1.44900 1.0153801 0 hwuv -0.09021 -0.44500 0.15300 0.1174735 0 hwroll 0.13811 -0.79102 0.50537 0.3045445 0 hwpitch 0.51777 0.42297 0.60425 0.0475749 0 hwhdg -91.41815 -92.05444 -90.85693 0.3509732 0 hwtrc -90.77732 -91.19137 -90.38231 0.2696166 0 hwtgs 216.98420 216.46875 217.79688 0.4735351 0 Finished final analysis of data... Average Barometric Altitude = 7920.473560912081 Average Radar Altitude = 7248.828393485350 Average GPS Altitude = 6872.170367048145 >>Record # : 128 >>GPS Stuff = 0.00 0 0 0 0 >>Record # : 0 >>GPS Stuff = Lock vertical accel to OLD gps(+1) or bar(-1) or IGI (0) ==> DGPS=2 OLDgps=1 0=EGI/igi -1=barometer 2 i_yeaReading from stdin rind DGPS 2000 : 20008 DGPS(PacRim2000) cmd_pbn: /u/argus0/airops/OPS/QA_Proc/pbn_decode.pl /mnt/air62/airops/1359/p.hdr > dgps.txyz ->ngpslock dgps: 2 ->Read DGPS & got txyz(trgps),gps_sch,peg point: dgps.txyz DGPS file: dgps.txyz Searching GPS data file for corresponding data... dgps_pacrim2k line: 924 Number of valid data points = 924 Start time GPS data = 25422798.00002220 End time GPS data = 25422938.00002177 Positions and Distances Start position = 64.5360586 -147.1960009 7491.434 End position = 64.5343785 -147.5118135 7489.710 Loxodromic Heading (deg) = -90.7080131 Loxodromic Distance (km) = 15158.1520749 Geodesic Heading (deg) = -90.5654456 Geodesic Distance (km) = 15158.1362549 Peg latitude and longitude = 64.5355159 -147.3541361 Peg heading = -90.8888123 Rotation matrix First row = -0.362028153 -0.551172665 -0.751760806 Second row = -0.231935192 0.834364556 -0.500041853 Third row = 0.902851972 -0.006669442 -0.429899797 Translation vector Vector = -0.69411 -0.44469 -38653.55965 Local Radius of Curvature = 6395608.956179346 startrec dgps_pacrim2k: 110 117743 **i_ts: 110 25422799.40800000 25422798.00002220 1.407977800816298 Start and end pulse used = 110 116148 gmt sec s e = 25422799.40800000 25422936.99987973 dgps sec s = 25422798.00002220 25422937.00002178 r_tsv: -2309758.905137389 -1497824.918705536 5742457.621946460 r_tev: -2326326.121893520 -1472636.015751767 5742280.883069825 lat/lon r_geodis: 1.126378495408110 -2.566289013407446 1.126315733833988 -2.577239234879388 30114.13310583908 Ellipsoidal delta s (m) = 0.2595195807049335 DGPS... lat/lon r_geodis: 9.6977775030725551E-06 -2.3758585080489469E-03 -4.4441293614411313E-07 2.3326944703466182E-03 30114.13345847621 Delta s on reference surface = 0.2595195837439133 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1359/ts1359_p.peg DGPS Peg latitude and longitude = 64.5355159 -147.3541361 DGPS Peg heading = -90.8888123 == dgps_egi == r_hwheadf: -91.17004394531250 -1.0986328125000000E-02 0.0000000000000000E+00 110 Making final angle restore...Honeywell -91.17004394531250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 2.4337037346356243E-04 Standard deviation of difference = 2.0624109116932946E-04 Making fits... Vertical fit coefficients = 7495.192152808554 -9.0302881305518667E-02 1.5091061216199186E-04 Cross track fit coefficients = -194.6020313630832 3.8490070952079236E-02 -3.6789710074577181E-04 Along track fit coefficients = -43.54890057780549 -0.3304737129536273 1.1788842991683236E-03 avg alt (1): 7495.192152808554 alt r_avgrefh: 7492.608619266713 i_yearind p-hgt t-hgt: 20008 7495.192152808554 450.0000 avg_ralt tmp: 7045.192382812500 7045.192 enter proc_alt: -1.000000 yaw: -1.1027005E-03 -91.17004394531250 -91.16894124482687 110 tape #: 98 PRF at the start of the run: 846.3100641614319 846.3101 Miscellaneous Information Start range = 8181.008602849635 Start ground range = 4158.625499977183 Time orgin = 25422799.27941999 Pulse spacing = 0.2572936563082597 First frame = 2472668 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /mnt/air65/airops/1359/ts1359_p.mocomp Name of the H-pol motion compensation file? /mnt/air65/airops/1359/ts1359_p.mocomph Name of the V-pol motion compensation file? /mnt/air65/airops/1359/ts1359_p.mocompv How many lines per polarization? 59000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 + 90001 + 100001 + 110001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PHH Enter the paramater file name. /mnt/air65/airops/1359/ts1359_p.par Enter the raw data file name. /mnt/air62/airops/1359/p_hh Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_p.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_p_hh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_p_hh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_p_hh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_p_hh.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 45.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 21.44530 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1073 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (28.18383,0.0000000E+00) (33.82059,0.0000000E+00) (-28.18383,0.0000000E+00) attenuation (dB): 9.000001 no_loop: 64 Pulse#/no_loop: 1 1073 2.4967629E+09 plot_x: 920 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 93.98122 Power RMS: 5.4126587E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 50010.52 Amp. RMS: 71.55418 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 80.00062 Phase RMS: 0.1307281 Incoherent PH 1st: 79.98792 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 93.98295 CalTone Power Coherently dB : 93.98122 Incoherent PW - Coherent PW : 1.7318726E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 50020.01 CalTone Amplitude Coherently : 50010.52 Incoherent Amp.- Coherent Amp. : 9.484375 ------------ *** ------------ running time (sec): 31.97 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PHV Enter the paramater file name. /mnt/air65/airops/1359/ts1359_p.par Enter the raw data file name. /mnt/air62/airops/1359/p_hv Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_p.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_p_hv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_p_hv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_p_hv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_p_hv.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 45.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 21.44530 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1073 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (-7.113118,0.0000000E+00) (-44.45699,0.0000000E+00) (14.22624,0.0000000E+00) attenuation (dB): 5.000000 no_loop: 64 Pulse#/no_loop: 1 1073 2.8913572E+09 plot_x: 920 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 94.60789 Power RMS: 8.2679726E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 53752.10 Amp. RMS: 80.00000 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -63.57074 Phase RMS: 0.1423505 Incoherent PH 1st: -63.57392 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 94.60856 CalTone Power Coherently dB : 94.60789 Incoherent PW - Coherent PW : 6.7138672E-04 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 53810.35 CalTone Amplitude Coherently : 53752.10 Incoherent Amp.- Coherent Amp. : 58.25391 ------------ *** ------------ running time (sec): 29.48 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PVH Enter the paramater file name. /mnt/air65/airops/1359/ts1359_p.par Enter the raw data file name. /mnt/air62/airops/1359/p_vh Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_p.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_p_vh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_p_vh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_p_vh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_p_vh.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 45.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 21.44530 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1073 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (-2.825075,0.0000000E+00) (8.475225,0.0000000E+00) (-12.71284,0.0000000E+00) attenuation (dB): 3.000000 no_loop: 64 Pulse#/no_loop: 1 1073 2.4269420E+09 plot_x: 920 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 93.85655 Power RMS: 6.2500000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 49297.74 Amp. RMS: 75.04665 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 80.10753 Phase RMS: 0.1036445 Incoherent PH 1st: 80.10669 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 93.85760 CalTone Power Coherently dB : 93.85655 Incoherent PW - Coherent PW : 1.0528564E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 49362.20 CalTone Amplitude Coherently : 49297.74 Incoherent Amp.- Coherent Amp. : 64.46484 ------------ *** ------------ running time (sec): 30.00 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PVV Enter the paramater file name. /mnt/air65/airops/1359/ts1359_p.par Enter the raw data file name. /mnt/air62/airops/1359/p_vv Enter the motion compensation file name. /mnt/air65/airops/1359/ts1359_p.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1359/db_p_vv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1359/1st_p_vv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1359/pw_hist_p_vv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1359/ph_hist_p_vv.dat Enter start range line #: 1 How many lines of raw data? 59000 How many lines to be processed? 59000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 45.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 21.44530 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3730 5906 Prediction cal_bin 1073 start/end pulse: 1 58880 64-Loop Count: 919 cmplx raw(1 2 3): (39.02948,0.0000000E+00) (-53.22201,0.0000000E+00) (49.67388,0.0000000E+00) attenuation (dB): 11.00000 no_loop: 64 Pulse#/no_loop: 1 1073 3.0833597E+09 plot_x: 920 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 94.90191 Power RMS: 9.3750000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 55603.07 Amp. RMS: 65.96969 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -64.59808 Phase RMS: 0.1432055 Incoherent PH 1st: -64.59568 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 94.90158 CalTone Power Coherently dB : 94.90191 Incoherent PW - Coherent PW : -3.2806396E-04 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 55653.28 CalTone Amplitude Coherently : 55603.07 Incoherent Amp.- Coherent Amp. : 50.21094 ------------ *** ------------ running time (sec): 29.20 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: 72.23105 -1.1195155E-03 z fit: constant and linear terms: 0.1650286 -6.7065244E-05 y and z standard deviations (meters) 5.419737 0.8858395 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 15 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 8.3247339E-03 8.5401004E-03 8.8348836E-03 8.3744200E-03 Differences = -1.9379985E-04 2.1566637E-05 3.1634979E-04 -1.4411379E-04 PATCH NUMER 2 First line = 3493 Averages = 8.8924421E-03 8.4522944E-03 8.3893742E-03 8.1503019E-03 Differences = 4.2133965E-04 -1.8808059E-05 -8.1728213E-05 -3.2080058E-04 PATCH NUMER 3 First line = 6985 Averages = 8.3267102E-03 8.2918564E-03 8.0340579E-03 7.8269253E-03 Differences = 2.0682160E-04 1.7196778E-04 -8.5830688E-05 -2.9296335E-04 PATCH NUMER 4 First line = 10477 Averages = 8.0770282E-03 7.8041065E-03 7.3668300E-03 6.3521741E-03 Differences = 6.7699654E-04 4.0407479E-04 -3.3201650E-05 -1.0478576E-03 PATCH NUMER 5 First line = 13969 Averages = 7.7306894E-03 6.4524082E-03 6.9355769E-03 8.8206483E-03 Differences = 2.4585659E-04 -1.0324246E-03 -5.4925587E-04 1.3358155E-03 PATCH NUMER 6 First line = 17461 Averages = 6.5650796E-03 8.1733959E-03 1.0164466E-02 1.0116104E-02 Differences = -2.1896870E-03 -5.8137067E-04 1.4096992E-03 1.3613375E-03 PATCH NUMER 7 First line = 20953 Averages = 9.6507231E-03 1.0469903E-02 8.0500152E-03 4.4933562E-03 Differences = 1.4847070E-03 2.3038872E-03 -1.1600088E-04 -3.6726599E-03 PATCH NUMER 8 First line = 24445 Averages = 9.0860398E-03 5.3853639E-03 2.6320149E-03 -3.7694664E-04 Differences = 4.9043931E-03 1.2037172E-03 -1.5496318E-03 -4.5585935E-03 PATCH NUMER 9 First line = 27937 Averages = 3.3964780E-03 4.8596752E-04 -1.5483347E-03 -2.7587253E-03 Differences = 3.5026330E-03 5.9212255E-04 -1.4421797E-03 -2.6525704E-03 PATCH NUMER 10 First line = 31429 Averages = -1.2438367E-03 -2.2259266E-03 -4.0522474E-03 -4.8184083E-03 Differences = 1.8412769E-03 8.5918698E-04 -9.6713379E-04 -1.7332947E-03 PATCH NUMER 11 First line = 34921 Averages = -3.5385909E-03 -4.7846492E-03 -4.6985457E-03 -5.0434936E-03 Differences = 9.7773410E-04 -2.6832428E-04 -1.8222071E-04 -5.2716862E-04 PATCH NUMER 12 First line = 38413 Averages = -4.6885461E-03 -4.9519180E-03 -5.7846266E-03 -7.5339796E-03 Differences = 1.0512243E-03 7.8785233E-04 -4.4856220E-05 -1.7942092E-03 PATCH NUMER 13 First line = 41905 Averages = -5.4272478E-03 -6.9905668E-03 -8.6282128E-03 -9.1041112E-03 Differences = 2.1102992E-03 5.4698018E-04 -1.0906658E-03 -1.5665642E-03 PATCH NUMER 14 First line = 45397 Averages = -8.2580578E-03 -9.0681035E-03 -9.2156529E-03 -9.1107404E-03 Differences = 6.5508299E-04 -1.5496276E-04 -3.0251220E-04 -1.9759964E-04 PATCH NUMER 15 First line = 48889 Averages = -9.2057157E-03 -9.1656046E-03 -9.0496289E-03 -1.2854172E-02 Differences = 8.6307898E-04 9.0319011E-04 1.0191659E-03 -2.7853772E-03 PATCH NUMER 16 First line = 52381 last black mod_64: 51 59000 52381 8192 Averages = -8.8339401E-03 -1.1752976E-02 -1.3299155E-02 -1.2995603E-02 Differences = 2.8864983E-03 -3.2537617E-05 -1.5787166E-03 -1.2751650E-03 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.pp_2000 Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_p.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 4192 data points per patch Near range (m) = 8181.010 Slant range pixel spacing (m) = 6.662055 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.6832900 ADC sampling frequency (MHz) = 45.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 20.00000 Ashift = -2.060000 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = 1.437000 1.037000 8.9000002E-02 Receive leverarm x,y,z = 1.437000 1.037000 8.9000002E-02 Name of raw data file? /mnt/air62/airops/1359/p_hh Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_p.mocomph Output file name w/o ext? /mnt/air65/airops/1359/ts1359_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_p.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.3983998E-02 reading motion compensation data WAYNE read motion compen 1.368142 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 AnalogChirp>96032Br,fs,T,fc 98 20.00000 11.25000 45.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4649950 start range comp, time = 1.926 WAYNE PREV 1.863269 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 50808 58999 patch# 16 reference line: 54903 2.214 seconds. before reading done reading WAYNE load raw data , time = 46.75349402427673 ATTN ifrq ipol ln 0 1 58999 9.000000 IPOL, ITOP nblock 1 0 16 ****shift in azimuth (fractional pixel)= -0.4998845 shift in azimuth *fractional pixel= -0.4998845 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2016892433166504E-02 WAYNE Motion comp. added to patch, time = 16.99447703361511 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8499364852905273E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 435.8486440181732 Writing 4192 lines of data to file WAYNE write output data 2.331726074218750 ==w out 16 0 2001 0 WAYNE PROCESS 501.9449499845505 ==w out 17 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 14 to 14 by # 7 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 2.186 seconds. before reading done reading WAYNE load raw data , time = 48.97605299949646 ATTN ifrq ipol ln 0 1 53588 9.000000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4998858 shift in azimuth *fractional pixel= -0.4998858 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1994004249572754E-02 WAYNE Motion comp. added to patch, time = 17.12829494476318 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.1319856643676758E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 446.0916019678116 Writing 4192 lines of data to file WAYNE write output data 2.412786960601807 ==w out 14 0 2001 0 WAYNE PROCESS 514.6260349750519 ==w out 15 4195 PROCESSING KID# 7 ..... WAYNE IS IN Processing 13 to 13 by # 6 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 2.177 seconds. before reading done reading WAYNE load raw data , time = 48.75525009632111 ATTN ifrq ipol ln 0 1 50096 9.000000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4999055 shift in azimuth *fractional pixel= -0.4999055 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2227058410644531E-02 WAYNE Motion comp. added to patch, time = 17.30939996242523 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.1780004501342773E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 447.3670119047165 Writing 4192 lines of data to file WAYNE write output data 2.248617053031921 ==w out 13 0 2001 0 WAYNE PROCESS 515.6981240510941 ==w out 14 4195 PROCESSING KID# 9 ..... WAYNE IS IN Processing 15 to 15 by # 8 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 2.199 seconds. before reading done reading WAYNE load raw data , time = 48.00721299648285 ATTN ifrq ipol ln 0 1 57080 9.000000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4998925 shift in azimuth *fractional pixel= -0.4998925 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1828899383544922E-02 WAYNE Motion comp. added to patch, time = 17.07022809982300 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.0601024627685547E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 482.6896150112152 Writing 4192 lines of data to file WAYNE write output data 2.081786990165710 ==w out 15 0 2001 0 WAYNE PROCESS 549.8655838966370 ==w out 16 4195 PROCESSING KID# 6 ..... WAYNE IS IN Processing 11 to 12 by # 5 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 2.160 seconds. before reading done reading WAYNE load raw data , time = 46.60757899284363 ATTN ifrq ipol ln 0 1 43112 9.000000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4999129 shift in azimuth *fractional pixel= -0.4999129 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1864066123962402E-02 WAYNE Motion comp. added to patch, time = 16.94038999080658 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7850866317749023E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 332.3709980249405 Writing 4192 lines of data to file WAYNE write output data 3.836485028266907 ==w out 11 0 2001 0 WAYNE PROCESS 399.7721979618073 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 401.933 seconds. before reading done reading WAYNE load raw data , time = 49.35142600536346 ATTN ifrq ipol ln 0 1 46604 9.000000 IPOL, ITOP nblock 1 0 12 ****shift in azimuth (fractional pixel)= -0.4999264 shift in azimuth *fractional pixel= -0.4999264 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2380003929138184E-02 WAYNE Motion comp. added to patch, time = 16.96913099288940 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7406930923461914E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 302.3199479579926 Writing 4192 lines of data to file WAYNE write output data 2.319497942924500 ==w out 12 4192 2001 85852160 WAYNE PROCESS 371.0022490024567 ==w out 13 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 2.102 seconds. before reading done reading WAYNE load raw data , time = 45.88081002235413 ATTN ifrq ipol ln 0 1 15176 9.000000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4999701 shift in azimuth *fractional pixel= -0.4999701 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1830925941467285E-02 WAYNE Motion comp. added to patch, time = 17.29835808277130 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7040243148803711E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 435.6474260091782 Writing 4192 lines of data to file WAYNE write output data 2.329522013664246 ==w out 3 0 2001 0 WAYNE PROCESS 501.1724900007248 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 503.275 seconds. before reading done reading WAYNE load raw data , time = 44.78453493118286 ATTN ifrq ipol ln 0 1 18668 9.000000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4999764 shift in azimuth *fractional pixel= -0.4999764 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1000037193298340E-02 WAYNE Motion comp. added to patch, time = 15.93594896793365 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 5.2947998046875000E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 273.3447819948196 Writing 4192 lines of data to file WAYNE write output data 2.110473036766052 ==w out 4 4192 2001 85852160 WAYNE PROCESS 336.2412880659103 ==w out 5 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 2.115 seconds. before reading done reading WAYNE load raw data , time = 46.36802995204926 ATTN ifrq ipol ln 0 1 22160 9.000000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4999788 shift in azimuth *fractional pixel= -0.4999788 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1799097061157227E-02 WAYNE Motion comp. added to patch, time = 17.45409893989563 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8210878372192383E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 447.5659439563751 Writing 4192 lines of data to file WAYNE write output data 2.468019962310791 ==w out 5 0 2001 0 WAYNE PROCESS 513.8724279403687 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 515.987 seconds. before reading done reading WAYNE load raw data , time = 44.93224906921387 ATTN ifrq ipol ln 0 1 25652 9.000000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4999834 shift in azimuth *fractional pixel= -0.4999834 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0928034782409668E-02 WAYNE Motion comp. added to patch, time = 16.26613795757294 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 9.9780559539794922E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 284.0343650579453 Writing 4192 lines of data to file WAYNE write output data 2.046401023864746 ==w out 6 4192 2001 85852160 WAYNE PROCESS 347.3013759851456 ==w out 7 8387 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 8 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 2.132 seconds. before reading done reading WAYNE load raw data , time = 46.71015298366547 ATTN ifrq ipol ln 0 1 29144 9.000000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4999788 shift in azimuth *fractional pixel= -0.4999788 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1950969696044922E-02 WAYNE Motion comp. added to patch, time = 17.69600605964661 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.7279853820800781E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 446.1503709554672 Writing 4192 lines of data to file WAYNE write output data 2.283668994903564 ==w out 7 0 2001 0 WAYNE PROCESS 512.8567320108414 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 514.989 seconds. before reading done reading WAYNE load raw data , time = 45.54315102100372 ATTN ifrq ipol ln 0 1 32636 9.000000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4999564 shift in azimuth *fractional pixel= -0.4999564 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1109948158264160E-02 WAYNE Motion comp. added to patch, time = 16.01543104648590 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7392983436584473E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 285.9341800212860 Writing 4192 lines of data to file WAYNE write output data 2.082056045532227 ==w out 8 4192 2001 85852160 WAYNE PROCESS 349.6147049665451 ==w out 9 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -3.7577801E-04 8.0601303E-03 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.091 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 47.17068600654602 ATTN ifrq ipol ln 0 1 8192 9.000000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999724 shift in azimuth *fractional pixel= -0.4999724 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1766076087951660E-02 TESTING 0.0000000E+00 60.21808 -0.7206030 WAYNE Motion comp. added to patch, time = 17.17111992835999 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7990341186523438E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 60.21808 -0.7206030 HEY,dt,fract,ye,pe -0.4999724 1.000000 -3.7577801E-04 8.0601303E-03 WAYNE Azimuth compression done, time = 470.2276320457458 Writing 4192 lines of data to file WAYNE write output data 2.045535922050476 ==w out 1 0 2001 0 WAYNE PROCESS 536.6312829256058 Processing block number 2 TESTING WHY -8.3963899E-04 8.4267398E-03 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 538.722 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 45.52929198741913 ATTN ifrq ipol ln 0 1 11684 9.000000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999721 shift in azimuth *fractional pixel= -0.4999721 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1680006980895996E-02 TESTING 0.0000000E+00 57.22481 -1.092546 WAYNE Motion comp. added to patch, time = 15.97324001789093 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7029991149902344E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 57.22481 -1.092546 HEY,dt,fract,ye,pe -0.4999721 1.000000 -8.3963899E-04 8.4267398E-03 WAYNE Azimuth compression done, time = 298.4278299808502 Writing 4192 lines of data to file WAYNE write output data 2.015412926673889 ==w out 2 4192 2001 85852160 WAYNE PROCESS 361.9858950376511 ==w out 3 8387 PROCESSING KID# 5 ..... WAYNE IS IN Processing 9 to 10 by # 4 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 2.144 seconds. before reading done reading WAYNE load raw data , time = 46.78947401046753 ATTN ifrq ipol ln 0 1 36128 9.000000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4999344 shift in azimuth *fractional pixel= -0.4999344 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1784076690673828E-02 WAYNE Motion comp. added to patch, time = 17.06547403335571 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9140710830688477E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 472.7476090192795 Writing 4192 lines of data to file WAYNE write output data 2.054200053215027 ==w out 9 0 2001 0 WAYNE PROCESS 538.6733379364014 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 540.817 seconds. before reading done reading WAYNE load raw data , time = 45.49426198005676 ATTN ifrq ipol ln 0 1 39620 9.000000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4999150 shift in azimuth *fractional pixel= -0.4999150 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1931061744689941E-02 WAYNE Motion comp. added to patch, time = 15.93157601356506 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.8844008445739746E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 297.9411959648132 Writing 4192 lines of data to file WAYNE write output data 2.009767055511475 ==w out 10 4192 2001 85852160 WAYNE PROCESS 361.4090510606766 ==w out 11 8387 1 56542 0 2 56539 0 3 56537 0 4 56538 0 5 56470 0 6 56536 0 7 56534 0 8 56530 0 9 56535 0 10 56529 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 67072kids= 10 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 2 gather image from processor # 4 2 gather image from processor # 5 2 gather image from processor # 6 1 gather image from processor # 7 1 gather image from processor # 8 1 gather image from processor # 9 1 WAYNE gather images takes: 0.2174201011657715 WAYNE LOOP TIME: 910.8149991035461 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_p.hh_j /mnt/air65/airops/1359/ts1359_p.mocomph /mnt/air65/airops/1359/ts1359_p.dop /mnt/air65/airops/1359/ts1359_p.glb 2560 67072 update intf hdr ha: 7045.200 UPDATE: 2560 67072 6.662100 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_p.mocomph dopfile /mnt/air65/airops/1359/ts1359_p.dop globalfile /mnt/air65/airops/1359/ts1359_p.glb /mnt/air65/airops/1359/ts1359_p.glb 35 deskew line ra ha trc: 55.22514 107 8186.938 7045.200 -91.16894 after deskew line ra ha trc: 55.22514 107 8186.938 7045.200 -91.16894 lat1 lon1: 107 64.49756 -147.0439 67072 last ra n_ns ns: 8186.938 1 1 67178 67072 lati loni: 67178 64.49750 -147.7780 67178 1 center ra n_ns ns: 16707.77 1280 1280 33642 67072 lati loni: 33642 64.42062 -147.4081 33642 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_p.hh_j WAYNE FINAL PROCESS 912.8953269720078 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8384 2 8384 2 8384 2 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_p.hh_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_p.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.ph Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1359/ts1359_p.hh Name of the line output file? /mnt/air65/airops/1359/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 4.724853992462158 Deskewing 16 patches Processing block number 1 DEBUG 92 106.8363 92.17653 -0.4999724 -0.4999724 patch iptc,sj,dgj,dgi,id: 1 1 92 92 0 half line dmj dgc: 0 2001 107 92 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 2097 0 2096 patch iptc,sj,dgj,dgi,id: 1 2097 92 92 2096 half line dmj dgc: 1 2001 107 92 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 2097 1 Zeroing lines in arrays Total # of output lines = 1 2096 Processing block number 2 DEBUG 75 108.0991 75.34670 -0.4999721 -0.4999721 2097 3476 -17 1396 patch iptc,sj,dgj,dgi,id: 2 3476 75 92 1396 half line dmj dgc: 0 5493 108 92 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3476 2097 Zeroing lines in arrays Total # of output lines = 2 3475 3476 5572 0 2096 patch iptc,sj,dgj,dgi,id: 2 5572 75 75 2096 half line dmj dgc: 1 5493 108 92 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5572 3476 Zeroing lines in arrays Total # of output lines = 2 5571 Processing block number 3 DEBUG 57 105.3016 57.30853 -0.4999701 -0.4999701 5572 6950 -18 1396 patch iptc,sj,dgj,dgi,id: 3 6950 57 75 1396 half line dmj dgc: 0 8985 105 92 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6950 5572 Zeroing lines in arrays Total # of output lines = 3 6949 6950 9046 0 2096 patch iptc,sj,dgj,dgi,id: 3 9046 57 57 2096 half line dmj dgc: 1 8985 105 92 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9046 6950 Zeroing lines in arrays Total # of output lines = 3 9045 Processing block number 4 DEBUG 40 97.32231 40.01176 -0.4999764 -0.4999764 9046 10425 -17 1396 patch iptc,sj,dgj,dgi,id: 4 10425 40 57 1396 half line dmj dgc: 0 12477 97 92 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10425 9046 Zeroing lines in arrays Total # of output lines = 4 10424 10425 12521 0 2096 patch iptc,sj,dgj,dgi,id: 4 233 40 40 2096 half line dmj dgc: 1 12477 97 92 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10425 233 Zeroing lines in arrays Total # of output lines = 4 12520 Processing block number 5 DEBUG 60 96.24533 59.62710 -0.4999788 -0.4999788 233 1649 20 1396 patch iptc,sj,dgj,dgi,id: 5 1649 60 40 1396 half line dmj dgc: 0 15969 96 92 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1649 233 Zeroing lines in arrays Total # of output lines = 5 13936 1649 3745 0 2096 patch iptc,sj,dgj,dgi,id: 5 3745 60 60 2096 half line dmj dgc: 1 15969 96 92 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3745 1649 Zeroing lines in arrays Total # of output lines = 5 16032 Processing block number 6 DEBUG 108 108.0611 109.7709 -0.4999834 -0.4999834 3745 5189 48 1396 patch iptc,sj,dgj,dgi,id: 6 5189 108 60 1396 half line dmj dgc: 0 19461 110 92 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5189 3745 Zeroing lines in arrays Total # of output lines = 6 17476 5189 7285 0 2096 patch iptc,sj,dgj,dgi,id: 6 7285 108 108 2096 half line dmj dgc: 1 19461 110 92 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7285 5189 Zeroing lines in arrays Total # of output lines = 6 19572 Processing block number 7 DEBUG 51 106.5741 51.20247 -0.4999788 -0.4999788 7285 8624 -57 1396 patch iptc,sj,dgj,dgi,id: 7 8624 51 108 1396 half line dmj dgc: 0 22953 106 92 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8624 7285 Zeroing lines in arrays Total # of output lines = 7 20911 8624 10720 0 2096 patch iptc,sj,dgj,dgi,id: 7 10720 51 51 2096 half line dmj dgc: 1 22953 106 92 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10720 8624 Zeroing lines in arrays Total # of output lines = 7 23007 Processing block number 8 DEBUG -166 76.21509 -165.8934 -0.4999564 -0.4999564 10720 11899 -217 1396 patch iptc,sj,dgj,dgi,id: 8 11899 -166 51 1396 half line dmj dgc: 0 26445 76 92 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 11899 10720 Zeroing lines in arrays Total # of output lines = 8 24186 11899 13995 0 2096 patch iptc,sj,dgj,dgi,id: 8 1707 -166 -166 2096 half line dmj dgc: 1 26445 76 92 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 s1>sj: 11899 1707 Zeroing lines in arrays Total # of output lines = 8 26282 Processing block number 9 DEBUG -393 42.87092 -393.3548 -0.4999344 -0.4999344 1707 2876 -227 1396 patch iptc,sj,dgj,dgi,id: 9 2876 -393 -166 1396 half line dmj dgc: 0 29937 43 92 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 2876 1707 Zeroing lines in arrays Total # of output lines = 9 27451 2876 4972 0 2096 patch iptc,sj,dgj,dgi,id: 9 4972 -393 -393 2096 half line dmj dgc: 1 29937 43 92 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 4972 2876 Zeroing lines in arrays Total # of output lines = 9 29547 Processing block number 10 DEBUG -538 18.22492 -538.2569 -0.4999150 -0.4999150 4972 6223 -145 1396 patch iptc,sj,dgj,dgi,id: 10 6223 -538 -393 1396 half line dmj dgc: 0 33429 18 92 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 6223 4972 Zeroing lines in arrays Total # of output lines = 10 30798 6223 8319 0 2096 patch iptc,sj,dgj,dgi,id: 10 8319 -538 -538 2096 half line dmj dgc: 1 33429 18 92 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 8319 6223 Zeroing lines in arrays Total # of output lines = 10 32894 Processing block number 11 DEBUG -591 4.414663 -590.5341 -0.4999129 -0.4999129 8319 9662 -53 1396 patch iptc,sj,dgj,dgi,id: 11 9662 -591 -538 1396 half line dmj dgc: 0 36921 4 92 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 9662 8319 Zeroing lines in arrays Total # of output lines = 11 34237 9662 11758 0 2096 patch iptc,sj,dgj,dgi,id: 11 11758 -591 -591 2096 half line dmj dgc: 1 36921 4 92 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 11758 9662 Zeroing lines in arrays Total # of output lines = 11 36333 Processing block number 12 DEBUG -631 -7.912176 -630.9689 -0.4999264 -0.4999264 11758 13114 -40 1396 patch iptc,sj,dgj,dgi,id: 12 826 -631 -591 1396 half line dmj dgc: 0 40413 -8 92 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 s1>sj: 11758 826 Zeroing lines in arrays Total # of output lines = 12 37689 826 2922 0 2096 patch iptc,sj,dgj,dgi,id: 12 2922 -631 -631 2096 half line dmj dgc: 1 40413 -8 92 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 2922 826 Zeroing lines in arrays Total # of output lines = 12 39785 Processing block number 13 DEBUG -723 -22.33436 -722.9284 -0.4999055 -0.4999055 2922 4226 -92 1396 patch iptc,sj,dgj,dgi,id: 13 4226 -723 -631 1396 half line dmj dgc: 0 43905 -22 92 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 4226 2922 Zeroing lines in arrays Total # of output lines = 13 41089 4226 6322 0 2096 patch iptc,sj,dgj,dgi,id: 13 6322 -723 -723 2096 half line dmj dgc: 1 43905 -22 92 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 6322 4226 Zeroing lines in arrays Total # of output lines = 13 43185 Processing block number 14 DEBUG -810 -31.43954 -810.3534 -0.4998858 -0.4998858 6322 7631 -87 1396 patch iptc,sj,dgj,dgi,id: 14 7631 -810 -723 1396 half line dmj dgc: 0 47397 -32 92 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 7631 6322 Zeroing lines in arrays Total # of output lines = 14 44494 7631 9727 0 2096 patch iptc,sj,dgj,dgi,id: 14 9727 -810 -810 2096 half line dmj dgc: 1 47397 -32 92 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 9727 7631 Zeroing lines in arrays Total # of output lines = 14 46590 Processing block number 15 DEBUG -873 -40.35485 -872.5955 -0.4998925 -0.4998925 9727 11060 -63 1396 patch iptc,sj,dgj,dgi,id: 15 11060 -873 -810 1396 half line dmj dgc: 0 50889 -40 92 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 sj>s1: 11060 9727 Zeroing lines in arrays Total # of output lines = 15 47923 11060 13156 0 2096 patch iptc,sj,dgj,dgi,id: 15 868 -873 -873 2096 half line dmj dgc: 1 50889 -40 92 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 s1>sj: 11060 868 Zeroing lines in arrays Total # of output lines = 15 50019 Processing block number 16 DEBUG -949 -54.53442 -948.7617 -0.4998845 -0.4998845 868 615 -76 -177 patch iptc,sj,dgj,dgi,id: 16 615 -949 -873 -177 half line dmj dgc: 0 52808 -55 92 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Zeroing lines in arrays Total # of output lines = 16 50019 868 2711 0 2096 patch iptc,sj,dgj,dgi,id: 16 2711 -949 -949 2096 half line dmj dgc: 1 52808 -55 92 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 2711 868 Zeroing lines in arrays Total # of output lines = 16 51862 ia dmi dgi: 2711 -55 -949 Writing the last 2990 lines last half sj>s1 5701 2711 51862 WAYNE done patche 204.2044029235840 Total # of output lines = 54852 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 54852 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 6.6621 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 204.8775399923325 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.pp_2000 Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_p.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 4192 data points per patch Near range (m) = 8181.010 Slant range pixel spacing (m) = 6.662055 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.6832900 ADC sampling frequency (MHz) = 45.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 20.00000 Ashift = -2.060000 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = 1.437000 1.037000 8.9000002E-02 Receive leverarm x,y,z = 1.437000 1.037000 8.9000002E-02 Name of raw data file? /mnt/air62/airops/1359/p_hv Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_p.mocomph Output file name w/o ext? /mnt/air65/airops/1359/ts1359_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hv Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_p.hv_j *** ipol itop: 2 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.3348002E-02 reading motion compensation data WAYNE read motion compen 1.374287 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 AnalogChirp>96032Br,fs,T,fc 98 20.00000 11.25000 45.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4621559 start range comp, time = 1.861 WAYNE PREV 1.864480 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 13 to 13 by # 6 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 2.087 seconds. before reading done reading WAYNE load raw data , time = 49.33083498477936 ATTN ifrq ipol ln 0 2 50096 5.000000 IPOL, ITOP nblock 2 0 13 ****shift in azimuth (fractional pixel)= -0.4999055 shift in azimuth *fractional pixel= -0.4999055 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2062072753906250E-02 WAYNE Motion comp. added to patch, time = 17.18581891059875 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9048919677734375E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 333.3404620885849 Writing 4192 lines of data to file WAYNE write output data 2.351629018783569 ==w out 13 0 2001 0 WAYNE PROCESS 402.2254250049591 ==w out 14 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 14 to 14 by # 7 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 2.104 seconds. before reading done reading WAYNE load raw data , time = 47.27561604976654 ATTN ifrq ipol ln 0 2 53588 5.000000 IPOL, ITOP nblock 2 0 14 ****shift in azimuth (fractional pixel)= -0.4998858 shift in azimuth *fractional pixel= -0.4998858 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1955022811889648E-02 WAYNE Motion comp. added to patch, time = 17.00633001327515 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 2.7630329132080078E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 377.0837099552155 Writing 4192 lines of data to file WAYNE write output data 2.266047000885010 ==w out 14 0 2001 0 WAYNE PROCESS 443.6482160091400 ==w out 15 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 50808 58999 patch# 16 reference line: 54903 2.134 seconds. before reading done reading WAYNE load raw data , time = 47.95158708095551 ATTN ifrq ipol ln 0 2 58999 5.000000 IPOL, ITOP nblock 2 0 16 ****shift in azimuth (fractional pixel)= -0.4998845 shift in azimuth *fractional pixel= -0.4998845 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1898040771484375E-02 WAYNE Motion comp. added to patch, time = 16.96106398105621 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7719736099243164E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 457.5302060842514 Writing 4192 lines of data to file WAYNE write output data 2.161277055740356 ==w out 16 0 2001 0 WAYNE PROCESS 524.6205010414124 ==w out 17 4195 PROCESSING KID# 9 ..... WAYNE IS IN Processing 15 to 15 by # 8 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 2.119 seconds. before reading done reading WAYNE load raw data , time = 49.66008400917053 ATTN ifrq ipol ln 0 2 57080 5.000000 IPOL, ITOP nblock 2 0 15 ****shift in azimuth (fractional pixel)= -0.4998925 shift in azimuth *fractional pixel= -0.4998925 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2042999267578125E-02 WAYNE Motion comp. added to patch, time = 17.19478392601013 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.8330087661743164E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 456.0389200448990 Writing 4192 lines of data to file WAYNE write output data 2.158289074897766 ==w out 15 0 2001 0 WAYNE PROCESS 525.0688260793686 ==w out 16 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 8 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 2.043 seconds. before reading done reading WAYNE load raw data , time = 47.27552497386932 ATTN ifrq ipol ln 0 2 29144 5.000000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4999788 shift in azimuth *fractional pixel= -0.4999788 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1853933334350586E-02 WAYNE Motion comp. added to patch, time = 17.69952797889709 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7699470520019531E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 373.3234509229660 Writing 4192 lines of data to file WAYNE write output data 2.245575904846191 ==w out 7 0 2001 0 WAYNE PROCESS 440.5602759122849 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 442.604 seconds. before reading done reading WAYNE load raw data , time = 46.12951493263245 ATTN ifrq ipol ln 0 2 32636 5.000000 IPOL, ITOP nblock 2 0 8 ****shift in azimuth (fractional pixel)= -0.4999564 shift in azimuth *fractional pixel= -0.4999564 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1326909065246582E-02 WAYNE Motion comp. added to patch, time = 16.15255498886108 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6034951210021973E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 276.0986709594727 Writing 4192 lines of data to file WAYNE write output data 2.112926959991455 ==w out 8 4192 2001 85852160 WAYNE PROCESS 340.5323569774628 ==w out 9 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 2.030 seconds. before reading done reading WAYNE load raw data , time = 47.08321094512939 ATTN ifrq ipol ln 0 2 22160 5.000000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4999788 shift in azimuth *fractional pixel= -0.4999788 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1739015579223633E-02 WAYNE Motion comp. added to patch, time = 17.62746703624725 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9079914093017578E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 439.8150959014893 Writing 4192 lines of data to file WAYNE write output data 2.285205006599426 ==w out 5 0 2001 0 WAYNE PROCESS 506.8274559974670 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 508.858 seconds. before reading done reading WAYNE load raw data , time = 45.00449490547180 ATTN ifrq ipol ln 0 2 25652 5.000000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4999834 shift in azimuth *fractional pixel= -0.4999834 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1149048805236816E-02 WAYNE Motion comp. added to patch, time = 16.27037203311920 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 6.6219568252563477E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 286.5471440553665 Writing 4192 lines of data to file WAYNE write output data 2.031812906265259 ==w out 6 4192 2001 85852160 WAYNE PROCESS 349.8728139400482 ==w out 7 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 2.017 seconds. before reading done reading WAYNE load raw data , time = 46.54844307899475 ATTN ifrq ipol ln 0 2 15176 5.000000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4999701 shift in azimuth *fractional pixel= -0.4999701 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1682987213134766E-02 WAYNE Motion comp. added to patch, time = 17.30385804176331 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.6459693908691406E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 439.9443089962006 Writing 4192 lines of data to file WAYNE write output data 2.234465003013611 ==w out 3 0 2001 0 WAYNE PROCESS 506.0469189882278 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 508.064 seconds. before reading done reading WAYNE load raw data , time = 44.75982201099396 ATTN ifrq ipol ln 0 2 18668 5.000000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4999764 shift in azimuth *fractional pixel= -0.4999764 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1077046394348145E-02 WAYNE Motion comp. added to patch, time = 15.96418499946594 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5974988937377930E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 287.9861429929733 Writing 4192 lines of data to file WAYNE write output data 2.062854051589966 ==w out 4 4192 2001 85852160 WAYNE PROCESS 350.8113909959793 ==w out 5 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -3.7577801E-04 8.0601303E-03 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.002 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 47.36750495433807 ATTN ifrq ipol ln 0 2 8192 5.000000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4999724 shift in azimuth *fractional pixel= -0.4999724 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1744976043701172E-02 TESTING 0.0000000E+00 60.21808 -0.7206030 WAYNE Motion comp. added to patch, time = 17.10855698585510 WAYNE Doppler estimation done, time = 1.3113021850585938E-05 WAYNE write deskew done, time = 2.8060674667358398E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 60.21808 -0.7206030 HEY,dt,fract,ye,pe -0.4999724 1.000000 -3.7577801E-04 8.0601303E-03 WAYNE Azimuth compression done, time = 440.0930440425873 Writing 4192 lines of data to file WAYNE write output data 2.283526062965393 ==w out 1 0 2001 0 WAYNE PROCESS 506.8689500093460 Processing block number 2 TESTING WHY -8.3963899E-04 8.4267398E-03 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 508.871 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 45.21616399288177 ATTN ifrq ipol ln 0 2 11684 5.000000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4999721 shift in azimuth *fractional pixel= -0.4999721 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1031031608581543E-02 TESTING 0.0000000E+00 57.22481 -1.092546 WAYNE Motion comp. added to patch, time = 15.81140697002411 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4541974067687988E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 57.22481 -1.092546 HEY,dt,fract,ye,pe -0.4999721 1.000000 -8.3963899E-04 8.4267398E-03 WAYNE Azimuth compression done, time = 294.9081010818481 Writing 4192 lines of data to file WAYNE write output data 1.957769036293030 ==w out 2 4192 2001 85852160 WAYNE PROCESS 357.9302110671997 ==w out 3 8387 PROCESSING KID# 5 ..... WAYNE IS IN Processing 9 to 10 by # 4 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 2.057 seconds. before reading done reading WAYNE load raw data , time = 47.27780294418335 ATTN ifrq ipol ln 0 2 36128 5.000000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4999344 shift in azimuth *fractional pixel= -0.4999344 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1891961097717285E-02 WAYNE Motion comp. added to patch, time = 16.94985806941986 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7129650115966797E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 457.0152269601822 Writing 4192 lines of data to file WAYNE write output data 2.077785968780518 ==w out 9 0 2001 0 WAYNE PROCESS 523.3370790481567 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 525.394 seconds. before reading done reading WAYNE load raw data , time = 45.22213196754456 ATTN ifrq ipol ln 0 2 39620 5.000000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4999150 shift in azimuth *fractional pixel= -0.4999150 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1525988578796387E-02 WAYNE Motion comp. added to patch, time = 15.88245296478271 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3738980293273926E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 291.8660960197449 Writing 4192 lines of data to file WAYNE write output data 1.951346993446350 ==w out 10 4192 2001 85852160 WAYNE PROCESS 354.9586859941483 ==w out 11 8387 PROCESSING KID# 6 ..... WAYNE IS IN Processing 11 to 12 by # 5 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 2.070 seconds. before reading done reading WAYNE load raw data , time = 47.39790797233582 ATTN ifrq ipol ln 0 2 43112 5.000000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4999129 shift in azimuth *fractional pixel= -0.4999129 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1912941932678223E-02 WAYNE Motion comp. added to patch, time = 16.96847605705261 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7190446853637695E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 467.0995800495148 Writing 4192 lines of data to file WAYNE write output data 2.025844097137451 ==w out 11 0 2001 0 WAYNE PROCESS 533.5081570148468 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 535.578 seconds. before reading done reading WAYNE load raw data , time = 45.34872305393219 ATTN ifrq ipol ln 0 2 46604 5.000000 IPOL, ITOP nblock 2 0 12 ****shift in azimuth (fractional pixel)= -0.4999264 shift in azimuth *fractional pixel= -0.4999264 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1901974678039551E-02 WAYNE Motion comp. added to patch, time = 15.85416102409363 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 6.7731142044067383E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 299.8937439918518 Writing 4192 lines of data to file WAYNE write output data 1.972900986671448 ==w out 12 4192 2001 85852160 WAYNE PROCESS 363.0895900726318 ==w out 13 8387 1 59080 0 2 59077 0 3 59083 0 4 59078 0 5 59074 0 6 59076 0 7 59073 0 8 59069 0 9 59079 0 10 59017 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 67072kids= 10 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 2 gather image from processor # 4 2 gather image from processor # 5 2 gather image from processor # 6 1 gather image from processor # 7 1 gather image from processor # 8 1 gather image from processor # 9 1 WAYNE gather images takes: 0.3327640295028687 WAYNE LOOP TIME: 907.4581769704819 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_p.hv_j /mnt/air65/airops/1359/ts1359_p.mocomph /mnt/air65/airops/1359/ts1359_p.dop /mnt/air65/airops/1359/ts1359_p.glb 2560 67072 update intf hdr ha: 7045.200 UPDATE: 2560 67072 6.662100 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_p.mocomph dopfile /mnt/air65/airops/1359/ts1359_p.dop globalfile /mnt/air65/airops/1359/ts1359_p.glb /mnt/air65/airops/1359/ts1359_p.glb 35 deskew line ra ha trc: 55.22514 107 8186.938 7045.200 -91.16894 after deskew line ra ha trc: 55.22514 107 8186.938 7045.200 -91.16894 lat1 lon1: 107 64.49756 -147.0439 67072 last ra n_ns ns: 8186.938 1 1 67178 67072 lati loni: 67178 64.49750 -147.7780 67178 1 center ra n_ns ns: 16707.77 1280 1280 33642 67072 lati loni: 33642 64.42062 -147.4081 33642 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_p.hv_j WAYNE FINAL PROCESS 909.3988529443741 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8384 2 8384 2 8384 2 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_p.hv_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_p.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.ph Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1359/ts1359_p.hv Name of the line output file? /mnt/air65/airops/1359/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.716776967048645 Deskewing 16 patches Processing block number 1 DEBUG 92 106.8363 92.17653 -0.4999724 -0.4999724 patch iptc,sj,dgj,dgi,id: 1 1 92 92 0 half line dmj dgc: 0 2001 107 92 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 2097 0 2096 patch iptc,sj,dgj,dgi,id: 1 2097 92 92 2096 half line dmj dgc: 1 2001 107 92 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 2097 1 Zeroing lines in arrays Total # of output lines = 1 2096 Processing block number 2 DEBUG 75 108.0991 75.34670 -0.4999721 -0.4999721 2097 3476 -17 1396 patch iptc,sj,dgj,dgi,id: 2 3476 75 92 1396 half line dmj dgc: 0 5493 108 92 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3476 2097 Zeroing lines in arrays Total # of output lines = 2 3475 3476 5572 0 2096 patch iptc,sj,dgj,dgi,id: 2 5572 75 75 2096 half line dmj dgc: 1 5493 108 92 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5572 3476 Zeroing lines in arrays Total # of output lines = 2 5571 Processing block number 3 DEBUG 57 105.3016 57.30853 -0.4999701 -0.4999701 5572 6950 -18 1396 patch iptc,sj,dgj,dgi,id: 3 6950 57 75 1396 half line dmj dgc: 0 8985 105 92 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6950 5572 Zeroing lines in arrays Total # of output lines = 3 6949 6950 9046 0 2096 patch iptc,sj,dgj,dgi,id: 3 9046 57 57 2096 half line dmj dgc: 1 8985 105 92 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9046 6950 Zeroing lines in arrays Total # of output lines = 3 9045 Processing block number 4 DEBUG 40 97.32231 40.01176 -0.4999764 -0.4999764 9046 10425 -17 1396 patch iptc,sj,dgj,dgi,id: 4 10425 40 57 1396 half line dmj dgc: 0 12477 97 92 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10425 9046 Zeroing lines in arrays Total # of output lines = 4 10424 10425 12521 0 2096 patch iptc,sj,dgj,dgi,id: 4 233 40 40 2096 half line dmj dgc: 1 12477 97 92 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10425 233 Zeroing lines in arrays Total # of output lines = 4 12520 Processing block number 5 DEBUG 60 96.24533 59.62710 -0.4999788 -0.4999788 233 1649 20 1396 patch iptc,sj,dgj,dgi,id: 5 1649 60 40 1396 half line dmj dgc: 0 15969 96 92 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1649 233 Zeroing lines in arrays Total # of output lines = 5 13936 1649 3745 0 2096 patch iptc,sj,dgj,dgi,id: 5 3745 60 60 2096 half line dmj dgc: 1 15969 96 92 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3745 1649 Zeroing lines in arrays Total # of output lines = 5 16032 Processing block number 6 DEBUG 108 108.0611 109.7709 -0.4999834 -0.4999834 3745 5189 48 1396 patch iptc,sj,dgj,dgi,id: 6 5189 108 60 1396 half line dmj dgc: 0 19461 110 92 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5189 3745 Zeroing lines in arrays Total # of output lines = 6 17476 5189 7285 0 2096 patch iptc,sj,dgj,dgi,id: 6 7285 108 108 2096 half line dmj dgc: 1 19461 110 92 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7285 5189 Zeroing lines in arrays Total # of output lines = 6 19572 Processing block number 7 DEBUG 51 106.5741 51.20247 -0.4999788 -0.4999788 7285 8624 -57 1396 patch iptc,sj,dgj,dgi,id: 7 8624 51 108 1396 half line dmj dgc: 0 22953 106 92 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8624 7285 Zeroing lines in arrays Total # of output lines = 7 20911 8624 10720 0 2096 patch iptc,sj,dgj,dgi,id: 7 10720 51 51 2096 half line dmj dgc: 1 22953 106 92 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10720 8624 Zeroing lines in arrays Total # of output lines = 7 23007 Processing block number 8 DEBUG -166 76.21509 -165.8934 -0.4999564 -0.4999564 10720 11899 -217 1396 patch iptc,sj,dgj,dgi,id: 8 11899 -166 51 1396 half line dmj dgc: 0 26445 76 92 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 11899 10720 Zeroing lines in arrays Total # of output lines = 8 24186 11899 13995 0 2096 patch iptc,sj,dgj,dgi,id: 8 1707 -166 -166 2096 half line dmj dgc: 1 26445 76 92 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 s1>sj: 11899 1707 Zeroing lines in arrays Total # of output lines = 8 26282 Processing block number 9 DEBUG -393 42.87092 -393.3548 -0.4999344 -0.4999344 1707 2876 -227 1396 patch iptc,sj,dgj,dgi,id: 9 2876 -393 -166 1396 half line dmj dgc: 0 29937 43 92 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 2876 1707 Zeroing lines in arrays Total # of output lines = 9 27451 2876 4972 0 2096 patch iptc,sj,dgj,dgi,id: 9 4972 -393 -393 2096 half line dmj dgc: 1 29937 43 92 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 4972 2876 Zeroing lines in arrays Total # of output lines = 9 29547 Processing block number 10 DEBUG -538 18.22492 -538.2569 -0.4999150 -0.4999150 4972 6223 -145 1396 patch iptc,sj,dgj,dgi,id: 10 6223 -538 -393 1396 half line dmj dgc: 0 33429 18 92 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 6223 4972 Zeroing lines in arrays Total # of output lines = 10 30798 6223 8319 0 2096 patch iptc,sj,dgj,dgi,id: 10 8319 -538 -538 2096 half line dmj dgc: 1 33429 18 92 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 8319 6223 Zeroing lines in arrays Total # of output lines = 10 32894 Processing block number 11 DEBUG -591 4.414663 -590.5341 -0.4999129 -0.4999129 8319 9662 -53 1396 patch iptc,sj,dgj,dgi,id: 11 9662 -591 -538 1396 half line dmj dgc: 0 36921 4 92 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 9662 8319 Zeroing lines in arrays Total # of output lines = 11 34237 9662 11758 0 2096 patch iptc,sj,dgj,dgi,id: 11 11758 -591 -591 2096 half line dmj dgc: 1 36921 4 92 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 11758 9662 Zeroing lines in arrays Total # of output lines = 11 36333 Processing block number 12 DEBUG -631 -7.912176 -630.9689 -0.4999264 -0.4999264 11758 13114 -40 1396 patch iptc,sj,dgj,dgi,id: 12 826 -631 -591 1396 half line dmj dgc: 0 40413 -8 92 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 s1>sj: 11758 826 Zeroing lines in arrays Total # of output lines = 12 37689 826 2922 0 2096 patch iptc,sj,dgj,dgi,id: 12 2922 -631 -631 2096 half line dmj dgc: 1 40413 -8 92 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 2922 826 Zeroing lines in arrays Total # of output lines = 12 39785 Processing block number 13 DEBUG -723 -22.33436 -722.9284 -0.4999055 -0.4999055 2922 4226 -92 1396 patch iptc,sj,dgj,dgi,id: 13 4226 -723 -631 1396 half line dmj dgc: 0 43905 -22 92 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 4226 2922 Zeroing lines in arrays Total # of output lines = 13 41089 4226 6322 0 2096 patch iptc,sj,dgj,dgi,id: 13 6322 -723 -723 2096 half line dmj dgc: 1 43905 -22 92 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 6322 4226 Zeroing lines in arrays Total # of output lines = 13 43185 Processing block number 14 DEBUG -810 -31.43954 -810.3534 -0.4998858 -0.4998858 6322 7631 -87 1396 patch iptc,sj,dgj,dgi,id: 14 7631 -810 -723 1396 half line dmj dgc: 0 47397 -32 92 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 7631 6322 Zeroing lines in arrays Total # of output lines = 14 44494 7631 9727 0 2096 patch iptc,sj,dgj,dgi,id: 14 9727 -810 -810 2096 half line dmj dgc: 1 47397 -32 92 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 9727 7631 Zeroing lines in arrays Total # of output lines = 14 46590 Processing block number 15 DEBUG -873 -40.35485 -872.5955 -0.4998925 -0.4998925 9727 11060 -63 1396 patch iptc,sj,dgj,dgi,id: 15 11060 -873 -810 1396 half line dmj dgc: 0 50889 -40 92 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 sj>s1: 11060 9727 Zeroing lines in arrays Total # of output lines = 15 47923 11060 13156 0 2096 patch iptc,sj,dgj,dgi,id: 15 868 -873 -873 2096 half line dmj dgc: 1 50889 -40 92 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 s1>sj: 11060 868 Zeroing lines in arrays Total # of output lines = 15 50019 Processing block number 16 DEBUG -949 -54.53442 -948.7617 -0.4998845 -0.4998845 868 615 -76 -177 patch iptc,sj,dgj,dgi,id: 16 615 -949 -873 -177 half line dmj dgc: 0 52808 -55 92 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Zeroing lines in arrays Total # of output lines = 16 50019 868 2711 0 2096 patch iptc,sj,dgj,dgi,id: 16 2711 -949 -949 2096 half line dmj dgc: 1 52808 -55 92 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 2711 868 Zeroing lines in arrays Total # of output lines = 16 51862 ia dmi dgi: 2711 -55 -949 Writing the last 2990 lines last half sj>s1 5701 2711 51862 WAYNE done patche 202.0713089704514 Total # of output lines = 54852 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 54852 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 6.6621 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 202.7631800174713 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.pp_2000 Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_p.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 4192 data points per patch Near range (m) = 8181.010 Slant range pixel spacing (m) = 6.662055 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.6832900 ADC sampling frequency (MHz) = 45.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 20.00000 Ashift = -2.060000 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = 1.437000 1.037000 8.9000002E-02 Receive leverarm x,y,z = 1.437000 1.037000 8.9000002E-02 Name of raw data file? /mnt/air62/airops/1359/p_vh Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_p.mocompv Output file name w/o ext? /mnt/air65/airops/1359/ts1359_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vh Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_p.vh_j *** ipol itop: 3 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.3434000E-02 reading motion compensation data WAYNE read motion compen 1.383316 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 AnalogChirp>96032Br,fs,T,fc 98 20.00000 11.25000 45.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4625150 start range comp, time = 1.916 WAYNE PREV 1.874147 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 9 ..... WAYNE IS IN Processing 15 to 15 by # 8 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 2.163 seconds. before reading done reading WAYNE load raw data , time = 54.32843494415283 ATTN ifrq ipol ln 0 3 57080 3.000000 IPOL, ITOP nblock 3 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1746048927307129E-02 WAYNE Motion comp. added to patch, time = 16.88877499103546 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7760267257690430E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 377.2150120735168 Writing 4192 lines of data to file WAYNE write output data 2.326893091201782 ==w out 15 0 2001 0 WAYNE PROCESS 450.7755130529404 ==w out 16 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 50808 58999 patch# 16 reference line: 54903 2.172 seconds. before reading done reading WAYNE load raw data , time = 54.55897605419159 ATTN ifrq ipol ln 0 3 58999 3.000000 IPOL, ITOP nblock 3 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1730074882507324E-02 WAYNE Motion comp. added to patch, time = 16.97573792934418 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6999711990356445E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 384.8830440044403 Writing 4192 lines of data to file WAYNE write output data 2.266615033149719 ==w out 16 0 2001 0 WAYNE PROCESS 458.7006770372391 ==w out 17 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 14 to 14 by # 7 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 2.149 seconds. before reading done reading WAYNE load raw data , time = 54.35335707664490 ATTN ifrq ipol ln 0 3 53588 3.000000 IPOL, ITOP nblock 3 0 14 WAYNE Motion comp. coeff. calculated, time = 1.2042045593261719E-02 WAYNE Motion comp. added to patch, time = 16.95664894580841 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.8439760208129883E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 390.4764020442963 Writing 4192 lines of data to file WAYNE write output data 2.720106005668640 ==w out 14 0 2001 0 WAYNE PROCESS 464.5231059789658 ==w out 15 4195 PROCESSING KID# 7 ..... WAYNE IS IN Processing 13 to 13 by # 6 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 2.136 seconds. before reading done reading WAYNE load raw data , time = 55.35926210880280 ATTN ifrq ipol ln 0 3 50096 3.000000 IPOL, ITOP nblock 3 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1813998222351074E-02 WAYNE Motion comp. added to patch, time = 17.04224693775177 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.0820369720458984E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 434.5300780534744 Writing 4192 lines of data to file WAYNE write output data 2.051087021827698 ==w out 13 0 2001 0 WAYNE PROCESS 508.9999519586563 ==w out 14 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 8 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 2.099 seconds. before reading done reading WAYNE load raw data , time = 54.57560706138611 ATTN ifrq ipol ln 0 3 29144 3.000000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 1.2006044387817383E-02 WAYNE Motion comp. added to patch, time = 17.81689500808716 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.3679008483886719E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 432.1616909503937 Writing 4192 lines of data to file WAYNE write output data 2.179291009902954 ==w out 7 0 2001 0 WAYNE PROCESS 506.7507380247116 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 508.850 seconds. before reading done reading WAYNE load raw data , time = 45.39092898368835 ATTN ifrq ipol ln 0 3 32636 3.000000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 1.0959029197692871E-02 WAYNE Motion comp. added to patch, time = 15.97276198863983 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3655056953430176E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 288.4809230566025 Writing 4192 lines of data to file WAYNE write output data 2.069700956344604 ==w out 8 4192 2001 85852160 WAYNE PROCESS 351.9504649639130 ==w out 9 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -3.7577801E-04 8.0601303E-03 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.058 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 55.13158905506134 ATTN ifrq ipol ln 0 3 8192 3.000000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1901974678039551E-02 TESTING 0.0000000E+00 60.21780 -0.7206764 WAYNE Motion comp. added to patch, time = 17.19539999961853 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9680728912353516E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 60.21780 -0.7206764 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -3.7577801E-04 8.0601303E-03 WAYNE Azimuth compression done, time = 432.6756459474564 Writing 4192 lines of data to file WAYNE write output data 2.169004082679749 ==w out 1 0 2001 0 WAYNE PROCESS 507.1880860328674 Processing block number 2 TESTING WHY -8.3963899E-04 8.4267398E-03 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 509.247 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 46.16174292564392 ATTN ifrq ipol ln 0 3 11684 3.000000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 1.0835051536560059E-02 TESTING 0.0000000E+00 57.22427 -1.092571 WAYNE Motion comp. added to patch, time = 15.75898504257202 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.1054029464721680E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 57.22427 -1.092571 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -8.3963899E-04 8.4267398E-03 WAYNE Azimuth compression done, time = 288.5470200777054 Writing 4192 lines of data to file WAYNE write output data 2.084449887275696 ==w out 2 4192 2001 85852160 WAYNE PROCESS 352.5852888822556 ==w out 3 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 2.072 seconds. before reading done reading WAYNE load raw data , time = 53.88495397567749 ATTN ifrq ipol ln 0 3 15176 3.000000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1673092842102051E-02 WAYNE Motion comp. added to patch, time = 17.38398492336273 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.8430223464965820E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 462.3531110286713 Writing 4192 lines of data to file WAYNE write output data 2.079120039939880 ==w out 3 0 2001 0 WAYNE PROCESS 535.7174350023270 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 537.790 seconds. before reading done reading WAYNE load raw data , time = 45.03626811504364 ATTN ifrq ipol ln 0 3 18668 3.000000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1150956153869629E-02 WAYNE Motion comp. added to patch, time = 16.04841995239258 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.2425999641418457E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 279.1272850036621 Writing 4192 lines of data to file WAYNE write output data 1.965674996376038 ==w out 4 4192 2001 85852160 WAYNE PROCESS 342.2227439880371 ==w out 5 8387 PROCESSING KID# 6 ..... WAYNE IS IN Processing 11 to 12 by # 5 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 2.122 seconds. before reading done reading WAYNE load raw data , time = 54.49037802219391 ATTN ifrq ipol ln 0 3 43112 3.000000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1682033538818359E-02 WAYNE Motion comp. added to patch, time = 16.94423198699951 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7819871902465820E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 453.8397710323334 Writing 4192 lines of data to file WAYNE write output data 2.050332069396973 ==w out 11 0 2001 0 WAYNE PROCESS 527.3409050703049 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 529.463 seconds. before reading done reading WAYNE load raw data , time = 45.27535295486450 ATTN ifrq ipol ln 0 3 46604 3.000000 IPOL, ITOP nblock 3 0 12 WAYNE Motion comp. coeff. calculated, time = 1.0939955711364746E-02 WAYNE Motion comp. added to patch, time = 15.67658293247223 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.4893045425415039E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 300.4036120176315 Writing 4192 lines of data to file WAYNE write output data 1.955155014991760 ==w out 12 4192 2001 85852160 WAYNE PROCESS 363.3480319976807 ==w out 13 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 2.086 seconds. before reading done reading WAYNE load raw data , time = 54.24362695217133 ATTN ifrq ipol ln 0 3 22160 3.000000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1711001396179199E-02 WAYNE Motion comp. added to patch, time = 17.49024200439453 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.8610229492187500E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 455.2089389562607 Writing 4192 lines of data to file WAYNE write output data 2.023723006248474 ==w out 5 0 2001 0 WAYNE PROCESS 528.9828519821167 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 531.069 seconds. before reading done reading WAYNE load raw data , time = 45.58635509014130 ATTN ifrq ipol ln 0 3 25652 3.000000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1153936386108398E-02 WAYNE Motion comp. added to patch, time = 16.31749105453491 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.2431015968322754E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 300.6247739791870 Writing 4192 lines of data to file WAYNE write output data 1.949114084243774 ==w out 6 4192 2001 85852160 WAYNE PROCESS 364.5128960609436 ==w out 7 8387 PROCESSING KID# 5 ..... WAYNE IS IN Processing 9 to 10 by # 4 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 2.111 seconds. before reading done reading WAYNE load raw data , time = 56.14170396327972 ATTN ifrq ipol ln 0 3 36128 3.000000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1838078498840332E-02 WAYNE Motion comp. added to patch, time = 17.19660103321075 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.4420490264892578E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 461.1345289945602 Writing 4192 lines of data to file WAYNE write output data 2.054545044898987 ==w out 9 0 2001 0 WAYNE PROCESS 536.5445109605789 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 538.656 seconds. before reading done reading WAYNE load raw data , time = 47.85567307472229 ATTN ifrq ipol ln 0 3 39620 3.000000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1213064193725586E-02 WAYNE Motion comp. added to patch, time = 15.86320996284485 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.7620277404785156E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 301.1446110010147 Writing 4192 lines of data to file WAYNE write output data 1.955274939537048 ==w out 10 4192 2001 85852160 WAYNE PROCESS 366.8381289243698 ==w out 11 8387 1 61289 0 2 61402 0 3 61387 0 4 61386 0 5 61279 0 6 61382 0 7 61276 0 8 61320 0 9 61383 0 10 61384 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 67072kids= 10 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 2 gather image from processor # 4 2 gather image from processor # 5 2 gather image from processor # 6 1 gather image from processor # 7 1 gather image from processor # 8 1 gather image from processor # 9 1 WAYNE gather images takes: 0.2114989757537842 WAYNE LOOP TIME: 914.1133919954300 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_p.vh_j /mnt/air65/airops/1359/ts1359_p.mocompv /mnt/air65/airops/1359/ts1359_p.dop /mnt/air65/airops/1359/ts1359_p.glb 2560 67072 update intf hdr ha: 7045.200 UPDATE: 2560 67072 6.662100 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_p.mocompv dopfile /mnt/air65/airops/1359/ts1359_p.dop globalfile /mnt/air65/airops/1359/ts1359_p.glb /mnt/air65/airops/1359/ts1359_p.glb 35 deskew line ra ha trc: 55.22514 107 8186.938 7045.200 -91.16894 after deskew line ra ha trc: 55.22514 107 8186.938 7045.200 -91.16894 lat1 lon1: 107 64.49756 -147.0439 67072 last ra n_ns ns: 8186.938 1 1 67178 67072 lati loni: 67178 64.49750 -147.7780 67178 1 center ra n_ns ns: 16707.77 1280 1280 33642 67072 lati loni: 33642 64.42062 -147.4081 33642 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_p.vh_j WAYNE FINAL PROCESS 916.0870209932327 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8384 2 8384 2 8384 2 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_p.vh_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_p.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.pv Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1359/ts1359_p.vh Name of the line output file? /mnt/air65/airops/1359/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 4.576398968696594 Deskewing 16 patches Processing block number 1 DEBUG 92 107.3363 92.67650 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 92 92 0 half line dmj dgc: 0 2001 107 92 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 2097 0 2096 patch iptc,sj,dgj,dgi,id: 1 2097 92 92 2096 half line dmj dgc: 1 2001 107 92 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 2097 1 Zeroing lines in arrays Total # of output lines = 1 2096 Processing block number 2 DEBUG 75 108.5991 75.84667 0.0000000E+00 0.0000000E+00 2097 3476 -17 1396 patch iptc,sj,dgj,dgi,id: 2 3476 75 92 1396 half line dmj dgc: 0 5493 108 92 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3476 2097 Zeroing lines in arrays Total # of output lines = 2 3475 3476 5572 0 2096 patch iptc,sj,dgj,dgi,id: 2 5572 75 75 2096 half line dmj dgc: 1 5493 108 92 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5572 3476 Zeroing lines in arrays Total # of output lines = 2 5571 Processing block number 3 DEBUG 57 105.8016 57.80850 0.0000000E+00 0.0000000E+00 5572 6950 -18 1396 patch iptc,sj,dgj,dgi,id: 3 6950 57 75 1396 half line dmj dgc: 0 8985 105 92 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6950 5572 Zeroing lines in arrays Total # of output lines = 3 6949 6950 9046 0 2096 patch iptc,sj,dgj,dgi,id: 3 9046 57 57 2096 half line dmj dgc: 1 8985 105 92 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9046 6950 Zeroing lines in arrays Total # of output lines = 3 9045 Processing block number 4 DEBUG 40 97.82229 40.51173 0.0000000E+00 0.0000000E+00 9046 10425 -17 1396 patch iptc,sj,dgj,dgi,id: 4 10425 40 57 1396 half line dmj dgc: 0 12477 97 92 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10425 9046 Zeroing lines in arrays Total # of output lines = 4 10424 10425 12521 0 2096 patch iptc,sj,dgj,dgi,id: 4 233 40 40 2096 half line dmj dgc: 1 12477 97 92 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10425 233 Zeroing lines in arrays Total # of output lines = 4 12520 Processing block number 5 DEBUG 60 96.74531 60.12708 0.0000000E+00 0.0000000E+00 233 1649 20 1396 patch iptc,sj,dgj,dgi,id: 5 1649 60 40 1396 half line dmj dgc: 0 15969 96 92 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1649 233 Zeroing lines in arrays Total # of output lines = 5 13936 1649 3745 0 2096 patch iptc,sj,dgj,dgi,id: 5 3745 60 60 2096 half line dmj dgc: 1 15969 96 92 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3745 1649 Zeroing lines in arrays Total # of output lines = 5 16032 Processing block number 6 DEBUG 108 108.5611 110.2709 0.0000000E+00 0.0000000E+00 3745 5189 48 1396 patch iptc,sj,dgj,dgi,id: 6 5189 108 60 1396 half line dmj dgc: 0 19461 110 92 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5189 3745 Zeroing lines in arrays Total # of output lines = 6 17476 5189 7285 0 2096 patch iptc,sj,dgj,dgi,id: 6 7285 108 108 2096 half line dmj dgc: 1 19461 110 92 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7285 5189 Zeroing lines in arrays Total # of output lines = 6 19572 Processing block number 7 DEBUG 51 107.0741 51.70245 0.0000000E+00 0.0000000E+00 7285 8624 -57 1396 patch iptc,sj,dgj,dgi,id: 7 8624 51 108 1396 half line dmj dgc: 0 22953 106 92 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8624 7285 Zeroing lines in arrays Total # of output lines = 7 20911 8624 10720 0 2096 patch iptc,sj,dgj,dgi,id: 7 10720 51 51 2096 half line dmj dgc: 1 22953 106 92 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10720 8624 Zeroing lines in arrays Total # of output lines = 7 23007 Processing block number 8 DEBUG -166 76.71504 -165.3935 0.0000000E+00 0.0000000E+00 10720 11899 -217 1396 patch iptc,sj,dgj,dgi,id: 8 11899 -166 51 1396 half line dmj dgc: 0 26445 76 92 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 11899 10720 Zeroing lines in arrays Total # of output lines = 8 24186 11899 13995 0 2096 patch iptc,sj,dgj,dgi,id: 8 1707 -166 -166 2096 half line dmj dgc: 1 26445 76 92 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 s1>sj: 11899 1707 Zeroing lines in arrays Total # of output lines = 8 26282 Processing block number 9 DEBUG -393 43.37087 -392.8549 0.0000000E+00 0.0000000E+00 1707 2876 -227 1396 patch iptc,sj,dgj,dgi,id: 9 2876 -393 -166 1396 half line dmj dgc: 0 29937 43 92 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 2876 1707 Zeroing lines in arrays Total # of output lines = 9 27451 2876 4972 0 2096 patch iptc,sj,dgj,dgi,id: 9 4972 -393 -393 2096 half line dmj dgc: 1 29937 43 92 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 4972 2876 Zeroing lines in arrays Total # of output lines = 9 29547 Processing block number 10 DEBUG -538 18.72483 -537.7570 0.0000000E+00 0.0000000E+00 4972 6223 -145 1396 patch iptc,sj,dgj,dgi,id: 10 6223 -538 -393 1396 half line dmj dgc: 0 33429 18 92 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 6223 4972 Zeroing lines in arrays Total # of output lines = 10 30798 6223 8319 0 2096 patch iptc,sj,dgj,dgi,id: 10 8319 -538 -538 2096 half line dmj dgc: 1 33429 18 92 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 8319 6223 Zeroing lines in arrays Total # of output lines = 10 32894 Processing block number 11 DEBUG -591 4.914576 -590.0342 0.0000000E+00 0.0000000E+00 8319 9662 -53 1396 patch iptc,sj,dgj,dgi,id: 11 9662 -591 -538 1396 half line dmj dgc: 0 36921 4 92 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 9662 8319 Zeroing lines in arrays Total # of output lines = 11 34237 9662 11758 0 2096 patch iptc,sj,dgj,dgi,id: 11 11758 -591 -591 2096 half line dmj dgc: 1 36921 4 92 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 11758 9662 Zeroing lines in arrays Total # of output lines = 11 36333 Processing block number 12 DEBUG -631 -7.412249 -630.4690 0.0000000E+00 0.0000000E+00 11758 13114 -40 1396 patch iptc,sj,dgj,dgi,id: 12 826 -631 -591 1396 half line dmj dgc: 0 40413 -8 92 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 s1>sj: 11758 826 Zeroing lines in arrays Total # of output lines = 12 37689 826 2922 0 2096 patch iptc,sj,dgj,dgi,id: 12 2922 -631 -631 2096 half line dmj dgc: 1 40413 -8 92 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 2922 826 Zeroing lines in arrays Total # of output lines = 12 39785 Processing block number 13 DEBUG -723 -21.83446 -722.4285 0.0000000E+00 0.0000000E+00 2922 4226 -92 1396 patch iptc,sj,dgj,dgi,id: 13 4226 -723 -631 1396 half line dmj dgc: 0 43905 -22 92 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 4226 2922 Zeroing lines in arrays Total # of output lines = 13 41089 4226 6322 0 2096 patch iptc,sj,dgj,dgi,id: 13 6322 -723 -723 2096 half line dmj dgc: 1 43905 -22 92 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 6322 4226 Zeroing lines in arrays Total # of output lines = 13 43185 Processing block number 14 DEBUG -810 -30.93969 -809.8535 0.0000000E+00 0.0000000E+00 6322 7631 -87 1396 patch iptc,sj,dgj,dgi,id: 14 7631 -810 -723 1396 half line dmj dgc: 0 47397 -32 92 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 7631 6322 Zeroing lines in arrays Total # of output lines = 14 44494 7631 9727 0 2096 patch iptc,sj,dgj,dgi,id: 14 9727 -810 -810 2096 half line dmj dgc: 1 47397 -32 92 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 9727 7631 Zeroing lines in arrays Total # of output lines = 14 46590 Processing block number 15 DEBUG -873 -39.85496 -872.0956 0.0000000E+00 0.0000000E+00 9727 11060 -63 1396 patch iptc,sj,dgj,dgi,id: 15 11060 -873 -810 1396 half line dmj dgc: 0 50889 -40 92 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 sj>s1: 11060 9727 Zeroing lines in arrays Total # of output lines = 15 47923 11060 13156 0 2096 patch iptc,sj,dgj,dgi,id: 15 868 -873 -873 2096 half line dmj dgc: 1 50889 -40 92 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 s1>sj: 11060 868 Zeroing lines in arrays Total # of output lines = 15 50019 Processing block number 16 DEBUG -949 -54.03454 -948.2618 0.0000000E+00 0.0000000E+00 868 615 -76 -177 patch iptc,sj,dgj,dgi,id: 16 615 -949 -873 -177 half line dmj dgc: 0 52808 -55 92 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Zeroing lines in arrays Total # of output lines = 16 50019 868 2711 0 2096 patch iptc,sj,dgj,dgi,id: 16 2711 -949 -949 2096 half line dmj dgc: 1 52808 -55 92 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 2711 868 Zeroing lines in arrays Total # of output lines = 16 51862 ia dmi dgi: 2711 -55 -949 Writing the last 2990 lines last half sj>s1 5701 2711 51862 WAYNE done patche 202.8104869127274 Total # of output lines = 54852 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 54852 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 6.6621 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 203.5132509469986 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.34 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /mnt/air62/airops/1359/sensor.pp_2000 Please enter the name of the parameter file /mnt/air65/airops/1359/ts1359_p.par hddt: 98 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 59000 lines Keeping 4192 data points per patch Near range (m) = 8181.010 Slant range pixel spacing (m) = 6.662055 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.6832900 ADC sampling frequency (MHz) = 45.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 20.00000 Ashift = -2.060000 Range weighting coefficient = 0.1000000 Map height (m) = 450.0000 Transmit leverarm x,y,z = 1.437000 1.037000 8.9000002E-02 Receive leverarm x,y,z = 1.437000 1.037000 8.9000002E-02 Name of raw data file? /mnt/air62/airops/1359/p_vv Name of the mocomp data file? /mnt/air65/airops/1359/ts1359_p.mocompv Output file name w/o ext? /mnt/air65/airops/1359/ts1359_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vv Raw DIR Path:/mnt/air62/airops/1359/ output filename:/mnt/air62/airops/1359/ts1359_p.vv_j *** ipol itop: 4 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /mnt/air62/airops/1359/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.4022000E-02 reading motion compensation data WAYNE read motion compen 1.374307 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 AnalogChirp>96032Br,fs,T,fc 98 20.00000 11.25000 45.00000 10.00000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.4621290 start range comp, time = 1.881 WAYNE PREV 1.864908 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 13 to 13 by # 6 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 2.106 seconds. before reading done reading WAYNE load raw data , time = 55.02881896495819 ATTN ifrq ipol ln 0 4 50096 11.00000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1747002601623535E-02 WAYNE Motion comp. added to patch, time = 17.01329505443573 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.8600692749023438E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 420.4737089872360 Writing 4192 lines of data to file WAYNE write output data 2.329313039779663 ==w out 13 0 2001 0 WAYNE PROCESS 494.8615310192108 ==w out 14 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 14 to 14 by # 7 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 2.121 seconds. before reading done reading WAYNE load raw data , time = 54.06183505058289 ATTN ifrq ipol ln 0 4 53588 11.00000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1640071868896484E-02 WAYNE Motion comp. added to patch, time = 16.90309894084930 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8330087661743164E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 471.4554699659348 Writing 4192 lines of data to file WAYNE write output data 2.249876976013184 ==w out 14 0 2001 0 WAYNE PROCESS 544.6865799427032 ==w out 15 4195 PROCESSING KID# 9 ..... WAYNE IS IN Processing 15 to 15 by # 8 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 2.135 seconds. before reading done reading WAYNE load raw data , time = 55.11470603942871 ATTN ifrq ipol ln 0 4 57080 11.00000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1775970458984375E-02 WAYNE Motion comp. added to patch, time = 16.95576202869415 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8220415115356445E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 471.2050559520721 Writing 4192 lines of data to file WAYNE write output data 2.276297926902771 ==w out 15 0 2001 0 WAYNE PROCESS 545.5682229995728 ==w out 16 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 50808 58999 patch# 16 reference line: 54903 2.147 seconds. before reading done reading WAYNE load raw data , time = 54.10971105098724 ATTN ifrq ipol ln 0 4 58999 11.00000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1775970458984375E-02 WAYNE Motion comp. added to patch, time = 16.86981296539307 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7580261230468750E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 473.9150680303574 Writing 4192 lines of data to file WAYNE write output data 2.141158938407898 ==w out 16 0 2001 0 WAYNE PROCESS 547.0519409179688 ==w out 17 4195 PROCESSING KID# 6 ..... WAYNE IS IN Processing 11 to 12 by # 5 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 2.093 seconds. before reading done reading WAYNE load raw data , time = 54.21466696262360 ATTN ifrq ipol ln 0 4 43112 11.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1811017990112305E-02 WAYNE Motion comp. added to patch, time = 16.93431794643402 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7500391006469727E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 404.5802580118179 Writing 4192 lines of data to file WAYNE write output data 2.226580977439880 ==w out 11 0 2001 0 WAYNE PROCESS 477.9721590280533 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 480.066 seconds. before reading done reading WAYNE load raw data , time = 45.50376498699188 ATTN ifrq ipol ln 0 4 46604 11.00000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1083960533142090E-02 WAYNE Motion comp. added to patch, time = 15.61120200157166 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.2190928459167480E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 293.4493319988251 Writing 4192 lines of data to file WAYNE write output data 2.018324971199036 ==w out 12 4192 2001 85852160 WAYNE PROCESS 356.6172510385513 ==w out 13 8387 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 8 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 2.070 seconds. before reading done reading WAYNE load raw data , time = 54.86733496189117 ATTN ifrq ipol ln 0 4 29144 11.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1831998825073242E-02 WAYNE Motion comp. added to patch, time = 17.86890494823456 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 2.7660131454467773E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 421.3552930355072 Writing 4192 lines of data to file WAYNE write output data 2.309473037719727 ==w out 7 0 2001 0 WAYNE PROCESS 496.4174029827118 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 498.488 seconds. before reading done reading WAYNE load raw data , time = 46.15528893470764 ATTN ifrq ipol ln 0 4 32636 11.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 1.2349963188171387E-02 WAYNE Motion comp. added to patch, time = 16.17134892940521 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.2129974365234375E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 282.5389161109924 Writing 4192 lines of data to file WAYNE write output data 2.066391944885254 ==w out 8 4192 2001 85852160 WAYNE PROCESS 347.0079089403152 ==w out 9 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 2.047 seconds. before reading done reading WAYNE load raw data , time = 53.59861290454865 ATTN ifrq ipol ln 0 4 15176 11.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 3.0858039855957031E-02 WAYNE Motion comp. added to patch, time = 17.34698605537415 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6580095291137695E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 406.6177169084549 Writing 4192 lines of data to file WAYNE write output data 2.217944979667664 ==w out 3 0 2001 0 WAYNE PROCESS 479.8167210817337 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 481.864 seconds. before reading done reading WAYNE load raw data , time = 45.01351904869080 ATTN ifrq ipol ln 0 4 18668 11.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.0822892189025879E-02 WAYNE Motion comp. added to patch, time = 15.93280398845673 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.9855022430419922E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 301.5006870031357 Writing 4192 lines of data to file WAYNE write output data 2.085638046264648 ==w out 4 4192 2001 85852160 WAYNE PROCESS 364.5646970272064 ==w out 5 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 2.056 seconds. before reading done reading WAYNE load raw data , time = 54.77632498741150 ATTN ifrq ipol ln 0 4 22160 11.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1765003204345703E-02 WAYNE Motion comp. added to patch, time = 17.57006192207336 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.1249523162841797E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 420.5193430185318 Writing 4192 lines of data to file WAYNE write output data 2.342646956443787 ==w out 5 0 2001 0 WAYNE PROCESS 495.2253860235214 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 497.282 seconds. before reading done reading WAYNE load raw data , time = 45.82796096801758 ATTN ifrq ipol ln 0 4 25652 11.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1061906814575195E-02 WAYNE Motion comp. added to patch, time = 16.39217495918274 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5962948799133301E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 287.9961539506912 Writing 4192 lines of data to file WAYNE write output data 2.019662976264954 ==w out 6 4192 2001 85852160 WAYNE PROCESS 352.2743250131607 ==w out 7 8387 PROCESSING KID# 5 ..... WAYNE IS IN Processing 9 to 10 by # 4 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 2.080 seconds. before reading done reading WAYNE load raw data , time = 56.65886294841766 ATTN ifrq ipol ln 0 4 36128 11.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1924028396606445E-02 WAYNE Motion comp. added to patch, time = 17.09075307846069 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 4.0839910507202148E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 406.7843960523605 Writing 4192 lines of data to file WAYNE write output data 2.156418919563293 ==w out 9 0 2001 0 WAYNE PROCESS 482.7092219591141 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 484.790 seconds. before reading done reading WAYNE load raw data , time = 48.25834798812866 ATTN ifrq ipol ln 0 4 39620 11.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1039972305297852E-02 WAYNE Motion comp. added to patch, time = 15.77498805522919 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 6.8929195404052734E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 301.4459129571915 Writing 4192 lines of data to file WAYNE write output data 2.008692979812622 ==w out 10 4192 2001 85852160 WAYNE PROCESS 367.5072180032730 ==w out 11 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -3.7577801E-04 8.0601303E-03 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.034 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 56.17595493793488 ATTN ifrq ipol ln 0 4 8192 11.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1780023574829102E-02 TESTING 0.0000000E+00 60.21780 -0.7206764 WAYNE Motion comp. added to patch, time = 17.22421705722809 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.2190084457397461E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 60.21780 -0.7206764 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -3.7577801E-04 8.0601303E-03 WAYNE Azimuth compression done, time = 430.4196310043335 Writing 4192 lines of data to file WAYNE write output data 2.103747010231018 ==w out 1 0 2001 0 WAYNE PROCESS 505.9407750368118 Processing block number 2 TESTING WHY -8.3963899E-04 8.4267398E-03 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 507.975 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 47.44340205192566 ATTN ifrq ipol ln 0 4 11684 11.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1662006378173828E-02 TESTING 0.0000000E+00 57.22427 -1.092571 WAYNE Motion comp. added to patch, time = 16.01675105094910 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.3880004882812500E-02 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 776.1564 2393.569 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 57.22427 -1.092571 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -8.3963899E-04 8.4267398E-03 WAYNE Azimuth compression done, time = 299.3826330900192 Writing 4192 lines of data to file WAYNE write output data 2.014757037162781 ==w out 2 4192 2001 85852160 WAYNE PROCESS 364.8945519924164 ==w out 3 8387 1 63852 0 2 63779 0 3 63856 0 4 63855 0 5 63854 0 6 63853 0 7 63849 0 8 63851 0 9 63850 0 10 63844 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 67072kids= 10 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 2 gather image from processor # 4 2 gather image from processor # 5 2 gather image from processor # 6 1 gather image from processor # 7 1 gather image from processor # 8 1 gather image from processor # 9 1 WAYNE gather images takes: 0.2460789680480957 WAYNE LOOP TIME: 881.5700609683990 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1359/ts1359_p.vv_j /mnt/air65/airops/1359/ts1359_p.mocompv /mnt/air65/airops/1359/ts1359_p.dop /mnt/air65/airops/1359/ts1359_p.glb 2560 67072 update intf hdr ha: 7045.200 UPDATE: 2560 67072 6.662100 0.5144000 mocompfile /mnt/air65/airops/1359/ts1359_p.mocompv dopfile /mnt/air65/airops/1359/ts1359_p.dop globalfile /mnt/air65/airops/1359/ts1359_p.glb /mnt/air65/airops/1359/ts1359_p.glb 35 deskew line ra ha trc: 55.22514 107 8186.938 7045.200 -91.16894 after deskew line ra ha trc: 55.22514 107 8186.938 7045.200 -91.16894 lat1 lon1: 107 64.49756 -147.0439 67072 last ra n_ns ns: 8186.938 1 1 67178 67072 lati loni: 67178 64.49750 -147.7780 67178 1 center ra n_ns ns: 16707.77 1280 1280 33642 67072 lati loni: 33642 64.42062 -147.4081 33642 2560 Updated paramater header in /mnt/air62/airops/1359/ts1359_p.vv_j WAYNE FINAL PROCESS 883.5518260002136 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 10 8384 2 8384 2 8384 2 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /mnt/air62/airops/1359/ts1359_p.vv_j Name of the doppler parameter file? /mnt/air65/airops/1359/ts1359_p.dop Name of the deskew file? /mnt/air62/airops/1359/deskew.pv Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1359/ts1359_p.vv Name of the line output file? /mnt/air65/airops/1359/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.278020024299622 Deskewing 16 patches Processing block number 1 DEBUG 92 107.3363 92.67650 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 92 92 0 half line dmj dgc: 0 2001 107 92 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 2097 0 2096 patch iptc,sj,dgj,dgi,id: 1 2097 92 92 2096 half line dmj dgc: 1 2001 107 92 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 2097 1 Zeroing lines in arrays Total # of output lines = 1 2096 Processing block number 2 DEBUG 75 108.5991 75.84667 0.0000000E+00 0.0000000E+00 2097 3476 -17 1396 patch iptc,sj,dgj,dgi,id: 2 3476 75 92 1396 half line dmj dgc: 0 5493 108 92 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3476 2097 Zeroing lines in arrays Total # of output lines = 2 3475 3476 5572 0 2096 patch iptc,sj,dgj,dgi,id: 2 5572 75 75 2096 half line dmj dgc: 1 5493 108 92 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5572 3476 Zeroing lines in arrays Total # of output lines = 2 5571 Processing block number 3 DEBUG 57 105.8016 57.80850 0.0000000E+00 0.0000000E+00 5572 6950 -18 1396 patch iptc,sj,dgj,dgi,id: 3 6950 57 75 1396 half line dmj dgc: 0 8985 105 92 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6950 5572 Zeroing lines in arrays Total # of output lines = 3 6949 6950 9046 0 2096 patch iptc,sj,dgj,dgi,id: 3 9046 57 57 2096 half line dmj dgc: 1 8985 105 92 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9046 6950 Zeroing lines in arrays Total # of output lines = 3 9045 Processing block number 4 DEBUG 40 97.82229 40.51173 0.0000000E+00 0.0000000E+00 9046 10425 -17 1396 patch iptc,sj,dgj,dgi,id: 4 10425 40 57 1396 half line dmj dgc: 0 12477 97 92 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10425 9046 Zeroing lines in arrays Total # of output lines = 4 10424 10425 12521 0 2096 patch iptc,sj,dgj,dgi,id: 4 233 40 40 2096 half line dmj dgc: 1 12477 97 92 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10425 233 Zeroing lines in arrays Total # of output lines = 4 12520 Processing block number 5 DEBUG 60 96.74531 60.12708 0.0000000E+00 0.0000000E+00 233 1649 20 1396 patch iptc,sj,dgj,dgi,id: 5 1649 60 40 1396 half line dmj dgc: 0 15969 96 92 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1649 233 Zeroing lines in arrays Total # of output lines = 5 13936 1649 3745 0 2096 patch iptc,sj,dgj,dgi,id: 5 3745 60 60 2096 half line dmj dgc: 1 15969 96 92 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3745 1649 Zeroing lines in arrays Total # of output lines = 5 16032 Processing block number 6 DEBUG 108 108.5611 110.2709 0.0000000E+00 0.0000000E+00 3745 5189 48 1396 patch iptc,sj,dgj,dgi,id: 6 5189 108 60 1396 half line dmj dgc: 0 19461 110 92 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5189 3745 Zeroing lines in arrays Total # of output lines = 6 17476 5189 7285 0 2096 patch iptc,sj,dgj,dgi,id: 6 7285 108 108 2096 half line dmj dgc: 1 19461 110 92 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7285 5189 Zeroing lines in arrays Total # of output lines = 6 19572 Processing block number 7 DEBUG 51 107.0741 51.70245 0.0000000E+00 0.0000000E+00 7285 8624 -57 1396 patch iptc,sj,dgj,dgi,id: 7 8624 51 108 1396 half line dmj dgc: 0 22953 106 92 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8624 7285 Zeroing lines in arrays Total # of output lines = 7 20911 8624 10720 0 2096 patch iptc,sj,dgj,dgi,id: 7 10720 51 51 2096 half line dmj dgc: 1 22953 106 92 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10720 8624 Zeroing lines in arrays Total # of output lines = 7 23007 Processing block number 8 DEBUG -166 76.71504 -165.3935 0.0000000E+00 0.0000000E+00 10720 11899 -217 1396 patch iptc,sj,dgj,dgi,id: 8 11899 -166 51 1396 half line dmj dgc: 0 26445 76 92 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 11899 10720 Zeroing lines in arrays Total # of output lines = 8 24186 11899 13995 0 2096 patch iptc,sj,dgj,dgi,id: 8 1707 -166 -166 2096 half line dmj dgc: 1 26445 76 92 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 s1>sj: 11899 1707 Zeroing lines in arrays Total # of output lines = 8 26282 Processing block number 9 DEBUG -393 43.37087 -392.8549 0.0000000E+00 0.0000000E+00 1707 2876 -227 1396 patch iptc,sj,dgj,dgi,id: 9 2876 -393 -166 1396 half line dmj dgc: 0 29937 43 92 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 2876 1707 Zeroing lines in arrays Total # of output lines = 9 27451 2876 4972 0 2096 patch iptc,sj,dgj,dgi,id: 9 4972 -393 -393 2096 half line dmj dgc: 1 29937 43 92 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 4972 2876 Zeroing lines in arrays Total # of output lines = 9 29547 Processing block number 10 DEBUG -538 18.72483 -537.7570 0.0000000E+00 0.0000000E+00 4972 6223 -145 1396 patch iptc,sj,dgj,dgi,id: 10 6223 -538 -393 1396 half line dmj dgc: 0 33429 18 92 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 6223 4972 Zeroing lines in arrays Total # of output lines = 10 30798 6223 8319 0 2096 patch iptc,sj,dgj,dgi,id: 10 8319 -538 -538 2096 half line dmj dgc: 1 33429 18 92 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 8319 6223 Zeroing lines in arrays Total # of output lines = 10 32894 Processing block number 11 DEBUG -591 4.914576 -590.0342 0.0000000E+00 0.0000000E+00 8319 9662 -53 1396 patch iptc,sj,dgj,dgi,id: 11 9662 -591 -538 1396 half line dmj dgc: 0 36921 4 92 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 9662 8319 Zeroing lines in arrays Total # of output lines = 11 34237 9662 11758 0 2096 patch iptc,sj,dgj,dgi,id: 11 11758 -591 -591 2096 half line dmj dgc: 1 36921 4 92 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 11758 9662 Zeroing lines in arrays Total # of output lines = 11 36333 Processing block number 12 DEBUG -631 -7.412249 -630.4690 0.0000000E+00 0.0000000E+00 11758 13114 -40 1396 patch iptc,sj,dgj,dgi,id: 12 826 -631 -591 1396 half line dmj dgc: 0 40413 -8 92 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 s1>sj: 11758 826 Zeroing lines in arrays Total # of output lines = 12 37689 826 2922 0 2096 patch iptc,sj,dgj,dgi,id: 12 2922 -631 -631 2096 half line dmj dgc: 1 40413 -8 92 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 2922 826 Zeroing lines in arrays Total # of output lines = 12 39785 Processing block number 13 DEBUG -723 -21.83446 -722.4285 0.0000000E+00 0.0000000E+00 2922 4226 -92 1396 patch iptc,sj,dgj,dgi,id: 13 4226 -723 -631 1396 half line dmj dgc: 0 43905 -22 92 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 4226 2922 Zeroing lines in arrays Total # of output lines = 13 41089 4226 6322 0 2096 patch iptc,sj,dgj,dgi,id: 13 6322 -723 -723 2096 half line dmj dgc: 1 43905 -22 92 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 6322 4226 Zeroing lines in arrays Total # of output lines = 13 43185 Processing block number 14 DEBUG -810 -30.93969 -809.8535 0.0000000E+00 0.0000000E+00 6322 7631 -87 1396 patch iptc,sj,dgj,dgi,id: 14 7631 -810 -723 1396 half line dmj dgc: 0 47397 -32 92 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 7631 6322 Zeroing lines in arrays Total # of output lines = 14 44494 7631 9727 0 2096 patch iptc,sj,dgj,dgi,id: 14 9727 -810 -810 2096 half line dmj dgc: 1 47397 -32 92 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 9727 7631 Zeroing lines in arrays Total # of output lines = 14 46590 Processing block number 15 DEBUG -873 -39.85496 -872.0956 0.0000000E+00 0.0000000E+00 9727 11060 -63 1396 patch iptc,sj,dgj,dgi,id: 15 11060 -873 -810 1396 half line dmj dgc: 0 50889 -40 92 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 sj>s1: 11060 9727 Zeroing lines in arrays Total # of output lines = 15 47923 11060 13156 0 2096 patch iptc,sj,dgj,dgi,id: 15 868 -873 -873 2096 half line dmj dgc: 1 50889 -40 92 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 s1>sj: 11060 868 Zeroing lines in arrays Total # of output lines = 15 50019 Processing block number 16 DEBUG -949 -54.03454 -948.2618 0.0000000E+00 0.0000000E+00 868 615 -76 -177 patch iptc,sj,dgj,dgi,id: 16 615 -949 -873 -177 half line dmj dgc: 0 52808 -55 92 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Zeroing lines in arrays Total # of output lines = 16 50019 868 2711 0 2096 patch iptc,sj,dgj,dgi,id: 16 2711 -949 -949 2096 half line dmj dgc: 1 52808 -55 92 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 2711 868 Zeroing lines in arrays Total # of output lines = 16 51862 ia dmi dgi: 2711 -55 -949 Writing the last 2990 lines last half sj>s1 5701 2711 51862 WAYNE done patche 200.8320440053940 Total # of output lines = 54852 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 54852 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.34 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 6.6621 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 201.4300130605698 Enter single look lines filename: Enter single look image filename: Enter output lines filename: Enter number of looks: ns np nlloks: 2560 54852 18 Multi-looking lines.dat file... Total number of lines written to output file: 3047 *************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** *************************************** Enter the name of the Shh input file. fd for hh: 3 Enter the name of the complex HV file. fd for hv: 4 Enter the name of the complex VH file. fd for vh: 5 Enter the name of the complex VV file. fd for vv: 6 Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 4 min. window size : 5906 MIN window samp: 2729 45.00000 10.00000 450 2560 MIN window samp: 2560 45.00000 10.00000 450 2560 Calculating the ratio of HV and VH.... amvh,amhv 38.37738 42.85093 Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the number of looks in azimuth. amplitude ratio and phase = 1.056677 26.84719 40/20 MHz: 2560 10240 40/20 MHz MHz complex: 2560 20480 54846 3047 18 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.1240030 8.801600 146 4.563 3046 -6.969 8.80160 0.039333 0.359004 -0.008152 r_peak,r_snr = 8.6953640E-02 7.956623 246 -1.938 3046 -6.250 7.95662 0.026319 0.508367 0.031007 r_peak,r_snr = 0.2042861 6.536562 346 -1.563 3046 -11.219 6.53656 0.021473 0.712412 -0.029724 r_peak,r_snr = 0.2011783 8.359988 446 -1.188 3046 -6.344 8.35999 0.016636 0.797564 -0.037013 r_peak,r_snr = 0.2116026 4.813351 546 3.219 3046 -5.781 4.81335 0.062061 2.767251 -0.280303 r_peak,r_snr = 0.1327575 7.717511 646 -2.250 3046 -3.531 7.71751 0.134489 5.610876 -0.802500 r_peak,r_snr = 0.3599295 3.463053 746 0.781 3046 11.438 3.46305 0.033014 0.534259 0.078086 r_peak,r_snr = 0.1919474 5.792372 846 -2.031 3046 -15.781 5.79237 0.034059 2.894651 -0.202321 r_peak,r_snr = 0.3031664 5.277771 946 1.656 3046 5.219 5.27777 0.005973 0.579276 -0.009505 r_peak,r_snr = 0.1322433 6.513077 1046 -3.313 3046 0.719 6.51308 0.097522 2.954590 0.199361 r_peak,r_snr = 0.1470248 7.693410 1146 2.406 3046 -11.250 7.69341 0.008961 7.297481 -0.158461 r_peak,r_snr = 0.2996791 5.549235 1246 0.438 3046 0.188 5.54924 0.023252 1.324230 -0.134864 r_peak,r_snr = 0.1279494 5.955396 1346 5.531 3046 9.344 5.95540 0.022988 1.495562 0.001009 r_peak,r_snr = 0.1587691 9.559958 1646 -3.813 3046 5.781 9.55996 0.007756 1.551297 -0.041068 r_peak,r_snr = 0.1149996 4.763261 1746 12.031 3046 -7.188 4.76326 0.009877 1.094249 0.030704 r_peak,r_snr = 0.1039569 4.811407 1846 -3.594 3046 -10.469 4.81141 0.048196 1.848853 -0.120007 r_peak,r_snr = 0.1397984 7.263523 1946 0.219 3046 -9.750 7.26352 0.006564 1.205989 0.018647 r_peak,r_snr = 0.1271751 8.089888 2046 -5.469 3046 -1.625 8.08989 0.028297 0.866241 -0.135399 At line = 3400 Reading in data.... r_peak,r_snr = 0.2109116 9.234112 146 0.906 3446 1.750 9.23411 0.006698 0.531508 0.008140 r_peak,r_snr = 0.1614109 7.589574 246 -0.656 3446 -11.531 7.58957 0.027739 2.663926 -0.208012 r_peak,r_snr = 0.1218334 5.548274 346 2.250 3446 -13.781 5.54827 0.174680 3.476010 -0.572057 r_peak,r_snr = 0.2207371 7.047643 446 -0.281 3446 1.469 7.04764 0.032001 6.053205 0.285133 r_peak,r_snr = 0.1465182 8.361883 546 0.344 3446 2.000 8.36188 0.007335 1.113170 -0.039742 r_peak,r_snr = 0.1995216 4.393531 646 -4.469 3446 10.219 4.39353 0.011181 0.953861 0.019642 r_peak,r_snr = 0.1967204 12.10405 746 0.250 3446 4.750 12.10405 0.009065 1.701707 -0.063424 r_peak,r_snr = 0.2117714 5.850686 946 0.500 3446 -3.125 5.85069 0.031064 0.497934 0.076443 r_peak,r_snr = 0.2442760 4.809240 1146 -0.125 3446 4.563 4.80924 0.014937 1.884717 0.059579 r_peak,r_snr = 0.3363855 3.846463 1246 -0.500 3446 1.781 3.84646 0.016831 0.249629 -0.000736 r_peak,r_snr = 0.2624316 6.878644 1346 0.125 3446 -4.719 6.87864 0.007020 0.231477 -0.004625 r_peak,r_snr = 0.1334223 9.523289 1546 1.000 3446 -13.688 9.52329 0.018975 1.223621 0.024588 r_peak,r_snr = 0.3316419 3.082835 1646 -5.656 3446 6.688 3.08284 0.016097 0.682081 -0.071416 r_peak,r_snr = 0.2114609 5.071012 1746 -0.594 3446 1.750 5.07101 0.013254 1.852772 -0.012312 r_peak,r_snr = 0.1214571 8.167010 1846 4.313 3446 -6.688 8.16701 0.036986 0.539653 0.008194 r_peak,r_snr = 0.1320658 9.245197 1946 0.500 3446 2.250 9.24520 0.019959 1.709139 -0.126421 r_peak,r_snr = 0.1516874 13.18021 2046 0.094 3446 -0.125 13.18021 0.009802 0.284732 -0.017126 At line = 3800 Reading in data.... r_peak,r_snr = 0.1521566 7.700288 346 -1.031 3846 1.625 7.70029 0.080299 0.880809 -0.207100 r_peak,r_snr = 0.1860357 6.606217 446 2.000 3846 -13.781 6.60622 0.979258 6.140940 -2.336875 r_peak,r_snr = 0.1653218 8.726732 546 0.000 3846 -1.781 8.72673 0.016892 3.439767 0.157701 r_peak,r_snr = 0.1688647 6.145543 646 -2.500 3846 3.813 6.14554 0.021598 1.325363 -0.092912 r_peak,r_snr = 0.2196760 3.640055 746 3.469 3846 4.938 3.64006 0.066246 2.274340 -0.323940 r_peak,r_snr = 0.2227568 3.293938 846 12.531 3846 9.281 3.29394 0.780190 18.824427 -3.608597 r_peak,r_snr = 0.2266331 5.690716 946 -0.344 3846 -1.750 5.69072 0.070626 2.746185 -0.387841 r_peak,r_snr = 0.1834214 3.845930 1046 -0.281 3846 5.156 3.84593 0.025588 3.116395 0.205278 r_peak,r_snr = 0.1311809 8.400704 1146 0.000 3846 4.000 8.40070 0.017536 0.488448 -0.011928 r_peak,r_snr = 0.2510745 9.358899 1246 0.031 3846 0.219 9.35890 0.004568 1.294135 0.008863 r_peak,r_snr = 0.2208139 8.115226 1346 0.750 3846 -6.750 8.11523 0.010108 14.802690 0.212849 r_peak,r_snr = 0.3444336 7.451825 1446 0.469 3846 5.750 7.45183 0.009157 0.524629 -0.040158 r_peak,r_snr = 0.1343753 7.335623 1546 0.438 3846 5.688 7.33562 0.146922 1.214667 0.109132 r_peak,r_snr = 0.2044015 9.428648 1646 -1.281 3846 4.063 9.42865 0.009961 0.814809 0.036629 r_peak,r_snr = 0.1047906 6.368546 1746 -1.500 3846 -11.781 6.36855 0.063269 1.097584 -0.059623 r_peak,r_snr = 0.1431212 4.472112 1846 0.844 3846 10.188 4.47211 0.010712 2.960732 0.001982 r_peak,r_snr = 0.1876845 3.797542 1946 -13.813 3846 9.688 3.79754 0.021593 1.156395 0.087002 r_peak,r_snr = 0.1309144 6.454092 2046 -0.938 3846 7.969 6.45409 0.032155 0.759656 0.060201 At line = 4200 Reading in data.... r_peak,r_snr = 0.1420084 7.116028 246 -1.750 4246 13.156 7.11603 0.069320 0.563606 -0.102104 r_peak,r_snr = 0.1360190 10.48713 446 -0.156 4246 0.875 10.48713 0.009916 0.712686 -0.042455 r_peak,r_snr = 0.1468089 9.610437 546 -0.438 4246 1.188 9.61044 0.138308 24.400402 -1.747399 r_peak,r_snr = 0.1825123 6.797264 646 -0.344 4246 -3.188 6.79726 0.012842 0.827524 0.013362 r_peak,r_snr = 0.3227064 2.824749 746 -0.438 4246 5.250 2.82475 0.007185 0.834843 -0.036264 r_peak,r_snr = 0.2778283 2.165739 846 -3.844 4246 7.219 2.16574 0.064611 1.223130 -0.170989 r_peak,r_snr = 9.1240734E-02 5.518443 946 -6.563 4246 10.875 5.51844 0.400013 2.804019 -0.948492 r_peak,r_snr = 0.1670396 7.114348 1046 -0.406 4246 13.813 7.11435 0.014831 1.075398 0.017369 r_peak,r_snr = 0.1138641 7.253618 1146 -0.844 4246 7.688 7.25362 0.025572 2.032033 0.124364 r_peak,r_snr = 0.2987303 5.710562 1246 -0.375 4246 0.844 5.71056 0.023068 6.101690 -0.316977 r_peak,r_snr = 0.1562191 5.947999 1446 -5.094 4246 -7.250 5.94800 0.014715 4.960259 -0.167117 r_peak,r_snr = 0.2081260 8.792721 1546 -0.031 4246 -0.719 8.79272 0.008175 1.194177 0.033377 r_peak,r_snr = 0.2452324 5.976921 1646 0.188 4246 2.844 5.97692 0.018117 3.653942 -0.201332 r_peak,r_snr = 0.1834937 7.130293 1746 -1.156 4246 4.844 7.13029 0.015532 0.548588 0.022405 r_peak,r_snr = 0.1547173 9.875265 1846 -0.156 4246 4.125 9.87527 0.011161 0.726216 0.017501 r_peak,r_snr = 0.1152548 6.307261 1946 0.281 4246 5.969 6.30726 0.097409 1.600943 -0.087711 r_peak,r_snr = 0.1280020 10.37538 2046 1.250 4246 -12.344 10.37538 0.041898 0.712407 0.019284 At line = 4600 Reading in data.... r_peak,r_snr = 0.1184760 7.084548 146 -0.500 4646 -5.781 7.08455 0.021193 0.772331 -0.004227 r_peak,r_snr = 0.2026724 6.472935 246 2.063 4646 -9.813 6.47293 0.035450 2.154485 0.192709 r_peak,r_snr = 0.1663167 7.604258 346 0.281 4646 0.344 7.60426 0.096710 1.175050 -0.189415 r_peak,r_snr = 0.2822509 5.852630 546 -1.500 4646 5.688 5.85263 0.013385 0.801530 0.029935 r_peak,r_snr = 0.1509699 8.916884 646 3.063 4646 2.188 8.91688 0.017191 0.392005 0.008216 r_peak,r_snr = 0.1572236 6.966304 746 0.813 4646 0.063 6.96630 0.013302 1.699061 -0.003698 r_peak,r_snr = 0.2402673 8.159692 846 -1.281 4646 11.719 8.15969 0.374336 36.755268 3.631725 r_peak,r_snr = 0.1442245 8.979789 946 -0.469 4646 9.156 8.97979 0.212556 4.765745 -0.864083 r_peak,r_snr = 0.2397245 8.041161 1046 0.188 4646 2.219 8.04116 0.019195 1.176511 0.050214 r_peak,r_snr = 0.5294315 2.929388 1146 -0.281 4646 12.313 2.92939 0.021073 1.029413 0.111217 r_peak,r_snr = 0.2583770 7.096966 1246 -0.406 4646 1.125 7.09697 0.007974 0.714267 0.028938 r_peak,r_snr = 0.1741406 8.012218 1346 -7.563 4646 -8.188 8.01222 0.009899 2.185796 0.014399 r_peak,r_snr = 0.1927856 4.692111 1446 0.719 4646 2.750 4.69211 0.038191 6.396395 0.374321 r_peak,r_snr = 0.1714458 7.860375 1546 -0.750 4646 2.281 7.86038 0.010857 0.568208 -0.021535 r_peak,r_snr = 0.2763128 5.506542 1746 -0.156 4646 -4.781 5.50654 0.014825 1.099617 -0.085823 r_peak,r_snr = 0.2005366 7.318354 1846 -1.875 4646 -5.406 7.31835 0.037950 2.423571 -0.268277 r_peak,r_snr = 0.1889789 5.329825 1946 -6.219 4646 9.313 5.32982 0.022104 2.653637 0.151044 r_peak,r_snr = 0.1856236 3.386961 2046 0.313 4646 -8.781 3.38696 0.116107 1.047221 0.263198 At line = 5000 Reading in data.... r_peak,r_snr = 0.1301796 8.743102 146 -1.031 5046 12.844 8.74310 0.036158 15.810013 -0.659975 r_peak,r_snr = 0.1395627 5.395082 246 0.563 5046 4.094 5.39508 0.142982 1.417081 -0.199622 r_peak,r_snr = 0.1758362 9.750731 346 -11.500 5046 3.813 9.75073 0.010284 0.261859 -0.012114 r_peak,r_snr = 0.1572688 6.430027 446 9.594 5046 -4.188 6.43003 0.200545 15.894272 -1.675794 r_peak,r_snr = 0.1926582 2.580355 546 6.969 5046 -12.188 2.58036 0.204472 0.978826 -0.267936 r_peak,r_snr = 0.3364221 5.590731 646 -0.406 5046 -5.781 5.59073 0.007543 0.373267 0.007357 r_peak,r_snr = 0.2311599 9.642861 746 0.156 5046 -2.188 9.64286 0.011264 4.574932 -0.079890 r_peak,r_snr = 0.1577094 8.545618 846 -0.438 5046 -12.500 8.54562 0.023838 2.235824 -0.056912 r_peak,r_snr = 0.2261155 8.807880 946 1.313 5046 8.781 8.80788 0.046098 1.118854 -0.150102 r_peak,r_snr = 0.1208118 8.345803 1046 -0.063 5046 4.219 8.34580 0.016916 0.947826 0.006327 r_peak,r_snr = 0.2400016 3.956081 1146 13.844 5046 3.938 3.95608 0.048452 1.748302 -0.069350 r_peak,r_snr = 0.4146925 9.020892 1246 0.000 5046 2.156 9.02089 0.003599 0.264511 0.000519 r_peak,r_snr = 0.1484999 7.387793 1346 -2.563 5046 1.813 7.38779 0.008149 0.947481 0.003825 r_peak,r_snr = 0.3224873 5.643956 1546 -0.375 5046 0.781 5.64396 0.033370 9.326576 0.472892 r_peak,r_snr = 0.1462488 10.23646 1646 -0.094 5046 1.375 10.23646 0.016254 3.997247 0.154089 r_peak,r_snr = 0.1199246 6.328747 1746 0.406 5046 7.844 6.32875 0.012834 1.665663 0.062281 r_peak,r_snr = 0.2419346 5.726390 1846 -1.813 5046 9.438 5.72639 0.006974 0.187388 0.005653 r_peak,r_snr = 0.4789075 3.064211 2046 0.938 5046 2.813 3.06421 0.017238 1.778237 -0.084946 At line = 5400 Reading in data.... r_peak,r_snr = 0.1386428 10.51856 146 0.125 5446 -1.844 10.51856 0.007579 1.025532 0.026213 r_peak,r_snr = 0.1022293 7.267409 246 5.906 5446 9.781 7.26741 0.009455 2.000253 0.028443 r_peak,r_snr = 0.1293644 5.386230 346 1.969 5446 1.719 5.38623 0.154195 1.842424 -0.398315 r_peak,r_snr = 0.1249127 5.963359 446 -10.875 5446 1.750 5.96336 0.029095 0.617462 -0.086783 r_peak,r_snr = 0.1040985 4.248235 546 -0.781 5446 4.031 4.24823 0.184129 2.701384 0.432853 r_peak,r_snr = 0.2073599 6.374768 646 -0.500 5446 9.750 6.37477 0.013659 6.470297 -0.125287 r_peak,r_snr = 0.2635358 12.35024 746 -0.156 5446 -0.188 12.35024 0.003241 0.651334 0.009348 r_peak,r_snr = 0.6006019 5.418476 1046 0.250 5446 2.844 5.41848 0.002345 0.134634 0.000308 r_peak,r_snr = 0.1319556 7.443083 1246 0.406 5446 -12.844 7.44308 0.042989 1.002634 -0.152355 r_peak,r_snr = 0.1314297 7.576098 1346 -0.938 5446 1.906 7.57610 0.023395 2.408940 -0.107795 r_peak,r_snr = 0.2176011 9.405682 1446 -0.125 5446 -1.781 9.40568 0.015450 1.153184 0.021324 r_peak,r_snr = 0.3350444 5.968171 1546 0.219 5446 0.813 5.96817 0.008974 6.320509 0.156680 r_peak,r_snr = 0.1987691 5.099711 1646 7.031 5446 -4.750 5.09971 0.013734 0.378015 0.017806 r_peak,r_snr = 0.1840335 4.449850 1746 -3.875 5446 3.844 4.44985 0.013436 6.065657 0.110594 r_peak,r_snr = 0.1621605 7.610383 1846 -0.781 5446 -11.750 7.61038 0.012360 2.102103 0.051032 r_peak,r_snr = 0.1128153 10.60530 1946 3.531 5446 -4.781 10.60530 0.007479 0.579829 -0.011423 At line = 5800 Reading in data.... r_peak,r_snr = 0.1344900 9.908188 246 -7.563 5846 -9.906 9.90819 0.010706 0.299128 0.004470 r_peak,r_snr = 0.1979111 5.670849 346 0.406 5846 -4.094 5.67085 0.011173 1.394306 0.025435 r_peak,r_snr = 0.3566325 6.562772 646 0.969 5846 10.938 6.56277 0.007555 2.074020 0.046822 r_peak,r_snr = 0.2237012 13.25681 746 -0.063 5846 -0.594 13.25681 0.004810 1.836392 0.010830 r_peak,r_snr = 0.1464274 7.873286 846 1.156 5846 -0.094 7.87329 0.035889 2.736825 -0.072030 r_peak,r_snr = 0.3042516 5.314551 946 -0.406 5846 -9.938 5.31455 0.010356 0.905544 0.016807 r_peak,r_snr = 0.1656668 11.24137 1046 0.281 5846 -1.750 11.24137 0.015523 1.022993 0.043455 r_peak,r_snr = 0.1876523 10.30985 1146 -0.438 5846 -1.750 10.30985 0.032762 1.302847 -0.129849 r_peak,r_snr = 0.1224249 8.210811 1246 -5.906 5846 10.688 8.21081 0.012784 0.692786 -0.058544 r_peak,r_snr = 0.1461409 9.409739 1346 -3.781 5846 3.844 9.40974 0.017389 2.566555 0.132567 r_peak,r_snr = 0.2350003 7.517685 1546 0.000 5846 1.781 7.51769 0.011195 1.520594 0.090675 r_peak,r_snr = 0.1846828 6.698219 1646 0.250 5846 0.813 6.69822 0.009054 1.731331 -0.048471 r_peak,r_snr = 0.1668293 3.484219 1846 3.594 5846 -8.219 3.48422 0.045086 4.468123 0.173105 r_peak,r_snr = 0.1521466 9.791580 1946 2.781 5846 7.125 9.79158 0.007708 0.432914 -0.002977 r_peak,r_snr = 0.2598965 4.647080 2046 -2.250 5846 -12.719 4.64708 0.014884 2.117612 -0.091795 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.3657648 36.78522 146 0.031 3046 0.000 36.78522 0.001498 0.026444 -0.001461 r_peak,r_snr = 0.2210458 16.11399 246 -0.125 3046 -0.313 16.11399 0.007672 0.451835 0.033134 r_peak,r_snr = 0.4141226 20.49749 346 0.063 3046 0.281 20.49749 0.001242 0.034723 -0.000438 r_peak,r_snr = 0.2336618 24.18056 446 0.031 3046 -0.250 24.18056 0.003790 0.154402 -0.003537 r_peak,r_snr = 0.3998835 15.50942 546 0.156 3046 -0.250 15.50942 0.001248 0.056254 -0.000630 r_peak,r_snr = 0.2390540 28.54214 646 0.000 3046 -0.250 28.54214 0.002682 0.074766 -0.002465 r_peak,r_snr = 0.4165875 9.654249 746 -0.156 3046 -0.125 9.65425 0.001904 0.046819 0.000927 r_peak,r_snr = 0.2775997 10.98844 846 0.000 3046 -0.625 10.98844 0.004129 0.513055 0.006701 r_peak,r_snr = 0.1685102 10.54405 946 -4.719 3046 8.719 10.54405 0.009020 0.336294 -0.018533 r_peak,r_snr = 0.1610163 8.393656 1046 1.469 3046 -11.219 8.39366 0.020210 3.282563 -0.140206 r_peak,r_snr = 0.2658549 22.03728 1146 0.000 3046 0.125 22.03728 0.001817 0.198170 -0.002165 r_peak,r_snr = 0.4207236 6.684985 1246 0.125 3046 0.781 6.68498 0.002036 0.539486 -0.014514 r_peak,r_snr = 0.2122508 14.92588 1346 0.281 3046 -0.531 14.92588 0.003853 0.181594 -0.004188 r_peak,r_snr = 0.3083514 22.32014 1446 -0.094 3046 -0.125 22.32014 0.002412 0.106067 -0.003828 r_peak,r_snr = 0.2041301 23.99231 1546 0.063 3046 -0.719 23.99231 0.004296 0.241937 -0.014065 r_peak,r_snr = 0.3202738 37.03589 1646 0.031 3046 0.094 37.03589 0.001432 0.036202 0.000849 r_peak,r_snr = 0.2730643 32.70755 1746 -0.031 3046 -0.219 32.70755 0.002007 0.060018 -0.001849 r_peak,r_snr = 0.1982426 20.95309 1846 0.094 3046 0.219 20.95309 0.004164 0.117910 0.002585 r_peak,r_snr = 0.3136052 14.08005 1946 0.156 3046 -0.188 14.08005 0.002641 0.326270 -0.002746 r_peak,r_snr = 0.1891449 14.25836 2046 -0.094 3046 0.875 14.25836 0.004742 0.281326 -0.004137 At line = 3400 Reading in data.... r_peak,r_snr = 0.3257694 18.60048 146 -0.188 3446 -1.094 18.60048 0.001981 0.061996 0.000918 r_peak,r_snr = 0.4233539 36.20823 246 0.000 3446 0.000 36.20823 0.000838 0.015477 -0.000250 r_peak,r_snr = 0.2699248 14.73043 346 0.094 3446 0.094 14.73043 0.002381 0.149854 0.002236 r_peak,r_snr = 0.1942493 12.29783 446 -0.156 3446 0.438 12.29783 0.005506 0.288476 -0.006289 r_peak,r_snr = 0.3445375 28.13342 546 0.000 3446 0.219 28.13342 0.001857 0.044934 0.002196 r_peak,r_snr = 0.3750886 11.78201 646 0.063 3446 0.156 11.78201 0.001333 0.043505 0.001293 r_peak,r_snr = 0.1398581 6.016873 746 -0.250 3446 -1.125 6.01687 0.006476 0.497058 0.023821 r_peak,r_snr = 0.3008422 17.57499 846 0.063 3446 -0.188 17.57499 0.002205 0.094790 0.000116 r_peak,r_snr = 0.1404129 5.485065 946 -0.750 3446 -1.906 5.48506 0.024026 0.983972 -0.074105 r_peak,r_snr = 0.2604619 16.86018 1046 -0.063 3446 -0.156 16.86018 0.003682 0.092114 -0.002058 r_peak,r_snr = 0.4678452 15.28769 1146 0.094 3446 0.188 15.28769 0.001470 0.045324 -0.002517 r_peak,r_snr = 0.3750832 6.592906 1246 0.031 3446 -0.688 6.59291 0.003954 0.445961 0.016268 r_peak,r_snr = 0.1540188 8.713743 1346 -3.781 3446 -9.938 8.71374 0.008736 0.512878 -0.027853 r_peak,r_snr = 0.2604266 24.65837 1446 0.188 3446 -0.188 24.65837 0.002194 0.065678 0.000467 r_peak,r_snr = 0.1701732 5.216313 1546 -8.688 3446 2.313 5.21631 0.053151 1.020132 0.176451 r_peak,r_snr = 0.3460783 5.041133 1646 -0.031 3446 0.031 5.04113 0.004810 0.109252 -0.012392 r_peak,r_snr = 0.3391577 8.431342 1746 -0.125 3446 0.344 8.43134 0.002993 0.181589 -0.003221 r_peak,r_snr = 0.2063098 9.659931 1846 0.031 3446 -2.688 9.65993 0.008011 0.578963 0.005930 r_peak,r_snr = 0.4205028 27.33546 1946 0.031 3446 -0.281 27.33546 0.001094 0.030783 -0.000192 r_peak,r_snr = 0.1491471 5.755622 2046 0.438 3446 -0.219 5.75562 0.007720 0.345938 0.004629 At line = 3800 Reading in data.... r_peak,r_snr = 0.4486826 32.30947 146 0.188 3846 -0.094 32.30947 0.000998 0.015564 -0.000299 r_peak,r_snr = 0.3425788 32.07270 246 -0.156 3846 -0.063 32.07270 0.001272 0.030813 -0.000994 r_peak,r_snr = 0.3185122 27.47254 346 -0.063 3846 0.281 27.47254 0.001744 0.055772 -0.001036 r_peak,r_snr = 0.2598936 15.52656 446 -0.250 3846 0.313 15.52656 0.002728 0.096214 0.003062 r_peak,r_snr = 0.2824259 13.16982 546 0.094 3846 -0.656 13.16982 0.002329 0.147438 0.004647 r_peak,r_snr = 0.3571636 18.81464 646 -0.063 3846 -0.469 18.81464 0.002417 0.072954 -0.003627 r_peak,r_snr = 0.2877552 10.39671 746 -0.125 3846 0.281 10.39671 0.002590 0.268978 -0.000123 r_peak,r_snr = 0.2133536 10.55611 846 0.000 3846 -0.406 10.55611 0.004197 0.263234 0.009968 r_peak,r_snr = 0.3270166 15.11533 946 -0.406 3846 0.094 15.11533 0.002713 0.144826 0.002379 r_peak,r_snr = 0.1284358 6.535365 1046 0.094 3846 1.156 6.53537 0.004670 0.354133 0.005807 r_peak,r_snr = 0.3365385 24.73908 1146 0.000 3846 -0.250 24.73908 0.002034 0.066792 -0.003150 r_peak,r_snr = 0.4052227 25.41224 1246 -0.188 3846 0.281 25.41224 0.001562 0.048008 -0.000331 r_peak,r_snr = 0.2543158 17.75183 1346 0.438 3846 -0.219 17.75183 0.003381 0.325890 0.000878 r_peak,r_snr = 0.3304733 10.18159 1446 0.063 3846 -0.281 10.18159 0.003814 0.186441 0.013634 r_peak,r_snr = 0.3093473 18.08872 1546 -0.313 3846 -0.063 18.08872 0.004287 0.150175 -0.003832 r_peak,r_snr = 0.2564098 14.38319 1646 -0.281 3846 -0.063 14.38319 0.002860 0.134788 -0.003978 r_peak,r_snr = 0.3137596 20.12414 1746 -0.281 3846 0.219 20.12414 0.001854 0.129752 -0.002071 r_peak,r_snr = 0.1569546 7.317470 1846 0.188 3846 -0.750 7.31747 0.009167 0.668264 -0.043900 r_peak,r_snr = 0.1815520 7.813392 2046 0.094 3846 -1.000 7.81339 0.008801 0.526546 -0.028657 At line = 4200 Reading in data.... r_peak,r_snr = 0.2549263 28.33943 146 0.063 4246 0.344 28.33943 0.002090 0.070533 0.004069 r_peak,r_snr = 0.3038315 29.25186 246 0.156 4246 -1.125 29.25186 0.001385 0.049698 -0.000223 r_peak,r_snr = 0.3064785 20.13679 346 0.094 4246 -0.281 20.13679 0.002009 0.066353 -0.003123 r_peak,r_snr = 0.4241789 46.01466 446 -0.031 4246 0.031 46.01466 0.000876 0.024234 0.000290 r_peak,r_snr = 0.3377533 33.68499 546 0.031 4246 -0.250 33.68499 0.001770 0.046634 0.001406 r_peak,r_snr = 0.2812669 17.93828 646 0.063 4246 0.188 17.93828 0.002504 0.079196 0.005152 r_peak,r_snr = 0.3976626 5.057862 746 -0.281 4246 -0.781 5.05786 0.002568 0.136022 -0.005198 r_peak,r_snr = 0.1873411 6.063643 846 -1.000 4246 -1.781 6.06364 0.016122 0.337964 -0.031392 r_peak,r_snr = 0.2359112 24.47978 946 -0.031 4246 0.531 24.47978 0.002300 0.093141 0.003202 r_peak,r_snr = 0.1969299 9.375992 1046 -0.063 4246 0.188 9.37599 0.005667 0.203040 0.000736 r_peak,r_snr = 0.2631751 27.81792 1146 -0.188 4246 0.156 27.81792 0.002147 0.062885 0.003040 r_peak,r_snr = 0.2651310 5.055475 1246 -0.188 4246 -0.250 5.05548 0.009450 0.299558 -0.008636 r_peak,r_snr = 0.2971295 20.91813 1346 0.156 4246 0.594 20.91813 0.002085 0.136235 -0.001328 r_peak,r_snr = 0.1759522 9.691021 1446 1.906 4246 -14.156 9.69102 0.018809 5.080670 -0.167657 r_peak,r_snr = 0.3084013 13.59487 1546 -0.125 4246 0.281 13.59487 0.003074 0.045899 -0.000745 r_peak,r_snr = 0.2983817 16.91593 1646 -0.219 4246 -0.063 16.91593 0.002581 0.149333 -0.002156 r_peak,r_snr = 0.1693796 8.383026 1846 -1.313 4246 -1.156 8.38303 0.106002 0.328439 0.030282 r_peak,r_snr = 0.2809710 19.25126 1946 -0.094 4246 0.781 19.25126 0.002317 0.123021 0.002834 r_peak,r_snr = 0.2403949 13.31036 2046 0.031 4246 0.250 13.31036 0.005452 0.199064 0.007456 At line = 4600 Reading in data.... r_peak,r_snr = 0.3013905 22.87197 146 -0.063 4646 0.125 22.87197 0.001880 0.039949 0.001050 r_peak,r_snr = 0.2845838 21.18100 246 0.063 4646 0.406 21.18100 0.001775 0.067682 -0.000783 r_peak,r_snr = 0.2112334 14.64618 346 0.156 4646 -0.188 14.64618 0.002917 0.191542 0.004915 r_peak,r_snr = 0.3415238 40.00299 446 0.094 4646 -0.219 40.00299 0.001188 0.034405 -0.000426 r_peak,r_snr = 0.3987398 19.98248 546 -0.156 4646 -0.250 19.98248 0.001504 0.037696 -0.001405 r_peak,r_snr = 0.2442371 17.85700 646 0.063 4646 0.219 17.85700 0.002292 0.084343 -0.000198 r_peak,r_snr = 0.2909091 18.86238 746 -0.156 4646 -0.219 18.86238 0.003527 0.086829 0.004185 r_peak,r_snr = 0.2328897 12.41155 846 -0.219 4646 0.219 12.41155 0.007963 0.257685 -0.000157 r_peak,r_snr = 0.2836673 18.06737 946 0.188 4646 -0.219 18.06737 0.002810 0.099876 0.000490 r_peak,r_snr = 0.3769966 21.35518 1046 -0.219 4646 -0.281 21.35518 0.001703 0.058109 -0.004849 r_peak,r_snr = 0.4437339 3.185810 1146 0.094 4646 4.438 3.18581 0.010209 1.941168 -0.032563 r_peak,r_snr = 0.1910553 6.903065 1246 -0.906 4646 9.781 6.90307 0.028913 0.674173 -0.082477 r_peak,r_snr = 0.2441832 15.05024 1346 0.156 4646 -0.250 15.05024 0.002151 0.171220 -0.004952 r_peak,r_snr = 0.2624796 11.52623 1446 0.188 4646 -0.219 11.52623 0.003404 0.368368 0.001119 r_peak,r_snr = 0.2881886 18.66079 1546 0.031 4646 0.781 18.66079 0.002291 0.072353 0.000724 r_peak,r_snr = 0.3155693 25.11918 1646 -0.188 4646 0.031 25.11918 0.001709 0.071964 0.001720 r_peak,r_snr = 0.2796690 7.284971 1746 -0.469 4646 -1.219 7.28497 0.006075 0.426833 -0.017642 r_peak,r_snr = 0.1430663 4.768412 1846 -2.469 4646 -11.625 4.76841 0.012966 0.593388 0.002586 r_peak,r_snr = 0.1163191 6.296090 1946 -9.969 4646 7.063 6.29609 0.153897 2.403248 0.561049 r_peak,r_snr = 0.2036882 3.181496 2046 -7.844 4646 -8.219 3.18150 2.545380 160.344421 20.159925 At line = 5000 Reading in data.... r_peak,r_snr = 0.2321565 23.55597 146 -0.219 5046 -0.125 23.55597 0.002870 0.108716 0.002433 r_peak,r_snr = 0.3905672 30.73063 246 0.156 5046 -0.188 30.73063 0.001186 0.039132 0.000383 r_peak,r_snr = 0.2126076 13.29248 346 0.094 5046 -1.219 13.29248 0.007279 1.018813 0.049970 r_peak,r_snr = 0.3766100 14.67704 446 -0.219 5046 0.906 14.67704 0.002705 0.085658 0.003305 r_peak,r_snr = 0.2566407 14.20316 546 -0.063 5046 -0.750 14.20316 0.002234 0.129587 -0.000419 r_peak,r_snr = 0.2916935 7.654211 646 0.000 5046 0.656 7.65421 0.006330 0.270882 -0.016888 r_peak,r_snr = 0.2177617 10.18452 746 0.000 5046 0.188 10.18452 0.009375 0.173866 -0.014425 r_peak,r_snr = 0.2731774 22.13259 846 -0.063 5046 -1.313 22.13259 0.003039 0.148083 0.001126 r_peak,r_snr = 0.3023497 22.93880 946 0.063 5046 -0.625 22.93880 0.002163 0.057406 -0.000733 r_peak,r_snr = 0.2846289 21.89940 1046 -0.125 5046 -0.406 21.89940 0.002700 0.104397 -0.004775 r_peak,r_snr = 0.2570130 9.967068 1146 0.188 5046 -0.938 9.96707 0.003516 0.166205 -0.004183 r_peak,r_snr = 0.3244143 6.154202 1246 -0.156 5046 0.969 6.15420 0.012300 6.022710 -0.198688 r_peak,r_snr = 0.3017544 24.59168 1346 0.000 5046 -0.500 24.59168 0.002174 0.090818 0.004335 r_peak,r_snr = 0.2785506 28.33205 1446 0.125 5046 0.219 28.33205 0.002481 0.135731 0.000804 r_peak,r_snr = 0.1831354 5.546512 1546 -0.250 5046 1.094 5.54651 0.057630 4.752067 -0.464576 r_peak,r_snr = 0.4735297 20.14085 1646 -0.219 5046 -0.719 20.14085 0.000930 0.026668 -0.000053 r_peak,r_snr = 0.4519069 24.75212 1746 0.094 5046 0.625 24.75212 0.001025 0.027540 -0.000741 r_peak,r_snr = 0.1959958 4.180414 1846 -8.594 5046 -1.969 4.18041 0.032288 1.187814 -0.079700 r_peak,r_snr = 0.1903588 3.943196 1946 -13.750 5046 12.250 3.94320 0.016006 2.692877 0.062586 r_peak,r_snr = 0.2721435 3.362443 2046 -5.750 5046 3.813 3.36244 0.018628 0.412033 -0.007691 At line = 5400 Reading in data.... r_peak,r_snr = 0.2851864 33.89192 146 0.000 5446 -0.219 33.89192 0.001741 0.103465 0.001915 r_peak,r_snr = 0.3495438 35.01096 246 0.094 5446 -0.500 35.01096 0.001217 0.050368 -0.000272 r_peak,r_snr = 0.3482055 29.24676 346 -0.125 5446 -0.188 29.24676 0.001484 0.048462 0.000161 r_peak,r_snr = 0.2675193 23.32914 446 0.000 5446 0.469 23.32914 0.002526 0.104043 -0.005983 r_peak,r_snr = 0.3878776 12.23132 546 -0.031 5446 -0.156 12.23132 0.001716 0.124684 0.001716 r_peak,r_snr = 0.4517212 24.81495 646 0.000 5446 -0.156 24.81495 0.001093 0.027556 -0.001427 r_peak,r_snr = 0.2957286 15.53603 746 0.094 5446 0.625 15.53603 0.002773 0.125203 -0.000594 r_peak,r_snr = 0.2654671 18.04246 846 -0.281 5446 0.281 18.04246 0.004151 0.111679 -0.004298 r_peak,r_snr = 0.3804783 27.30791 946 0.000 5446 -0.219 27.30791 0.001170 0.039967 -0.000462 r_peak,r_snr = 0.7430416 9.864197 1046 0.031 5446 0.781 9.86420 0.000441 0.024345 -0.000031 r_peak,r_snr = 0.2224192 12.56003 1146 -0.094 5446 0.375 12.56003 0.003762 0.311137 0.003498 r_peak,r_snr = 0.1946810 14.82754 1246 0.125 5446 -0.688 14.82754 0.004126 0.175611 -0.010543 r_peak,r_snr = 0.1700737 13.98367 1346 -0.188 5446 -0.188 13.98367 0.003381 0.261156 0.001558 r_peak,r_snr = 0.1855861 11.54878 1446 0.031 5446 0.469 11.54878 0.008592 0.217242 0.016463 r_peak,r_snr = 0.2431593 5.498523 1546 1.125 5446 11.281 5.49852 0.082176 0.816279 -0.105814 r_peak,r_snr = 0.2958301 8.871600 1646 -0.063 5446 -0.063 8.87160 0.003198 0.093629 0.004343 r_peak,r_snr = 0.4802327 19.40234 1746 -0.031 5446 -0.125 19.40234 0.000832 0.015825 0.000085 r_peak,r_snr = 0.2310016 10.52013 2046 -0.219 5446 -0.281 10.52013 0.005081 1.043131 -0.011721 At line = 5800 Reading in data.... r_peak,r_snr = 0.2100231 21.49074 146 0.063 5846 0.750 21.49074 0.002891 0.132204 -0.003321 r_peak,r_snr = 0.2726518 28.88109 246 -0.031 5846 1.188 28.88109 0.002030 0.100477 0.001478 r_peak,r_snr = 0.2965318 22.74630 346 0.156 5846 -0.531 22.74630 0.001879 0.126487 -0.000838 r_peak,r_snr = 0.3994460 19.07630 446 0.000 5846 0.250 19.07630 0.001448 0.043166 0.000673 r_peak,r_snr = 0.2896621 26.00618 546 0.031 5846 0.094 26.00618 0.001711 0.058991 0.003385 r_peak,r_snr = 0.3071920 20.50743 646 0.125 5846 -0.438 20.50743 0.001717 0.038653 0.001663 r_peak,r_snr = 0.2904312 21.94526 746 -0.188 5846 1.031 21.94526 0.002975 0.141387 0.000096 r_peak,r_snr = 0.1481649 10.12958 846 0.406 5846 -0.125 10.12958 0.008282 0.195126 0.002493 r_peak,r_snr = 0.3080820 19.65016 946 -0.031 5846 -0.188 19.65016 0.002782 0.287810 0.007115 r_peak,r_snr = 0.2557966 23.68312 1046 0.094 5846 0.281 23.68312 0.002088 0.272669 0.001873 r_peak,r_snr = 0.1920569 14.82016 1146 0.000 5846 0.250 14.82016 0.008774 0.566720 -0.014996 r_peak,r_snr = 0.2384746 21.33941 1246 -0.125 5846 -0.094 21.33941 0.002383 0.145250 0.003472 r_peak,r_snr = 0.1644432 9.579753 1346 -0.281 5846 0.000 9.57975 0.008737 0.630933 0.036449 r_peak,r_snr = 0.1848471 21.33167 1446 -0.125 5846 0.281 21.33167 0.003137 0.138142 0.001373 r_peak,r_snr = 0.4596754 10.43662 1546 0.031 5846 10.813 10.43662 0.003724 1.296113 -0.052163 r_peak,r_snr = 0.3557280 21.09065 1646 0.031 5846 -0.750 21.09065 0.001624 0.112907 0.001909 r_peak,r_snr = 0.3949247 16.86216 1746 0.000 5846 -0.188 16.86216 0.001550 0.050785 0.000128 r_peak,r_snr = 0.2220701 6.194712 1846 -1.313 5846 11.625 6.19471 0.025669 0.919097 -0.035589 r_peak,r_snr = 0.1247854 7.182918 1946 0.656 5846 9.906 7.18292 0.026127 3.933634 -0.274493 r_peak,r_snr = 0.1755722 7.383372 2046 -0.094 5846 -0.719 7.38337 0.007472 0.671393 -0.009300 /u/argus0/airops/OPS/data_proc/ ************************************************* ***** Integrated AIRSAR Processor ***** ***** ***** ***** Radiometric Calibration Program ***** ***** ***** ************************************************* ***** ***** ***** This program performs the following ***** ***** calibrations: ***** ***** ***** ***** (1) Phase calibration ***** ***** (2) Cross-talk removal ***** ***** (3) Antenna pattern removal ***** ***** (4) Scattering area removal ***** ***** ***** ***** If available, the topography is used ***** ***** when removing antenna patterns and ***** ***** scattering areas. In all cases, the ***** ***** aircraft roll is taken into account ***** ***** when the antenna pattern is removed. ***** ***** ***** ************************************************* Enter the name of input file. iline: 3047 2560 hhhh i/p ch : 3 Enter the name of input file. hhhv i/p ch : 4 Enter the name of input file. hhvv i/p ch : 5 Enter the name of input file. hvhv i/p ch : 6 Enter the name of input file. hvvv i/p ch : 7 Enter the name of input file. vvvv i/p ch : 8 Enter the name of output file. hhhh o/p ch : 9 Enter the name of output file. hhhv o/p ch : 10 Enter the name of output file. hhvv o/p ch : 11 Enter the name of output file. hvhv o/p ch : 12 Enter the name of output file. hvvv o/p ch : 13 Enter the name of output file. vvvv o/p ch : 14 Enter the name of the calibration file. calib file bw:/u/argus0/airops/OPS/data_proc/recal0.dat 20.00000 abs gain: 130.1290 132.6900 130.1290 132.6900 caltone: 93.80000 94.80000 93.70000 95.20000 *** ifreq 0-p 1-L 2-c: 0 1 *** ifreq 0-p 1-L 2-c: 0 2 ifreq 0-p 1-L 2-c: 0 3 cable phase P/L/C: -161.7800 188.1500 303.5900 sigma zero: 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 hddt bw ha T : 98 20.00000 7045.200 10.00000 $tphase,phasedat: 170.5000 26.80000 $rphase,phasevh,phasehv: 143.7000 80.10000 -63.60000 Reading data size. 3047 3047 2560 2560 Enter H Ant pattern file: POLSAR H-ANT:/u/argus0/airops/OPS/data_proc/AIRSAR.PH Enter V Ant pattern file: POLSAR V-ANT:/u/argus0/airops/OPS/data_proc/AIRSAR.PV Enter the name of the motion compensation file. motion lun: 15 How many lines of raw data? How many lines of raw data: 59000 Cross pol phase difference is: 26.80 deg Receiver phase difference is 143.70 deg Transmitter phase difference is 170.50 deg Cable phase difference is -161.78 deg $ghv,phasedat,phi: (0.8925858,0.4508775) 26.80000 26.80000 $phico aphase: -9.360001 -161.7800 $fhh,fhv,fvh: (0.9866860,0.1626372) (0.9884411,-0.1516058) (0.9506242,0.3103446) Input ground spacing ? cross-track ground spacing: 10.00000 Input file of Radiometric Correction Vectors: Radiometric Correction Vectors file: /mnt/air65/airops/1359/ts1359_p.rad_vec Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 4 NSAMP vec_len rg_len nbytes: 2560 2560 20480 VEC Len 2450*8: 2560 2560 19600 Reading data to estimate cross-talk. 3047 2560 256 512 768 1024 in cross-talk estimation Estimating the cross-talk parameters. 256 512 768 1024 1280 1536 1792 2048 2304 2560 cross(1,100) 0=-100 dB: (3.1595775E-03,7.4256957E-03) (-7.1751960E-03,-1.2747194E-03) Finished estimating cross-talk. Enter the file with the lines per pixel. lines lun: 19 Is there a DEM available? Now doing the actual calibration nline. 3047 3047 Absolute gain AChu(linear) :. 8.7710063E-08 5.6950739E-08 5.6298937E-08 ahh hv vv chh hv vh vv: -235.1390 -239.4900 -235.0390 -239.8900 94.00000 94.60000 93.90000 94.90000 1 257 513 769 1025 1281 1537 1793 2049 2305 2561 2817 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Compression Program ***** ***** ***** ********************************************* ***** ***** ***** This prgram reads six input ***** ***** cross-product files and then ***** ***** compresses them into either the ***** ***** current AIRSAR compressed Stokes ***** ***** matric format, or the SIR-C com- ***** ***** pressed cross-product format. ***** ***** ***** ********************************************* Enter the name of input file. inunithhhh: 3 Enter the name of input file. inunithhhv: 4 Enter the name of input file. inunithhvv: 5 Enter the name of input file. inunithvhv: 6 Enter the name of input file. inunithvvv: 7 Enter the name of input file. inunitvvvv: 8 Enter the name of output file. Please choose the type of compression: (1) Stokes matrix (AIRSAR standard) (2) Cross-products (SIR-C standard) hddt: 98 Finished writing headers. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 /mnt/air65/airops/1359/ts1359_p.datgr - No such file or directory *** Error opening *** : No such file or directory Enter number of set to convert: Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 /mnt/air65/airops/1359/ts1359_p.datgr -1 *** Synthesize 2.5 - 11/30/90 *** Enter the name of input file. Stokes matrix data... Enter the name of the output byte file. Enter the relative scale factor. 100 200 300 400 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 2800 2900 3000 Thu Mar 21 00:00:06 PST 2002 Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin cd /mnt/air65/airops/1359;am_misreg *_c.vvvr *_l.vvvr 2>&1 | 0.117 Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin /mnt/air65/airops/1359/ts1359.log Mis-registration QA: No sensor file update required. The Mis-registration check is completed [1] 67797 67800 IDL. Version 4.0.1b (IRIX mipseb). Copyright 1989-1996, Research Systems, Inc. All rights reserved. Unauthorized reproduction prohibited. Installation number: 2972-1. Licensed for use by: JPL Radar Science & Engr % Compiled module: SPAWN_JOB_INFO. 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                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                           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