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/1355 Enter the C-band output disk name (def:/u/air16/airops) : C-band output data disk: /mnt/air65/airops/1355 Enter the L-band output disk name (def:/u/air16/airops) : L-band output data disk: /mnt/air65/airops/1355 Enter the P-band output disk name (def:/u/air16/airops) : P-band output data disk: /mnt/air65/airops/1355 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 #:ts1355 What is the # of lines of download tape (def=40960)? # of lines for download: 120000 # of lines for download: 120000 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 #:ts1355 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 9 5 40 10 raw disk:/mnt/air62/airops/1355 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 #:ts1355 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 9 5 40 10 raw disk:/mnt/air62/airops/1355 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 #:ts1355 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 18 10 20 10 raw disk:/mnt/air62/airops/1355 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: 120000 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 120000 year 2000 bw=40 0 40.00000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 60000 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 #: 13551355 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: 120000 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 120000 year 2000 bw=40 0 40.00000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 60000 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 nlines 60000 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 #: 13551355 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/1355/sensor.inu nbytes: update sensor 6144 line1: 1 nlines 60000 lgt_az 2586 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2584 sensor_out/mnt/air62/airops/1355/sensor.cp_2000 nbytes: update sensor 6144 line1: 1 nlines 60000 lgt_az 2584 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 sensor_out/mnt/air62/airops/1355/sensor.lp_2000 nbytes: update sensor 6144 line1: 1 nlines 60000 lgt_az 4700 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 sensor_out/mnt/air62/airops/1355/sensor.pp_2000 nbytes: update sensor 6144 line1: 1 nlines 60000 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:1355 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 FOMs: 5,3-5,8; smooth to light chop; clear and cloudy; low d rift; signals look good, still getting lots of P-band pulsed RFI ; EGR-EGI lat diff: 0.12 mine (wide pulse); GS looks goodlliam Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1355/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: 60000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1355/ts1355_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: 419366 enter the title of image: title image BIGDELTA90-1 enter the CCT (job) ID: cct: 1355 target:BigDelta90-1 prod ID(cctid):1355 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: 500.0000 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 63.97086538374424 IGI lon: 1 -147.2237209137529 *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 8 0 >> ratn_phv = 0 4 0 >> ratn_pvh = 0 2 0 >> ratn_pvv = 0 10 0 >> ratn_lhh = 0 12 0 >> ratn_lhv = 0 12 0 >> ratn_lvh = 0 12 0 >> ratn_lvv = 0 12 0 >> ratn_chh = 0 9 10 >> ratn_chv = 0 9 10 >> ratn_cvh = 0 9 10 >> ratn_cvv = 0 9 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 119936 63.97086538374424 -147.2237209137529 63.97166666666666 -147.2400000000000 7906.512000000001 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 6298.996800000000 0.3000000000000000 1.600000000000000 88.40000000000001 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 63.97069549560547 -147.2229461669922 0.0000000000000000E+00 0.0000000000000000E+00 25425174.00000000 ****gps_frame**** 4478319 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8102.267048972740 1 937 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 4537819.357524013 34623.47269066396 gpsT doy: 295 10 21 gpsT: 25425174.00000000 2000 10 21 18 32 54 0.0000000000000000E+00 week# 1 F12 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 585174.1324320000 EGI msg 1 msl alt(from eo17): 7302.895746386719 EGI msg 1 wander angle(from eo17): 86.00646972656250 EGI09 lat: 63.97086538374424 EGI09 lon: -147.2237209137529 EGI09 alt: 6123.000000000000 EGI09 Height_above_ellipsoid - height_msl: 6.400800000000000 EGI-09 word11 gps Vel East m/s: 213.2802458564758 EGI-09 word12 gps Vel North m/s: 11.09206481323242 EGI-09 word13 gps Vel Upper m/s: -0.1060984657287598 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 E838 EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 66759.92987060547 EGI-09 Time Valid: 4.057344000000000 EGI-18 dec32 Vel North m/s: 30.79651069641113 EGI-18 dec32 Vel East m/s: 202.8967742919922 EGI-18 dec32 Vel Upper m/s: -0.1047639846801758 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 64.50000000000000 63.50000000000000 53.62500000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 9.0332031250000000E-03 1.1474609375000000E-02 EGI-13 GPS sigma roll/pitch/az: 7.6498118704142811E-04 7.6498118704142811E-04 1.6392454008030601E-03 r_time_tag_17: 0.9252480000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: 11.74192630920410 -217.2944121734619 8.6099395751953137E-03 EO17 wrander az roll pitch az: 1.501096074745343 5.4931640625000000E-02 1.636962890625000 88.32458496093750 EO17 r_cnexx/y/z: 0.4385016662999988 1.7769487574696541E-02 0.8985547414049506 EO17 r_lon: -147.2229543048888 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E DD4F D68D dec64: 216A 4882 63FE B469 r_hwgpstime(1): 585172.9898806863 r_utctime_18: 66759.98988068421 EGI-18 dec32 lat: 63.97103950215168 EGI-18 dec32 lon: -147.2236620501143 EGI-18 dec32 sea level alt: 7461.027832031250 EGI-18 dec32 WGS84 alt: 7467.439453125000 WGS84_alt-msl_alt: 6.411621093750000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 1 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 19 e22_msg(5) satellite 3: 1 e22_msg(7) satellite 4: B e22_msg(9) satellite 5: 5 EGI-22 Tdop: 2.093750000000000 1.921875000000000 1.390625000000000 1.328125000000000 0.8281250000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -3.132096000000000 geod_utctime time_tag_17 time_valid: 66759.92987060547 5.119512000000000 4.057344000000000 r_utc_ttag r_del_time_18: 585173.9920386075 2.0000000000000001E-09 J2000 r_hwtime = 25425174.13243200 GPS J2000 time = 25425173.99203861 Message 1 Time = 25425174.13243200 INS Time = 1.065856000000000 Roll angle = 6.0424804687500000E-02 Pitch angle = 1.631469726562500 Heading angle = 88.32458496093750 Long. acc = 0.3600000000000000 Lat. acc = -2.9999999999999999E-02 Norm. acc = -9.740000000000000 East vel. = 217.5930000000000 North vel. = 2.933000000000000 Up vel. = 4.0000000000000001E-03 True Grnd Spd = 217.6093750000000 Altitude = 7309.000000000000 Latitude = 63.96874358877540 Longitude = -147.2223304398358 Message 6 Week = 60 GPS Time = 25425173.99203861 GDOP = 2.093750000000000 PDOP = 1.921875000000000 HDOP = 1.390625000000000 VDOP = 1.328125000000000 TDOP = 0.8281250000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 63.97103950215168 GPS Lon = -147.2236620501143 GPS Alt = 7467.439453125000 GPS East Vel = 202.8967742919922 GPS North Vel = 30.79651069641113 GPS Up Vel = -0.1047639846801758 Message 4 Sigma Pos x = 64.50000000000000 Sigma Pos y = 63.50000000000000 Sigma Pos z = 53.62500000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 9.0332031250000000E-03 Sigma Vel z = 1.1474609375000000E-02 Message 7 Satellites used = 20 25 1 11 5 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 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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 Honeywell EGI98Fall for gps-hgt 9064 20008 7308.817717907270 Done decoding data from header array... Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25425174.0000 25425316.7740 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57605 88.30261 88.76953 0.1307029 0 trc 89.49651 89.22456 89.75716 0.1768126 0 tgs 217.66344 217.29688 217.87500 0.1494292 0 roll 0.09233 -0.27466 0.58228 0.1963496 0 pitch 1.64685 1.58203 1.75232 0.0414259 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22233 -147.15741 0.0187615 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92494 -147.24000 -146.61167 0.1815359 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.32397 6147.20640 6840.01680 158.1372422 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79157 0.50000 1.90000 0.1304429 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7306.43043 7308.81772 0.7101329 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.00000 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006532 0 hwlon -146.90792 -147.22233 -146.59360 0.1815641 0 hwalt 7300.85361 7295.45176 7308.81772 3.7456520 0 hwev 217.66110 217.29800 217.88300 0.1496878 0 hwnv 1.91181 0.92100 2.94300 0.6712155 0 hwuv 0.06236 -0.17200 0.39300 0.1121145 0 hwroll 0.09241 -0.27466 0.58228 0.1964523 0 hwpitch 1.64687 1.58203 1.75232 0.0414464 0 hwhdg 88.57629 88.30261 88.76953 0.1304994 0 hwtrc 89.49677 89.22456 89.75716 0.1766857 0 hwtgs 217.66341 217.29688 217.87500 0.1495175 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 119936 1 119936 hdrgpssec-1 t_prf-1 119936 25425315.77543405 1.1840000515803695E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 937 25425315.00000000 4597601 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25425175.00000000 i_yearind 20008 GPS time for first pulse = 25425174.00104113 25425174.00000000 New startrecT: 25425174.00104113 25425174.13243200 1 New start and number of records = 113 119790 New start and number of blocks = 1 937 +6+r_hwhead(10/200): 0.0000000000000000E+00 5.4931640625000000E-03 88.32458496093750 GPS trend coefficients = 1.601781732692298 -4.853670229373576 2.478952927447506 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57627 88.30261 88.76953 0.1305555 0 trc 89.49669 89.22456 89.75663 0.1766745 0 tgs 217.66359 217.29688 217.87500 0.1493834 0 roll 0.09228 -0.27466 0.58228 0.1963947 0 pitch 1.64686 1.58203 1.75232 0.0414479 0 delx 0.25729 0.00000 0.25737 0.0007440 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22226 -147.15748 0.0187613 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92493 -147.23667 -146.61167 0.1815298 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.27778 6147.20640 6840.01680 158.2005539 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79061 0.50000 1.00000 0.1254973 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7307.20492 7307.34334 0.0352192 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.00000 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006532 0 hwlon -146.90792 -147.22226 -146.59366 0.1815640 0 hwalt 7300.85361 7295.45176 7308.81387 3.7456511 0 hwev 217.66110 217.29800 217.88300 0.1496878 0 hwnv 1.91181 0.92300 2.94300 0.6712151 0 hwuv 0.06236 -0.17200 0.39300 0.1121145 0 hwroll 0.09240 -0.27466 0.57678 0.1964457 0 hwpitch 1.64687 1.58203 1.75232 0.0414566 0 hwhdg 88.57629 88.30261 88.76953 0.1305114 0 hwtrc 89.49676 89.22509 89.75663 0.1766910 0 hwtgs 217.66345 217.29688 217.87500 0.1494416 0 Finished final analysis of data... Average Barometric Altitude = 7908.831017289132 Average Radar Altitude = 6491.277781856979 Average GPS Altitude = 7307.296311924030 >>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/1355/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: 937 Number of valid data points = 937 Start time GPS data = 25425172.99998989 End time GPS data = 25425313.99998718 Positions and Distances Start position = 63.9715799 -147.0676802 7486.794 End position = 63.9727282 -146.7524153 7487.417 Loxodromic Heading (deg) = 89.5250321 Loxodromic Distance (km) = 15442.3413551 Geodesic Heading (deg) = 89.3833877 Geodesic Distance (km) = 15442.3254479 Peg latitude and longitude = 63.9723236 -146.9122814 Peg heading = 89.5981409 Rotation matrix First row = -0.367646730 0.551189324 0.749016830 Second row = -0.239553609 -0.834374531 0.496420397 Third row = 0.898582189 0.003077651 0.438794460 Translation vector Vector = -0.15010 -0.09780 -38471.11867 Local Radius of Curvature = 6395444.908761902 startrec dgps_pacrim2k: 113 119790 **i_ts: 113 25425174.13300000 25425172.99998989 1.133010115474463 Start and end pulse used = 113 118436 gmt sec s e = 25425174.13300000 25425313.99943171 dgps sec s = 25425172.99998989 25425313.99998718 r_tsv: -2362434.775458875 -1521144.855004064 5715009.739195997 r_tev: -2345476.235184105 -1546724.397116353 5715131.328131497 lat/lon r_geodis: 1.116499678368468 -2.569525666015919 1.116542146102486 -2.558602830669908 30654.85433313598 Ellipsoidal delta s (m) = 0.2590777307297481 DGPS... lat/lon r_geodis: -5.4745093250431636E-06 -2.3797082592440762E-03 3.4867230862997477E-06 2.4135159106489674E-03 30654.85468696007 Delta s on reference surface = 0.2590777337200719 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1355/ts1355_c.peg DGPS Peg latitude and longitude = 63.9723236 -146.9122814 DGPS Peg heading = 89.5981409 == dgps_egi == r_hwheadf: 88.32458496093750 -5.4931640625000000E-03 0.0000000000000000E+00 113 Making final angle restore...Honeywell 88.32458496093750 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 3.5175327430862904E-04 Standard deviation of difference = 7.2150629865479091E-04 Making fits... Vertical fit coefficients = 7488.199130144905 0.1890630821790467 -5.5165563933901041E-04 Cross track fit coefficients = 219.6699698187169 3.6850476499923346E-02 5.6505546975661042E-04 Along track fit coefficients = 202.1007636230292 -0.1593021873037719 4.2580113981591228E-04 avg alt (1): 7488.199130144905 alt r_avgrefh: 7489.951836918471 i_yearind p-hgt t-hgt: 20008 7488.199130144905 500.0000 avg_ralt tmp: 6988.199218750000 6988.199 enter proc_alt: -1.000000 yaw: -1.548433 88.32458496093750 89.87301773171329 113 tape #: 98 PRF at the start of the run: 845.8805345651181 845.8806 Miscellaneous Information Start range = 8102.267048972740 Start ground range = 4100.219873608160 Time orgin = 25425174.00104113 Pulse spacing = 0.2572949504826003 First frame = 4478432 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 FOMs: 5,3-5,8; smooth to light chop; clear and cloudy; low d rift; signals look good, still getting lots of P-band pulsed RFI ; EGR-EGI lat diff: 0.12 mine (wide pulse); GS looks goodlliam Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1355/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: 60000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1355/ts1355_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: 419366 enter the title of image: title image BIGDELTA90-1 enter the CCT (job) ID: cct: 1355 target:BigDelta90-1 prod ID(cctid):1355 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: 500.0000 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 63.97086538374424 IGI lon: 1 -147.2237209137529 *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 8 0 >> ratn_phv = 0 4 0 >> ratn_pvh = 0 2 0 >> ratn_pvv = 0 10 0 >> ratn_lhh = 0 12 0 >> ratn_lhv = 0 12 0 >> ratn_lvh = 0 12 0 >> ratn_lvv = 0 12 0 >> ratn_chh = 0 9 10 >> ratn_chv = 0 9 10 >> ratn_cvh = 0 9 10 >> ratn_cvv = 0 9 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 119936 63.97086538374424 -147.2237209137529 63.97166666666666 -147.2400000000000 7906.512000000001 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 6298.996800000000 0.3000000000000000 1.600000000000000 88.40000000000001 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 63.97069549560547 -147.2229461669922 0.0000000000000000E+00 0.0000000000000000E+00 25425174.00000000 ****gps_frame**** 4478319 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8102.267048972740 1 937 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 4537819.357524013 34623.47269066396 gpsT doy: 295 10 21 gpsT: 25425174.00000000 2000 10 21 18 32 54 0.0000000000000000E+00 week# 1 F12 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 585174.1324320000 EGI msg 1 msl alt(from eo17): 7302.895746386719 EGI msg 1 wander angle(from eo17): 86.00646972656250 EGI09 lat: 63.97086538374424 EGI09 lon: -147.2237209137529 EGI09 alt: 6123.000000000000 EGI09 Height_above_ellipsoid - height_msl: 6.400800000000000 EGI-09 word11 gps Vel East m/s: 213.2802458564758 EGI-09 word12 gps Vel North m/s: 11.09206481323242 EGI-09 word13 gps Vel Upper m/s: -0.1060984657287598 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 E838 EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 66759.92987060547 EGI-09 Time Valid: 4.057344000000000 EGI-18 dec32 Vel North m/s: 30.79651069641113 EGI-18 dec32 Vel East m/s: 202.8967742919922 EGI-18 dec32 Vel Upper m/s: -0.1047639846801758 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 64.50000000000000 63.50000000000000 53.62500000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 9.0332031250000000E-03 1.1474609375000000E-02 EGI-13 GPS sigma roll/pitch/az: 7.6498118704142811E-04 7.6498118704142811E-04 1.6392454008030601E-03 r_time_tag_17: 0.9252480000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: 11.74192630920410 -217.2944121734619 8.6099395751953137E-03 EO17 wrander az roll pitch az: 1.501096074745343 5.4931640625000000E-02 1.636962890625000 88.32458496093750 EO17 r_cnexx/y/z: 0.4385016662999988 1.7769487574696541E-02 0.8985547414049506 EO17 r_lon: -147.2229543048888 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E DD4F D68D dec64: 216A 4882 63FE B469 r_hwgpstime(1): 585172.9898806863 r_utctime_18: 66759.98988068421 EGI-18 dec32 lat: 63.97103950215168 EGI-18 dec32 lon: -147.2236620501143 EGI-18 dec32 sea level alt: 7461.027832031250 EGI-18 dec32 WGS84 alt: 7467.439453125000 WGS84_alt-msl_alt: 6.411621093750000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 1 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 19 e22_msg(5) satellite 3: 1 e22_msg(7) satellite 4: B e22_msg(9) satellite 5: 5 EGI-22 Tdop: 2.093750000000000 1.921875000000000 1.390625000000000 1.328125000000000 0.8281250000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -3.132096000000000 geod_utctime time_tag_17 time_valid: 66759.92987060547 5.119512000000000 4.057344000000000 r_utc_ttag r_del_time_18: 585173.9920386075 2.0000000000000001E-09 J2000 r_hwtime = 25425174.13243200 GPS J2000 time = 25425173.99203861 Message 1 Time = 25425174.13243200 INS Time = 1.065856000000000 Roll angle = 6.0424804687500000E-02 Pitch angle = 1.631469726562500 Heading angle = 88.32458496093750 Long. acc = 0.3600000000000000 Lat. acc = -2.9999999999999999E-02 Norm. acc = -9.740000000000000 East vel. = 217.5930000000000 North vel. = 2.933000000000000 Up vel. = 4.0000000000000001E-03 True Grnd Spd = 217.6093750000000 Altitude = 7309.000000000000 Latitude = 63.96874358877540 Longitude = -147.2223304398358 Message 6 Week = 60 GPS Time = 25425173.99203861 GDOP = 2.093750000000000 PDOP = 1.921875000000000 HDOP = 1.390625000000000 VDOP = 1.328125000000000 TDOP = 0.8281250000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 63.97103950215168 GPS Lon = -147.2236620501143 GPS Alt = 7467.439453125000 GPS East Vel = 202.8967742919922 GPS North Vel = 30.79651069641113 GPS Up Vel = -0.1047639846801758 Message 4 Sigma Pos x = 64.50000000000000 Sigma Pos y = 63.50000000000000 Sigma Pos z = 53.62500000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 9.0332031250000000E-03 Sigma Vel z = 1.1474609375000000E-02 Message 7 Satellites used = 20 25 1 11 5 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 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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 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Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25425174.0000 25425316.7740 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57605 88.30261 88.76953 0.1307029 0 trc 89.49651 89.22456 89.75716 0.1768126 0 tgs 217.66344 217.29688 217.87500 0.1494292 0 roll 0.09233 -0.27466 0.58228 0.1963496 0 pitch 1.64685 1.58203 1.75232 0.0414259 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22233 -147.15741 0.0187615 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92494 -147.24000 -146.61167 0.1815359 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.32397 6147.20640 6840.01680 158.1372422 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79157 0.50000 1.90000 0.1304429 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7306.43043 7308.81772 0.7101329 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.00000 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006532 0 hwlon -146.90792 -147.22233 -146.59360 0.1815641 0 hwalt 7300.85361 7295.45176 7308.81772 3.7456520 0 hwev 217.66110 217.29800 217.88300 0.1496878 0 hwnv 1.91181 0.92100 2.94300 0.6712155 0 hwuv 0.06236 -0.17200 0.39300 0.1121145 0 hwroll 0.09241 -0.27466 0.58228 0.1964523 0 hwpitch 1.64687 1.58203 1.75232 0.0414464 0 hwhdg 88.57629 88.30261 88.76953 0.1304994 0 hwtrc 89.49677 89.22456 89.75716 0.1766857 0 hwtgs 217.66341 217.29688 217.87500 0.1495175 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 119936 1 119936 hdrgpssec-1 t_prf-1 119936 25425315.77478108 1.1840000515803695E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 937 25425315.00000000 4597601 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25425175.00000000 i_yearind 20008 GPS time for first pulse = 25425174.00104113 25425174.00000000 New startrecT: 25425174.00104113 25425174.13243200 1 New start and number of records = 113 119790 New start and number of blocks = 1 937 +6+r_hwhead(10/200): 0.0000000000000000E+00 5.4931640625000000E-03 88.32458496093750 GPS trend coefficients = 1.601781732692298 -4.853670229373576 2.478952927447506 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57627 88.30261 88.76953 0.1305555 0 trc 89.49669 89.22456 89.75663 0.1766745 0 tgs 217.66359 217.29688 217.87500 0.1493834 0 roll 0.09228 -0.27466 0.58228 0.1963947 0 pitch 1.64686 1.58203 1.75232 0.0414479 0 delx 0.25729 0.00000 0.25737 0.0007440 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22226 -147.15748 0.0187613 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92493 -147.23667 -146.61167 0.1815298 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.27778 6147.20640 6840.01680 158.2005539 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79061 0.50000 1.00000 0.1254973 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7307.20492 7307.34334 0.0352192 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.00000 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006532 0 hwlon -146.90792 -147.22226 -146.59366 0.1815640 0 hwalt 7300.85361 7295.45176 7308.81387 3.7456511 0 hwev 217.66110 217.29800 217.88300 0.1496878 0 hwnv 1.91181 0.92300 2.94300 0.6712151 0 hwuv 0.06236 -0.17200 0.39300 0.1121145 0 hwroll 0.09240 -0.27466 0.57678 0.1964457 0 hwpitch 1.64687 1.58203 1.75232 0.0414566 0 hwhdg 88.57629 88.30261 88.76953 0.1305114 0 hwtrc 89.49676 89.22509 89.75663 0.1766910 0 hwtgs 217.66345 217.29688 217.87500 0.1494416 0 Finished final analysis of data... Average Barometric Altitude = 7908.831017289132 Average Radar Altitude = 6491.277781856979 Average GPS Altitude = 7307.296311924030 >>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/1355/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: 937 Number of valid data points = 937 Start time GPS data = 25425172.99998989 End time GPS data = 25425313.99998718 Positions and Distances Start position = 63.9715799 -147.0676802 7486.794 End position = 63.9727282 -146.7524153 7487.417 Loxodromic Heading (deg) = 89.5250321 Loxodromic Distance (km) = 15442.3413551 Geodesic Heading (deg) = 89.3833877 Geodesic Distance (km) = 15442.3254479 Peg latitude and longitude = 63.9723236 -146.9122814 Peg heading = 89.5981409 Rotation matrix First row = -0.367646730 0.551189324 0.749016830 Second row = -0.239553609 -0.834374531 0.496420397 Third row = 0.898582189 0.003077651 0.438794460 Translation vector Vector = -0.15010 -0.09780 -38471.11867 Local Radius of Curvature = 6395444.908761902 startrec dgps_pacrim2k: 113 119790 **i_ts: 113 25425174.13300000 25425172.99998989 1.133010115474463 Start and end pulse used = 113 118437 gmt sec s e = 25425174.13300000 25425313.99996273 dgps sec s = 25425172.99998989 25425313.99998718 r_tsv: -2362434.775458875 -1521144.855004064 5715009.739195997 r_tev: -2345476.235184105 -1546724.397116353 5715131.328131497 lat/lon r_geodis: 1.116499678368468 -2.569525666015919 1.116542146102486 -2.558602830669908 30654.85433313598 Ellipsoidal delta s (m) = 0.2590755411677765 DGPS... lat/lon r_geodis: -5.4745093250431636E-06 -2.3797082592440762E-03 3.4867230862997477E-06 2.4135159106489674E-03 30654.85468696007 Delta s on reference surface = 0.2590755441580750 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1355/ts1355_l.peg DGPS Peg latitude and longitude = 63.9723236 -146.9122814 DGPS Peg heading = 89.5981409 == dgps_egi == r_hwheadf: 88.32458496093750 -5.4931640625000000E-03 0.0000000000000000E+00 113 Making final angle restore...Honeywell 88.32458496093750 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 4.0998904267578668E-06 Standard deviation of difference = 4.1746663298923640E-04 Making fits... Vertical fit coefficients = 7488.199130144905 0.1890630821790467 -5.5165563933901041E-04 Cross track fit coefficients = 219.6699698187169 3.6850476499923346E-02 5.6505546975661042E-04 Along track fit coefficients = 202.1007636230292 -0.1593021873037719 4.2580113981591228E-04 avg alt (1): 7488.199130144905 alt r_avgrefh: 7489.951836918471 i_yearind p-hgt t-hgt: 20008 7488.199130144905 500.0000 avg_ralt tmp: 6988.199218750000 6988.199 enter proc_alt: -1.000000 yaw: -1.548433 88.32458496093750 89.87301773171329 113 tape #: 98 PRF at the start of the run: 845.8805345651181 845.8806 Miscellaneous Information Start range = 8102.267048972740 Start ground range = 4100.219873608160 Time orgin = 25425174.00104113 Pulse spacing = 0.2572949504826003 First frame = 4478432 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 FOMs: 5,3-5,8; smooth to light chop; clear and cloudy; low d rift; signals look good, still getting lots of P-band pulsed RFI ; EGR-EGI lat diff: 0.12 mine (wide pulse); GS looks goodlliam Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1355/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: 60000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1355/ts1355_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: 419366 enter the title of image: title image BIGDELTA90-1 enter the CCT (job) ID: cct: 1355 target:BigDelta90-1 prod ID(cctid):1355 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: 500.0000 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 63.97086538374424 IGI lon: 1 -147.2237209137529 *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 8 0 >> ratn_phv = 0 4 0 >> ratn_pvh = 0 2 0 >> ratn_pvv = 0 10 0 >> ratn_lhh = 0 12 0 >> ratn_lhv = 0 12 0 >> ratn_lvh = 0 12 0 >> ratn_lvv = 0 12 0 >> ratn_chh = 0 9 10 >> ratn_chv = 0 9 10 >> ratn_cvh = 0 9 10 >> ratn_cvv = 0 9 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 119936 63.97086538374424 -147.2237209137529 63.97166666666666 -147.2400000000000 7906.512000000001 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 6298.996800000000 0.3000000000000000 1.600000000000000 88.40000000000001 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 63.97069549560547 -147.2229461669922 0.0000000000000000E+00 0.0000000000000000E+00 25425174.00000000 ****gps_frame**** 4478319 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8181.008602849635 1 937 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 4537819.357524013 34623.47269066396 gpsT doy: 295 10 21 gpsT: 25425174.00000000 2000 10 21 18 32 54 0.0000000000000000E+00 week# 1 F12 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 585174.1324320000 EGI msg 1 msl alt(from eo17): 7302.895746386719 EGI msg 1 wander angle(from eo17): 86.00646972656250 EGI09 lat: 63.97086538374424 EGI09 lon: -147.2237209137529 EGI09 alt: 6123.000000000000 EGI09 Height_above_ellipsoid - height_msl: 6.400800000000000 EGI-09 word11 gps Vel East m/s: 213.2802458564758 EGI-09 word12 gps Vel North m/s: 11.09206481323242 EGI-09 word13 gps Vel Upper m/s: -0.1060984657287598 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 E838 EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 66759.92987060547 EGI-09 Time Valid: 4.057344000000000 EGI-18 dec32 Vel North m/s: 30.79651069641113 EGI-18 dec32 Vel East m/s: 202.8967742919922 EGI-18 dec32 Vel Upper m/s: -0.1047639846801758 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 64.50000000000000 63.50000000000000 53.62500000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 9.0332031250000000E-03 1.1474609375000000E-02 EGI-13 GPS sigma roll/pitch/az: 7.6498118704142811E-04 7.6498118704142811E-04 1.6392454008030601E-03 r_time_tag_17: 0.9252480000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: 11.74192630920410 -217.2944121734619 8.6099395751953137E-03 EO17 wrander az roll pitch az: 1.501096074745343 5.4931640625000000E-02 1.636962890625000 88.32458496093750 EO17 r_cnexx/y/z: 0.4385016662999988 1.7769487574696541E-02 0.8985547414049506 EO17 r_lon: -147.2229543048888 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E DD4F D68D dec64: 216A 4882 63FE B469 r_hwgpstime(1): 585172.9898806863 r_utctime_18: 66759.98988068421 EGI-18 dec32 lat: 63.97103950215168 EGI-18 dec32 lon: -147.2236620501143 EGI-18 dec32 sea level alt: 7461.027832031250 EGI-18 dec32 WGS84 alt: 7467.439453125000 WGS84_alt-msl_alt: 6.411621093750000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 1 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 19 e22_msg(5) satellite 3: 1 e22_msg(7) satellite 4: B e22_msg(9) satellite 5: 5 EGI-22 Tdop: 2.093750000000000 1.921875000000000 1.390625000000000 1.328125000000000 0.8281250000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -3.132096000000000 geod_utctime time_tag_17 time_valid: 66759.92987060547 5.119512000000000 4.057344000000000 r_utc_ttag r_del_time_18: 585173.9920386075 2.0000000000000001E-09 J2000 r_hwtime = 25425174.13243200 GPS J2000 time = 25425173.99203861 Message 1 Time = 25425174.13243200 INS Time = 1.065856000000000 Roll angle = 6.0424804687500000E-02 Pitch angle = 1.631469726562500 Heading angle = 88.32458496093750 Long. acc = 0.3600000000000000 Lat. acc = -2.9999999999999999E-02 Norm. acc = -9.740000000000000 East vel. = 217.5930000000000 North vel. = 2.933000000000000 Up vel. = 4.0000000000000001E-03 True Grnd Spd = 217.6093750000000 Altitude = 7309.000000000000 Latitude = 63.96874358877540 Longitude = -147.2223304398358 Message 6 Week = 60 GPS Time = 25425173.99203861 GDOP = 2.093750000000000 PDOP = 1.921875000000000 HDOP = 1.390625000000000 VDOP = 1.328125000000000 TDOP = 0.8281250000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 63.97103950215168 GPS Lon = -147.2236620501143 GPS Alt = 7467.439453125000 GPS East Vel = 202.8967742919922 GPS North Vel = 30.79651069641113 GPS Up Vel = -0.1047639846801758 Message 4 Sigma Pos x = 64.50000000000000 Sigma Pos y = 63.50000000000000 Sigma Pos z = 53.62500000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 9.0332031250000000E-03 Sigma Vel z = 1.1474609375000000E-02 Message 7 Satellites used = 20 25 1 11 5 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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20008 7308.817715843428 Done decoding data from header array... Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25425174.0000 25425316.7740 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57605 88.30261 88.76953 0.1307029 0 trc 89.49651 89.22456 89.75716 0.1768126 0 tgs 217.66344 217.29688 217.87500 0.1494292 0 roll 0.09233 -0.27466 0.58228 0.1963496 0 pitch 1.64685 1.58203 1.75232 0.0414259 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22233 -147.15741 0.0187615 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92494 -147.24000 -146.61167 0.1815359 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.32397 6147.20640 6840.01680 158.1372422 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79157 0.50000 1.90000 0.1304429 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7306.43043 7308.81772 0.7101329 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.00000 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006531 0 hwlon -146.90790 -147.22233 -146.59360 0.1815463 0 hwalt 7300.85323 7295.45175 7308.81772 3.7453293 0 hwev 217.66112 217.29800 217.88300 0.1496766 0 hwnv 1.91161 0.92100 2.94300 0.6712827 0 hwuv 0.06236 -0.17200 0.39300 0.1121025 0 hwroll 0.09242 -0.27466 0.58228 0.1964345 0 hwpitch 1.64686 1.58203 1.75232 0.0414467 0 hwhdg 88.57633 88.30261 88.76953 0.1305082 0 hwtrc 89.49682 89.22456 89.75716 0.1767032 0 hwtgs 217.66343 217.29688 217.87500 0.1495047 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 119936 1 119936 hdrgpssec-1 t_prf-1 119936 25425315.77492634 1.1840000515803695E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 937 25425315.00000000 4597601 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25425175.00000000 i_yearind 20008 GPS time for first pulse = 25425174.00104113 25425174.00000000 New startrecT: 25425174.00104113 25425174.13243200 1 New start and number of records = 113 119790 New start and number of blocks = 1 937 +6+r_hwhead(10/200): 0.0000000000000000E+00 5.4931640625000000E-03 88.32458496093750 GPS trend coefficients = 1.601781877244182 -4.853671024702845 2.478953686837068 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57627 88.30261 88.76953 0.1305555 0 trc 89.49669 89.22456 89.75663 0.1766745 0 tgs 217.66359 217.29688 217.87500 0.1493834 0 roll 0.09228 -0.27466 0.58228 0.1963947 0 pitch 1.64686 1.58203 1.75232 0.0414479 0 delx 0.25729 0.00000 0.25737 0.0007440 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22226 -147.15748 0.0187613 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92493 -147.23667 -146.61167 0.1815298 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.27778 6147.20640 6840.01680 158.2005539 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79061 0.50000 1.00000 0.1254973 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7307.20492 7307.34334 0.0352155 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.00000 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006531 0 hwlon -146.90790 -147.22226 -146.59367 0.1815463 0 hwalt 7300.85323 7295.45176 7308.81387 3.7453283 0 hwev 217.66112 217.29800 217.88300 0.1496766 0 hwnv 1.91161 0.92300 2.94300 0.6712824 0 hwuv 0.06236 -0.17200 0.39300 0.1121024 0 hwroll 0.09242 -0.27466 0.57678 0.1964279 0 hwpitch 1.64686 1.58203 1.75232 0.0414569 0 hwhdg 88.57633 88.30261 88.76953 0.1305203 0 hwtrc 89.49681 89.22509 89.75663 0.1767087 0 hwtgs 217.66346 217.29688 217.87500 0.1494288 0 Finished final analysis of data... Average Barometric Altitude = 7908.831017289132 Average Radar Altitude = 6491.277781856979 Average GPS Altitude = 7307.296309716471 >>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/1355/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: 937 Number of valid data points = 937 Start time GPS data = 25425172.99998989 End time GPS data = 25425313.99998718 Positions and Distances Start position = 63.9715799 -147.0676802 7486.794 End position = 63.9727282 -146.7524153 7487.417 Loxodromic Heading (deg) = 89.5250321 Loxodromic Distance (km) = 15442.3413551 Geodesic Heading (deg) = 89.3833877 Geodesic Distance (km) = 15442.3254479 Peg latitude and longitude = 63.9723236 -146.9122814 Peg heading = 89.5981409 Rotation matrix First row = -0.367646730 0.551189324 0.749016830 Second row = -0.239553609 -0.834374531 0.496420397 Third row = 0.898582189 0.003077651 0.438794460 Translation vector Vector = -0.15010 -0.09780 -38471.11867 Local Radius of Curvature = 6395444.908761902 startrec dgps_pacrim2k: 113 119790 **i_ts: 113 25425174.13300000 25425172.99998989 1.133010115474463 Start and end pulse used = 113 118437 gmt sec s e = 25425174.13300000 25425314.00010800 dgps sec s = 25425172.99998989 25425313.99998718 r_tsv: -2362434.775458875 -1521144.855004064 5715009.739195997 r_tev: -2345476.235184105 -1546724.397116353 5715131.328131497 lat/lon r_geodis: 1.116499678368468 -2.569525666015919 1.116542146102486 -2.558602830669908 30654.85433313598 Ellipsoidal delta s (m) = 0.2590755411677765 DGPS... lat/lon r_geodis: -5.4745093250431636E-06 -2.3797082592440762E-03 3.4867230862997477E-06 2.4135159106489674E-03 30654.85468696007 Delta s on reference surface = 0.2590755441580750 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1355/ts1355_p.peg DGPS Peg latitude and longitude = 63.9723236 -146.9122814 DGPS Peg heading = 89.5981409 == dgps_egi == r_hwheadf: 88.32458496093750 -5.4931640625000000E-03 0.0000000000000000E+00 113 Making final angle restore...Honeywell 88.32458496093750 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 6.4394457948502423E-04 Standard deviation of difference = 1.8376352783154733E-04 Making fits... Vertical fit coefficients = 7488.199126747256 0.1890631276648662 -5.5165591389449986E-04 Cross track fit coefficients = 219.6699726953901 3.6850215959487898E-02 5.6505708573426072E-04 Along track fit coefficients = 202.1039318722620 -0.1594810129781026 4.2696012008339168E-04 avg alt (1): 7488.199126747256 alt r_avgrefh: 7489.951837124153 i_yearind p-hgt t-hgt: 20008 7488.199126747256 500.0000 avg_ralt tmp: 6988.199218750000 6988.199 enter proc_alt: -1.000000 yaw: -1.548433 88.32458496093750 89.87301773166656 113 tape #: 98 PRF at the start of the run: 845.8805345651181 845.8806 Miscellaneous Information Start range = 8181.008602849635 Start ground range = 4253.701145938867 Time orgin = 25425174.00104113 Pulse spacing = 0.2572949504826003 First frame = 4478432 Thank you for your patronage Thu Mar 14 13:13:32 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 FOMs: 5,3-5,8; smooth to light chop; clear and cloudy; low d rift; signals look good, still getting lots of P-band pulsed RFI ; EGR-EGI lat diff: 0.12 mine (wide pulse); GS looks goodlliam Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1355/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: 60000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1355/ts1355_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: 419366 enter the title of image: title image BIGDELTA90-1 enter the CCT (job) ID: cct: 1355 target:BigDelta90-1 prod ID(cctid):1355 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: 500.0000 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 63.97086538374424 IGI lon: 1 -147.2237209137529 *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 8 0 >> ratn_phv = 0 4 0 >> ratn_pvh = 0 2 0 >> ratn_pvv = 0 10 0 >> ratn_lhh = 0 12 0 >> ratn_lhv = 0 12 0 >> ratn_lvh = 0 12 0 >> ratn_lvv = 0 12 0 >> ratn_chh = 0 9 10 >> ratn_chv = 0 9 10 >> ratn_cvh = 0 9 10 >> ratn_cvv = 0 9 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 119936 63.97086538374424 -147.2237209137529 63.97166666666666 -147.2400000000000 7906.512000000001 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 6298.996800000000 0.3000000000000000 1.600000000000000 88.40000000000001 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 63.97069549560547 -147.2229461669922 0.0000000000000000E+00 0.0000000000000000E+00 25425174.00000000 ****gps_frame**** 4478319 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8102.267048972740 1 937 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 4537819.357524013 34623.47269066396 gpsT doy: 295 10 21 gpsT: 25425174.00000000 2000 10 21 18 32 54 0.0000000000000000E+00 week# 1 F12 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 585174.1324320000 EGI msg 1 msl alt(from eo17): 7302.895746386719 EGI msg 1 wander angle(from eo17): 86.00646972656250 EGI09 lat: 63.97086538374424 EGI09 lon: -147.2237209137529 EGI09 alt: 6123.000000000000 EGI09 Height_above_ellipsoid - height_msl: 6.400800000000000 EGI-09 word11 gps Vel East m/s: 213.2802458564758 EGI-09 word12 gps Vel North m/s: 11.09206481323242 EGI-09 word13 gps Vel Upper m/s: -0.1060984657287598 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 E838 EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 66759.92987060547 EGI-09 Time Valid: 4.057344000000000 EGI-18 dec32 Vel North m/s: 30.79651069641113 EGI-18 dec32 Vel East m/s: 202.8967742919922 EGI-18 dec32 Vel Upper m/s: -0.1047639846801758 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 64.50000000000000 63.50000000000000 53.62500000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 9.0332031250000000E-03 1.1474609375000000E-02 EGI-13 GPS sigma roll/pitch/az: 7.6498118704142811E-04 7.6498118704142811E-04 1.6392454008030601E-03 r_time_tag_17: 0.9252480000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: 11.74192630920410 -217.2944121734619 8.6099395751953137E-03 EO17 wrander az roll pitch az: 1.501096074745343 5.4931640625000000E-02 1.636962890625000 88.32458496093750 EO17 r_cnexx/y/z: 0.4385016662999988 1.7769487574696541E-02 0.8985547414049506 EO17 r_lon: -147.2229543048888 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E DD4F D68D dec64: 216A 4882 63FE B469 r_hwgpstime(1): 585172.9898806863 r_utctime_18: 66759.98988068421 EGI-18 dec32 lat: 63.97103950215168 EGI-18 dec32 lon: -147.2236620501143 EGI-18 dec32 sea level alt: 7461.027832031250 EGI-18 dec32 WGS84 alt: 7467.439453125000 WGS84_alt-msl_alt: 6.411621093750000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 1 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 19 e22_msg(5) satellite 3: 1 e22_msg(7) satellite 4: B e22_msg(9) satellite 5: 5 EGI-22 Tdop: 2.093750000000000 1.921875000000000 1.390625000000000 1.328125000000000 0.8281250000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -3.132096000000000 geod_utctime time_tag_17 time_valid: 66759.92987060547 5.119512000000000 4.057344000000000 r_utc_ttag r_del_time_18: 585173.9920386075 2.0000000000000001E-09 J2000 r_hwtime = 25425174.13243200 GPS J2000 time = 25425173.99203861 Message 1 Time = 25425174.13243200 INS Time = 1.065856000000000 Roll angle = 6.0424804687500000E-02 Pitch angle = 1.631469726562500 Heading angle = 88.32458496093750 Long. acc = 0.3600000000000000 Lat. acc = -2.9999999999999999E-02 Norm. acc = -9.740000000000000 East vel. = 217.5930000000000 North vel. = 2.933000000000000 Up vel. = 4.0000000000000001E-03 True Grnd Spd = 217.6093750000000 Altitude = 7309.000000000000 Latitude = 63.96874358877540 Longitude = -147.2223304398358 Message 6 Week = 60 GPS Time = 25425173.99203861 GDOP = 2.093750000000000 PDOP = 1.921875000000000 HDOP = 1.390625000000000 VDOP = 1.328125000000000 TDOP = 0.8281250000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 63.97103950215168 GPS Lon = -147.2236620501143 GPS Alt = 7467.439453125000 GPS East Vel = 202.8967742919922 GPS North Vel = 30.79651069641113 GPS Up Vel = -0.1047639846801758 Message 4 Sigma Pos x = 64.50000000000000 Sigma Pos y = 63.50000000000000 Sigma Pos z = 53.62500000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 9.0332031250000000E-03 Sigma Vel z = 1.1474609375000000E-02 Message 7 Satellites used = 20 25 1 11 5 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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Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data 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 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data 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 9064 20008 7308.817717907270 Done decoding data from header array... Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25425174.0000 25425316.7740 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57605 88.30261 88.76953 0.1307029 0 trc 89.49651 89.22456 89.75716 0.1768126 0 tgs 217.66344 217.29688 217.87500 0.1494292 0 roll 0.09233 -0.27466 0.58228 0.1963496 0 pitch 1.64685 1.58203 1.75232 0.0414259 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22233 -147.15741 0.0187615 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92494 -147.24000 -146.61167 0.1815359 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.32397 6147.20640 6840.01680 158.1372422 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79157 0.50000 1.90000 0.1304429 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7306.43043 7308.81772 0.7101329 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.00000 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006532 0 hwlon -146.90792 -147.22233 -146.59360 0.1815641 0 hwalt 7300.85361 7295.45176 7308.81772 3.7456520 0 hwev 217.66110 217.29800 217.88300 0.1496878 0 hwnv 1.91181 0.92100 2.94300 0.6712155 0 hwuv 0.06236 -0.17200 0.39300 0.1121145 0 hwroll 0.09241 -0.27466 0.58228 0.1964523 0 hwpitch 1.64687 1.58203 1.75232 0.0414464 0 hwhdg 88.57629 88.30261 88.76953 0.1304994 0 hwtrc 89.49677 89.22456 89.75716 0.1766857 0 hwtgs 217.66341 217.29688 217.87500 0.1495175 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 119936 1 119936 hdrgpssec-1 t_prf-1 119936 25425315.77543405 1.1840000515803695E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 937 25425315.00000000 4597601 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25425175.00000000 i_yearind 20008 GPS time for first pulse = 25425174.00104113 25425174.00000000 New startrecT: 25425174.00104113 25425174.13243200 1 New start and number of records = 113 119790 New start and number of blocks = 1 937 +6+r_hwhead(10/200): 0.0000000000000000E+00 5.4931640625000000E-03 88.32458496093750 GPS trend coefficients = 1.601781732692298 -4.853670229373576 2.478952927447506 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57627 88.30261 88.76953 0.1305555 0 trc 89.49669 89.22456 89.75663 0.1766745 0 tgs 217.66359 217.29688 217.87500 0.1493834 0 roll 0.09228 -0.27466 0.58228 0.1963947 0 pitch 1.64686 1.58203 1.75232 0.0414479 0 delx 0.25729 0.00000 0.25737 0.0007440 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22226 -147.15748 0.0187613 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92493 -147.23667 -146.61167 0.1815298 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.27778 6147.20640 6840.01680 158.2005539 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79061 0.50000 1.00000 0.1254973 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7307.20492 7307.34334 0.0352192 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.000Reading from stdin 00 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006532 0 hwlon -146.90792 -147.22226 -146.59366 0.1815640 0 hwalt 7300.85361 7295.45176 7308.81387 3.7456511 0 hwev 217.66110 217.29800 217.88300 0.1496878 0 hwnv 1.91181 0.92300 2.94300 0.6712151 0 hwuv 0.06236 -0.17200 0.39300 0.1121145 0 hwroll 0.09240 -0.27466 0.57678 0.1964457 0 hwpitch 1.64687 1.58203 1.75232 0.0414566 0 hwhdg 88.57629 88.30261 88.76953 0.1305114 0 hwtrc 89.49676 89.22509 89.75663 0.1766910 0 hwtgs 217.66345 217.29688 217.87500 0.1494416 0 Finished final analysis of data... Average Barometric Altitude = 7908.831017289132 Average Radar Altitude = 6491.277781856979 Average GPS Altitude = 7307.296311924030 >>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/1355/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: 937 Number of valid data points = 937 Start time GPS data = 25425172.99998989 End time GPS data = 25425313.99998718 Positions and Distances Start position = 63.9715799 -147.0676802 7486.794 End position = 63.9727282 -146.7524153 7487.417 Loxodromic Heading (deg) = 89.5250321 Loxodromic Distance (km) = 15442.3413551 Geodesic Heading (deg) = 89.3833877 Geodesic Distance (km) = 15442.3254479 Peg latitude and longitude = 63.9723236 -146.9122814 Peg heading = 89.5981409 Rotation matrix First row = -0.367646730 0.551189324 0.749016830 Second row = -0.239553609 -0.834374531 0.496420397 Third row = 0.898582189 0.003077651 0.438794460 Translation vector Vector = -0.15010 -0.09780 -38471.11867 Local Radius of Curvature = 6395444.908761902 startrec dgps_pacrim2k: 113 119790 **i_ts: 113 25425174.13300000 25425172.99998989 1.133010115474463 Start and end pulse used = 113 118436 gmt sec s e = 25425174.13300000 25425313.99943171 dgps sec s = 25425172.99998989 25425313.99998718 r_tsv: -2362434.775458875 -1521144.855004064 5715009.739195997 r_tev: -2345476.235184105 -1546724.397116353 5715131.328131497 lat/lon r_geodis: 1.116499678368468 -2.569525666015919 1.116542146102486 -2.558602830669908 30654.85433313598 Ellipsoidal delta s (m) = 0.2590777307297481 DGPS... lat/lon r_geodis: -5.4745093250431636E-06 -2.3797082592440762E-03 3.4867230862997477E-06 2.4135159106489674E-03 30654.85468696007 Delta s on reference surface = 0.2590777337200719 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1355/ts1355_c.peg DGPS Peg latitude and longitude = 63.9723236 -146.9122814 DGPS Peg heading = 89.5981409 == dgps_egi == r_hwheadf: 88.32458496093750 -5.4931640625000000E-03 0.0000000000000000E+00 113 Making final angle restore...Honeywell 88.32458496093750 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 3.5175327430862904E-04 Standard deviation of difference = 7.2150629865479091E-04 Making fits... Vertical fit coefficients = 7488.199130144905 0.1890630821790467 -5.5165563933901041E-04 Cross track fit coefficients = 219.6699698187169 3.6850476499923346E-02 5.6505546975661042E-04 Along track fit coefficients = 202.1007636230292 -0.1593021873037719 4.2580113981591228E-04 avg alt (1): 7488.199130144905 alt r_avgrefh: 7489.951836918471 i_yearind p-hgt t-hgt: 20008 7488.199130144905 500.0000 avg_ralt tmp: 6988.199218750000 6988.199 enter proc_alt: -1.000000 yaw: -1.548433 88.32458496093750 89.87301773171329 113 tape #: 98 PRF at the start of the run: 845.8805345651181 845.8806 Miscellaneous Information Start range = 8102.267048972740 Start ground range = 4100.219873608160 Time orgin = 25425174.00104113 Pulse spacing = 0.2572949504826003 First frame = 4478432 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/1355/ts1355_c.mocomp Name of the H-pol motion compensation file? /mnt/air65/airops/1355/ts1355_c.mocomph Name of the V-pol motion compensation file? /mnt/air65/airops/1355/ts1355_c.mocompv How many lines per polarization? 60000 + 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/1355/ts1355_c.par Enter the raw data file name. /mnt/air62/airops/1355/c_hh Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_c_hh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_c_hh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_c_hh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_c_hh.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1057 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (169.3377,0.0000000E+00) (-178.2502,0.0000000E+00) (106.9501,0.0000000E+00) attenuation (dB): 19.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.2367549E+09 plot_x: 936 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.13837 Power RMS: 0.1288470 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 71931.95 Amp. RMS: 137.6372 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 6.746130 Phase RMS: 0.3854293 Incoherent PH 1st: 6.750092 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.14172 CalTone Power Coherently dB : 97.13837 Incoherent PW - Coherent PW : 3.3569336E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 71957.02 CalTone Amplitude Coherently : 71931.95 Incoherent Amp.- Coherent Amp. : 25.06250 ------------ *** ------------ running time (sec): 32.48 ********** 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/1355/ts1355_c.par Enter the raw data file name. /mnt/air62/airops/1355/c_hv Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_c_hv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_c_hv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_c_hv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_c_hv.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1057 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (98.03760,0.0000000E+00) (-89.12509,0.0000000E+00) (-115.8626,0.0000000E+00) attenuation (dB): 19.00000 no_loop: 64 Pulse#/no_loop: 1 1057 4.9307735E+09 plot_x: 936 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 96.91644 Power RMS: 4.4194173E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 70116.93 Amp. RMS: 123.9355 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 66.88947 Phase RMS: 0.1012616 Incoherent PH 1st: 66.91015 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 96.91857 CalTone Power Coherently dB : 96.91644 Incoherent PW - Coherent PW : 2.1286011E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 70208.93 CalTone Amplitude Coherently : 70116.93 Incoherent Amp.- Coherent Amp. : 92.00000 ------------ *** ------------ running time (sec): 29.32 ********** 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/1355/ts1355_c.par Enter the raw data file name. /mnt/air62/airops/1355/c_vh Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_c_vh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_c_vh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_c_vh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_c_vh.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1057 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (-17.82502,0.0000000E+00) (35.65004,0.0000000E+00) (258.4628,0.0000000E+00) attenuation (dB): 19.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.2309238E+09 plot_x: 936 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.14001 Power RMS: 0.1288470 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 71945.66 Amp. RMS: 131.9394 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 6.504735 Phase RMS: 0.3875268 Incoherent PH 1st: 6.497332 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.14226 CalTone Power Coherently dB : 97.14001 Incoherent PW - Coherent PW : 2.2506714E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 72036.40 CalTone Amplitude Coherently : 71945.66 Incoherent Amp.- Coherent Amp. : 90.74219 ------------ *** ------------ running time (sec): 30.71 ********** 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/1355/ts1355_c.par Enter the raw data file name. /mnt/air62/airops/1355/c_vv Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_c.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_c_vv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_c_vv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_c_vv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_c_vv.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1057 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (115.8626,0.0000000E+00) (-35.65004,0.0000000E+00) (-26.73753,0.0000000E+00) attenuation (dB): 19.00000 no_loop: 64 Pulse#/no_loop: 1 1057 4.9193938E+09 plot_x: 936 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 96.89153 Power RMS: 5.4126587E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 69915.87 Amp. RMS: 146.6424 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 66.94756 Phase RMS: 0.1126735 Incoherent PH 1st: 66.99058 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 96.89146 CalTone Power Coherently dB : 96.89153 Incoherent PW - Coherent PW : -6.8664551E-05 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 69990.15 CalTone Amplitude Coherently : 69915.87 Incoherent Amp.- Coherent Amp. : 74.28125 ------------ *** ------------ running time (sec): 29.75 ********** 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: -37.02198 5.5812282E-04 z fit: constant and linear terms: -0.2473266 4.1801584E-05 y and z standard deviations (meters) 1.419700 0.3048878 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 = 5.8074336E-02 6.5802380E-02 8.3790764E-02 0.1005032 Differences = -1.8968325E-02 -1.1240281E-02 6.7481026E-03 2.3460507E-02 PATCH NUMER 2 First line = 1513 Averages = 7.4923791E-02 9.2593499E-02 0.1060026 0.1153581 Differences = -2.2295699E-02 -4.6259910E-03 8.7831542E-03 1.8138565E-02 PATCH NUMER 3 First line = 3025 Averages = 9.9844970E-02 0.1112632 0.1186253 0.1246509 Differences = -1.3751142E-02 -2.3329183E-03 5.0292239E-03 1.1054784E-02 PATCH NUMER 4 First line = 4537 Averages = 0.1149285 0.1214183 0.1284377 0.1366015 Differences = -1.0418005E-02 -3.9282069E-03 3.0911714E-03 1.1255011E-02 PATCH NUMER 5 First line = 6049 Averages = 0.1242843 0.1325752 0.1401882 0.1438979 Differences = -1.0952070E-02 -2.6611984E-03 4.9517602E-03 8.6615086E-03 PATCH NUMER 6 First line = 7561 Averages = 0.1361009 0.1417930 0.1479885 0.1573095 Differences = -9.6971095E-03 -4.0049553E-03 2.1904707E-03 1.1511534E-02 PATCH NUMER 7 First line = 9073 Averages = 0.1435280 0.1523494 0.1598085 0.1593088 Differences = -1.0220587E-02 -1.3991445E-03 6.0599148E-03 5.5602342E-03 PATCH NUMER 8 First line = 10585 Averages = 0.1569263 0.1605237 0.1572802 0.1596759 Differences = -1.6752630E-03 1.9221008E-03 -1.3213307E-03 1.0743141E-03 PATCH NUMER 9 First line = 12097 Averages = 0.1593470 0.1581987 0.1574081 0.1475779 Differences = 3.7140697E-03 2.5657415E-03 1.7752200E-03 -8.0550611E-03 PATCH NUMER 10 First line = 13609 Averages = 0.1596255 0.1526800 0.1432160 0.1359917 Differences = 1.1747211E-02 4.8017055E-03 -4.6622455E-03 -1.1886582E-02 PATCH NUMER 11 First line = 15121 Averages = 0.1479918 0.1393545 0.1330387 0.1296060 Differences = 1.0494038E-02 1.8566549E-03 -4.4591427E-03 -7.8918040E-03 PATCH NUMER 12 First line = 16633 Averages = 0.1362576 0.1305648 0.1285070 0.1221082 Differences = 6.8981647E-03 1.2053251E-03 -8.5243583E-04 -7.2513148E-03 PATCH NUMER 13 First line = 18145 Averages = 0.1297927 0.1257124 0.1186571 0.1154485 Differences = 7.3899403E-03 3.3096150E-03 -3.7456974E-03 -6.9542527E-03 PATCH NUMER 14 First line = 19657 Averages = 0.1223154 0.1165191 0.1131283 0.1120246 Differences = 6.3185319E-03 5.2215904E-04 -2.8686374E-03 -3.9723366E-03 PATCH NUMER 15 First line = 21169 Averages = 0.1156068 0.1112858 0.1123387 0.1111928 Differences = 3.0007884E-03 -1.3201386E-03 -2.6730448E-04 -1.4131442E-03 PATCH NUMER 16 First line = 22681 Averages = 0.1119113 0.1118301 0.1145545 0.1272804 Differences = -4.4826865E-03 -4.5638904E-03 -1.8394440E-03 1.0886386E-02 PATCH NUMER 17 First line = 24193 Averages = 0.1112152 0.1217167 0.1295124 0.1355183 Differences = -1.3275482E-02 -2.7739704E-03 5.0217733E-03 1.1027642E-02 PATCH NUMER 18 First line = 25705 Averages = 0.1270364 0.1315112 0.1391699 0.1469478 Differences = -9.1298819E-03 -4.6551079E-03 3.0036420E-03 1.0781452E-02 PATCH NUMER 19 First line = 27217 Averages = 0.1350362 0.1423579 0.1514539 0.1577669 Differences = -1.1617467E-02 -4.2957515E-03 4.8002452E-03 1.1113226E-02 PATCH NUMER 20 First line = 28729 Averages = 0.1465352 0.1542157 0.1635631 0.1742795 Differences = -1.3113141E-02 -5.4326653E-03 3.9146692E-03 1.4631137E-02 PATCH NUMER 21 First line = 30241 Averages = 0.1573627 0.1694202 0.1785931 0.1899960 Differences = -1.6480446E-02 -4.4229180E-03 4.7500283E-03 1.6152948E-02 PATCH NUMER 22 First line = 31753 Averages = 0.1737560 0.1838153 0.1961143 0.2065909 Differences = -1.6313180E-02 -6.2538981E-03 6.0450584E-03 1.6521677E-02 PATCH NUMER 23 First line = 33265 Averages = 0.1895447 0.2025865 0.2055108 0.2050849 Differences = -1.1137024E-02 1.9048005E-03 4.8290938E-03 4.4032037E-03 PATCH NUMER 24 First line = 34777 Averages = 0.2064703 0.2036086 0.2106093 0.2140911 Differences = -2.2245198E-03 -5.0861984E-03 1.9144863E-03 5.3962469E-03 PATCH NUMER 25 First line = 36289 Averages = 0.2048380 0.2142189 0.2129005 0.2129747 Differences = -6.3950121E-03 2.9858500E-03 1.6674697E-03 1.7417371E-03 PATCH NUMER 26 First line = 37801 Averages = 0.2140967 0.2128095 0.2116099 0.2090833 Differences = 2.1968037E-03 9.0953708E-04 -2.9006600E-04 -2.8166026E-03 PATCH NUMER 27 First line = 39313 Averages = 0.2130920 0.2098945 0.2081454 0.2121263 Differences = 2.2774488E-03 -9.2004240E-04 -2.6691556E-03 1.3117343E-03 PATCH NUMER 28 First line = 40825 Averages = 0.2091435 0.2092936 0.2143131 0.2214462 Differences = -4.4055879E-03 -4.2555183E-03 7.6393783E-04 7.8970343E-03 PATCH NUMER 29 First line = 42337 Averages = 0.2119631 0.2172158 0.2254734 0.2320067 Differences = -9.7016096E-03 -4.4488907E-03 3.8086623E-03 1.0341987E-02 PATCH NUMER 30 First line = 43849 Averages = 0.2209969 0.2282875 0.2377632 0.2452678 Differences = -1.2081847E-02 -4.7912598E-03 4.6844929E-03 1.2189075E-02 PATCH NUMER 31 First line = 45361 Averages = 0.2315827 0.2428227 0.2452813 0.2402321 Differences = -8.3969235E-03 2.8430820E-03 5.3016245E-03 2.5247037E-04 PATCH NUMER 32 First line = 46873 Averages = 0.2452000 0.2434076 0.2359331 0.2274519 Differences = 7.2018504E-03 5.4094642E-03 -2.0650178E-03 -1.0546207E-02 PATCH NUMER 33 First line = 48385 Averages = 0.2407493 0.2307832 0.2289264 0.2265633 Differences = 8.9938045E-03 -9.7225606E-04 -2.8290302E-03 -5.1921308E-03 PATCH NUMER 34 First line = 49897 Averages = 0.2274845 0.2309203 0.2154858 0.2055493 Differences = 7.6247603E-03 1.1060536E-02 -4.3738931E-03 -1.4310390E-02 PATCH NUMER 35 First line = 51409 Averages = 0.2273695 0.2064506 0.2061718 0.2074482 Differences = 1.5509710E-02 -5.4091662E-03 -5.6879520E-03 -4.4116229E-03 PATCH NUMER 36 First line = 52921 Averages = 0.2055209 0.2068007 0.2077815 0.2169700 Differences = -3.7471950E-03 -2.4673939E-03 -1.4866143E-03 7.7019185E-03 PATCH NUMER 37 First line = 54433 Averages = 0.2073953 0.2111089 0.2191895 0.2249233 Differences = -8.2589388E-03 -4.5453161E-03 3.5352707E-03 9.2691183E-03 PATCH NUMER 38 First line = 55945 last black mod_64: 63 60000 55945 4096 Averages = 0.2165902 0.2201972 0.2313875 0.2356113 Differences = -9.3563795E-03 -5.7493597E-03 5.4408759E-03 9.6647739E-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/1355/sensor.hh00c Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/c_hh Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_c.mocomph Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.ch WAYNE init fft, calc slant range, load unpack, interpo 1.4601998E-02 reading motion compensation data WAYNE read motion compen 1.393131 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 0.4740220 start range comp, time = 2.025 WAYNE PREV 1.899099 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 -2.5874000E-02 2.8752400E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 2.215 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 29.47158098220825 ATTN ifrq ipol ln 8 1 4096 19.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4996951 shift in azimuth *fractional pixel= -0.4996951 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.7489147186279297E-03 TESTING 0.0000000E+00 -33.41103 -0.5439030 WAYNE Motion comp. added to patch, time = 8.646591067314148 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.0199289321899414E-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 -33.41103 -0.5439030 HEY,dt,fract,ye,pe -0.4996951 1.000000 -2.5874000E-02 2.8752400E-02 WAYNE Azimuth compression done, time = 230.7962169647217 Writing 2208 lines of data to file WAYNE write output data 1.121314048767090 ==w out 1 0 945 0 WAYNE PROCESS 270.0470609664917 Processing block number 2 TESTING WHY -2.4567099E-02 2.9131001E-02 1512 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 272.262 seconds. TESTING 1513 before reading done reading WAYNE load raw data , time = 44.53060805797577 ATTN ifrq ipol ln 8 1 5608 19.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4997001 shift in azimuth *fractional pixel= -0.4997001 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1299800872802734E-03 TESTING 0.0000000E+00 -31.83842 -0.5305311 WAYNE Motion comp. added to patch, time = 8.124274969100952 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 3.5004019737243652E-02 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 -31.83842 -0.5305311 HEY,dt,fract,ye,pe -0.4997001 1.000000 -2.4567099E-02 2.9131001E-02 WAYNE Azimuth compression done, time = 222.3982690572739 Writing 2208 lines of data to file WAYNE write output data 1.324221968650818 ==w out 2 2208 945 45219840 WAYNE PROCESS 276.4200019836426 Processing block number 3 TESTING WHY -2.3338700E-02 2.9290199E-02 1512 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 548.682 seconds. TESTING 3025 before reading done reading WAYNE load raw data , time = 39.33676695823669 ATTN ifrq ipol ln 8 1 7120 19.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4997073 shift in azimuth *fractional pixel= -0.4997073 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.8429241180419922E-03 TESTING 0.0000000E+00 -30.19310 -0.2953869 WAYNE Motion comp. added to patch, time = 7.976574063301086 WAYNE Doppler estimation done, time = 8.940 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 2.323 seconds. before reading done reading WAYNE load raw data , time = 29.69424903392792 ATTN ifrq ipol ln 8 1 57016 19.00000 IPOL, ITOP nblock 1 0 36 ****shift in azimuth (fractional pixel)= -0.4997422 shift in azimuth *fractional pixel= -0.4997422 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.6850185394287109E-03 WAYNE Motion comp. added to patch, time = 8.807880997657776 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.5110712051391602E-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 = 187.7522519826889 Writing 2208 lines of data to file WAYNE write output data 1.278786063194275 ==w out 36 0 945 0 WAYNE PROCESS 227.5450420379639 Processing block number 37 WAYNE PATCHES: 54433 58528 patch# 37 reference line: 56480 229.868 seconds. before reading done reading WAYNE load raw data , time = 23.50105607509613 ATTN ifrq ipol ln 8 1 58528 19.00000 IPOL, ITOP nblock 1 0 37 ****shift in azimuth (fractional pixel)= -0.4997516 shift in azimuth *fractional pixel= -0.4997516 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0698986053466797E-03 WAYNE Motion comp. added to patch, time = 8.105587005615234 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.7044901847839355E-02 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 = 162.5143409967422 Writing 2208 lines of data to file WAYNE write output data 1.255380034446716 ==w out 37 2208 945 45219840 WAYNE PROCESS 195.4008830785751 Processing block number 38 WAYNE PATCHES: 55904 59999 patch# 38 reference line: 57951 425.269 seconds. before reading done reading WAYNE load raw data , time = 23.22297799587250 ATTN ifrq ipol ln 8 1 59999 19.00000 IPOL, ITOP nblock 1 0 38 ****shift in azimuth (fractional pixel)= -0.4997427 shift in azimuth *fractional pixel= -0.4997427 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1689615249633789E-03 WAYNE Motion comp. added to patch, time = 8.091380953788757 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.4634003639221191E-02 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 = 145.8888059854507 Writing 2208 lines of data to file WAYNE write output data 1.371948003768921 ==w out 38 4416 945 90439680 WAYNE PROCESS 178.6073100566864 ==w out 39 6627 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 2.276 seconds. before reading done reading WAYNE load raw data , time = 29.52233099937439 ATTN ifrq ipol ln 8 1 34336 19.00000 IPOL, ITOP nblock 1 0 21 ****shift in azimuth (fractional pixel)= -0.4997489 shift in azimuth *fractional pixel= -0.4997489 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5129995346069336E-03 WAYNE Motion comp. added to patch, time = 8.497410893440247 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9261112213134766E-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 = 218.3732860088348 Writing 2208 lines of data to file WAYNE write output data 1.294643044471741 ==w out 21 0 945 0 WAYNE PROCESS 257.6988710165024 Processing block number 22 WAYNE PATCHES: 31753 35848 patch# 22 reference line: 33800 259.975 seconds. before reading done reading WAYNE load raw data , time = 32.96906399726868 ATTN ifrq ipol ln 8 1 35848 19.00000 IPOL, ITOP nblock 1 0 22 ****shift in azimuth (fractional pixel)= -0.4997573 shift in azimuth *fractional pixel= -0.4997573 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7119131088256836E-03 WAYNE Motion comp. added to patch, time = 7.773089051246643 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 0.3575119972229004 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 = 218.1553860902786 Writing 2208 lines of data to file WAYNE write output data 1.422686934471130 ==w out 22 2208 945 45219840 WAYNE PROCESS 260.6850008964539 Processing block number 23 WAYNE PATCHES: 33265 37360 patch# 23 reference line: 35312 520.660 seconds. before reading done reading WAYNE load raw data , time = 24.19264900684357 ATTN ifrq ipol ln 8 1 37360 19.00000 IPOL, ITOP nblock 1 0 23 ****shift in azimuth (fractional pixel)= -0.4997638 shift in azimuth *fractional pixel= -0.4997638 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1020851135253906E-03 WAYNE Motion comp. added to patch, time = 7.964377045631409 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 0.1865229606628418 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 = 166.9904350042343 Writing 2208 lines of data to file WAYNE write output data 1.169160008430481 ==w out 23 4416 945 90439680 WAYNE PROCESS 200.5105040073395 Processing block number 24 WAYNE PATCHES: 34777 38872 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 2.270 seconds. before reading done reading WAYNE load raw data , time = 29.50762391090393 ATTN ifrq ipol ln 8 1 28288 19.00000 IPOL, ITOP nblock 1 0 17 ****shift in azimuth (fractional pixel)= -0.4996858 shift in azimuth *fractional pixel= -0.4996858 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5590143203735352E-03 WAYNE Motion comp. added to patch, time = 8.859892010688782 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.4619569778442383E-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 = 225.8855309486389 Writing 2208 lines of data to file WAYNE write output data 1.340294003486633 ==w out 17 0 945 0 WAYNE PROCESS 265.6054980754852 Processing block number 18 WAYNE PATCHES: 25705 29800 patch# 18 reference line: 27752 267.876 seconds. before reading done reading WAYNE load raw data , time = 40.73305296897888 ATTN ifrq ipol ln 8 1 29800 19.00000 IPOL, ITOP nblock 1 0 18 ****shift in azimuth (fractional pixel)= -0.4996975 shift in azimuth *fractional pixel= -0.4996975 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.6920051574707031E-03 WAYNE Motion comp. added to patch, time = 8.046244025230408 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 7.5567960739135742E-02 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 = 230.9824219942093 Writing 2208 lines of data to file WAYNE write output data 1.526092052459717 ==w out 18 2208 945 45219840 WAYNE PROCESS 281.3705619573593 Processing block number 19 WAYNE PATCHES: 27217 31312 patch# 19 reference line: 29264 549.247 seconds. before reading done reading WAYNE load raw data , time = 38.61103498935699 ATTN ifrq ipol ln 8 1 31312 19.00000 IPOL, ITOP nblock 1 0 19 ****shift in azimuth (fractional pixel)= -0.4997248 shift in azimuth *fractional pixel= -0.4997248 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.8530569076538086E-03 WAYNE Motion comp. added to patch, time = 7.995414972305298 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4239897727966309E-02 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 = 171.5221900939941 Writing 2208 lines of data to file WAYNE write output data 1.173161029815674 ==w out 19 4416 945 90439680 WAYNE PROCESS 219.3333849906921 Processing block number 20 WAYNE PATCHES: 28729 32824 p 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 2.268 seconds. before reading done reading WAYNE load raw data , time = 29.47422802448273 ATTN ifrq ipol ln 8 1 22240 19.00000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4997188 shift in azimuth *fractional pixel= -0.4997188 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5350532531738281E-03 WAYNE Motion comp. added to patch, time = 8.690404057502747 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 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 = 225.5325160026550 Writing 2208 lines of data to file WAYNE write output data 1.365102052688599 ==w out 13 0 945 0 WAYNE PROCESS 265.0735620260239 Processing block number 14 WAYNE PATCHES: 19657 23752 patch# 14 reference line: 21704 267.342 seconds. before reading done reading WAYNE load raw data , time = 41.60138893127441 ATTN ifrq ipol ln 8 1 23752 19.00000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4997072 shift in azimuth *fractional pixel= -0.4997072 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.8299303054809570E-03 WAYNE Motion comp. added to patch, time = 8.006175994873047 WAYNE Doppler estimation done, time = 1.5974044799804688E-05 WAYNE write deskew done, time = 1.8823027610778809E-02 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 = 224.6204959154129 Writing 2208 lines of data to file WAYNE write output data 1.374799013137817 ==w out 14 2208 945 45219840 WAYNE PROCESS 275.6288480758667 Processing block number 15 WAYNE PATCHES: 21169 25264 patch# 15 reference line: 23216 542.971 seconds. before reading done reading WAYNE load raw data , time = 34.28275203704834 ATTN ifrq ipol ln 8 1 25264 19.00000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4996992 shift in azimuth *fractional pixel= -0.4996992 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7560205459594727E-03 WAYNE Motion comp. added to patch, time = 8.005144000053406 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 0.2878090143203735 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 = 199.2558979988098 Writing 2208 lines of data to file WAYNE write output data 1.343946933746338 ==w out 15 4416 945 90439680 WAYNE PROCESS 243.1828479766846 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 2.229 seconds. before reading done reading WAYNE load raw data , time = 29.47424590587616 ATTN ifrq ipol ln 8 1 10144 19.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4997216 shift in azimuth *fractional pixel= -0.4997216 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4989328384399414E-03 WAYNE Motion comp. added to patch, time = 8.738049030303955 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 3.2019615173339844E-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 = 241.4751210212708 Writing 2208 lines of data to file WAYNE write output data 1.129303097724915 ==w out 5 0 945 0 WAYNE PROCESS 280.8279970884323 Processing block number 6 WAYNE PATCHES: 7561 11656 patch# 6 reference line: 9608 283.057 seconds. before reading done reading WAYNE load raw data , time = 42.00266802310944 ATTN ifrq ipol ln 8 1 11656 19.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4997325 shift in azimuth *fractional pixel= -0.4997325 1.000000 WAYNE Motion comp. coeff. calculated, time = 7.5500011444091797E-03 WAYNE Motion comp. added to patch, time = 8.355404973030090 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 1.0926008224487305E-02 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 = 227.8398779630661 Writing 2208 lines of data to file WAYNE write output data 1.135176062583923 ==w out 6 2208 945 45219840 WAYNE PROCESS 279.3537250757217 Processing block number 7 WAYNE PATCHES: 9073 13168 patch# 7 reference line: 11120 562.411 seconds. before reading done reading WAYNE load raw data , time = 37.95672702789307 ATTN ifrq ipol ln 8 1 13168 19.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4997355 shift in azimuth *fractional pixel= -0.4997355 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5139532089233398E-03 WAYNE Motion comp. added to patch, time = 8.192467927932739 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 1.3587951660156250E-02 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 = 198.6044338941574 Writing 2208 lines of data to file WAYNE write output data 1.104285955429077 ==w out 7 4416 945 90439680 WAYNE PROCESS 245.8801019191742 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 2.240 seconds. before reading done reading WAYNE load raw data , time = 29.48914301395416 ATTN ifrq ipol ln 8 1 16192 19.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4997354 shift in azimuth *fractional pixel= -0.4997354 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5280199050903320E-03 WAYNE Motion comp. added to patch, time = 8.616329073905945 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.3289194107055664E-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 = 231.5053479671478 Writing 2208 lines of data to file WAYNE write output data 1.112514972686768 ==w out 9 0 945 0 WAYNE PROCESS 270.7351620197296 Processing block number 10 WAYNE PATCHES: 13609 17704 patch# 10 reference line: 15656 272.976 seconds. before reading done reading WAYNE load raw data , time = 43.33791399002075 ATTN ifrq ipol ln 8 1 17704 19.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4997351 shift in azimuth *fractional pixel= -0.4997351 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0240030288696289E-03 WAYNE Motion comp. added to patch, time = 7.946166038513184 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 1.9598960876464844E-02 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 = 225.2960900068283 Writing 2208 lines of data to file WAYNE write output data 1.263491988182068 ==w out 10 2208 945 45219840 WAYNE PROCESS 277.8708659410477 Processing block number 11 WAYNE PATCHES: 15121 19216 patch# 11 reference line: 17168 550.847 seconds. before reading done reading WAYNE load raw data , time = 39.86129605770111 ATTN ifrq ipol ln 8 1 19216 19.00000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4997323 shift in azimuth *fractional pixel= -0.4997323 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0720443725585938E-03 WAYNE Motion comp. added to patch, time = 7.915794014930725 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.7766952514648438E-02 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 = 211.7018721103668 Writing 2208 lines of data to file WAYNE write output data 1.106492042541504 ==w out 11 4416 945 90439680 WAYNE PROCESS 260.6106070280075 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 2.288 seconds. before reading done reading WAYNE load raw data , time = 29.59412002563477 ATTN ifrq ipol ln 8 1 40384 19.00000 IPOL, ITOP nblock 1 0 25 ****shift in azimuth (fractional pixel)= -0.4997638 shift in azimuth *fractional pixel= -0.4997638 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.6790580749511719E-03 WAYNE Motion comp. added to patch, time = 8.623195052146912 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 3.5270452499389648E-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 = 242.0160450935364 Writing 2208 lines of data to file WAYNE write output data 1.134191036224365 ==w out 25 0 945 0 WAYNE PROCESS 281.3794480562210 Processing block number 26 WAYNE PATCHES: 37801 41896 patch# 26 reference line: 39848 283.668 seconds. before reading done reading WAYNE load raw data , time = 42.25479900836945 ATTN ifrq ipol ln 8 1 41896 19.00000 IPOL, ITOP nblock 1 0 26 ****shift in azimuth (fractional pixel)= -0.4997658 shift in azimuth *fractional pixel= -0.4997658 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.8150758743286133E-03 WAYNE Motion comp. added to patch, time = 8.174953937530518 WAYNE Doppler estimation done, time = 1.8954277038574219E-05 WAYNE write deskew done, time = 5.4641008377075195E-02 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 = 230.1143070459366 Writing 2208 lines of data to file WAYNE write output data 1.103711962699890 ==w out 26 2208 945 45219840 WAYNE PROCESS 281.7109839916229 Processing block number 27 WAYNE PATCHES: 39313 43408 patch# 27 reference line: 41360 565.379 seconds. before reading done reading WAYNE load raw data , time = 38.06957292556763 ATTN ifrq ipol ln 8 1 43408 19.00000 IPOL, ITOP nblock 1 0 27 ****shift in azimuth (fractional pixel)= -0.4997665 shift in azimuth *fractional pixel= -0.4997665 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.1530084609985352E-03 WAYNE Motion comp. added to patch, time = 7.996985912322998 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.2673010826110840E-02 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 = 198.9564559459686 Writing 2208 lines of data to file WAYNE write output data 1.113564968109131 ==w out 27 4416 945 90439680 WAYNE PROCESS 246.1700919866562 Processing block number 28 WAYNE PATCHES: 40825 44920 p 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 2.314 seconds. before reading done reading WAYNE load raw data , time = 29.54554498195648 ATTN ifrq ipol ln 8 1 52480 19.00000 IPOL, ITOP nblock 1 0 33 ****shift in azimuth (fractional pixel)= -0.4997043 shift in azimuth *fractional pixel= -0.4997043 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.6680908203125000E-03 WAYNE Motion comp. added to patch, time = 8.788271069526672 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.6810636520385742E-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 = 237.4222290515900 Writing 2208 lines of data to file WAYNE write output data 1.084015011787415 ==w out 33 0 945 0 WAYNE PROCESS 276.8522869348526 Processing block number 34 WAYNE PATCHES: 49897 53992 patch# 34 reference line: 51944 279.166 seconds. before reading done reading WAYNE load raw data , time = 43.07925796508789 ATTN ifrq ipol ln 8 1 53992 19.00000 IPOL, ITOP nblock 1 0 34 ****shift in azimuth (fractional pixel)= -0.4997154 shift in azimuth *fractional pixel= -0.4997154 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3949823379516602E-03 WAYNE Motion comp. added to patch, time = 8.317367076873779 WAYNE Doppler estimation done, time = 1.7046928405761719E-05 WAYNE write deskew done, time = 3.9016008377075195E-02 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 = 230.1571359634399 Writing 2208 lines of data to file WAYNE write output data 1.141183972358704 ==w out 34 2208 945 45219840 WAYNE PROCESS 282.7421829700470 Processing block number 35 WAYNE PATCHES: 51409 55504 patch# 35 reference line: 53456 561.909 seconds. before reading done reading WAYNE load raw data , time = 38.11095499992371 ATTN ifrq ipol ln 8 1 55504 19.00000 IPOL, ITOP nblock 1 0 35 ****shift in azimuth (fractional pixel)= -0.4997250 shift in azimuth *fractional pixel= -0.4997250 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.8750381469726563E-03 WAYNE Motion comp. added to patch, time = 8.419741988182068 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.2896995544433594E-02 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 = 209.8654760122299 Writing 2208 lines of data to file WAYNE write output data 1.157175898551941 ==w out 35 4416 945 90439680 WAYNE PROCESS 257.5951279401779 ==w out 36 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 2.302 seconds. before reading done reading WAYNE load raw data , time = 29.53049397468567 ATTN ifrq ipol ln 8 1 46432 19.00000 IPOL, ITOP nblock 1 0 29 ****shift in azimuth (fractional pixel)= -0.4997618 shift in azimuth *fractional pixel= -0.4997618 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.7180395126342773E-03 WAYNE Motion comp. added to patch, time = 8.607784032821655 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.3389329910278320E-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 = 240.5214220285416 Writing 2208 lines of data to file WAYNE write output data 1.091133952140808 ==w out 29 0 945 0 WAYNE PROCESS 279.7624258995056 Processing block number 30 WAYNE PATCHES: 43849 47944 patch# 30 reference line: 45896 282.064 seconds. before reading done reading WAYNE load raw data , time = 41.85041391849518 ATTN ifrq ipol ln 8 1 47944 19.00000 IPOL, ITOP nblock 1 0 30 ****shift in azimuth (fractional pixel)= -0.4997450 shift in azimuth *fractional pixel= -0.4997450 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5679550170898438E-03 WAYNE Motion comp. added to patch, time = 8.233476042747498 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 2.7676939964294434E-02 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 = 230.4490200281143 Writing 2208 lines of data to file WAYNE write output data 1.097036957740784 ==w out 30 2208 945 45219840 WAYNE PROCESS 281.6657259464264 Processing block number 31 WAYNE PATCHES: 45361 49456 patch# 31 reference line: 47408 563.730 seconds. before reading done reading WAYNE load raw data , time = 38.13661897182465 ATTN ifrq ipol ln 8 1 49456 19.00000 IPOL, ITOP nblock 1 0 31 ****shift in azimuth (fractional pixel)= -0.4997364 shift in azimuth *fractional pixel= -0.4997364 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.8449974060058594E-03 WAYNE Motion comp. added to patch, time = 8.483766078948975 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3165941238403320E-02 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 = 210.4513049125671 Writing 2208 lines of data to file WAYNE write output data 1.252005934715271 ==w out 31 4416 945 90439680 WAYNE PROCESS 258.3552099466324 Processing block number 32 WAYNE PATCHES: 46873 50968 patch# 24 reference line: 36824 721.171 seconds. before reading done reading WAYNE load raw data , time = 23.70533895492554 ATTN ifrq ipol ln 8 1 38872 19.00000 IPOL, ITOP nblock 1 0 24 ****shift in azimuth (fractional pixel)= -0.4997639 shift in azimuth *fractional pixel= -0.4997639 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1039924621582031E-03 WAYNE Motion comp. added to patch, time = 8.384070992469788 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 2.6292085647583008E-02 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 = 177.6609389781952 Writing 2208 lines of data to file WAYNE write output data 1.667240977287292 ==w out 24 6624 945 135659520 WAYNE PROCESS 211.4520039558411 ==w out 25 8835 atch# 16 reference line: 24728 786.155 seconds. before reading done reading WAYNE load raw data , time = 23.49349188804626 ATTN ifrq ipol ln 8 1 26776 19.00000 IPOL, ITOP nblock 1 0 16 ****shift in azimuth (fractional pixel)= -0.4996803 shift in azimuth *fractional pixel= -0.4996803 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.9310197830200195E-03 WAYNE Motion comp. added to patch, time = 8.138382911682129 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.8689980506896973E-02 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 = 149.8927409648895 Writing 2208 lines of data to file WAYNE write output data 1.184010982513428 ==w out 16 6624 945 135659520 WAYNE PROCESS 182.7450469732285 ==w out 17 8835 atch# 20 reference line: 30776 768.581 seconds. before reading done reading WAYNE load raw data , time = 23.29748594760895 ATTN ifrq ipol ln 8 1 32824 19.00000 IPOL, ITOP nblock 1 0 20 ****shift in azimuth (fractional pixel)= -0.4997419 shift in azimuth *fractional pixel= -0.4997419 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5751075744628906E-03 WAYNE Motion comp. added to patch, time = 8.081809997558594 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.3635993003845215E-02 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 = 176.9780730009079 Writing 2208 lines of data to file WAYNE write output data 1.175549030303955 ==w out 20 6624 945 135659520 WAYNE PROCESS 209.5550960302353 ==w out 21 8835 atch# 12 reference line: 18680 811.459 seconds. before reading done reading WAYNE load raw data , time = 28.25490701198578 ATTN ifrq ipol ln 8 1 20728 19.00000 IPOL, ITOP nblock 1 0 12 ****shift in azimuth (fractional pixel)= -0.4997272 shift in azimuth *fractional pixel= -0.4997272 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4460039138793945E-03 WAYNE Motion comp. added to patch, time = 8.235347032546997 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.5940904617309570E-02 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 = 146.5975069999695 Writing 2208 lines of data to file WAYNE write output data 1.127847909927368 ==w out 12 6624 945 135659520 WAYNE PROCESS 184.2399169206619 ==w out 13 8835 6967163085938E-06 WAYNE write deskew done, time = 3.7065029144287109E-02 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 -30.19310 -0.2953869 HEY,dt,fract,ye,pe -0.4997073 1.000000 -2.3338700E-02 2.9290199E-02 WAYNE Azimuth compression done, time = 207.2037900686264 Writing 2208 lines of data to file WAYNE write output data 1.125738978385925 ==w out 3 4416 945 90439680 WAYNE PROCESS 255.7043709754944 Processing block number 4 TESTING WHY -2.2311101E-02 2.9275199E-02 1512 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 804.387 seconds. TESTING 4537 before reading done reading WAYNE load raw data , time = 27.55735397338867 ATTN ifrq ipol ln 8 1 8632 19.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4997145 shift in azimuth *fractional pixel= -0.4997145 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3079595565795898E-03 TESTING 0.0000000E+00 -28.49004 1.5226834E-02 WAYNE Motion comp. added to patch, time = 8.134098052978516 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.2889375686645508E-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 -28.49004 1.5226834E-02 HEY,dt,fract,ye,pe -0.4997145 1.000000 -2.2311101E-02 2.9275199E-02 WAYNE Azimuth compression done, time = 167.1138440370560 Writing 2208 lines of data to file WAYNE write output data 1.077244997024536 ==w out 4 6624 945 135659520 WAYNE PROCESS 203.8924059867859 ==w out 5 8835 atch# 8 reference line: 12632 808.292 seconds. before reading done reading WAYNE load raw data , time = 27.84069502353668 ATTN ifrq ipol ln 8 1 14680 19.00000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4997347 shift in azimuth *fractional pixel= -0.4997347 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1100721359252930E-03 WAYNE Motion comp. added to patch, time = 8.577914953231812 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 1.4961957931518555E-02 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 = 164.8718990087509 Writing 2208 lines of data to file WAYNE write output data 1.079394936561584 ==w out 8 6624 945 135659520 WAYNE PROCESS 202.3926060199738 ==w out 9 8835 atch# 28 reference line: 42872 811.550 seconds. before reading done reading WAYNE load raw data , time = 29.24188601970673 ATTN ifrq ipol ln 8 1 44920 19.00000 IPOL, ITOP nblock 1 0 28 ****shift in azimuth (fractional pixel)= -0.4997679 shift in azimuth *fractional pixel= -0.4997679 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0700178146362305E-03 WAYNE Motion comp. added to patch, time = 8.139781951904297 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 1.6321063041687012E-02 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 = 163.9348179101944 Writing 2208 lines of data to file WAYNE write output data 1.081027984619141 ==w out 28 6624 945 135659520 WAYNE PROCESS 202.4215800762177 ==w out 29 8835 atch# 32 reference line: 48920 822.086 seconds. before reading done reading WAYNE load raw data , time = 27.55796408653259 ATTN ifrq ipol ln 8 1 50968 19.00000 IPOL, ITOP nblock 1 0 32 ****shift in azimuth (fractional pixel)= -0.4997185 shift in azimuth *fractional pixel= -0.4997185 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.7249536514282227E-03 WAYNE Motion comp. added to patch, time = 8.396644949913025 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 1.4362931251525879E-02 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 = 166.7463649511337 Writing 2208 lines of data to file WAYNE write output data 1.070500016212463 ==w out 32 6624 945 135659520 WAYNE PROCESS 203.7944109439850 ==w out 33 8835 1 209021 0 2 209002 0 3 208969 0 4 209072 0 5 209053 0 6 208853 0 7 209084 0 8 208837 0 9 209080 0 10 208998 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: 0.5449129343032837 WAYNE LOOP TIME: 1034.642326951027 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_c.hh_j /mnt/air65/airops/1355/ts1355_c.mocomph /mnt/air65/airops/1355/ts1355_c.dop /mnt/air65/airops/1355/ts1355_c.glb 2560 83904 update intf hdr ha: 6988.200 UPDATE: 2560 83904 3.331000 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_c.mocomph dopfile /mnt/air65/airops/1355/ts1355_c.dop globalfile /mnt/air65/airops/1355/ts1355_c.glb /mnt/air65/airops/1355/ts1355_c.glb 35 deskew line ra ha trc: 94.97231 184 8101.542 6988.200 89.87302 after deskew line ra ha trc: 94.97231 184 8101.542 6988.200 89.87302 lat1 lon1: 184 64.00552 -147.2205 83904 last ra n_ns ns: 8101.542 0 1 84087 83904 lati loni: 84087 64.00555 -146.3016 84087 1 center ra n_ns ns: 12361.89 1279 1279 42135 83904 lati loni: 42135 64.04395 -146.7600 42135 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_c.hh_j WAYNE FINAL PROCESS 1036.863394021988 ********************************************* ***** ***** ***** 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/1355/ts1355_c.hh_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_c.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.ch Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1355/ts1355_c.BB Name of the line output file? /mnt/air65/airops/1355/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.557275056838989 Deskewing 38 patches Processing block number 1 DEBUG -369 184.0775 -368.6199 -0.4996951 -0.4996951 patch iptc,sj,dgj,dgi,id: 1 1 -369 -369 0 half line dmj dgc: 0 945 184 -369 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 -369 -369 1104 half line dmj dgc: 1 945 184 -369 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 -325 199.6489 -325.1404 -0.4997001 -0.4997001 1105 1557 44 408 patch iptc,sj,dgj,dgi,id: 2 1557 -325 -369 408 half line dmj dgc: 0 2457 200 -369 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1557 1105 Zeroing lines in arrays Total # of output lines = 2 1556 1557 2661 0 1104 patch iptc,sj,dgj,dgi,id: 2 2661 -325 -325 1104 half line dmj dgc: 1 2457 200 -369 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2661 1557 Zeroing lines in arrays Total # of output lines = 2 2660 Processing block number 3 DEBUG -287 211.6380 -286.9305 -0.4997073 -0.4997073 2661 3107 38 408 patch iptc,sj,dgj,dgi,id: 3 3107 -287 -325 408 half line dmj dgc: 0 3969 212 -369 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3107 2661 Zeroing lines in arrays Total # of output lines = 3 3106 3107 4211 0 1104 patch iptc,sj,dgj,dgi,id: 3 4211 -287 -287 1104 half line dmj dgc: 1 3969 212 -369 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4211 3107 Zeroing lines in arrays Total # of output lines = 3 4210 Processing block number 4 DEBUG -257 219.6642 -256.9732 -0.4997145 -0.4997145 4211 4649 30 408 patch iptc,sj,dgj,dgi,id: 4 4649 -257 -287 408 half line dmj dgc: 0 5481 220 -369 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4649 4211 Zeroing lines in arrays Total # of output lines = 4 4648 4649 5753 0 1104 patch iptc,sj,dgj,dgi,id: 4 5753 -257 -257 1104 half line dmj dgc: 1 5481 220 -369 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5753 4649 Zeroing lines in arrays Total # of output lines = 4 5752 Processing block number 5 DEBUG -230 225.9292 -229.6816 -0.4997216 -0.4997216 5753 6188 27 408 patch iptc,sj,dgj,dgi,id: 5 6188 -230 -257 408 half line dmj dgc: 0 6993 226 -369 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6188 5753 Zeroing lines in arrays Total # of output lines = 5 6187 6188 7292 0 1104 patch iptc,sj,dgj,dgi,id: 5 7292 -230 -230 1104 half line dmj dgc: 1 6993 226 -369 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7292 6188 Zeroing lines in arrays Total # of output lines = 5 7291 Processing block number 6 DEBUG -201 232.7249 -201.0595 -0.4997325 -0.4997325 7292 7729 29 408 patch iptc,sj,dgj,dgi,id: 6 7729 -201 -230 408 half line dmj dgc: 0 8505 233 -369 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 7729 7292 Zeroing lines in arrays Total # of output lines = 6 7728 7729 8833 0 1104 patch iptc,sj,dgj,dgi,id: 6 8833 -201 -201 1104 half line dmj dgc: 1 8505 233 -369 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 8833 7729 Zeroing lines in arrays Total # of output lines = 6 8832 Processing block number 7 DEBUG -180 237.9247 -179.8992 -0.4997355 -0.4997355 8833 9262 21 408 patch iptc,sj,dgj,dgi,id: 7 9262 -180 -201 408 half line dmj dgc: 0 10017 238 -369 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 9262 8833 Zeroing lines in arrays Total # of output lines = 7 9261 9262 10366 0 1104 patch iptc,sj,dgj,dgi,id: 7 10366 -180 -180 1104 half line dmj dgc: 1 10017 238 -369 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 sj>s1: 10366 9262 Zeroing lines in arrays Total # of output lines = 7 10365 Processing block number 8 DEBUG -169 241.4971 -168.6651 -0.4997347 -0.4997347 10366 10785 11 408 patch iptc,sj,dgj,dgi,id: 8 10785 -169 -180 408 half line dmj dgc: 0 11529 241 -369 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 10785 10366 Zeroing lines in arrays Total # of output lines = 8 10784 10785 11889 0 1104 patch iptc,sj,dgj,dgi,id: 8 11889 -169 -169 1104 half line dmj dgc: 1 11529 241 -369 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 11889 10785 Zeroing lines in arrays Total # of output lines = 8 11888 Processing block number 9 DEBUG -174 238.8552 -173.4541 -0.4997354 -0.4997354 11889 12292 -5 408 patch iptc,sj,dgj,dgi,id: 9 4 -174 -169 408 half line dmj dgc: 0 13041 239 -369 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 s1>sj: 11889 4 Zeroing lines in arrays Total # of output lines = 9 12291 4 1108 0 1104 patch iptc,sj,dgj,dgi,id: 9 1108 -174 -174 1104 half line dmj dgc: 1 13041 239 -369 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 1108 4 Zeroing lines in arrays Total # of output lines = 9 13395 Processing block number 10 DEBUG -187 232.2097 -187.1990 -0.4997351 -0.4997351 1108 1503 -13 408 patch iptc,sj,dgj,dgi,id: 10 1503 -187 -174 408 half line dmj dgc: 0 14553 232 -369 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 1503 1108 Zeroing lines in arrays Total # of output lines = 10 13790 1503 2607 0 1104 patch iptc,sj,dgj,dgi,id: 10 2607 -187 -187 1104 half line dmj dgc: 1 14553 232 -369 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 2607 1503 Zeroing lines in arrays Total # of output lines = 10 14894 Processing block number 11 DEBUG -208 223.7940 -207.7270 -0.4997323 -0.4997323 2607 2994 -21 408 patch iptc,sj,dgj,dgi,id: 11 2994 -208 -187 408 half line dmj dgc: 0 16065 224 -369 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 2994 2607 Zeroing lines in arrays Total # of output lines = 11 15281 2994 4098 0 1104 patch iptc,sj,dgj,dgi,id: 11 4098 -208 -208 1104 half line dmj dgc: 1 16065 224 -369 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 4098 2994 Zeroing lines in arrays Total # of output lines = 11 16385 Processing block number 12 DEBUG -226 217.7308 -226.1584 -0.4997272 -0.4997272 4098 4488 -18 408 patch iptc,sj,dgj,dgi,id: 12 4488 -226 -208 408 half line dmj dgc: 0 17577 218 -369 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 4488 4098 Zeroing lines in arrays Total # of output lines = 12 16775 4488 5592 0 1104 patch iptc,sj,dgj,dgi,id: 12 5592 -226 -226 1104 half line dmj dgc: 1 17577 218 -369 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 5592 4488 Zeroing lines in arrays Total # of output lines = 12 17879 Processing block number 13 DEBUG -245 213.1649 -244.6114 -0.4997188 -0.4997188 5592 5981 -19 408 patch iptc,sj,dgj,dgi,id: 13 5981 -245 -226 408 half line dmj dgc: 0 19089 213 -369 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 5981 5592 Zeroing lines in arrays Total # of output lines = 13 18268 5981 7085 0 1104 patch iptc,sj,dgj,dgi,id: 13 7085 -245 -245 1104 half line dmj dgc: 1 19089 213 -369 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 7085 5981 Zeroing lines in arrays Total # of output lines = 13 19372 Processing block number 14 DEBUG -263 209.2417 -262.8222 -0.4997072 -0.4997072 7085 7475 -18 408 patch iptc,sj,dgj,dgi,id: 14 7475 -263 -245 408 half line dmj dgc: 0 20601 209 -369 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 sj>s1: 7475 7085 Zeroing lines in arrays Total # of output lines = 14 19762 7475 8579 0 1104 patch iptc,sj,dgj,dgi,id: 14 8579 -263 -263 1104 half line dmj dgc: 1 20601 209 -369 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 8579 7475 Zeroing lines in arrays Total # of output lines = 14 20866 Processing block number 15 DEBUG -276 208.0599 -276.2914 -0.4996992 -0.4996992 8579 8974 -13 408 patch iptc,sj,dgj,dgi,id: 15 8974 -276 -263 408 half line dmj dgc: 0 22113 208 -369 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 8974 8579 Zeroing lines in arrays Total # of output lines = 15 21261 8974 10078 0 1104 patch iptc,sj,dgj,dgi,id: 15 10078 -276 -276 1104 half line dmj dgc: 1 22113 208 -369 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 10078 8974 Zeroing lines in arrays Total # of output lines = 15 22365 Processing block number 16 DEBUG -273 212.1388 -273.0027 -0.4996803 -0.4996803 10078 10489 3 408 patch iptc,sj,dgj,dgi,id: 16 10489 -273 -276 408 half line dmj dgc: 0 23625 212 -369 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 10489 10078 Zeroing lines in arrays Total # of output lines = 16 22776 10489 11593 0 1104 patch iptc,sj,dgj,dgi,id: 16 11593 -273 -273 1104 half line dmj dgc: 1 23625 212 -369 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 11593 10489 Zeroing lines in arrays Total # of output lines = 16 23880 Processing block number 17 DEBUG -257 218.6702 -256.5370 -0.4996858 -0.4996858 11593 12017 16 408 patch iptc,sj,dgj,dgi,id: 17 12017 -257 -273 408 half line dmj dgc: 0 25137 219 -369 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 12017 11593 Zeroing lines in arrays Total # of output lines = 17 24304 12017 13121 0 1104 patch iptc,sj,dgj,dgi,id: 17 833 -257 -257 1104 half line dmj dgc: 1 25137 219 -369 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 s1>sj: 12017 833 Zeroing lines in arrays Total # of output lines = 17 25408 Processing block number 18 DEBUG -222 225.5081 -221.8344 -0.4996975 -0.4996975 833 1276 35 408 patch iptc,sj,dgj,dgi,id: 18 1276 -222 -257 408 half line dmj dgc: 0 26649 225 -369 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 1276 833 Zeroing lines in arrays Total # of output lines = 18 25851 1276 2380 0 1104 patch iptc,sj,dgj,dgi,id: 18 2380 -222 -222 1104 half line dmj dgc: 1 26649 225 -369 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 2380 1276 Zeroing lines in arrays Total # of output lines = 18 26955 Processing block number 19 DEBUG -184 230.1398 -184.3294 -0.4997248 -0.4997248 2380 2826 38 408 patch iptc,sj,dgj,dgi,id: 19 2826 -184 -222 408 half line dmj dgc: 0 28161 230 -369 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 2826 2380 Zeroing lines in arrays Total # of output lines = 19 27401 2826 3930 0 1104 patch iptc,sj,dgj,dgi,id: 19 3930 -184 -184 1104 half line dmj dgc: 1 28161 230 -369 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 3930 2826 Zeroing lines in arrays Total # of output lines = 19 28505 Processing block number 20 DEBUG -144 237.1377 -143.4489 -0.4997419 -0.4997419 3930 4378 40 408 patch iptc,sj,dgj,dgi,id: 20 4378 -144 -184 408 half line dmj dgc: 0 29673 237 -369 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 4378 3930 Zeroing lines in arrays Total # of output lines = 20 28953 4378 5482 0 1104 patch iptc,sj,dgj,dgi,id: 20 5482 -144 -144 1104 half line dmj dgc: 1 29673 237 -369 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 sj>s1: 5482 4378 Zeroing lines in arrays Total # of output lines = 20 30057 Processing block number 21 DEBUG -105 246.2855 -105.2689 -0.4997489 -0.4997489 5482 5929 39 408 patch iptc,sj,dgj,dgi,id: 21 5929 -105 -144 408 half line dmj dgc: 0 31185 246 -369 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 5929 5482 Zeroing lines in arrays Total # of output lines = 21 30504 5929 7033 0 1104 patch iptc,sj,dgj,dgi,id: 21 7033 -105 -105 1104 half line dmj dgc: 1 31185 246 -369 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 7033 5929 Zeroing lines in arrays Total # of output lines = 21 31608 Processing block number 22 DEBUG -65 257.5565 -65.09006 -0.4997573 -0.4997573 7033 7481 40 408 patch iptc,sj,dgj,dgi,id: 22 7481 -65 -105 408 half line dmj dgc: 0 32697 257 -369 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Writing data negflag .eq. 0 sj>s1: 7481 7033 Zeroing lines in arrays Total # of output lines = 22 32056 7481 8585 0 1104 patch iptc,sj,dgj,dgi,id: 22 8585 -65 -65 1104 half line dmj dgc: 1 32697 257 -369 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 8585 7481 Zeroing lines in arrays Total # of output lines = 22 33160 Processing block number 23 DEBUG -38 264.6987 -37.81565 -0.4997638 -0.4997638 8585 9020 27 408 patch iptc,sj,dgj,dgi,id: 23 9020 -38 -65 408 half line dmj dgc: 0 34209 265 -369 Actual deskew ireclen: 20480 ** 23 1104 0 49680 Writing data negflag .eq. 0 sj>s1: 9020 8585 Zeroing lines in arrays Total # of output lines = 23 33595 9020 10124 0 1104 patch iptc,sj,dgj,dgi,id: 23 10124 -38 -38 1104 half line dmj dgc: 1 34209 265 -369 Actual deskew ireclen: 20480 ** 23 1104 1 50784 Writing data negflag .eq. 0 sj>s1: 10124 9020 Zeroing lines in arrays Total # of output lines = 23 34699 Processing block number 24 DEBUG -19 270.4015 -18.54038 -0.4997639 -0.4997639 10124 10551 19 408 patch iptc,sj,dgj,dgi,id: 24 10551 -19 -38 408 half line dmj dgc: 0 35721 270 -369 Actual deskew ireclen: 20480 ** 24 1104 0 51888 Writing data negflag .eq. 0 sj>s1: 10551 10124 Zeroing lines in arrays Total # of output lines = 24 35126 10551 11655 0 1104 patch iptc,sj,dgj,dgi,id: 24 11655 -19 -19 1104 half line dmj dgc: 1 35721 270 -369 Actual deskew ireclen: 20480 ** 24 1104 1 52992 Writing data negflag .eq. 0 sj>s1: 11655 10551 Zeroing lines in arrays Total # of output lines = 24 36230 Processing block number 25 DEBUG -11 271.8928 -11.07212 -0.4997638 -0.4997638 11655 12071 8 408 patch iptc,sj,dgj,dgi,id: 25 12071 -11 -19 408 half line dmj dgc: 0 37233 272 -369 Actual deskew ireclen: 20480 ** 25 1104 0 54096 Writing data negflag .eq. 0 sj>s1: 12071 11655 Zeroing lines in arrays Total # of output lines = 25 36646 12071 13175 0 1104 patch iptc,sj,dgj,dgi,id: 25 887 -11 -11 1104 half line dmj dgc: 1 37233 272 -369 Actual deskew ireclen: 20480 ** 25 1104 1 55200 Writing data negflag .eq. 0 s1>sj: 12071 887 Zeroing lines in arrays Total # of output lines = 25 37750 Processing block number 26 DEBUG -8 271.9431 -7.624857 -0.4997658 -0.4997658 887 1298 3 408 patch iptc,sj,dgj,dgi,id: 26 1298 -8 -11 408 half line dmj dgc: 0 38745 272 -369 Actual deskew ireclen: 20480 ** 26 1104 0 56304 Writing data negflag .eq. 0 sj>s1: 1298 887 Zeroing lines in arrays Total # of output lines = 26 38161 1298 2402 0 1104 patch iptc,sj,dgj,dgi,id: 26 2402 -8 -8 1104 half line dmj dgc: 1 38745 272 -369 Actual deskew ireclen: 20480 ** 26 1104 1 57408 Writing data negflag .eq. 0 sj>s1: 2402 1298 Zeroing lines in arrays Total # of output lines = 26 39265 Processing block number 27 DEBUG -8 270.6019 -7.803380 -0.4997665 -0.4997665 2402 2810 0 408 patch iptc,sj,dgj,dgi,id: 27 2810 -8 -8 408 half line dmj dgc: 0 40257 271 -369 Actual deskew ireclen: 20480 ** 27 1104 0 58512 Writing data negflag .eq. 0 sj>s1: 2810 2402 Zeroing lines in arrays Total # of output lines = 27 39673 2810 3914 0 1104 patch iptc,sj,dgj,dgi,id: 27 3914 -8 -8 1104 half line dmj dgc: 1 40257 271 -369 Actual deskew ireclen: 20480 ** 27 1104 1 59616 Writing data negflag .eq. 0 sj>s1: 3914 2810 Zeroing lines in arrays Total # of output lines = 27 40777 Processing block number 28 DEBUG -2 272.7035 -1.982812 -0.4997679 -0.4997679 3914 4328 6 408 patch iptc,sj,dgj,dgi,id: 28 4328 -2 -8 408 half line dmj dgc: 0 41769 273 -369 Actual deskew ireclen: 20480 ** 28 1104 0 60720 Writing data negflag .eq. 0 sj>s1: 4328 3914 Zeroing lines in arrays Total # of output lines = 28 41191 4328 5432 0 1104 patch iptc,sj,dgj,dgi,id: 28 5432 -2 -2 1104 half line dmj dgc: 1 41769 273 -369 Actual deskew ireclen: 20480 ** 28 1104 1 61824 Writing data negflag .eq. 0 sj>s1: 5432 4328 Zeroing lines in arrays Total # of output lines = 28 42295 Processing block number 29 DEBUG 10 280.2004 10.02209 -0.4997618 -0.4997618 5432 5852 12 408 patch iptc,sj,dgj,dgi,id: 29 5852 10 -2 408 half line dmj dgc: 0 43281 280 -369 Actual deskew ireclen: 20480 ** 29 1104 0 62928 Writing data negflag .eq. 0 sj>s1: 5852 5432 Zeroing lines in arrays Total # of output lines = 29 42715 5852 6956 0 1104 patch iptc,sj,dgj,dgi,id: 29 6956 10 10 1104 half line dmj dgc: 1 43281 280 -369 Actual deskew ireclen: 20480 ** 29 1104 1 64032 Writing data negflag .eq. 0 sj>s1: 6956 5852 Zeroing lines in arrays Total # of output lines = 29 43819 Processing block number 30 DEBUG 25 291.1833 25.12285 -0.4997450 -0.4997450 6956 7379 15 408 patch iptc,sj,dgj,dgi,id: 30 7379 25 10 408 half line dmj dgc: 0 44793 291 -369 Actual deskew ireclen: 20480 ** 30 1104 0 65136 Writing data negflag .eq. 0 sj>s1: 7379 6956 Zeroing lines in arrays Total # of output lines = 30 44242 7379 8483 0 1104 patch iptc,sj,dgj,dgi,id: 30 8483 25 25 1104 half line dmj dgc: 1 44793 291 -369 Actual deskew ireclen: 20480 ** 30 1104 1 66240 Writing data negflag .eq. 0 sj>s1: 8483 7379 Zeroing lines in arrays Total # of output lines = 30 45346 Processing block number 31 DEBUG 28 299.3437 27.83244 -0.4997364 -0.4997364 8483 8894 3 408 patch iptc,sj,dgj,dgi,id: 31 8894 28 25 408 half line dmj dgc: 0 46305 299 -369 Actual deskew ireclen: 20480 ** 31 1104 0 67344 Writing data negflag .eq. 0 sj>s1: 8894 8483 Zeroing lines in arrays Total # of output lines = 31 45757 8894 9998 0 1104 patch iptc,sj,dgj,dgi,id: 31 9998 28 28 1104 half line dmj dgc: 1 46305 299 -369 Actual deskew ireclen: 20480 ** 31 1104 1 68448 Writing data negflag .eq. 0 sj>s1: 9998 8894 Zeroing lines in arrays Total # of output lines = 31 46861 Processing block number 32 DEBUG 13 300.3488 12.90081 -0.4997185 -0.4997185 9998 10391 -15 408 patch iptc,sj,dgj,dgi,id: 32 10391 13 28 408 half line dmj dgc: 0 47817 300 -369 Actual deskew ireclen: 20480 ** 32 1104 0 69552 Writing data negflag .eq. 0 sj>s1: 10391 9998 Zeroing lines in arrays Total # of output lines = 32 47254 10391 11495 0 1104 patch iptc,sj,dgj,dgi,id: 32 11495 13 13 1104 half line dmj dgc: 1 47817 300 -369 Actual deskew ireclen: 20480 ** 32 1104 1 70656 Writing data negflag .eq. 0 sj>s1: 11495 10391 Zeroing lines in arrays Total # of output lines = 32 48358 Processing block number 33 DEBUG -4 296.4200 -3.952506 -0.4997043 -0.4997043 11495 11886 -17 408 patch iptc,sj,dgj,dgi,id: 33 11886 -4 13 408 half line dmj dgc: 0 49329 296 -369 Actual deskew ireclen: 20480 ** 33 1104 0 71760 Writing data negflag .eq. 0 sj>s1: 11886 11495 Zeroing lines in arrays Total # of output lines = 33 48749 11886 12990 0 1104 patch iptc,sj,dgj,dgi,id: 33 702 -4 -4 1104 half line dmj dgc: 1 49329 296 -369 Actual deskew ireclen: 20480 ** 33 1104 1 72864 Writing data negflag .eq. 0 s1>sj: 11886 702 Zeroing lines in arrays Total # of output lines = 33 49853 Processing block number 34 DEBUG -23 285.8358 -23.11140 -0.4997154 -0.4997154 702 1091 -19 408 patch iptc,sj,dgj,dgi,id: 34 1091 -23 -4 408 half line dmj dgc: 0 50841 286 -369 Actual deskew ireclen: 20480 ** 34 1104 0 73968 Writing data negflag .eq. 0 sj>s1: 1091 702 Zeroing lines in arrays Total # of output lines = 34 50242 1091 2195 0 1104 patch iptc,sj,dgj,dgi,id: 34 2195 -23 -23 1104 half line dmj dgc: 1 50841 286 -369 Actual deskew ireclen: 20480 ** 34 1104 1 75072 Writing data negflag .eq. 0 sj>s1: 2195 1091 Zeroing lines in arrays Total # of output lines = 34 51346 Processing block number 35 DEBUG -27 276.6277 -27.05993 -0.4997250 -0.4997250 2195 2599 -4 408 patch iptc,sj,dgj,dgi,id: 35 2599 -27 -23 408 half line dmj dgc: 0 52353 277 -369 Actual deskew ireclen: 20480 ** 35 1104 0 76176 Writing data negflag .eq. 0 sj>s1: 2599 2195 Zeroing lines in arrays Total # of output lines = 35 51750 2599 3703 0 1104 patch iptc,sj,dgj,dgi,id: 35 3703 -27 -27 1104 half line dmj dgc: 1 52353 277 -369 Actual deskew ireclen: 20480 ** 35 1104 1 77280 Writing data negflag .eq. 0 sj>s1: 3703 2599 Zeroing lines in arrays Total # of output lines = 35 52854 Processing block number 36 DEBUG -20 271.6989 -20.11217 -0.4997422 -0.4997422 3703 4118 7 408 patch iptc,sj,dgj,dgi,id: 36 4118 -20 -27 408 half line dmj dgc: 0 53865 272 -369 Actual deskew ireclen: 20480 ** 36 1104 0 78384 Writing data negflag .eq. 0 sj>s1: 4118 3703 Zeroing lines in arrays Total # of output lines = 36 53269 4118 5222 0 1104 patch iptc,sj,dgj,dgi,id: 36 5222 -20 -20 1104 half line dmj dgc: 1 53865 272 -369 Actual deskew ireclen: 20480 ** 36 1104 1 79488 Writing data negflag .eq. 0 sj>s1: 5222 4118 Zeroing lines in arrays Total # of output lines = 36 54373 Processing block number 37 DEBUG -1 275.3918 -1.278432 -0.4997516 -0.4997516 5222 5649 19 408 patch iptc,sj,dgj,dgi,id: 37 5649 -1 -20 408 half line dmj dgc: 0 55377 275 -369 Actual deskew ireclen: 20480 ** 37 1104 0 80592 Writing data negflag .eq. 0 sj>s1: 5649 5222 Zeroing lines in arrays Total # of output lines = 37 54800 5649 6753 0 1104 patch iptc,sj,dgj,dgi,id: 37 6753 -1 -1 1104 half line dmj dgc: 1 55377 275 -369 Actual deskew ireclen: 20480 ** 37 1104 1 81696 Writing data negflag .eq. 0 sj>s1: 6753 5649 Zeroing lines in arrays Total # of output lines = 37 55904 Processing block number 38 DEBUG 18 283.8218 18.55981 -0.4997427 -0.4997427 6753 7139 19 367 patch iptc,sj,dgj,dgi,id: 38 7139 18 -1 367 half line dmj dgc: 0 56848 284 -369 Actual deskew ireclen: 20480 ** 38 1104 0 82800 Writing data negflag .eq. 0 sj>s1: 7139 6753 Zeroing lines in arrays Total # of output lines = 38 56290 7139 8243 0 1104 patch iptc,sj,dgj,dgi,id: 38 8243 18 18 1104 half line dmj dgc: 1 56848 284 -369 Actual deskew ireclen: 20480 ** 38 1104 1 83904 Writing data negflag .eq. 0 sj>s1: 8243 7139 Zeroing lines in arrays Total # of output lines = 38 57394 ia dmi dgi: 8243 284 18 Writing the last 1370 lines last half sj>s1 9613 8243 57394 WAYNE done patche 363.1084849834442 Total # of output lines = 58764 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 58764 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 365.0193459987640 ********************************************* ***** ***** ***** 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/1355/sensor.hv00c Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/c_hv Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_c.mocomph Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.ch WAYNE init fft, calc slant range, load unpack, interpo 1.5965998E-02 reading motion compensation data WAYNE read motion compen 1.408074 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 0.4783819 start range comp, time = 2.813 WAYNE PREV 1.919440 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 -2.5874000E-02 2.8752400E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 3.094 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 36.95415604114532 ATTN ifrq ipol ln 8 2 4096 19.00000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4996951 shift in azimuth *fractional pixel= -0.4996951 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4359903335571289E-03 TESTING 8.5000396E-03 -32.88618 0.5891470 WAYNE Motion comp. added to patch, time = 8.631271004676819 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.0159950256347656E-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 -32.88618 0.5891470 HEY,dt,fract,ye,pe -0.4996951 1.000000 -2.5874000E-02 2.8752400E-02 WAYNE Azimuth compression done, time = 192.0704249143600 Writing 2208 lines of data to file WAYNE write output data 1.367767095565796 ==w out 1 0 945 0 WAYNE PROCESS 239.0345981121063 Processing block number 2 TESTING WHY -2.4567099E-02 2.9131001E-02 1512 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 242.129 seconds. TESTING 1513 before reading done reading WAYNE load raw data , time = 23.24115800857544 ATTN ifrq ipol ln 8 2 5608 19.00000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4997001 shift in azimuth *fractional pixel= -0.4997001 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.9909820556640625E-03 TESTING 8.5000396E-03 -31.31357 0.6025189 WAYNE Motion comp. added to patch, time = 8.037752032279968 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.3033986091613770E-02 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 -31.31357 0.6025189 HEY,dt,fract,ye,pe -0.4997001 1.000000 -2.4567099E-02 2.9131001E-02 WAYNE Azimuth compression done, time = 206.0165500640869 Writing 2208 lines of data to file WAYNE write output data 1.720841050148010 ==w out 2 2208 945 45219840 WAYNE PROCESS 239.0367679595947 Processing block number 3 TESTING WHY -2.3338700E-02 2.9290199E-02 1512 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 481.167 seconds. TESTING 3025 before reading done reading WAYNE load raw data , time = 23.65081596374512 ATTN ifrq ipol ln 8 2 7120 19.00000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4997073 shift in azimuth *fractional pixel= -0.4997073 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.7229270935058594E-03 TESTING 8.5000396E-03 -29.66825 0.8376631 WAYNE Motion comp. added to patch, time = 8.098095059394836 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 3.146 seconds. before reading done reading WAYNE load raw data , time = 37.33556699752808 ATTN ifrq ipol ln 8 2 28288 19.00000 IPOL, ITOP nblock 2 0 17 ****shift in azimuth (fractional pixel)= -0.4996858 shift in azimuth *fractional pixel= -0.4996858 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.7220926284790039E-03 WAYNE Motion comp. added to patch, time = 8.882902026176453 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.6529302597045898E-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 = 165.9527419805527 Writing 2208 lines of data to file WAYNE write output data 1.136569023132324 ==w out 17 0 945 0 WAYNE PROCESS 213.3202871084213 Processing block number 18 WAYNE PATCHES: 25705 29800 patch# 18 reference line: 27752 216.466 seconds. before reading done reading WAYNE load raw data , time = 26.22098302841187 ATTN ifrq ipol ln 8 2 29800 19.00000 IPOL, ITOP nblock 2 0 18 ****shift in azimuth (fractional pixel)= -0.4996975 shift in azimuth *fractional pixel= -0.4996975 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2360763549804688E-03 WAYNE Motion comp. added to patch, time = 8.147693991661072 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 7.3920965194702148E-02 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 = 149.3900729417801 Writing 2208 lines of data to file WAYNE write output data 1.190595984458923 ==w out 18 2208 945 45219840 WAYNE PROCESS 185.0308990478516 Processing block number 19 WAYNE PATCHES: 27217 31312 patch# 19 reference line: 29264 401.498 seconds. before reading done reading WAYNE load raw data , time = 26.07599496841431 ATTN ifrq ipol ln 8 2 31312 19.00000 IPOL, ITOP nblock 2 0 19 ****shift in azimuth (fractional pixel)= -0.4997248 shift in azimuth *fractional pixel= -0.4997248 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0549974441528320E-03 WAYNE Motion comp. added to patch, time = 8.114699006080627 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4309158325195313E-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 = 147.2071839570999 Writing 2208 lines of data to file WAYNE write output data 1.210211038589478 ==w out 19 4416 945 90439680 WAYNE PROCESS 182.6180690526962 Processing block number 20 WAYNE PATCHES: 28729 32824 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 3.177 seconds. before reading done reading WAYNE load raw data , time = 36.98928701877594 ATTN ifrq ipol ln 8 2 46432 19.00000 IPOL, ITOP nblock 2 0 29 ****shift in azimuth (fractional pixel)= -0.4997618 shift in azimuth *fractional pixel= -0.4997618 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.6369771957397461E-03 WAYNE Motion comp. added to patch, time = 8.603075027465820 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.4960508346557617E-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 = 216.6071619987488 Writing 2208 lines of data to file WAYNE write output data 1.157123088836670 ==w out 29 0 945 0 WAYNE PROCESS 263.3683689832687 Processing block number 30 WAYNE PATCHES: 43849 47944 patch# 30 reference line: 45896 266.546 seconds. before reading done reading WAYNE load raw data , time = 23.73058795928955 ATTN ifrq ipol ln 8 2 47944 19.00000 IPOL, ITOP nblock 2 0 30 ****shift in azimuth (fractional pixel)= -0.4997450 shift in azimuth *fractional pixel= -0.4997450 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7640075683593750E-03 WAYNE Motion comp. added to patch, time = 7.879478096961975 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.1156072616577148E-02 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 = 201.8112729787827 Writing 2208 lines of data to file WAYNE write output data 1.220543026924133 ==w out 30 2208 945 45219840 WAYNE PROCESS 234.6701849699020 Processing block number 31 WAYNE PATCHES: 45361 49456 patch# 31 reference line: 47408 501.216 seconds. before reading done reading WAYNE load raw data , time = 23.55616199970245 ATTN ifrq ipol ln 8 2 49456 19.00000 IPOL, ITOP nblock 2 0 31 ****shift in azimuth (fractional pixel)= -0.4997364 shift in azimuth *fractional pixel= -0.4997364 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.9250593185424805E-03 WAYNE Motion comp. added to patch, time = 7.927847027778625 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.6139984130859375E-02 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 = 174.0680769681931 Writing 2208 lines of data to file WAYNE write output data 1.225391983985901 ==w out 31 4416 945 90439680 WAYNE PROCESS 206.8007889986038 Processing block number 32 WAYNE PATCHES: 46873 50968 p 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 3.131 seconds. before reading done reading WAYNE load raw data , time = 37.11267805099487 ATTN ifrq ipol ln 8 2 22240 19.00000 IPOL, ITOP nblock 2 0 13 ****shift in azimuth (fractional pixel)= -0.4997188 shift in azimuth *fractional pixel= -0.4997188 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.7199468612670898E-03 WAYNE Motion comp. added to patch, time = 8.743261933326721 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.2640695571899414E-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 = 191.7490100860596 Writing 2208 lines of data to file WAYNE write output data 1.366719007492065 ==w out 13 0 945 0 WAYNE PROCESS 238.9833849668503 Processing block number 14 WAYNE PATCHES: 19657 23752 patch# 14 reference line: 21704 242.115 seconds. before reading done reading WAYNE load raw data , time = 23.41643989086151 ATTN ifrq ipol ln 8 2 23752 19.00000 IPOL, ITOP nblock 2 0 14 ****shift in azimuth (fractional pixel)= -0.4997072 shift in azimuth *fractional pixel= -0.4997072 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4140558242797852E-03 WAYNE Motion comp. added to patch, time = 8.078752994537354 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 1.0779023170471191E-02 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 = 206.3452270030975 Writing 2208 lines of data to file WAYNE write output data 1.728848934173584 ==w out 14 2208 945 45219840 WAYNE PROCESS 239.5885999202728 Processing block number 15 WAYNE PATCHES: 21169 25264 patch# 15 reference line: 23216 481.704 seconds. before reading done reading WAYNE load raw data , time = 23.84015595912933 ATTN ifrq ipol ln 8 2 25264 19.00000 IPOL, ITOP nblock 2 0 15 ****shift in azimuth (fractional pixel)= -0.4996992 shift in azimuth *fractional pixel= -0.4996992 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4200162887573242E-03 WAYNE Motion comp. added to patch, time = 8.164530038833618 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.5460720062255859E-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 = 201.9990270137787 Writing 2208 lines of data to file WAYNE write output data 1.534508943557739 ==w out 15 4416 945 90439680 WAYNE PROCESS 235.5493609905243 Processing block number 16 WAYNE PATCHES: 22681 26776 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 3.156 seconds. before reading done reading WAYNE load raw data , time = 37.15743696689606 ATTN ifrq ipol ln 8 2 34336 19.00000 IPOL, ITOP nblock 2 0 21 ****shift in azimuth (fractional pixel)= -0.4997489 shift in azimuth *fractional pixel= -0.4997489 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.6120624542236328E-03 WAYNE Motion comp. added to patch, time = 8.533828020095825 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.5970211029052734E-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 = 241.4699130058289 Writing 2208 lines of data to file WAYNE write output data 1.127833962440491 ==w out 21 0 945 0 WAYNE PROCESS 288.3010399341583 Processing block number 22 WAYNE PATCHES: 31753 35848 patch# 22 reference line: 33800 291.457 seconds. before reading done reading WAYNE load raw data , time = 25.21846497058868 ATTN ifrq ipol ln 8 2 35848 19.00000 IPOL, ITOP nblock 2 0 22 ****shift in azimuth (fractional pixel)= -0.4997573 shift in azimuth *fractional pixel= -0.4997573 1.000000 WAYNE Motion comp. coeff. calculated, time = 7.1280002593994141E-03 WAYNE Motion comp. added to patch, time = 8.269255995750427 WAYNE Doppler estimation done, time = 2.0980834960937500E-05 WAYNE write deskew done, time = 1.2430906295776367E-02 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 = 203.1733039617538 Writing 2208 lines of data to file WAYNE write output data 1.111891031265259 ==w out 22 2208 945 45219840 WAYNE PROCESS 237.7948600053787 Processing block number 23 WAYNE PATCHES: 33265 37360 patch# 23 reference line: 35312 529.252 seconds. before reading done reading WAYNE load raw data , time = 23.63565409183502 ATTN ifrq ipol ln 8 2 37360 19.00000 IPOL, ITOP nblock 2 0 23 ****shift in azimuth (fractional pixel)= -0.4997638 shift in azimuth *fractional pixel= -0.4997638 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0919523239135742E-03 WAYNE Motion comp. added to patch, time = 7.984152078628540 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 2.8020143508911133E-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 = 172.6933009624481 Writing 2208 lines of data to file WAYNE write output data 1.115810990333557 ==w out 23 4416 945 90439680 WAYNE PROCESS 205.4392310380936 Processing block number 24 WAYNE PATCHES: 34777 38872 p 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 3.188 seconds. before reading done reading WAYNE load raw data , time = 37.19609606266022 ATTN ifrq ipol ln 8 2 52480 19.00000 IPOL, ITOP nblock 2 0 33 ****shift in azimuth (fractional pixel)= -0.4997043 shift in azimuth *fractional pixel= -0.4997043 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.6070556640625000E-03 WAYNE Motion comp. added to patch, time = 8.908066987991333 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 5.0950050354003906E-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 = 217.3446620702744 Writing 2208 lines of data to file WAYNE write output data 1.176154017448425 ==w out 33 0 945 0 WAYNE PROCESS 264.6390630006790 Processing block number 34 WAYNE PATCHES: 49897 53992 patch# 34 reference line: 51944 267.827 seconds. before reading done reading WAYNE load raw data , time = 24.89465200901031 ATTN ifrq ipol ln 8 2 53992 19.00000 IPOL, ITOP nblock 2 0 34 ****shift in azimuth (fractional pixel)= -0.4997154 shift in azimuth *fractional pixel= -0.4997154 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.8480501174926758E-03 WAYNE Motion comp. added to patch, time = 8.125312089920044 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.7595987319946289E-02 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 = 205.5124589204788 Writing 2208 lines of data to file WAYNE write output data 1.302681922912598 ==w out 34 2208 945 45219840 WAYNE PROCESS 239.8801709413528 Processing block number 35 WAYNE PATCHES: 51409 55504 patch# 35 reference line: 53456 507.708 seconds. before reading done reading WAYNE load raw data , time = 24.78650796413422 ATTN ifrq ipol ln 8 2 55504 19.00000 IPOL, ITOP nblock 2 0 35 ****shift in azimuth (fractional pixel)= -0.4997250 shift in azimuth *fractional pixel= -0.4997250 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1839818954467773E-03 WAYNE Motion comp. added to patch, time = 8.157314062118530 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6379823684692383E-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 = 200.4701740741730 Writing 2208 lines of data to file WAYNE write output data 1.305546998977661 ==w out 35 4416 945 90439680 WAYNE PROCESS 234.7299830913544 ==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 3.108 seconds. before reading done reading WAYNE load raw data , time = 36.95955395698547 ATTN ifrq ipol ln 8 2 10144 19.00000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4997216 shift in azimuth *fractional pixel= -0.4997216 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4820051193237305E-03 WAYNE Motion comp. added to patch, time = 8.782895922660828 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 4.6290159225463867E-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 = 218.6816920042038 Writing 2208 lines of data to file WAYNE write output data 1.185202956199646 ==w out 5 0 945 0 WAYNE PROCESS 265.6225769519806 Processing block number 6 WAYNE PATCHES: 7561 11656 patch# 6 reference line: 9608 268.731 seconds. before reading done reading WAYNE load raw data , time = 23.66439902782440 ATTN ifrq ipol ln 8 2 11656 19.00000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4997325 shift in azimuth *fractional pixel= -0.4997325 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.9179067611694336E-03 WAYNE Motion comp. added to patch, time = 7.988399028778076 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 7.1248054504394531E-02 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 = 203.0369230508804 Writing 2208 lines of data to file WAYNE write output data 1.432976961135864 ==w out 6 2208 945 45219840 WAYNE PROCESS 236.2012670040131 Processing block number 7 WAYNE PATCHES: 9073 13168 patch# 7 reference line: 11120 504.933 seconds. before reading done reading WAYNE load raw data , time = 24.05927991867065 ATTN ifrq ipol ln 8 2 13168 19.00000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4997355 shift in azimuth *fractional pixel= -0.4997355 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1880350112915039E-03 WAYNE Motion comp. added to patch, time = 8.029052972793579 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 1.2991905212402344E-02 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 = 222.3671970367432 Writing 2208 lines of data to file WAYNE write output data 1.393102049827576 ==w out 7 4416 945 90439680 WAYNE PROCESS 255.8693740367889 Processing block number 8 WAYNE PATCHES: 10585 14680 patch# 20 reference line: 30776 584.116 seconds. before reading done reading WAYNE load raw data , time = 26.21518194675446 ATTN ifrq ipol ln 8 2 32824 19.00000 IPOL, ITOP nblock 2 0 20 ****shift in azimuth (fractional pixel)= -0.4997419 shift in azimuth *fractional pixel= -0.4997419 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2969923019409180E-03 WAYNE Motion comp. added to patch, time = 7.977020978927612 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.8620004653930664E-02 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 = 147.8319779634476 Writing 2208 lines of data to file WAYNE write output data 1.297733068466187 ==w out 20 6624 945 135659520 WAYNE PROCESS 183.3586469888687 ==w out 21 8835 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 3.199 seconds. before reading done reading WAYNE load raw data , time = 37.02415204048157 ATTN ifrq ipol ln 8 2 57016 19.00000 IPOL, ITOP nblock 2 0 36 ****shift in azimuth (fractional pixel)= -0.4997422 shift in azimuth *fractional pixel= -0.4997422 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5619945526123047E-03 WAYNE Motion comp. added to patch, time = 8.850845098495483 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 3.2880306243896484E-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 = 238.2279059886932 Writing 2208 lines of data to file WAYNE write output data 1.158077001571655 ==w out 36 0 945 0 WAYNE PROCESS 285.2725299596786 Processing block number 37 WAYNE PATCHES: 54433 58528 patch# 37 reference line: 56480 288.472 seconds. before reading done reading WAYNE load raw data , time = 25.08003103733063 ATTN ifrq ipol ln 8 2 58528 19.00000 IPOL, ITOP nblock 2 0 37 ****shift in azimuth (fractional pixel)= -0.4997516 shift in azimuth *fractional pixel= -0.4997516 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0720443725585938E-03 WAYNE Motion comp. added to patch, time = 8.241703987121582 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.8564095497131348E-02 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 = 210.3841559886932 Writing 2208 lines of data to file WAYNE write output data 1.190351963043213 ==w out 37 2208 945 45219840 WAYNE PROCESS 244.9327679872513 Processing block number 38 WAYNE PATCHES: 55904 59999 patch# 38 reference line: 57951 533.405 seconds. before reading done reading WAYNE load raw data , time = 23.51237297058105 ATTN ifrq ipol ln 8 2 59999 19.00000 IPOL, ITOP nblock 2 0 38 ****shift in azimuth (fractional pixel)= -0.4997427 shift in azimuth *fractional pixel= -0.4997427 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1700344085693359E-03 WAYNE Motion comp. added to patch, time = 8.252727985382080 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.8960704803466797E-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 = 219.5360720157623 Writing 2208 lines of data to file WAYNE write output data 1.156381964683533 ==w out 38 4416 945 90439680 WAYNE PROCESS 252.4683579206467 ==w out 39 6627 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 3.118 seconds. before reading done reading WAYNE load raw data , time = 36.60493195056915 ATTN ifrq ipol ln 8 2 16192 19.00000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4997354 shift in azimuth *fractional pixel= -0.4997354 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.9110393524169922E-03 WAYNE Motion comp. added to patch, time = 8.641641020774841 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9619932174682617E-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 = 240.5216299295425 Writing 2208 lines of data to file WAYNE write output data 1.208188056945801 ==w out 9 0 945 0 WAYNE PROCESS 286.9878500699997 Processing block number 10 WAYNE PATCHES: 13609 17704 patch# 10 reference line: 15656 290.106 seconds. before reading done reading WAYNE load raw data , time = 24.74055600166321 ATTN ifrq ipol ln 8 2 17704 19.00000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4997351 shift in azimuth *fractional pixel= -0.4997351 1.000000 WAYNE Motion comp. coeff. calculated, time = 7.2350502014160156E-03 WAYNE Motion comp. added to patch, time = 8.184048056602478 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.5439977645874023E-02 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 = 212.4920359849930 Writing 2208 lines of data to file WAYNE write output data 1.276670932769775 ==w out 10 2208 945 45219840 WAYNE PROCESS 246.7279689311981 Processing block number 11 WAYNE PATCHES: 15121 19216 patch# 11 reference line: 17168 536.834 seconds. before reading done reading WAYNE load raw data , time = 23.46132493019104 ATTN ifrq ipol ln 8 2 19216 19.00000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4997323 shift in azimuth *fractional pixel= -0.4997323 1.000000 WAYNE Motion comp. coeff. calculated, time = 8.0429315567016602E-03 WAYNE Motion comp. added to patch, time = 8.338282942771912 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.1709671020507813E-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 = 218.9528700113297 Writing 2208 lines of data to file WAYNE write output data 1.343217015266418 ==w out 11 4416 945 90439680 WAYNE PROCESS 252.1083509922028 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 3.165 seconds. before reading done reading WAYNE load raw data , time = 36.98268401622772 ATTN ifrq ipol ln 8 2 40384 19.00000 IPOL, ITOP nblock 2 0 25 ****shift in azimuth (fractional pixel)= -0.4997638 shift in azimuth *fractional pixel= -0.4997638 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5280199050903320E-03 WAYNE Motion comp. added to patch, time = 8.525931000709534 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 3.0850172042846680E-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 = 239.5620639324188 Writing 2208 lines of data to file WAYNE write output data 1.262962937355042 ==w out 25 0 945 0 WAYNE PROCESS 286.3451449871063 Processing block number 26 WAYNE PATCHES: 37801 41896 patch# 26 reference line: 39848 289.511 seconds. before reading done reading WAYNE load raw data , time = 25.65110707283020 ATTN ifrq ipol ln 8 2 41896 19.00000 IPOL, ITOP nblock 2 0 26 ****shift in azimuth (fractional pixel)= -0.4997658 shift in azimuth *fractional pixel= -0.4997658 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3669681549072266E-03 WAYNE Motion comp. added to patch, time = 8.092778921127319 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.6373991966247559E-02 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 = 211.5493919849396 Writing 2208 lines of data to file WAYNE write output data 1.289433002471924 ==w out 26 2208 945 45219840 WAYNE PROCESS 246.6076970100403 Processing block number 27 WAYNE PATCHES: 39313 43408 patch# 27 reference line: 41360 536.119 seconds. before reading done reading WAYNE load raw data , time = 24.29698896408081 ATTN ifrq ipol ln 8 2 43408 19.00000 IPOL, ITOP nblock 2 0 27 ****shift in azimuth (fractional pixel)= -0.4997665 shift in azimuth *fractional pixel= -0.4997665 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.6560506820678711E-03 WAYNE Motion comp. added to patch, time = 8.222832918167114 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.3359527587890625E-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 = 219.3550909757614 Writing 2208 lines of data to file WAYNE write output data 1.338845014572144 ==w out 27 4416 945 90439680 WAYNE PROCESS 253.2265789508820 Processing block number 28 WAYNE PATCHES: 40825 44920 patch# 32 reference line: 48920 708.018 seconds. before reading done reading WAYNE load raw data , time = 23.48270893096924 ATTN ifrq ipol ln 8 2 50968 19.00000 IPOL, ITOP nblock 2 0 32 ****shift in azimuth (fractional pixel)= -0.4997185 shift in azimuth *fractional pixel= -0.4997185 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1109066009521484E-03 WAYNE Motion comp. added to patch, time = 8.048161029815674 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3490190505981445E-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 = 144.5429009199142 Writing 2208 lines of data to file WAYNE write output data 1.159055948257446 ==w out 32 6624 945 135659520 WAYNE PROCESS 177.2429850101471 ==w out 33 8835 9060058593750E-06 WAYNE write deskew done, time = 2.2180080413818359E-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 -29.66825 0.8376631 HEY,dt,fract,ye,pe -0.4997073 1.000000 -2.3338700E-02 2.9290199E-02 WAYNE Azimuth compression done, time = 202.0039319992065 Writing 2208 lines of data to file WAYNE write output data 1.462575078010559 ==w out 3 4416 945 90439680 WAYNE PROCESS 235.2268270254135 Processing block number 4 TESTING WHY -2.2311101E-02 2.9275199E-02 1512 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 716.394 seconds. TESTING 4537 before reading done reading WAYNE load raw data , time = 23.34470498561859 ATTN ifrq ipol ln 8 2 8632 19.00000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4997145 shift in azimuth *fractional pixel= -0.4997145 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1699151992797852E-03 TESTING 8.5000396E-03 -27.96519 1.148277 WAYNE Motion comp. added to patch, time = 8.090345978736877 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4129152297973633E-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 -27.96519 1.148277 HEY,dt,fract,ye,pe -0.4997145 1.000000 -2.2311101E-02 2.9275199E-02 WAYNE Azimuth compression done, time = 153.8846659660339 Writing 2208 lines of data to file WAYNE write output data 1.108716964721680 ==w out 4 6624 945 135659520 WAYNE PROCESS 186.4383950233459 ==w out 5 8835 atch# 16 reference line: 24728 717.254 seconds. before reading done reading WAYNE load raw data , time = 23.41481399536133 ATTN ifrq ipol ln 8 2 26776 19.00000 IPOL, ITOP nblock 2 0 16 ****shift in azimuth (fractional pixel)= -0.4996803 shift in azimuth *fractional pixel= -0.4996803 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2229633331298828E-03 WAYNE Motion comp. added to patch, time = 8.195186018943787 WAYNE Doppler estimation done, time = 1.5974044799804688E-05 WAYNE write deskew done, time = 2.4909973144531250E-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 = 153.5253139734268 Writing 2208 lines of data to file WAYNE write output data 1.113798022270203 ==w out 16 6624 945 135659520 WAYNE PROCESS 186.2594770193100 ==w out 17 8835 atch# 24 reference line: 36824 734.692 seconds. before reading done reading WAYNE load raw data , time = 23.28055191040039 ATTN ifrq ipol ln 8 2 38872 19.00000 IPOL, ITOP nblock 2 0 24 ****shift in azimuth (fractional pixel)= -0.4997639 shift in azimuth *fractional pixel= -0.4997639 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2099695205688477E-03 WAYNE Motion comp. added to patch, time = 7.945999026298523 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4960041046142578E-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 = 140.9846720695496 Writing 2208 lines of data to file WAYNE write output data 1.078456997871399 ==w out 24 6624 945 135659520 WAYNE PROCESS 173.3000770807266 ==w out 25 8835 atch# 8 reference line: 12632 760.803 seconds. before reading done reading WAYNE load raw data , time = 24.02037394046783 ATTN ifrq ipol ln 8 2 14680 19.00000 IPOL, ITOP nblock 2 0 8 ****shift in azimuth (fractional pixel)= -0.4997347 shift in azimuth *fractional pixel= -0.4997347 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5569877624511719E-03 WAYNE Motion comp. added to patch, time = 7.998916983604431 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5110244750976563E-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 = 146.7918009757996 Writing 2208 lines of data to file WAYNE write output data 1.068284988403320 ==w out 8 6624 945 135659520 WAYNE PROCESS 179.8905210494995 ==w out 9 8835 atch# 12 reference line: 18680 788.943 seconds. before reading done reading WAYNE load raw data , time = 23.01269805431366 ATTN ifrq ipol ln 8 2 20728 19.00000 IPOL, ITOP nblock 2 0 12 ****shift in azimuth (fractional pixel)= -0.4997272 shift in azimuth *fractional pixel= -0.4997272 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2860250473022461E-03 WAYNE Motion comp. added to patch, time = 7.998485922813416 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4379491806030273E-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 = 145.8014971017838 Writing 2208 lines of data to file WAYNE write output data 1.056802034378052 ==w out 12 6624 945 135659520 WAYNE PROCESS 177.8799700737000 ==w out 13 8835 atch# 28 reference line: 42872 789.346 seconds. before reading done reading WAYNE load raw data , time = 23.81124997138977 ATTN ifrq ipol ln 8 2 44920 19.00000 IPOL, ITOP nblock 2 0 28 ****shift in azimuth (fractional pixel)= -0.4997679 shift in azimuth *fractional pixel= -0.4997679 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4809322357177734E-03 WAYNE Motion comp. added to patch, time = 7.870133996009827 WAYNE Doppler estimation done, time = 1.0013580322265625E-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 = 146.0757039785385 Writing 2208 lines of data to file WAYNE write output data 1.055432081222534 ==w out 28 6624 945 135659520 WAYNE PROCESS 178.8238760232925 ==w out 29 8835 1 212793 0 2 212657 0 3 212667 0 4 212233 0 5 212821 0 6 212836 0 7 212700 0 8 212748 0 9 212743 0 10 212638 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: 8.7830066680908203E-02 WAYNE LOOP TIME: 975.6720581054688 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_c.hv_j /mnt/air65/airops/1355/ts1355_c.mocomph /mnt/air65/airops/1355/ts1355_c.dop /mnt/air65/airops/1355/ts1355_c.glb 2560 83904 update intf hdr ha: 6988.200 UPDATE: 2560 83904 3.331000 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_c.mocomph dopfile /mnt/air65/airops/1355/ts1355_c.dop globalfile /mnt/air65/airops/1355/ts1355_c.glb /mnt/air65/airops/1355/ts1355_c.glb 35 deskew line ra ha trc: 94.97231 184 8101.542 6988.200 89.87302 after deskew line ra ha trc: 94.97231 184 8101.542 6988.200 89.87302 lat1 lon1: 184 64.00552 -147.2205 83904 last ra n_ns ns: 8101.542 0 1 84087 83904 lati loni: 84087 64.00555 -146.3016 84087 1 center ra n_ns ns: 12361.89 1279 1279 42135 83904 lati loni: 42135 64.04395 -146.7600 42135 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_c.hv_j WAYNE FINAL PROCESS 978.7797100543976 ********************************************* ***** ***** ***** 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/1355/ts1355_c.hv_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_c.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.ch Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1355/ts1355_c.BT Name of the line output file? /mnt/air65/airops/1355/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.669841051101685 Deskewing 38 patches Processing block number 1 DEBUG -369 184.0610 -368.6364 -0.4996951 -0.4996951 patch iptc,sj,dgj,dgi,id: 1 1 -369 -369 0 half line dmj dgc: 0 945 184 -369 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 -369 -369 1104 half line dmj dgc: 1 945 184 -369 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 -325 199.6324 -325.1570 -0.4997001 -0.4997001 1105 1557 44 408 patch iptc,sj,dgj,dgi,id: 2 1557 -325 -369 408 half line dmj dgc: 0 2457 200 -369 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1557 1105 Zeroing lines in arrays Total # of output lines = 2 1556 1557 2661 0 1104 patch iptc,sj,dgj,dgi,id: 2 2661 -325 -325 1104 half line dmj dgc: 1 2457 200 -369 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2661 1557 Zeroing lines in arrays Total # of output lines = 2 2660 Processing block number 3 DEBUG -287 211.6215 -286.9470 -0.4997073 -0.4997073 2661 3107 38 408 patch iptc,sj,dgj,dgi,id: 3 3107 -287 -325 408 half line dmj dgc: 0 3969 212 -369 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3107 2661 Zeroing lines in arrays Total # of output lines = 3 3106 3107 4211 0 1104 patch iptc,sj,dgj,dgi,id: 3 4211 -287 -287 1104 half line dmj dgc: 1 3969 212 -369 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4211 3107 Zeroing lines in arrays Total # of output lines = 3 4210 Processing block number 4 DEBUG -257 219.6477 -256.9897 -0.4997145 -0.4997145 4211 4649 30 408 patch iptc,sj,dgj,dgi,id: 4 4649 -257 -287 408 half line dmj dgc: 0 5481 220 -369 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4649 4211 Zeroing lines in arrays Total # of output lines = 4 4648 4649 5753 0 1104 patch iptc,sj,dgj,dgi,id: 4 5753 -257 -257 1104 half line dmj dgc: 1 5481 220 -369 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5753 4649 Zeroing lines in arrays Total # of output lines = 4 5752 Processing block number 5 DEBUG -230 225.9126 -229.6981 -0.4997216 -0.4997216 5753 6188 27 408 patch iptc,sj,dgj,dgi,id: 5 6188 -230 -257 408 half line dmj dgc: 0 6993 226 -369 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6188 5753 Zeroing lines in arrays Total # of output lines = 5 6187 6188 7292 0 1104 patch iptc,sj,dgj,dgi,id: 5 7292 -230 -230 1104 half line dmj dgc: 1 6993 226 -369 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7292 6188 Zeroing lines in arrays Total # of output lines = 5 7291 Processing block number 6 DEBUG -201 232.7084 -201.0760 -0.4997325 -0.4997325 7292 7729 29 408 patch iptc,sj,dgj,dgi,id: 6 7729 -201 -230 408 half line dmj dgc: 0 8505 233 -369 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 7729 7292 Zeroing lines in arrays Total # of output lines = 6 7728 7729 8833 0 1104 patch iptc,sj,dgj,dgi,id: 6 8833 -201 -201 1104 half line dmj dgc: 1 8505 233 -369 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 8833 7729 Zeroing lines in arrays Total # of output lines = 6 8832 Processing block number 7 DEBUG -180 237.9082 -179.9157 -0.4997355 -0.4997355 8833 9262 21 408 patch iptc,sj,dgj,dgi,id: 7 9262 -180 -201 408 half line dmj dgc: 0 10017 238 -369 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 9262 8833 Zeroing lines in arrays Total # of output lines = 7 9261 9262 10366 0 1104 patch iptc,sj,dgj,dgi,id: 7 10366 -180 -180 1104 half line dmj dgc: 1 10017 238 -369 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 sj>s1: 10366 9262 Zeroing lines in arrays Total # of output lines = 7 10365 Processing block number 8 DEBUG -169 241.4806 -168.6817 -0.4997347 -0.4997347 10366 10785 11 408 patch iptc,sj,dgj,dgi,id: 8 10785 -169 -180 408 half line dmj dgc: 0 11529 241 -369 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 10785 10366 Zeroing lines in arrays Total # of output lines = 8 10784 10785 11889 0 1104 patch iptc,sj,dgj,dgi,id: 8 11889 -169 -169 1104 half line dmj dgc: 1 11529 241 -369 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 11889 10785 Zeroing lines in arrays Total # of output lines = 8 11888 Processing block number 9 DEBUG -174 238.8386 -173.4707 -0.4997354 -0.4997354 11889 12292 -5 408 patch iptc,sj,dgj,dgi,id: 9 4 -174 -169 408 half line dmj dgc: 0 13041 239 -369 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 s1>sj: 11889 4 Zeroing lines in arrays Total # of output lines = 9 12291 4 1108 0 1104 patch iptc,sj,dgj,dgi,id: 9 1108 -174 -174 1104 half line dmj dgc: 1 13041 239 -369 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 1108 4 Zeroing lines in arrays Total # of output lines = 9 13395 Processing block number 10 DEBUG -187 232.1932 -187.2155 -0.4997351 -0.4997351 1108 1503 -13 408 patch iptc,sj,dgj,dgi,id: 10 1503 -187 -174 408 half line dmj dgc: 0 14553 232 -369 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 1503 1108 Zeroing lines in arrays Total # of output lines = 10 13790 1503 2607 0 1104 patch iptc,sj,dgj,dgi,id: 10 2607 -187 -187 1104 half line dmj dgc: 1 14553 232 -369 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 2607 1503 Zeroing lines in arrays Total # of output lines = 10 14894 Processing block number 11 DEBUG -208 223.7775 -207.7435 -0.4997323 -0.4997323 2607 2994 -21 408 patch iptc,sj,dgj,dgi,id: 11 2994 -208 -187 408 half line dmj dgc: 0 16065 224 -369 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 2994 2607 Zeroing lines in arrays Total # of output lines = 11 15281 2994 4098 0 1104 patch iptc,sj,dgj,dgi,id: 11 4098 -208 -208 1104 half line dmj dgc: 1 16065 224 -369 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 4098 2994 Zeroing lines in arrays Total # of output lines = 11 16385 Processing block number 12 DEBUG -226 217.7142 -226.1750 -0.4997272 -0.4997272 4098 4488 -18 408 patch iptc,sj,dgj,dgi,id: 12 4488 -226 -208 408 half line dmj dgc: 0 17577 218 -369 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 4488 4098 Zeroing lines in arrays Total # of output lines = 12 16775 4488 5592 0 1104 patch iptc,sj,dgj,dgi,id: 12 5592 -226 -226 1104 half line dmj dgc: 1 17577 218 -369 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 5592 4488 Zeroing lines in arrays Total # of output lines = 12 17879 Processing block number 13 DEBUG -245 213.1484 -244.6279 -0.4997188 -0.4997188 5592 5981 -19 408 patch iptc,sj,dgj,dgi,id: 13 5981 -245 -226 408 half line dmj dgc: 0 19089 213 -369 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 5981 5592 Zeroing lines in arrays Total # of output lines = 13 18268 5981 7085 0 1104 patch iptc,sj,dgj,dgi,id: 13 7085 -245 -245 1104 half line dmj dgc: 1 19089 213 -369 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 7085 5981 Zeroing lines in arrays Total # of output lines = 13 19372 Processing block number 14 DEBUG -263 209.2252 -262.8387 -0.4997072 -0.4997072 7085 7475 -18 408 patch iptc,sj,dgj,dgi,id: 14 7475 -263 -245 408 half line dmj dgc: 0 20601 209 -369 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 sj>s1: 7475 7085 Zeroing lines in arrays Total # of output lines = 14 19762 7475 8579 0 1104 patch iptc,sj,dgj,dgi,id: 14 8579 -263 -263 1104 half line dmj dgc: 1 20601 209 -369 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 8579 7475 Zeroing lines in arrays Total # of output lines = 14 20866 Processing block number 15 DEBUG -276 208.0434 -276.3079 -0.4996992 -0.4996992 8579 8974 -13 408 patch iptc,sj,dgj,dgi,id: 15 8974 -276 -263 408 half line dmj dgc: 0 22113 208 -369 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 8974 8579 Zeroing lines in arrays Total # of output lines = 15 21261 8974 10078 0 1104 patch iptc,sj,dgj,dgi,id: 15 10078 -276 -276 1104 half line dmj dgc: 1 22113 208 -369 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 10078 8974 Zeroing lines in arrays Total # of output lines = 15 22365 Processing block number 16 DEBUG -273 212.1223 -273.0192 -0.4996803 -0.4996803 10078 10489 3 408 patch iptc,sj,dgj,dgi,id: 16 10489 -273 -276 408 half line dmj dgc: 0 23625 212 -369 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 10489 10078 Zeroing lines in arrays Total # of output lines = 16 22776 10489 11593 0 1104 patch iptc,sj,dgj,dgi,id: 16 11593 -273 -273 1104 half line dmj dgc: 1 23625 212 -369 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 11593 10489 Zeroing lines in arrays Total # of output lines = 16 23880 Processing block number 17 DEBUG -257 218.6537 -256.5535 -0.4996858 -0.4996858 11593 12017 16 408 patch iptc,sj,dgj,dgi,id: 17 12017 -257 -273 408 half line dmj dgc: 0 25137 219 -369 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 12017 11593 Zeroing lines in arrays Total # of output lines = 17 24304 12017 13121 0 1104 patch iptc,sj,dgj,dgi,id: 17 833 -257 -257 1104 half line dmj dgc: 1 25137 219 -369 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 s1>sj: 12017 833 Zeroing lines in arrays Total # of output lines = 17 25408 Processing block number 18 DEBUG -222 225.4915 -221.8509 -0.4996975 -0.4996975 833 1276 35 408 patch iptc,sj,dgj,dgi,id: 18 1276 -222 -257 408 half line dmj dgc: 0 26649 225 -369 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 1276 833 Zeroing lines in arrays Total # of output lines = 18 25851 1276 2380 0 1104 patch iptc,sj,dgj,dgi,id: 18 2380 -222 -222 1104 half line dmj dgc: 1 26649 225 -369 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 2380 1276 Zeroing lines in arrays Total # of output lines = 18 26955 Processing block number 19 DEBUG -184 230.1233 -184.3459 -0.4997248 -0.4997248 2380 2826 38 408 patch iptc,sj,dgj,dgi,id: 19 2826 -184 -222 408 half line dmj dgc: 0 28161 230 -369 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 2826 2380 Zeroing lines in arrays Total # of output lines = 19 27401 2826 3930 0 1104 patch iptc,sj,dgj,dgi,id: 19 3930 -184 -184 1104 half line dmj dgc: 1 28161 230 -369 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 3930 2826 Zeroing lines in arrays Total # of output lines = 19 28505 Processing block number 20 DEBUG -144 237.1211 -143.4654 -0.4997419 -0.4997419 3930 4378 40 408 patch iptc,sj,dgj,dgi,id: 20 4378 -144 -184 408 half line dmj dgc: 0 29673 237 -369 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 4378 3930 Zeroing lines in arrays Total # of output lines = 20 28953 4378 5482 0 1104 patch iptc,sj,dgj,dgi,id: 20 5482 -144 -144 1104 half line dmj dgc: 1 29673 237 -369 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 sj>s1: 5482 4378 Zeroing lines in arrays Total # of output lines = 20 30057 Processing block number 21 DEBUG -105 246.2690 -105.2854 -0.4997489 -0.4997489 5482 5929 39 408 patch iptc,sj,dgj,dgi,id: 21 5929 -105 -144 408 half line dmj dgc: 0 31185 246 -369 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 5929 5482 Zeroing lines in arrays Total # of output lines = 21 30504 5929 7033 0 1104 patch iptc,sj,dgj,dgi,id: 21 7033 -105 -105 1104 half line dmj dgc: 1 31185 246 -369 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 7033 5929 Zeroing lines in arrays Total # of output lines = 21 31608 Processing block number 22 DEBUG -65 257.5400 -65.10658 -0.4997573 -0.4997573 7033 7481 40 408 patch iptc,sj,dgj,dgi,id: 22 7481 -65 -105 408 half line dmj dgc: 0 32697 257 -369 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Writing data negflag .eq. 0 sj>s1: 7481 7033 Zeroing lines in arrays Total # of output lines = 22 32056 7481 8585 0 1104 patch iptc,sj,dgj,dgi,id: 22 8585 -65 -65 1104 half line dmj dgc: 1 32697 257 -369 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 8585 7481 Zeroing lines in arrays Total # of output lines = 22 33160 Processing block number 23 DEBUG -38 264.6822 -37.83217 -0.4997638 -0.4997638 8585 9020 27 408 patch iptc,sj,dgj,dgi,id: 23 9020 -38 -65 408 half line dmj dgc: 0 34209 265 -369 Actual deskew ireclen: 20480 ** 23 1104 0 49680 Writing data negflag .eq. 0 sj>s1: 9020 8585 Zeroing lines in arrays Total # of output lines = 23 33595 9020 10124 0 1104 patch iptc,sj,dgj,dgi,id: 23 10124 -38 -38 1104 half line dmj dgc: 1 34209 265 -369 Actual deskew ireclen: 20480 ** 23 1104 1 50784 Writing data negflag .eq. 0 sj>s1: 10124 9020 Zeroing lines in arrays Total # of output lines = 23 34699 Processing block number 24 DEBUG -19 270.3849 -18.55690 -0.4997639 -0.4997639 10124 10551 19 408 patch iptc,sj,dgj,dgi,id: 24 10551 -19 -38 408 half line dmj dgc: 0 35721 270 -369 Actual deskew ireclen: 20480 ** 24 1104 0 51888 Writing data negflag .eq. 0 sj>s1: 10551 10124 Zeroing lines in arrays Total # of output lines = 24 35126 10551 11655 0 1104 patch iptc,sj,dgj,dgi,id: 24 11655 -19 -19 1104 half line dmj dgc: 1 35721 270 -369 Actual deskew ireclen: 20480 ** 24 1104 1 52992 Writing data negflag .eq. 0 sj>s1: 11655 10551 Zeroing lines in arrays Total # of output lines = 24 36230 Processing block number 25 DEBUG -11 271.8763 -11.08864 -0.4997638 -0.4997638 11655 12071 8 408 patch iptc,sj,dgj,dgi,id: 25 12071 -11 -19 408 half line dmj dgc: 0 37233 272 -369 Actual deskew ireclen: 20480 ** 25 1104 0 54096 Writing data negflag .eq. 0 sj>s1: 12071 11655 Zeroing lines in arrays Total # of output lines = 25 36646 12071 13175 0 1104 patch iptc,sj,dgj,dgi,id: 25 887 -11 -11 1104 half line dmj dgc: 1 37233 272 -369 Actual deskew ireclen: 20480 ** 25 1104 1 55200 Writing data negflag .eq. 0 s1>sj: 12071 887 Zeroing lines in arrays Total # of output lines = 25 37750 Processing block number 26 DEBUG -8 271.9265 -7.641381 -0.4997658 -0.4997658 887 1298 3 408 patch iptc,sj,dgj,dgi,id: 26 1298 -8 -11 408 half line dmj dgc: 0 38745 272 -369 Actual deskew ireclen: 20480 ** 26 1104 0 56304 Writing data negflag .eq. 0 sj>s1: 1298 887 Zeroing lines in arrays Total # of output lines = 26 38161 1298 2402 0 1104 patch iptc,sj,dgj,dgi,id: 26 2402 -8 -8 1104 half line dmj dgc: 1 38745 272 -369 Actual deskew ireclen: 20480 ** 26 1104 1 57408 Writing data negflag .eq. 0 sj>s1: 2402 1298 Zeroing lines in arrays Total # of output lines = 26 39265 Processing block number 27 DEBUG -8 270.5854 -7.819902 -0.4997665 -0.4997665 2402 2810 0 408 patch iptc,sj,dgj,dgi,id: 27 2810 -8 -8 408 half line dmj dgc: 0 40257 270 -369 Actual deskew ireclen: 20480 ** 27 1104 0 58512 Writing data negflag .eq. 0 sj>s1: 2810 2402 Zeroing lines in arrays Total # of output lines = 27 39673 2810 3914 0 1104 patch iptc,sj,dgj,dgi,id: 27 3914 -8 -8 1104 half line dmj dgc: 1 40257 270 -369 Actual deskew ireclen: 20480 ** 27 1104 1 59616 Writing data negflag .eq. 0 sj>s1: 3914 2810 Zeroing lines in arrays Total # of output lines = 27 40777 Processing block number 28 DEBUG -2 272.6870 -1.999335 -0.4997679 -0.4997679 3914 4328 6 408 patch iptc,sj,dgj,dgi,id: 28 4328 -2 -8 408 half line dmj dgc: 0 41769 273 -369 Actual deskew ireclen: 20480 ** 28 1104 0 60720 Writing data negflag .eq. 0 sj>s1: 4328 3914 Zeroing lines in arrays Total # of output lines = 28 41191 4328 5432 0 1104 patch iptc,sj,dgj,dgi,id: 28 5432 -2 -2 1104 half line dmj dgc: 1 41769 273 -369 Actual deskew ireclen: 20480 ** 28 1104 1 61824 Writing data negflag .eq. 0 sj>s1: 5432 4328 Zeroing lines in arrays Total # of output lines = 28 42295 Processing block number 29 DEBUG 10 280.1839 10.00556 -0.4997618 -0.4997618 5432 5852 12 408 patch iptc,sj,dgj,dgi,id: 29 5852 10 -2 408 half line dmj dgc: 0 43281 280 -369 Actual deskew ireclen: 20480 ** 29 1104 0 62928 Writing data negflag .eq. 0 sj>s1: 5852 5432 Zeroing lines in arrays Total # of output lines = 29 42715 5852 6956 0 1104 patch iptc,sj,dgj,dgi,id: 29 6956 10 10 1104 half line dmj dgc: 1 43281 280 -369 Actual deskew ireclen: 20480 ** 29 1104 1 64032 Writing data negflag .eq. 0 sj>s1: 6956 5852 Zeroing lines in arrays Total # of output lines = 29 43819 Processing block number 30 DEBUG 25 291.1667 25.10633 -0.4997450 -0.4997450 6956 7379 15 408 patch iptc,sj,dgj,dgi,id: 30 7379 25 10 408 half line dmj dgc: 0 44793 291 -369 Actual deskew ireclen: 20480 ** 30 1104 0 65136 Writing data negflag .eq. 0 sj>s1: 7379 6956 Zeroing lines in arrays Total # of output lines = 30 44242 7379 8483 0 1104 patch iptc,sj,dgj,dgi,id: 30 8483 25 25 1104 half line dmj dgc: 1 44793 291 -369 Actual deskew ireclen: 20480 ** 30 1104 1 66240 Writing data negflag .eq. 0 sj>s1: 8483 7379 Zeroing lines in arrays Total # of output lines = 30 45346 Processing block number 31 DEBUG 28 299.3272 27.81592 -0.4997364 -0.4997364 8483 8894 3 408 patch iptc,sj,dgj,dgi,id: 31 8894 28 25 408 half line dmj dgc: 0 46305 299 -369 Actual deskew ireclen: 20480 ** 31 1104 0 67344 Writing data negflag .eq. 0 sj>s1: 8894 8483 Zeroing lines in arrays Total # of output lines = 31 45757 8894 9998 0 1104 patch iptc,sj,dgj,dgi,id: 31 9998 28 28 1104 half line dmj dgc: 1 46305 299 -369 Actual deskew ireclen: 20480 ** 31 1104 1 68448 Writing data negflag .eq. 0 sj>s1: 9998 8894 Zeroing lines in arrays Total # of output lines = 31 46861 Processing block number 32 DEBUG 13 300.3322 12.88429 -0.4997185 -0.4997185 9998 10391 -15 408 patch iptc,sj,dgj,dgi,id: 32 10391 13 28 408 half line dmj dgc: 0 47817 300 -369 Actual deskew ireclen: 20480 ** 32 1104 0 69552 Writing data negflag .eq. 0 sj>s1: 10391 9998 Zeroing lines in arrays Total # of output lines = 32 47254 10391 11495 0 1104 patch iptc,sj,dgj,dgi,id: 32 11495 13 13 1104 half line dmj dgc: 1 47817 300 -369 Actual deskew ireclen: 20480 ** 32 1104 1 70656 Writing data negflag .eq. 0 sj>s1: 11495 10391 Zeroing lines in arrays Total # of output lines = 32 48358 Processing block number 33 DEBUG -4 296.4035 -3.969029 -0.4997043 -0.4997043 11495 11886 -17 408 patch iptc,sj,dgj,dgi,id: 33 11886 -4 13 408 half line dmj dgc: 0 49329 296 -369 Actual deskew ireclen: 20480 ** 33 1104 0 71760 Writing data negflag .eq. 0 sj>s1: 11886 11495 Zeroing lines in arrays Total # of output lines = 33 48749 11886 12990 0 1104 patch iptc,sj,dgj,dgi,id: 33 702 -4 -4 1104 half line dmj dgc: 1 49329 296 -369 Actual deskew ireclen: 20480 ** 33 1104 1 72864 Writing data negflag .eq. 0 s1>sj: 11886 702 Zeroing lines in arrays Total # of output lines = 33 49853 Processing block number 34 DEBUG -23 285.8192 -23.12792 -0.4997154 -0.4997154 702 1091 -19 408 patch iptc,sj,dgj,dgi,id: 34 1091 -23 -4 408 half line dmj dgc: 0 50841 286 -369 Actual deskew ireclen: 20480 ** 34 1104 0 73968 Writing data negflag .eq. 0 sj>s1: 1091 702 Zeroing lines in arrays Total # of output lines = 34 50242 1091 2195 0 1104 patch iptc,sj,dgj,dgi,id: 34 2195 -23 -23 1104 half line dmj dgc: 1 50841 286 -369 Actual deskew ireclen: 20480 ** 34 1104 1 75072 Writing data negflag .eq. 0 sj>s1: 2195 1091 Zeroing lines in arrays Total # of output lines = 34 51346 Processing block number 35 DEBUG -27 276.6112 -27.07645 -0.4997250 -0.4997250 2195 2599 -4 408 patch iptc,sj,dgj,dgi,id: 35 2599 -27 -23 408 half line dmj dgc: 0 52353 277 -369 Actual deskew ireclen: 20480 ** 35 1104 0 76176 Writing data negflag .eq. 0 sj>s1: 2599 2195 Zeroing lines in arrays Total # of output lines = 35 51750 2599 3703 0 1104 patch iptc,sj,dgj,dgi,id: 35 3703 -27 -27 1104 half line dmj dgc: 1 52353 277 -369 Actual deskew ireclen: 20480 ** 35 1104 1 77280 Writing data negflag .eq. 0 sj>s1: 3703 2599 Zeroing lines in arrays Total # of output lines = 35 52854 Processing block number 36 DEBUG -20 271.6823 -20.12869 -0.4997422 -0.4997422 3703 4118 7 408 patch iptc,sj,dgj,dgi,id: 36 4118 -20 -27 408 half line dmj dgc: 0 53865 272 -369 Actual deskew ireclen: 20480 ** 36 1104 0 78384 Writing data negflag .eq. 0 sj>s1: 4118 3703 Zeroing lines in arrays Total # of output lines = 36 53269 4118 5222 0 1104 patch iptc,sj,dgj,dgi,id: 36 5222 -20 -20 1104 half line dmj dgc: 1 53865 272 -369 Actual deskew ireclen: 20480 ** 36 1104 1 79488 Writing data negflag .eq. 0 sj>s1: 5222 4118 Zeroing lines in arrays Total # of output lines = 36 54373 Processing block number 37 DEBUG -1 275.3753 -1.294955 -0.4997516 -0.4997516 5222 5649 19 408 patch iptc,sj,dgj,dgi,id: 37 5649 -1 -20 408 half line dmj dgc: 0 55377 275 -369 Actual deskew ireclen: 20480 ** 37 1104 0 80592 Writing data negflag .eq. 0 sj>s1: 5649 5222 Zeroing lines in arrays Total # of output lines = 37 54800 5649 6753 0 1104 patch iptc,sj,dgj,dgi,id: 37 6753 -1 -1 1104 half line dmj dgc: 1 55377 275 -369 Actual deskew ireclen: 20480 ** 37 1104 1 81696 Writing data negflag .eq. 0 sj>s1: 6753 5649 Zeroing lines in arrays Total # of output lines = 37 55904 Processing block number 38 DEBUG 18 283.8053 18.54329 -0.4997427 -0.4997427 6753 7139 19 367 patch iptc,sj,dgj,dgi,id: 38 7139 18 -1 367 half line dmj dgc: 0 56848 284 -369 Actual deskew ireclen: 20480 ** 38 1104 0 82800 Writing data negflag .eq. 0 sj>s1: 7139 6753 Zeroing lines in arrays Total # of output lines = 38 56290 7139 8243 0 1104 patch iptc,sj,dgj,dgi,id: 38 8243 18 18 1104 half line dmj dgc: 1 56848 284 -369 Actual deskew ireclen: 20480 ** 38 1104 1 83904 Writing data negflag .eq. 0 sj>s1: 8243 7139 Zeroing lines in arrays Total # of output lines = 38 57394 ia dmi dgi: 8243 284 18 Writing the last 1370 lines last half sj>s1 9613 8243 57394 WAYNE done patche 247.3059800863266 Total # of output lines = 58764 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 58764 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 248.6513249874115 ********************************************* ***** ***** ***** 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/1355/sensor.vh00c Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/c_vh Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_c.mocompv Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.cv WAYNE init fft, calc slant range, load unpack, interpo 1.5933998E-02 reading motion compensation data WAYNE read motion compen 1.409274 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 0.4775100 start range comp, time = 2.299 WAYNE PREV 1.919865 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 -2.5874000E-02 2.8752400E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 2.456 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 27.63216292858124 ATTN ifrq ipol ln 8 3 4096 19.00000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 6.3139200210571289E-03 TESTING -8.5000396E-03 -32.88859 0.5897334 WAYNE Motion comp. added to patch, time = 8.533383965492249 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.2019615173339844E-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 -32.88859 0.5897334 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.5874000E-02 2.8752400E-02 WAYNE Azimuth compression done, time = 166.4048439264297 Writing 2208 lines of data to file WAYNE write output data 1.203385949134827 ==w out 1 0 945 0 WAYNE PROCESS 203.7847949266434 Processing block number 2 TESTING WHY -2.4567099E-02 2.9131001E-02 1512 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 206.241 seconds. TESTING 1513 before reading done reading WAYNE load raw data , time = 23.01283693313599 ATTN ifrq ipol ln 8 3 5608 19.00000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 6.2379837036132813E-03 TESTING -8.5000396E-03 -31.31609 0.6029711 WAYNE Motion comp. added to patch, time = 8.034674048423767 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.2413024902343750E-02 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 -31.31609 0.6029711 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.4567099E-02 2.9131001E-02 WAYNE Azimuth compression done, time = 150.6557730436325 Writing 2208 lines of data to file WAYNE write output data 1.283273935317993 ==w out 2 2208 945 45219840 WAYNE PROCESS 183.0066319704056 Processing block number 3 TESTING WHY -2.3338700E-02 2.9290199E-02 1512 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 389.248 seconds. TESTING 3025 before reading done reading WAYNE load raw data , time = 23.04871702194214 ATTN ifrq ipol ln 8 3 7120 19.00000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 6.1659812927246094E-03 TESTING -8.5000396E-03 -29.67099 0.8381203 WAYNE Motion comp. added to patch, time = 8.059609055519104 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4750232696533203E-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# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 18145 22240 patch# 13 reference line: 20192 2.501 seconds. before reading done reading WAYNE load raw data , time = 27.66460001468658 ATTN ifrq ipol ln 8 3 22240 19.00000 IPOL, ITOP nblock 3 0 13 WAYNE Motion comp. coeff. calculated, time = 6.4870119094848633E-03 WAYNE Motion comp. added to patch, time = 8.619068980216980 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.2939910888671875E-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 = 172.2837660312653 Writing 2208 lines of data to file WAYNE write output data 1.217512965202332 ==w out 13 0 945 0 WAYNE PROCESS 209.7964860200882 Processing block number 14 WAYNE PATCHES: 19657 23752 patch# 14 reference line: 21704 212.297 seconds. before reading done reading WAYNE load raw data , time = 23.56913900375366 ATTN ifrq ipol ln 8 3 23752 19.00000 IPOL, ITOP nblock 3 0 14 WAYNE Motion comp. coeff. calculated, time = 6.4100027084350586E-03 WAYNE Motion comp. added to patch, time = 8.096561074256897 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 3.8768053054809570E-02 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 = 175.6782079935074 Writing 2208 lines of data to file WAYNE write output data 1.234665989875793 ==w out 14 2208 945 45219840 WAYNE PROCESS 208.6253670454025 Processing block number 15 WAYNE PATCHES: 21169 25264 patch# 15 reference line: 23216 420.923 seconds. before reading done reading WAYNE load raw data , time = 23.53419494628906 ATTN ifrq ipol ln 8 3 25264 19.00000 IPOL, ITOP nblock 3 0 15 WAYNE Motion comp. coeff. calculated, time = 5.9590339660644531E-03 WAYNE Motion comp. added to patch, time = 8.147160053253174 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5349855422973633E-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 = 171.2641119956970 Writing 2208 lines of data to file WAYNE write output data 1.529145002365112 ==w out 15 4416 945 90439680 WAYNE PROCESS 204.4847810268402 Processing block number 16 WAYNE PATCHES: 22681 26776 patch# 16 reference line: 24728 625.408 seconds. before reading done reading WAYNE load raw data , time = 23.50139904022217 ATTN ifrq ipol ln 8 3 26776 19.00000 IPOL, ITOP nblock 3 0 16 WAYNE Motion comp. coeff. calculated, time = 6.2620639801025391E-03 WAYNE Motion comp. added to patch, time 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 2.473 seconds. before reading done reading WAYNE load raw data , time = 27.27059197425842 ATTN ifrq ipol ln 8 3 10144 19.00000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 6.6219568252563477E-03 WAYNE Motion comp. added to patch, time = 8.688776016235352 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.8799772262573242E-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 = 193.2578450441360 Writing 2208 lines of data to file WAYNE write output data 1.190652012825012 ==w out 5 0 945 0 WAYNE PROCESS 230.4191730022430 Processing block number 6 WAYNE PATCHES: 7561 11656 patch# 6 reference line: 9608 232.892 seconds. before reading done reading WAYNE load raw data , time = 23.00507402420044 ATTN ifrq ipol ln 8 3 11656 19.00000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 7.3549747467041016E-03 WAYNE Motion comp. added to patch, time = 8.051698923110962 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.2633085250854492E-02 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 = 170.2963750362396 Writing 2208 lines of data to file WAYNE write output data 1.227159976959229 ==w out 6 2208 945 45219840 WAYNE PROCESS 202.6017429828644 Processing block number 7 WAYNE PATCHES: 9073 13168 patch# 7 reference line: 11120 435.494 seconds. before reading done reading WAYNE load raw data , time = 23.02913999557495 ATTN ifrq ipol ln 8 3 13168 19.00000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 6.0759782791137695E-03 WAYNE Motion comp. added to patch, time = 8.100342035293579 WAYNE Doppler estimation done, time = 1.2993812561035156E-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 = 170.9560129642487 Writing 2208 lines of data to file WAYNE write output data 1.177562952041626 ==w out 7 4416 945 90439680 WAYNE PROCESS 203.2736049890518 Processing block number 8 WAYNE PATCHES: 10585 14680 patch# 8 reference line: 12632 638.768 seconds. before reading done reading WAYNE load raw data , time = 22.87287604808807 ATTN ifrq ipol ln 8 3 14680 19.00000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 6.1531066894531250E-03 WAYNE Motion comp. added to patch, time0 -8.5000396E-03 -29.67099 0.8381203 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.3338700E-02 2.9290199E-02 WAYNE Azimuth compression done, time = 156.2878760099411 Writing 2208 lines of data to file WAYNE write output data 1.177910089492798 ==w out 3 4416 945 90439680 WAYNE PROCESS 188.5840330123901 Processing block number 4 TESTING WHY -2.2311101E-02 2.9275199E-02 1512 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 577.833 seconds. TESTING 4537 before reading done reading WAYNE load raw data , time = 23.03135001659393 ATTN ifrq ipol ln 8 3 8632 19.00000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 6.0039758682250977E-03 TESTING -8.5000396E-03 -27.96842 1.148673 WAYNE Motion comp. added to patch, time = 8.071866035461426 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7650594711303711E-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 -27.96842 1.148673 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.2311101E-02 2.9275199E-02 WAYNE Azimuth compression done, time = 151.8517470359802 Writing 2208 lines of data to file WAYNE write output data 1.124392032623291 ==w out 4 6624 945 135659520 WAYNE PROCESS 184.0893889665604 ==w out 5 8835 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 2.488 seconds. before reading done reading WAYNE load raw data , time = 27.44195497035980 ATTN ifrq ipol ln 8 3 16192 19.00000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 6.2450170516967773E-03 WAYNE Motion comp. added to patch, time = 8.521021962165833 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.1279325485229492E-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 = 216.6842849254608 Writing 2208 lines of data to file WAYNE write output data 1.364218950271606 ==w out 9 0 945 0 WAYNE PROCESS 254.0225759744644 Processing block number 10 WAYNE PATCHES: 13609 17704 patch# 10 reference line: 15656 256.511 seconds. before reading done reading WAYNE load raw data , time = 24.35669898986816 ATTN ifrq ipol ln 8 3 17704 19.00000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 5.9370994567871094E-03 WAYNE Motion comp. added to patch, time = 7.896885991096497 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 4.3339967727661133E-02 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 = 208.7423570156097 Writing 2208 lines of data to file WAYNE write output data 1.676383018493652 ==w out 10 2208 945 45219840 WAYNE PROCESS 242.7231349945068 Processing block number 11 WAYNE PATCHES: 15121 19216 patch# 11 reference line: 17168 499.235 seconds. before reading done reading WAYNE load raw data , time = 23.19071209430695 ATTN ifrq ipol ln 8 3 19216 19.00000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 6.4179897308349609E-03 WAYNE Motion comp. added to patch, time = 8.036940932273865 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6149749755859375E-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 = 203.7432379722595 Writing 2208 lines of data to file WAYNE write output data 1.412123918533325 ==w out 11 4416 945 90439680 WAYNE PROCESS 236.3935389518738 Processing block number 12 WAYNE PATCHES: 16633 20728 patch# 12 reference line: 18680 735.629 seconds. before reading done reading WAYNE load raw data , time = 23.02600491046906 ATTN ifrq ipol ln 8 3 20728 19.00000 IPOL, ITOP nblock 3 0 12 WAYNE Motion comp. coeff. calculated, time = 5.8000087738037109E-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 2.552 seconds. before reading done reading WAYNE load raw data , time = 27.67185902595520 ATTN ifrq ipol ln 8 3 46432 19.00000 IPOL, ITOP nblock 3 0 29 WAYNE Motion comp. coeff. calculated, time = 6.5259933471679688E-03 WAYNE Motion comp. added to patch, time = 8.436452031135559 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 3.6350488662719727E-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 = 216.6121490001678 Writing 2208 lines of data to file WAYNE write output data 1.367047071456909 ==w out 29 0 945 0 WAYNE PROCESS 254.0996680259705 Processing block number 30 WAYNE PATCHES: 43849 47944 patch# 30 reference line: 45896 256.652 seconds. before reading done reading WAYNE load raw data , time = 24.55340802669525 ATTN ifrq ipol ln 8 3 47944 19.00000 IPOL, ITOP nblock 3 0 30 WAYNE Motion comp. coeff. calculated, time = 5.7719945907592773E-03 WAYNE Motion comp. added to patch, time = 7.873909950256348 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 3.6939024925231934E-02 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 = 209.3851770162582 Writing 2208 lines of data to file WAYNE write output data 1.657796978950500 ==w out 30 2208 945 45219840 WAYNE PROCESS 243.5150270462036 Processing block number 31 WAYNE PATCHES: 45361 49456 patch# 31 reference line: 47408 500.167 seconds. before reading done reading WAYNE load raw data , time = 23.46390199661255 ATTN ifrq ipol ln 8 3 49456 19.00000 IPOL, ITOP nblock 3 0 31 WAYNE Motion comp. coeff. calculated, time = 6.6180229187011719E-03 WAYNE Motion comp. added to patch, time = 8.113584995269775 WAYNE Doppler estimation done, time = 1.9073486328125000E-05 WAYNE write deskew done, time = 2.3893952369689941E-02 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 = 202.4596030712128 Writing 2208 lines of data to file WAYNE write output data 1.412668943405151 ==w out 31 4416 945 90439680 WAYNE PROCESS 235.4825649261475 Processing block number 32 WAYNE PATCHES: 46873 50968 patch# 32 reference line: 48920 735.650 seconds. before reading done reading WAYNE load raw data , time = 23.25154900550842 ATTN ifrq ipol ln 8 3 50968 19.00000 IPOL, ITOP nblock 3 0 32 WAYNE Motion comp. coeff. calculated, time = 5.9700012207031250E-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 2.514 seconds. before reading done reading WAYNE load raw data , time = 27.82730102539063 ATTN ifrq ipol ln 8 3 28288 19.00000 IPOL, ITOP nblock 3 0 17 WAYNE Motion comp. coeff. calculated, time = 6.4020156860351563E-03 WAYNE Motion comp. added to patch, time = 8.702542066574097 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.3570528030395508E-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 = 220.4809370040894 Writing 2208 lines of data to file WAYNE write output data 1.226512074470520 ==w out 17 0 945 0 WAYNE PROCESS 258.2487480640411 Processing block number 18 WAYNE PATCHES: 25705 29800 patch# 18 reference line: 27752 260.763 seconds. before reading done reading WAYNE load raw data , time = 24.27277100086212 ATTN ifrq ipol ln 8 3 29800 19.00000 IPOL, ITOP nblock 3 0 18 WAYNE Motion comp. coeff. calculated, time = 5.9520006179809570E-03 WAYNE Motion comp. added to patch, time = 8.128955006599426 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.8269062042236328E-02 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 = 209.7435950040817 Writing 2208 lines of data to file WAYNE write output data 1.444721937179565 ==w out 18 2208 945 45219840 WAYNE PROCESS 243.6162769794464 Processing block number 19 WAYNE PATCHES: 27217 31312 patch# 19 reference line: 29264 504.379 seconds. before reading done reading WAYNE load raw data , time = 23.37408494949341 ATTN ifrq ipol ln 8 3 31312 19.00000 IPOL, ITOP nblock 3 0 19 WAYNE Motion comp. coeff. calculated, time = 6.7740678787231445E-03 WAYNE Motion comp. added to patch, time = 8.373570084571838 WAYNE Doppler estimation done, time = 1.0967254638671875E-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 = 201.7230219841003 Writing 2208 lines of data to file WAYNE write output data 1.156635999679565 ==w out 19 4416 945 90439680 WAYNE PROCESS 234.6394500732422 Processing block number 20 WAYNE PATCHES: 28729 32824 patch# 20 reference line: 30776 739.019 seconds. before reading done reading WAYNE load raw data , time = 23.48351204395294 ATTN ifrq ipol ln 8 3 32824 19.00000 IPOL, ITOP nblock 3 0 20 WAYNE Motion comp. coeff. calculated, time = 6.1269998550415039E-03 WAYNE Motion comp. added to patch, time 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 2.562 seconds. before reading done reading WAYNE load raw data , time = 27.97367107868195 ATTN ifrq ipol ln 8 3 52480 19.00000 IPOL, ITOP nblock 3 0 33 WAYNE Motion comp. coeff. calculated, time = 6.4419507980346680E-03 WAYNE Motion comp. added to patch, time = 8.708007931709290 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.9780139923095703E-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 = 219.5986250638962 Writing 2208 lines of data to file WAYNE write output data 1.373961091041565 ==w out 33 0 945 0 WAYNE PROCESS 257.6666060686111 Processing block number 34 WAYNE PATCHES: 49897 53992 patch# 34 reference line: 51944 260.229 seconds. before reading done reading WAYNE load raw data , time = 24.10177397727966 ATTN ifrq ipol ln 8 3 53992 19.00000 IPOL, ITOP nblock 3 0 34 WAYNE Motion comp. coeff. calculated, time = 5.8000087738037109E-03 WAYNE Motion comp. added to patch, time = 8.131888031959534 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.5120010375976563E-02 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 = 241.4839490652084 Writing 2208 lines of data to file WAYNE write output data 2.458346009254456 ==w out 34 2208 945 45219840 WAYNE PROCESS 276.2193750143051 Processing block number 35 WAYNE PATCHES: 51409 55504 patch# 35 reference line: 53456 536.449 seconds. before reading done reading WAYNE load raw data , time = 24.95582199096680 ATTN ifrq ipol ln 8 3 55504 19.00000 IPOL, ITOP nblock 3 0 35 WAYNE Motion comp. coeff. calculated, time = 6.1830282211303711E-03 WAYNE Motion comp. added to patch, time = 8.154772043228149 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.1603941917419434E-02 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 = 221.2275110483170 Writing 2208 lines of data to file WAYNE write output data 1.740437030792236 ==w out 35 4416 945 90439680 WAYNE PROCESS 256.1084380149841 ==w out 36 6627 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 2.575 seconds. before reading done reading WAYNE load raw data , time = 27.39915597438812 ATTN ifrq ipol ln 8 3 57016 19.00000 IPOL, ITOP nblock 3 0 36 WAYNE Motion comp. coeff. calculated, time = 6.4870119094848633E-03 WAYNE Motion comp. added to patch, time = 8.655874013900757 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.2089948654174805E-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 = 237.3075900077820 Writing 2208 lines of data to file WAYNE write output data 1.254924058914185 ==w out 36 0 945 0 WAYNE PROCESS 274.6290609836578 Processing block number 37 WAYNE PATCHES: 54433 58528 patch# 37 reference line: 56480 277.204 seconds. before reading done reading WAYNE load raw data , time = 23.88497507572174 ATTN ifrq ipol ln 8 3 58528 19.00000 IPOL, ITOP nblock 3 0 37 WAYNE Motion comp. coeff. calculated, time = 7.7220201492309570E-03 WAYNE Motion comp. added to patch, time = 8.407551050186157 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 1.5609979629516602E-02 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 = 247.3245769739151 Writing 2208 lines of data to file WAYNE write output data 1.736236929893494 ==w out 37 2208 945 45219840 WAYNE PROCESS 281.3790079355240 Processing block number 38 WAYNE PATCHES: 55904 59999 patch# 38 reference line: 57951 558.583 seconds. before reading done reading WAYNE load raw data , time = 23.63617801666260 ATTN ifrq ipol ln 8 3 59999 19.00000 IPOL, ITOP nblock 3 0 38 WAYNE Motion comp. coeff. calculated, time = 6.7620277404785156E-03 WAYNE Motion comp. added to patch, time = 8.156523942947388 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.8849015235900879E-02 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 = 219.8481180667877 Writing 2208 lines of data to file WAYNE write output data 1.224734067916870 ==w out 38 4416 945 90439680 WAYNE PROCESS 252.8928259611130 ==w out 39 6627 = 8.155601024627686 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.0691156387329102E-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 = 162.6585710048676 Writing 2208 lines of data to file WAYNE write output data 1.109289050102234 ==w out 16 6624 945 135659520 WAYNE PROCESS 195.4351509809494 ==w out 17 8835 = 8.026204943656921 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 9.5109939575195313E-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 = 163.2048790454865 Writing 2208 lines of data to file WAYNE write output data 1.079529047012329 ==w out 8 6624 945 135659520 WAYNE PROCESS 195.2011970281601 ==w out 9 8835 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 2.526 seconds. before reading done reading WAYNE load raw data , time = 27.53682899475098 ATTN ifrq ipol ln 8 3 34336 19.00000 IPOL, ITOP nblock 3 0 21 WAYNE Motion comp. coeff. calculated, time = 6.4311027526855469E-03 WAYNE Motion comp. added to patch, time = 8.406256914138794 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.4890174865722656E-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 = 236.7219009399414 Writing 2208 lines of data to file WAYNE write output data 1.167418003082275 ==w out 21 0 945 0 WAYNE PROCESS 273.8439320325851 Processing block number 22 WAYNE PATCHES: 31753 35848 patch# 22 reference line: 33800 276.370 seconds. before reading done reading WAYNE load raw data , time = 24.33605706691742 ATTN ifrq ipol ln 8 3 35848 19.00000 IPOL, ITOP nblock 3 0 22 WAYNE Motion comp. coeff. calculated, time = 7.5780153274536133E-03 WAYNE Motion comp. added to patch, time = 8.207082986831665 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.2139906883239746E-02 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 = 247.8107589483261 Writing 2208 lines of data to file WAYNE write output data 1.676545023918152 ==w out 22 2208 945 45219840 WAYNE PROCESS 282.0622180700302 Processing block number 23 WAYNE PATCHES: 33265 37360 patch# 23 reference line: 35312 558.433 seconds. before reading done reading WAYNE load raw data , time = 23.85541093349457 ATTN ifrq ipol ln 8 3 37360 19.00000 IPOL, ITOP nblock 3 0 23 WAYNE Motion comp. coeff. calculated, time = 7.0649385452270508E-03 WAYNE Motion comp. added to patch, time = 8.074187994003296 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 1.9368052482604980E-02 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 = 219.9921619892120 Writing 2208 lines of data to file WAYNE write output data 1.249435067176819 ==w out 23 4416 945 90439680 WAYNE PROCESS 253.1995850801468 Processing block number 24 WAYNE PATCHES: 34777 38872 patch# 24 reference line: 36824 811.632 seconds. before reading done reading WAYNE load raw data , time = 22.98060894012451 ATTN ifrq ipol ln 8 3 38872 19.00000 IPOL, ITOP nblock 3 0 24 WAYNE Motion comp. coeff. calculated, time = 5.7150125503540039E-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 2.542 seconds. before reading done reading WAYNE load raw data , time = 28.74370098114014 ATTN ifrq ipol ln 8 3 40384 19.00000 IPOL, ITOP nblock 3 0 25 WAYNE Motion comp. coeff. calculated, time = 6.5000057220458984E-03 WAYNE Motion comp. added to patch, time = 8.628831982612610 WAYNE Doppler estimation done, time = 1.8954277038574219E-05 WAYNE write deskew done, time = 4.6399831771850586E-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 = 236.1918849945068 Writing 2208 lines of data to file WAYNE write output data 1.248134016990662 ==w out 25 0 945 0 WAYNE PROCESS 274.8261640071869 Processing block number 26 WAYNE PATCHES: 37801 41896 patch# 26 reference line: 39848 277.368 seconds. before reading done reading WAYNE load raw data , time = 25.26045191287994 ATTN ifrq ipol ln 8 3 41896 19.00000 IPOL, ITOP nblock 3 0 26 WAYNE Motion comp. coeff. calculated, time = 6.5450668334960938E-03 WAYNE Motion comp. added to patch, time = 8.275352954864502 WAYNE Doppler estimation done, time = 1.9073486328125000E-05 WAYNE write deskew done, time = 2.0714044570922852E-02 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 = 246.7569169998169 Writing 2208 lines of data to file WAYNE write output data 1.543179988861084 ==w out 26 2208 945 45219840 WAYNE PROCESS 281.8659119606018 Processing block number 27 WAYNE PATCHES: 39313 43408 patch# 27 reference line: 41360 559.234 seconds. before reading done reading WAYNE load raw data , time = 24.95679104328156 ATTN ifrq ipol ln 8 3 43408 19.00000 IPOL, ITOP nblock 3 0 27 WAYNE Motion comp. coeff. calculated, time = 7.2100162506103516E-03 WAYNE Motion comp. added to patch, time = 8.063801884651184 WAYNE Doppler estimation done, time = 1.8954277038574219E-05 WAYNE write deskew done, time = 1.4878988265991211E-02 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 = 219.0320149660110 Writing 2208 lines of data to file WAYNE write output data 1.158933997154236 ==w out 27 4416 945 90439680 WAYNE PROCESS 253.2363570928574 Processing block number 28 WAYNE PATCHES: 40825 44920 patch# 28 reference line: 42872 812.471 seconds. before reading done reading WAYNE load raw data , time = 23.87445008754730 ATTN ifrq ipol ln 8 3 44920 19.00000 IPOL, ITOP nblock 3 0 28 WAYNE Motion comp. coeff. calculated, time = 5.7159662246704102E-03 WAYNE Motion comp. added to patch, time = 8.059813022613525 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3957014083862305E-02 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 = 149.0686590671539 Writing 2208 lines of data to file WAYNE write output data 1.100090980529785 ==w out 12 6624 945 135659520 WAYNE PROCESS 181.2863379716873 ==w out 13 8835 = 8.150642037391663 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 2.1629333496093750E-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 = 149.5098539590836 Writing 2208 lines of data to file WAYNE write output data 1.143419027328491 ==w out 32 6624 945 135659520 WAYNE PROCESS 182.0659979581833 ==w out 33 8835 = 8.076990008354187 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.1399259567260742E-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 = 146.1211169958115 Writing 2208 lines of data to file WAYNE write output data 1.143390059471130 ==w out 20 6624 945 135659520 WAYNE PROCESS 178.8352919816971 ==w out 21 8835 = 7.841964006423950 WAYNE Doppler estimation done, time = 1.0013580322265625E-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 = 128.5753690004349 Writing 2208 lines of data to file WAYNE write output data 1.051218032836914 ==w out 24 6624 945 135659520 WAYNE PROCESS 160.4587069749832 ==w out 25 8835 = 7.761464953422546 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.0840167999267578E-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 = 128.9396960735321 Writing 2208 lines of data to file WAYNE write output data 1.072112917900085 ==w out 28 6624 945 135659520 WAYNE PROCESS 161.6573179960251 ==w out 29 8835 1 215302 0 2 214700 0 3 215542 0 4 215337 0 5 215435 0 6 215108 0 7 215419 0 8 215190 0 9 215439 0 10 215541 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: 3.4738063812255859E-02 WAYNE LOOP TIME: 982.0813230276108 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_c.vh_j /mnt/air65/airops/1355/ts1355_c.mocompv /mnt/air65/airops/1355/ts1355_c.dop /mnt/air65/airops/1355/ts1355_c.glb 2560 83904 update intf hdr ha: 6988.200 UPDATE: 2560 83904 3.331000 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_c.mocompv dopfile /mnt/air65/airops/1355/ts1355_c.dop globalfile /mnt/air65/airops/1355/ts1355_c.glb /mnt/air65/airops/1355/ts1355_c.glb 35 deskew line ra ha trc: 94.97231 184 8101.542 6988.200 89.87302 after deskew line ra ha trc: 94.97231 184 8101.542 6988.200 89.87302 lat1 lon1: 184 64.00552 -147.2205 83904 last ra n_ns ns: 8101.542 0 1 84087 83904 lati loni: 84087 64.00555 -146.3016 84087 1 center ra n_ns ns: 12361.89 1279 1279 42135 83904 lati loni: 42135 64.04395 -146.7600 42135 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_c.vh_j WAYNE FINAL PROCESS 984.4172620773315 ********************************************* ***** ***** ***** 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/1355/ts1355_c.vh_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_c.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.cv Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1355/ts1355_c.TB Name of the line output file? /mnt/air65/airops/1355/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.133050918579102 Deskewing 38 patches Processing block number 1 DEBUG -369 184.5937 -368.1037 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -369 -369 0 half line dmj dgc: 0 945 184 -369 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 -369 -369 1104 half line dmj dgc: 1 945 184 -369 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 -325 200.1651 -324.6242 0.0000000E+00 0.0000000E+00 1105 1557 44 408 patch iptc,sj,dgj,dgi,id: 2 1557 -325 -369 408 half line dmj dgc: 0 2457 200 -369 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1557 1105 Zeroing lines in arrays Total # of output lines = 2 1556 1557 2661 0 1104 patch iptc,sj,dgj,dgi,id: 2 2661 -325 -325 1104 half line dmj dgc: 1 2457 200 -369 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2661 1557 Zeroing lines in arrays Total # of output lines = 2 2660 Processing block number 3 DEBUG -287 212.1543 -286.4143 0.0000000E+00 0.0000000E+00 2661 3107 38 408 patch iptc,sj,dgj,dgi,id: 3 3107 -287 -325 408 half line dmj dgc: 0 3969 212 -369 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3107 2661 Zeroing lines in arrays Total # of output lines = 3 3106 3107 4211 0 1104 patch iptc,sj,dgj,dgi,id: 3 4211 -287 -287 1104 half line dmj dgc: 1 3969 212 -369 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4211 3107 Zeroing lines in arrays Total # of output lines = 3 4210 Processing block number 4 DEBUG -257 220.1804 -256.4569 0.0000000E+00 0.0000000E+00 4211 4649 30 408 patch iptc,sj,dgj,dgi,id: 4 4649 -257 -287 408 half line dmj dgc: 0 5481 220 -369 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4649 4211 Zeroing lines in arrays Total # of output lines = 4 4648 4649 5753 0 1104 patch iptc,sj,dgj,dgi,id: 4 5753 -257 -257 1104 half line dmj dgc: 1 5481 220 -369 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5753 4649 Zeroing lines in arrays Total # of output lines = 4 5752 Processing block number 5 DEBUG -230 226.4454 -229.1654 0.0000000E+00 0.0000000E+00 5753 6188 27 408 patch iptc,sj,dgj,dgi,id: 5 6188 -230 -257 408 half line dmj dgc: 0 6993 226 -369 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6188 5753 Zeroing lines in arrays Total # of output lines = 5 6187 6188 7292 0 1104 patch iptc,sj,dgj,dgi,id: 5 7292 -230 -230 1104 half line dmj dgc: 1 6993 226 -369 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7292 6188 Zeroing lines in arrays Total # of output lines = 5 7291 Processing block number 6 DEBUG -201 233.2411 -200.5432 0.0000000E+00 0.0000000E+00 7292 7729 29 408 patch iptc,sj,dgj,dgi,id: 6 7729 -201 -230 408 half line dmj dgc: 0 8505 233 -369 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 7729 7292 Zeroing lines in arrays Total # of output lines = 6 7728 7729 8833 0 1104 patch iptc,sj,dgj,dgi,id: 6 8833 -201 -201 1104 half line dmj dgc: 1 8505 233 -369 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 8833 7729 Zeroing lines in arrays Total # of output lines = 6 8832 Processing block number 7 DEBUG -180 238.4410 -179.3829 0.0000000E+00 0.0000000E+00 8833 9262 21 408 patch iptc,sj,dgj,dgi,id: 7 9262 -180 -201 408 half line dmj dgc: 0 10017 238 -369 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 9262 8833 Zeroing lines in arrays Total # of output lines = 7 9261 9262 10366 0 1104 patch iptc,sj,dgj,dgi,id: 7 10366 -180 -180 1104 half line dmj dgc: 1 10017 238 -369 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 sj>s1: 10366 9262 Zeroing lines in arrays Total # of output lines = 7 10365 Processing block number 8 DEBUG -169 242.0134 -168.1489 0.0000000E+00 0.0000000E+00 10366 10785 11 408 patch iptc,sj,dgj,dgi,id: 8 10785 -169 -180 408 half line dmj dgc: 0 11529 241 -369 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 10785 10366 Zeroing lines in arrays Total # of output lines = 8 10784 10785 11889 0 1104 patch iptc,sj,dgj,dgi,id: 8 11889 -169 -169 1104 half line dmj dgc: 1 11529 241 -369 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 11889 10785 Zeroing lines in arrays Total # of output lines = 8 11888 Processing block number 9 DEBUG -174 239.3714 -172.9379 0.0000000E+00 0.0000000E+00 11889 12292 -5 408 patch iptc,sj,dgj,dgi,id: 9 4 -174 -169 408 half line dmj dgc: 0 13041 239 -369 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 s1>sj: 11889 4 Zeroing lines in arrays Total # of output lines = 9 12291 4 1108 0 1104 patch iptc,sj,dgj,dgi,id: 9 1108 -174 -174 1104 half line dmj dgc: 1 13041 239 -369 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 1108 4 Zeroing lines in arrays Total # of output lines = 9 13395 Processing block number 10 DEBUG -187 232.7260 -186.6827 0.0000000E+00 0.0000000E+00 1108 1503 -13 408 patch iptc,sj,dgj,dgi,id: 10 1503 -187 -174 408 half line dmj dgc: 0 14553 232 -369 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 1503 1108 Zeroing lines in arrays Total # of output lines = 10 13790 1503 2607 0 1104 patch iptc,sj,dgj,dgi,id: 10 2607 -187 -187 1104 half line dmj dgc: 1 14553 232 -369 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 2607 1503 Zeroing lines in arrays Total # of output lines = 10 14894 Processing block number 11 DEBUG -208 224.3103 -207.2107 0.0000000E+00 0.0000000E+00 2607 2994 -21 408 patch iptc,sj,dgj,dgi,id: 11 2994 -208 -187 408 half line dmj dgc: 0 16065 224 -369 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 2994 2607 Zeroing lines in arrays Total # of output lines = 11 15281 2994 4098 0 1104 patch iptc,sj,dgj,dgi,id: 11 4098 -208 -208 1104 half line dmj dgc: 1 16065 224 -369 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 4098 2994 Zeroing lines in arrays Total # of output lines = 11 16385 Processing block number 12 DEBUG -226 218.2470 -225.6422 0.0000000E+00 0.0000000E+00 4098 4488 -18 408 patch iptc,sj,dgj,dgi,id: 12 4488 -226 -208 408 half line dmj dgc: 0 17577 218 -369 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 4488 4098 Zeroing lines in arrays Total # of output lines = 12 16775 4488 5592 0 1104 patch iptc,sj,dgj,dgi,id: 12 5592 -226 -226 1104 half line dmj dgc: 1 17577 218 -369 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 5592 4488 Zeroing lines in arrays Total # of output lines = 12 17879 Processing block number 13 DEBUG -245 213.6812 -244.0952 0.0000000E+00 0.0000000E+00 5592 5981 -19 408 patch iptc,sj,dgj,dgi,id: 13 5981 -245 -226 408 half line dmj dgc: 0 19089 213 -369 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 5981 5592 Zeroing lines in arrays Total # of output lines = 13 18268 5981 7085 0 1104 patch iptc,sj,dgj,dgi,id: 13 7085 -245 -245 1104 half line dmj dgc: 1 19089 213 -369 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 7085 5981 Zeroing lines in arrays Total # of output lines = 13 19372 Processing block number 14 DEBUG -263 209.7579 -262.3060 0.0000000E+00 0.0000000E+00 7085 7475 -18 408 patch iptc,sj,dgj,dgi,id: 14 7475 -263 -245 408 half line dmj dgc: 0 20601 209 -369 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 sj>s1: 7475 7085 Zeroing lines in arrays Total # of output lines = 14 19762 7475 8579 0 1104 patch iptc,sj,dgj,dgi,id: 14 8579 -263 -263 1104 half line dmj dgc: 1 20601 209 -369 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 8579 7475 Zeroing lines in arrays Total # of output lines = 14 20866 Processing block number 15 DEBUG -276 208.5761 -275.7751 0.0000000E+00 0.0000000E+00 8579 8974 -13 408 patch iptc,sj,dgj,dgi,id: 15 8974 -276 -263 408 half line dmj dgc: 0 22113 208 -369 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 8974 8579 Zeroing lines in arrays Total # of output lines = 15 21261 8974 10078 0 1104 patch iptc,sj,dgj,dgi,id: 15 10078 -276 -276 1104 half line dmj dgc: 1 22113 208 -369 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 10078 8974 Zeroing lines in arrays Total # of output lines = 15 22365 Processing block number 16 DEBUG -273 212.6550 -272.4865 0.0000000E+00 0.0000000E+00 10078 10489 3 408 patch iptc,sj,dgj,dgi,id: 16 10489 -273 -276 408 half line dmj dgc: 0 23625 212 -369 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 10489 10078 Zeroing lines in arrays Total # of output lines = 16 22776 10489 11593 0 1104 patch iptc,sj,dgj,dgi,id: 16 11593 -273 -273 1104 half line dmj dgc: 1 23625 212 -369 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 11593 10489 Zeroing lines in arrays Total # of output lines = 16 23880 Processing block number 17 DEBUG -257 219.1864 -256.0207 0.0000000E+00 0.0000000E+00 11593 12017 16 408 patch iptc,sj,dgj,dgi,id: 17 12017 -257 -273 408 half line dmj dgc: 0 25137 219 -369 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 12017 11593 Zeroing lines in arrays Total # of output lines = 17 24304 12017 13121 0 1104 patch iptc,sj,dgj,dgi,id: 17 833 -257 -257 1104 half line dmj dgc: 1 25137 219 -369 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 s1>sj: 12017 833 Zeroing lines in arrays Total # of output lines = 17 25408 Processing block number 18 DEBUG -222 226.0244 -221.3181 0.0000000E+00 0.0000000E+00 833 1276 35 408 patch iptc,sj,dgj,dgi,id: 18 1276 -222 -257 408 half line dmj dgc: 0 26649 225 -369 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 1276 833 Zeroing lines in arrays Total # of output lines = 18 25851 1276 2380 0 1104 patch iptc,sj,dgj,dgi,id: 18 2380 -222 -222 1104 half line dmj dgc: 1 26649 225 -369 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 2380 1276 Zeroing lines in arrays Total # of output lines = 18 26955 Processing block number 19 DEBUG -184 230.6561 -183.8132 0.0000000E+00 0.0000000E+00 2380 2826 38 408 patch iptc,sj,dgj,dgi,id: 19 2826 -184 -222 408 half line dmj dgc: 0 28161 230 -369 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 2826 2380 Zeroing lines in arrays Total # of output lines = 19 27401 2826 3930 0 1104 patch iptc,sj,dgj,dgi,id: 19 3930 -184 -184 1104 half line dmj dgc: 1 28161 230 -369 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 3930 2826 Zeroing lines in arrays Total # of output lines = 19 28505 Processing block number 20 DEBUG -144 237.6539 -142.9326 0.0000000E+00 0.0000000E+00 3930 4378 40 408 patch iptc,sj,dgj,dgi,id: 20 4378 -144 -184 408 half line dmj dgc: 0 29673 237 -369 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 4378 3930 Zeroing lines in arrays Total # of output lines = 20 28953 4378 5482 0 1104 patch iptc,sj,dgj,dgi,id: 20 5482 -144 -144 1104 half line dmj dgc: 1 29673 237 -369 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 sj>s1: 5482 4378 Zeroing lines in arrays Total # of output lines = 20 30057 Processing block number 21 DEBUG -105 246.8017 -104.7526 0.0000000E+00 0.0000000E+00 5482 5929 39 408 patch iptc,sj,dgj,dgi,id: 21 5929 -105 -144 408 half line dmj dgc: 0 31185 246 -369 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 5929 5482 Zeroing lines in arrays Total # of output lines = 21 30504 5929 7033 0 1104 patch iptc,sj,dgj,dgi,id: 21 7033 -105 -105 1104 half line dmj dgc: 1 31185 246 -369 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 7033 5929 Zeroing lines in arrays Total # of output lines = 21 31608 Processing block number 22 DEBUG -65 258.0728 -64.57378 0.0000000E+00 0.0000000E+00 7033 7481 40 408 patch iptc,sj,dgj,dgi,id: 22 7481 -65 -105 408 half line dmj dgc: 0 32697 257 -369 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Writing data negflag .eq. 0 sj>s1: 7481 7033 Zeroing lines in arrays Total # of output lines = 22 32056 7481 8585 0 1104 patch iptc,sj,dgj,dgi,id: 22 8585 -65 -65 1104 half line dmj dgc: 1 32697 257 -369 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 8585 7481 Zeroing lines in arrays Total # of output lines = 22 33160 Processing block number 23 DEBUG -38 265.2150 -37.29936 0.0000000E+00 0.0000000E+00 8585 9020 27 408 patch iptc,sj,dgj,dgi,id: 23 9020 -38 -65 408 half line dmj dgc: 0 34209 265 -369 Actual deskew ireclen: 20480 ** 23 1104 0 49680 Writing data negflag .eq. 0 sj>s1: 9020 8585 Zeroing lines in arrays Total # of output lines = 23 33595 9020 10124 0 1104 patch iptc,sj,dgj,dgi,id: 23 10124 -38 -38 1104 half line dmj dgc: 1 34209 265 -369 Actual deskew ireclen: 20480 ** 23 1104 1 50784 Writing data negflag .eq. 0 sj>s1: 10124 9020 Zeroing lines in arrays Total # of output lines = 23 34699 Processing block number 24 DEBUG -19 270.9178 -18.02409 0.0000000E+00 0.0000000E+00 10124 10551 19 408 patch iptc,sj,dgj,dgi,id: 24 10551 -19 -38 408 half line dmj dgc: 0 35721 270 -369 Actual deskew ireclen: 20480 ** 24 1104 0 51888 Writing data negflag .eq. 0 sj>s1: 10551 10124 Zeroing lines in arrays Total # of output lines = 24 35126 10551 11655 0 1104 patch iptc,sj,dgj,dgi,id: 24 11655 -19 -19 1104 half line dmj dgc: 1 35721 270 -369 Actual deskew ireclen: 20480 ** 24 1104 1 52992 Writing data negflag .eq. 0 sj>s1: 11655 10551 Zeroing lines in arrays Total # of output lines = 24 36230 Processing block number 25 DEBUG -11 272.4091 -10.55583 0.0000000E+00 0.0000000E+00 11655 12071 8 408 patch iptc,sj,dgj,dgi,id: 25 12071 -11 -19 408 half line dmj dgc: 0 37233 272 -369 Actual deskew ireclen: 20480 ** 25 1104 0 54096 Writing data negflag .eq. 0 sj>s1: 12071 11655 Zeroing lines in arrays Total # of output lines = 25 36646 12071 13175 0 1104 patch iptc,sj,dgj,dgi,id: 25 887 -11 -11 1104 half line dmj dgc: 1 37233 272 -369 Actual deskew ireclen: 20480 ** 25 1104 1 55200 Writing data negflag .eq. 0 s1>sj: 12071 887 Zeroing lines in arrays Total # of output lines = 25 37750 Processing block number 26 DEBUG -8 272.4593 -7.108569 0.0000000E+00 0.0000000E+00 887 1298 3 408 patch iptc,sj,dgj,dgi,id: 26 1298 -8 -11 408 half line dmj dgc: 0 38745 272 -369 Actual deskew ireclen: 20480 ** 26 1104 0 56304 Writing data negflag .eq. 0 sj>s1: 1298 887 Zeroing lines in arrays Total # of output lines = 26 38161 1298 2402 0 1104 patch iptc,sj,dgj,dgi,id: 26 2402 -8 -8 1104 half line dmj dgc: 1 38745 272 -369 Actual deskew ireclen: 20480 ** 26 1104 1 57408 Writing data negflag .eq. 0 sj>s1: 2402 1298 Zeroing lines in arrays Total # of output lines = 26 39265 Processing block number 27 DEBUG -8 271.1182 -7.287090 0.0000000E+00 0.0000000E+00 2402 2810 0 408 patch iptc,sj,dgj,dgi,id: 27 2810 -8 -8 408 half line dmj dgc: 0 40257 271 -369 Actual deskew ireclen: 20480 ** 27 1104 0 58512 Writing data negflag .eq. 0 sj>s1: 2810 2402 Zeroing lines in arrays Total # of output lines = 27 39673 2810 3914 0 1104 patch iptc,sj,dgj,dgi,id: 27 3914 -8 -8 1104 half line dmj dgc: 1 40257 271 -369 Actual deskew ireclen: 20480 ** 27 1104 1 59616 Writing data negflag .eq. 0 sj>s1: 3914 2810 Zeroing lines in arrays Total # of output lines = 27 40777 Processing block number 28 DEBUG -2 273.2198 -1.466522 0.0000000E+00 0.0000000E+00 3914 4328 6 408 patch iptc,sj,dgj,dgi,id: 28 4328 -2 -8 408 half line dmj dgc: 0 41769 273 -369 Actual deskew ireclen: 20480 ** 28 1104 0 60720 Writing data negflag .eq. 0 sj>s1: 4328 3914 Zeroing lines in arrays Total # of output lines = 28 41191 4328 5432 0 1104 patch iptc,sj,dgj,dgi,id: 28 5432 -2 -2 1104 half line dmj dgc: 1 41769 273 -369 Actual deskew ireclen: 20480 ** 28 1104 1 61824 Writing data negflag .eq. 0 sj>s1: 5432 4328 Zeroing lines in arrays Total # of output lines = 28 42295 Processing block number 29 DEBUG 10 280.7167 10.53837 0.0000000E+00 0.0000000E+00 5432 5852 12 408 patch iptc,sj,dgj,dgi,id: 29 5852 10 -2 408 half line dmj dgc: 0 43281 280 -369 Actual deskew ireclen: 20480 ** 29 1104 0 62928 Writing data negflag .eq. 0 sj>s1: 5852 5432 Zeroing lines in arrays Total # of output lines = 29 42715 5852 6956 0 1104 patch iptc,sj,dgj,dgi,id: 29 6956 10 10 1104 half line dmj dgc: 1 43281 280 -369 Actual deskew ireclen: 20480 ** 29 1104 1 64032 Writing data negflag .eq. 0 sj>s1: 6956 5852 Zeroing lines in arrays Total # of output lines = 29 43819 Processing block number 30 DEBUG 25 291.6995 25.63912 0.0000000E+00 0.0000000E+00 6956 7379 15 408 patch iptc,sj,dgj,dgi,id: 30 7379 25 10 408 half line dmj dgc: 0 44793 291 -369 Actual deskew ireclen: 20480 ** 30 1104 0 65136 Writing data negflag .eq. 0 sj>s1: 7379 6956 Zeroing lines in arrays Total # of output lines = 30 44242 7379 8483 0 1104 patch iptc,sj,dgj,dgi,id: 30 8483 25 25 1104 half line dmj dgc: 1 44793 291 -369 Actual deskew ireclen: 20480 ** 30 1104 1 66240 Writing data negflag .eq. 0 sj>s1: 8483 7379 Zeroing lines in arrays Total # of output lines = 30 45346 Processing block number 31 DEBUG 28 299.8600 28.34870 0.0000000E+00 0.0000000E+00 8483 8894 3 408 patch iptc,sj,dgj,dgi,id: 31 8894 28 25 408 half line dmj dgc: 0 46305 299 -369 Actual deskew ireclen: 20480 ** 31 1104 0 67344 Writing data negflag .eq. 0 sj>s1: 8894 8483 Zeroing lines in arrays Total # of output lines = 31 45757 8894 9998 0 1104 patch iptc,sj,dgj,dgi,id: 31 9998 28 28 1104 half line dmj dgc: 1 46305 299 -369 Actual deskew ireclen: 20480 ** 31 1104 1 68448 Writing data negflag .eq. 0 sj>s1: 9998 8894 Zeroing lines in arrays Total # of output lines = 31 46861 Processing block number 32 DEBUG 13 300.8651 13.41717 0.0000000E+00 0.0000000E+00 9998 10391 -15 408 patch iptc,sj,dgj,dgi,id: 32 10391 13 28 408 half line dmj dgc: 0 47817 300 -369 Actual deskew ireclen: 20480 ** 32 1104 0 69552 Writing data negflag .eq. 0 sj>s1: 10391 9998 Zeroing lines in arrays Total # of output lines = 32 47254 10391 11495 0 1104 patch iptc,sj,dgj,dgi,id: 32 11495 13 13 1104 half line dmj dgc: 1 47817 300 -369 Actual deskew ireclen: 20480 ** 32 1104 1 70656 Writing data negflag .eq. 0 sj>s1: 11495 10391 Zeroing lines in arrays Total # of output lines = 32 48358 Processing block number 33 DEBUG -4 296.9362 -3.436279 0.0000000E+00 0.0000000E+00 11495 11886 -17 408 patch iptc,sj,dgj,dgi,id: 33 11886 -4 13 408 half line dmj dgc: 0 49329 296 -369 Actual deskew ireclen: 20480 ** 33 1104 0 71760 Writing data negflag .eq. 0 sj>s1: 11886 11495 Zeroing lines in arrays Total # of output lines = 33 48749 11886 12990 0 1104 patch iptc,sj,dgj,dgi,id: 33 702 -4 -4 1104 half line dmj dgc: 1 49329 296 -369 Actual deskew ireclen: 20480 ** 33 1104 1 72864 Writing data negflag .eq. 0 s1>sj: 11886 702 Zeroing lines in arrays Total # of output lines = 33 49853 Processing block number 34 DEBUG -23 286.3521 -22.59504 0.0000000E+00 0.0000000E+00 702 1091 -19 408 patch iptc,sj,dgj,dgi,id: 34 1091 -23 -4 408 half line dmj dgc: 0 50841 286 -369 Actual deskew ireclen: 20480 ** 34 1104 0 73968 Writing data negflag .eq. 0 sj>s1: 1091 702 Zeroing lines in arrays Total # of output lines = 34 50242 1091 2195 0 1104 patch iptc,sj,dgj,dgi,id: 34 2195 -23 -23 1104 half line dmj dgc: 1 50841 286 -369 Actual deskew ireclen: 20480 ** 34 1104 1 75072 Writing data negflag .eq. 0 sj>s1: 2195 1091 Zeroing lines in arrays Total # of output lines = 34 51346 Processing block number 35 DEBUG -27 277.1440 -26.54368 0.0000000E+00 0.0000000E+00 2195 2599 -4 408 patch iptc,sj,dgj,dgi,id: 35 2599 -27 -23 408 half line dmj dgc: 0 52353 277 -369 Actual deskew ireclen: 20480 ** 35 1104 0 76176 Writing data negflag .eq. 0 sj>s1: 2599 2195 Zeroing lines in arrays Total # of output lines = 35 51750 2599 3703 0 1104 patch iptc,sj,dgj,dgi,id: 35 3703 -27 -27 1104 half line dmj dgc: 1 52353 277 -369 Actual deskew ireclen: 20480 ** 35 1104 1 77280 Writing data negflag .eq. 0 sj>s1: 3703 2599 Zeroing lines in arrays Total # of output lines = 35 52854 Processing block number 36 DEBUG -20 272.2151 -19.59590 0.0000000E+00 0.0000000E+00 3703 4118 7 408 patch iptc,sj,dgj,dgi,id: 36 4118 -20 -27 408 half line dmj dgc: 0 53865 272 -369 Actual deskew ireclen: 20480 ** 36 1104 0 78384 Writing data negflag .eq. 0 sj>s1: 4118 3703 Zeroing lines in arrays Total # of output lines = 36 53269 4118 5222 0 1104 patch iptc,sj,dgj,dgi,id: 36 5222 -20 -20 1104 half line dmj dgc: 1 53865 272 -369 Actual deskew ireclen: 20480 ** 36 1104 1 79488 Writing data negflag .eq. 0 sj>s1: 5222 4118 Zeroing lines in arrays Total # of output lines = 36 54373 Processing block number 37 DEBUG -1 275.9081 -0.7621575 0.0000000E+00 0.0000000E+00 5222 5649 19 408 patch iptc,sj,dgj,dgi,id: 37 5649 -1 -20 408 half line dmj dgc: 0 55377 275 -369 Actual deskew ireclen: 20480 ** 37 1104 0 80592 Writing data negflag .eq. 0 sj>s1: 5649 5222 Zeroing lines in arrays Total # of output lines = 37 54800 5649 6753 0 1104 patch iptc,sj,dgj,dgi,id: 37 6753 -1 -1 1104 half line dmj dgc: 1 55377 275 -369 Actual deskew ireclen: 20480 ** 37 1104 1 81696 Writing data negflag .eq. 0 sj>s1: 6753 5649 Zeroing lines in arrays Total # of output lines = 37 55904 Processing block number 38 DEBUG 18 284.3380 19.07608 0.0000000E+00 0.0000000E+00 6753 7139 19 367 patch iptc,sj,dgj,dgi,id: 38 7139 18 -1 367 half line dmj dgc: 0 56848 284 -369 Actual deskew ireclen: 20480 ** 38 1104 0 82800 Writing data negflag .eq. 0 sj>s1: 7139 6753 Zeroing lines in arrays Total # of output lines = 38 56290 7139 8243 0 1104 patch iptc,sj,dgj,dgi,id: 38 8243 18 18 1104 half line dmj dgc: 1 56848 284 -369 Actual deskew ireclen: 20480 ** 38 1104 1 83904 Writing data negflag .eq. 0 sj>s1: 8243 7139 Zeroing lines in arrays Total # of output lines = 38 57394 ia dmi dgi: 8243 284 18 Writing the last 1370 lines last half sj>s1 9613 8243 57394 WAYNE done patche 243.2659009695053 Total # of output lines = 58764 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 58764 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 244.2417209148407 ********************************************* ***** ***** ***** 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/1355/sensor.vv00c Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/c_vv Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_c.mocompv Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.cv WAYNE init fft, calc slant range, load unpack, interpo 1.6254000E-02 reading motion compensation data WAYNE read motion compen 1.413408 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 0.4788651 start range comp, time = 2.738 WAYNE PREV 1.925264 NUMBER OF PROCESSOR USED = 10 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS 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 3.169 seconds. before reading done reading WAYNE load raw data , time = 24.40709507465363 ATTN ifrq ipol ln 8 4 57016 19.00000 IPOL, ITOP nblock 4 0 36 WAYNE Motion comp. coeff. calculated, time = 6.3120126724243164E-03 WAYNE Motion comp. added to patch, time = 8.690667033195496 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.3149719238281250E-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 = 188.2350800037384 Writing 2208 lines of data to file WAYNE write output data 1.076179027557373 ==w out 36 0 945 0 WAYNE PROCESS 222.4205009937286 Processing block number 37 WAYNE PATCHES: 54433 58528 patch# 37 reference line: 56480 225.590 seconds. before reading done reading WAYNE load raw data , time = 23.85158598423004 ATTN ifrq ipol ln 8 4 58528 19.00000 IPOL, ITOP nblock 4 0 37 WAYNE Motion comp. coeff. calculated, time = 5.9390068054199219E-03 WAYNE Motion comp. added to patch, time = 8.052811980247498 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.6099681854248047E-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 = 147.3960980176926 Writing 2208 lines of data to file WAYNE write output data 1.309343934059143 ==w out 37 2208 945 45219840 WAYNE PROCESS 180.6199599504471 Processing block number 38 WAYNE PATCHES: 55904 59999 patch# 38 reference line: 57951 406.210 seconds. before reading done reading WAYNE load raw data , time = 23.43165493011475 ATTN ifrq ipol ln 8 4 59999 19.00000 IPOL, ITOP nblock 4 0 38 WAYNE Motion comp. coeff. calculated, time = 6.6409111022949219E-03 WAYNE Motion comp. added to patch, time = 8.082263946533203 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6869773864746094E-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 = 163.1737599372864 Writing 2208 lines of data to file WAYNE write output data 1.555549979209900 ==w out 38 4416 945 90439680 WAYNE PROCESS 196.2540919780731 ==w out 39 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 3.086 seconds. before reading done reading WAYNE load raw data , time = 24.19646501541138 ATTN ifrq ipol ln 8 4 22240 19.00000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 6.7340135574340820E-03 WAYNE Motion comp. added to patch, time = 8.613134980201721 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 3.1199455261230469E-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 = 181.2457239627838 Writing 2208 lines of data to file WAYNE write output data 1.131114959716797 ==w out 13 0 945 0 WAYNE PROCESS 215.1980569362640 Processing block number 14 WAYNE PATCHES: 19657 23752 patch# 14 reference line: 21704 218.284 seconds. before reading done reading WAYNE load raw data , time = 23.16850507259369 ATTN ifrq ipol ln 8 4 23752 19.00000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 6.1639547348022461E-03 WAYNE Motion comp. added to patch, time = 8.029286026954651 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4930238723754883E-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 = 151.1391879320145 Writing 2208 lines of data to file WAYNE write output data 1.142899036407471 ==w out 14 2208 945 45219840 WAYNE PROCESS 183.4898619651794 Processing block number 15 WAYNE PATCHES: 21169 25264 patch# 15 reference line: 23216 401.774 seconds. before reading done reading WAYNE load raw data , time = 23.28219294548035 ATTN ifrq ipol ln 8 4 25264 19.00000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 6.1979293823242188E-03 WAYNE Motion comp. added to patch, time = 8.127056002616882 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 = 147.0368551015854 Writing 2208 lines of data to file WAYNE write output data 1.239700913429260 ==w out 15 4416 945 90439680 WAYNE PROCESS 179.6959089040756 Processing block number 16 WAYNE PATCHES: 22681 26776 patch# 16 reference line: 24728 581.470 seconds. before reading done reading WAYNE load raw data , time = 23.34780800342560 ATTN ifrq ipol ln 8 4 26776 19.00000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 6.2758922576904297E-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 3.083 seconds. before reading done reading WAYNE load raw data , time = 23.79619503021240 ATTN ifrq ipol ln 8 4 16192 19.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 6.3759088516235352E-03 WAYNE Motion comp. added to patch, time = 8.524229049682617 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8909444808959961E-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 = 237.8745990991592 Writing 2208 lines of data to file WAYNE write output data 1.553279042243958 ==w out 9 0 945 0 WAYNE PROCESS 271.7592769861221 Processing block number 10 WAYNE PATCHES: 13609 17704 patch# 10 reference line: 15656 274.843 seconds. before reading done reading WAYNE load raw data , time = 23.80118596553802 ATTN ifrq ipol ln 8 4 17704 19.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 6.6750049591064453E-03 WAYNE Motion comp. added to patch, time = 8.157786011695862 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.0510425567626953E-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 = 192.3079949617386 Writing 2208 lines of data to file WAYNE write output data 1.308393955230713 ==w out 10 2208 945 45219840 WAYNE PROCESS 225.5871160030365 Processing block number 11 WAYNE PATCHES: 15121 19216 patch# 11 reference line: 17168 500.430 seconds. before reading done reading WAYNE load raw data , time = 22.81552898883820 ATTN ifrq ipol ln 8 4 19216 19.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 5.9309005737304688E-03 WAYNE Motion comp. added to patch, time = 8.008911013603210 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.5290250778198242E-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 = 154.4178910255432 Writing 2208 lines of data to file WAYNE write output data 1.172326922416687 ==w out 11 4416 945 90439680 WAYNE PROCESS 186.4245539903641 Processing block number 12 WAYNE PATCHES: 16633 20728 patch# 12 reference line: 18680 686.855 seconds. before reading done reading WAYNE load raw data , time = 22.63349306583405 ATTN ifrq ipol ln 8 4 20728 19.00000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 5.8349370956420898E-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 -2.5874000E-02 2.8752400E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 3.073 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 24.12462496757507 ATTN ifrq ipol ln 8 4 4096 19.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 6.4330101013183594E-03 TESTING 0.0000000E+00 -32.36374 1.722783 WAYNE Motion comp. added to patch, time = 8.545395016670227 WAYNE Doppler estimation done, time = 1.8000602722167969E-05 WAYNE write deskew done, time = 2.9450654983520508E-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 -32.36374 1.722783 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.5874000E-02 2.8752400E-02 WAYNE Azimuth compression done, time = 194.8580310344696 Writing 2208 lines of data to file WAYNE write output data 1.190333008766174 ==w out 1 0 945 0 WAYNE PROCESS 228.7294499874115 Processing block number 2 TESTING WHY -2.4567099E-02 2.9131001E-02 1512 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 231.802 seconds. TESTING 1513 before reading done reading WAYNE load raw data , time = 23.54148399829865 ATTN ifrq ipol ln 8 4 5608 19.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 6.0009956359863281E-03 TESTING 0.0000000E+00 -30.79124 1.736021 WAYNE Motion comp. added to patch, time = 8.138931989669800 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6680231094360352E-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 -30.79124 1.736021 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.4567099E-02 2.9131001E-02 WAYNE Azimuth compression done, time = 218.8989739418030 Writing 2208 lines of data to file WAYNE write output data 1.397940039634705 ==w out 2 2208 945 45219840 WAYNE PROCESS 251.9878619909286 Processing block number 3 TESTING WHY -2.3338700E-02 2.9290199E-02 1512 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 483.791 seconds. TESTING 3025 before reading done reading WAYNE load raw data , time = 23.22088801860809 ATTN ifrq ipol ln 8 4 7120 19.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 7.6429843902587891E-03 TESTING 0.0000000E+00 -29.14614 1.971170 WAYNE Motion comp. added to patch, time = 8.020900011062622 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.4089813232421875E-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 3.157 seconds. before reading done reading WAYNE load raw data , time = 24.70515501499176 ATTN ifrq ipol ln 8 4 52480 19.00000 IPOL, ITOP nblock 4 0 33 WAYNE Motion comp. coeff. calculated, time = 6.4600706100463867E-03 WAYNE Motion comp. added to patch, time = 8.779108047485352 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 4.3720006942749023E-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 = 238.7098870277405 Writing 2208 lines of data to file WAYNE write output data 1.397320032119751 ==w out 33 0 945 0 WAYNE PROCESS 273.6051459312439 Processing block number 34 WAYNE PATCHES: 49897 53992 patch# 34 reference line: 51944 276.763 seconds. before reading done reading WAYNE load raw data , time = 24.04304802417755 ATTN ifrq ipol ln 8 4 53992 19.00000 IPOL, ITOP nblock 4 0 34 WAYNE Motion comp. coeff. calculated, time = 6.9619417190551758E-03 WAYNE Motion comp. added to patch, time = 8.500464916229248 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 3.7139654159545898E-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 = 211.8263740539551 Writing 2208 lines of data to file WAYNE write output data 1.208145976066589 ==w out 34 2208 945 45219840 WAYNE PROCESS 245.5910929441452 Processing block number 35 WAYNE PATCHES: 51409 55504 patch# 35 reference line: 53456 522.354 seconds. before reading done reading WAYNE load raw data , time = 23.43124997615814 ATTN ifrq ipol ln 8 4 55504 19.00000 IPOL, ITOP nblock 4 0 35 WAYNE Motion comp. coeff. calculated, time = 6.6790580749511719E-03 WAYNE Motion comp. added to patch, time = 8.307482957839966 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.9419660568237305E-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 = 188.1409440040588 Writing 2208 lines of data to file WAYNE write output data 1.198348045349121 ==w out 35 4416 945 90439680 WAYNE PROCESS 221.0897179841995 ==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 3.074 seconds. before reading done reading WAYNE load raw data , time = 23.79388296604156 ATTN ifrq ipol ln 8 4 10144 19.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 6.6020488739013672E-03 WAYNE Motion comp. added to patch, time = 8.577013969421387 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.0570030212402344E-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 = 187.4815070629120 Writing 2208 lines of data to file WAYNE write output data 1.073826909065247 ==w out 5 0 945 0 WAYNE PROCESS 220.9376749992371 Processing block number 6 WAYNE PATCHES: 7561 11656 patch# 6 reference line: 9608 224.012 seconds. before reading done reading WAYNE load raw data , time = 23.45387291908264 ATTN ifrq ipol ln 8 4 11656 19.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 5.9130191802978516E-03 WAYNE Motion comp. added to patch, time = 8.015143990516663 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.7090311050415039E-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 = 217.2817890644073 Writing 2208 lines of data to file WAYNE write output data 1.294481039047241 ==w out 6 2208 945 45219840 WAYNE PROCESS 250.0554410219193 Processing block number 7 WAYNE PATCHES: 9073 13168 patch# 7 reference line: 11120 474.068 seconds. before reading done reading WAYNE load raw data , time = 23.06646096706390 ATTN ifrq ipol ln 8 4 13168 19.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 6.3999891281127930E-03 WAYNE Motion comp. added to patch, time = 8.024533987045288 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.5650262832641602E-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 = 217.8959560394287 Writing 2208 lines of data to file WAYNE write output data 1.504910945892334 ==w out 7 4416 945 90439680 WAYNE PROCESS 250.5028100013733 Processing block number 8 WAYNE PATCHES: 10585 14680 patch# 8 reference line: 12632 724.571 seconds. before reading done reading WAYNE load raw data , time = 22.63055098056793 ATTN ifrq ipol ln 8 4 14680 19.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 5.5719614028930664E-03 WAYNE Motion comp. added to patch, time = 8.147866010665894 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.0860433578491211E-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 = 142.7280479669571 Writing 2208 lines of data to file WAYNE write output data 1.064526081085205 ==w out 16 6624 945 135659520 WAYNE PROCESS 175.2985280752182 ==w out 17 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 3.101 seconds. before reading done reading WAYNE load raw data , time = 24.45459806919098 ATTN ifrq ipol ln 8 4 28288 19.00000 IPOL, ITOP nblock 4 0 17 WAYNE Motion comp. coeff. calculated, time = 6.3511133193969727E-03 WAYNE Motion comp. added to patch, time = 8.692775964736938 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.1249523162841797E-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 = 192.7580020427704 Writing 2208 lines of data to file WAYNE write output data 1.117890000343323 ==w out 17 0 945 0 WAYNE PROCESS 227.0347911119461 Processing block number 18 WAYNE PATCHES: 25705 29800 patch# 18 reference line: 27752 230.136 seconds. before reading done reading WAYNE load raw data , time = 23.64393603801727 ATTN ifrq ipol ln 8 4 29800 19.00000 IPOL, ITOP nblock 4 0 18 WAYNE Motion comp. coeff. calculated, time = 5.9469938278198242E-03 WAYNE Motion comp. added to patch, time = 8.220057964324951 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6659965515136719E-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 = 219.5504781007767 Writing 2208 lines of data to file WAYNE write output data 1.401444077491760 ==w out 18 2208 945 45219840 WAYNE PROCESS 252.8261810541153 Processing block number 19 WAYNE PATCHES: 27217 31312 patch# 19 reference line: 29264 482.963 seconds. before reading done reading WAYNE load raw data , time = 23.41253304481506 ATTN ifrq ipol ln 8 4 31312 19.00000 IPOL, ITOP nblock 4 0 19 WAYNE Motion comp. coeff. calculated, time = 6.3890218734741211E-03 WAYNE Motion comp. added to patch, time = 8.059589982032776 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4160146713256836E-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 = 218.0547149181366 Writing 2208 lines of data to file WAYNE write output data 1.074223041534424 ==w out 19 4416 945 90439680 WAYNE PROCESS 250.6114259958267 Processing block number 20 WAYNE PATCHES: 28729 32824 patch# 20 reference line: 30776 733.575 seconds. before reading done reading WAYNE load raw data , time = 22.90035796165466 ATTN ifrq ipol ln 8 4 32824 19.00000 IPOL, ITOP nblock 4 0 20 WAYNE Motion comp. coeff. calculated, time = 5.7339668273925781E-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 3.127 seconds. before reading done reading WAYNE load raw data , time = 25.41813194751740 ATTN ifrq ipol ln 8 4 40384 19.00000 IPOL, ITOP nblock 4 0 25 WAYNE Motion comp. coeff. calculated, time = 6.2540769577026367E-03 WAYNE Motion comp. added to patch, time = 8.559764027595520 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 3.2750368118286133E-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 = 193.3087400197983 Writing 2208 lines of data to file WAYNE write output data 1.173976063728333 ==w out 25 0 945 0 WAYNE PROCESS 228.4722250699997 Processing block number 26 WAYNE PATCHES: 37801 41896 patch# 26 reference line: 39848 231.600 seconds. before reading done reading WAYNE load raw data , time = 24.67993605136871 ATTN ifrq ipol ln 8 4 41896 19.00000 IPOL, ITOP nblock 4 0 26 WAYNE Motion comp. coeff. calculated, time = 6.3630342483520508E-03 WAYNE Motion comp. added to patch, time = 7.989966988563538 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.5700330734252930E-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 = 219.3414239883423 Writing 2208 lines of data to file WAYNE write output data 1.265689969062805 ==w out 26 2208 945 45219840 WAYNE PROCESS 253.2879909276962 Processing block number 27 WAYNE PATCHES: 39313 43408 patch# 27 reference line: 41360 484.888 seconds. before reading done reading WAYNE load raw data , time = 24.53213405609131 ATTN ifrq ipol ln 8 4 43408 19.00000 IPOL, ITOP nblock 4 0 27 WAYNE Motion comp. coeff. calculated, time = 6.4259767532348633E-03 WAYNE Motion comp. added to patch, time = 7.819995999336243 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5990009307861328E-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 = 219.0059629678726 Writing 2208 lines of data to file WAYNE write output data 1.084719896316528 ==w out 27 4416 945 90439680 WAYNE PROCESS 252.4532519578934 Processing block number 28 WAYNE PATCHES: 40825 44920 patch# 28 reference line: 42872 737.342 seconds. before reading done reading WAYNE load raw data , time = 23.77923107147217 ATTN ifrq ipol ln 8 4 44920 19.00000 IPOL, ITOP nblock 4 0 28 WAYNE Motion comp. coeff. calculated, time = 5.7829618453979492E-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 3.142 seconds. before reading done reading WAYNE load raw data , time = 23.99792790412903 ATTN ifrq ipol ln 8 4 46432 19.00000 IPOL, ITOP nblock 4 0 29 WAYNE Motion comp. coeff. calculated, time = 6.4589977264404297E-03 WAYNE Motion comp. added to patch, time = 8.432319998741150 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.0120611190795898E-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 = 238.2027840614319 Writing 2208 lines of data to file WAYNE write output data 1.650836944580078 ==w out 29 0 945 0 WAYNE PROCESS 272.2954049110413 Processing block number 30 WAYNE PATCHES: 43849 47944 patch# 30 reference line: 45896 275.438 seconds. before reading done reading WAYNE load raw data , time = 23.89314401149750 ATTN ifrq ipol ln 8 4 47944 19.00000 IPOL, ITOP nblock 4 0 30 WAYNE Motion comp. coeff. calculated, time = 7.3490142822265625E-03 WAYNE Motion comp. added to patch, time = 8.144801020622253 WAYNE Doppler estimation done, time = 1.8954277038574219E-05 WAYNE write deskew done, time = 3.1679868698120117E-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 = 211.2430839538574 Writing 2208 lines of data to file WAYNE write output data 1.336027979850769 ==w out 30 2208 945 45219840 WAYNE PROCESS 244.6303340196609 Processing block number 31 WAYNE PATCHES: 45361 49456 patch# 31 reference line: 47408 520.069 seconds. before reading done reading WAYNE load raw data , time = 23.18556499481201 ATTN ifrq ipol ln 8 4 49456 19.00000 IPOL, ITOP nblock 4 0 31 WAYNE Motion comp. coeff. calculated, time = 6.1470270156860352E-03 WAYNE Motion comp. added to patch, time = 8.124552965164185 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.5500059127807617E-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 = 189.1349059343338 Writing 2208 lines of data to file WAYNE write output data 1.171784043312073 ==w out 31 4416 945 90439680 WAYNE PROCESS 221.6269960403442 Processing block number 32 WAYNE PATCHES: 46873 50968 patch# 32 reference line: 48920 741.696 seconds. before reading done reading WAYNE load raw data , time = 22.75754094123840 ATTN ifrq ipol ln 8 4 50968 19.00000 IPOL, ITOP nblock 4 0 32 WAYNE Motion comp. coeff. calculated, time = 5.7989358901977539E-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 3.114 seconds. before reading done reading WAYNE load raw data , time = 24.24895203113556 ATTN ifrq ipol ln 8 4 34336 19.00000 IPOL, ITOP nblock 4 0 21 WAYNE Motion comp. coeff. calculated, time = 6.3209533691406250E-03 WAYNE Motion comp. added to patch, time = 8.421069979667664 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.2190084457397461E-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 = 238.8493670225143 Writing 2208 lines of data to file WAYNE write output data 1.577937006950378 ==w out 21 0 945 0 WAYNE PROCESS 273.1092920303345 Processing block number 22 WAYNE PATCHES: 31753 35848 patch# 22 reference line: 33800 276.224 seconds. before reading done reading WAYNE load raw data , time = 24.25218701362610 ATTN ifrq ipol ln 8 4 35848 19.00000 IPOL, ITOP nblock 4 0 22 WAYNE Motion comp. coeff. calculated, time = 6.4749717712402344E-03 WAYNE Motion comp. added to patch, time = 8.177855014801025 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.3009052276611328E-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 = 210.7767289876938 Writing 2208 lines of data to file WAYNE write output data 1.316422939300537 ==w out 22 2208 945 45219840 WAYNE PROCESS 244.5352770090103 Processing block number 23 WAYNE PATCHES: 33265 37360 patch# 23 reference line: 35312 520.760 seconds. before reading done reading WAYNE load raw data , time = 23.56626796722412 ATTN ifrq ipol ln 8 4 37360 19.00000 IPOL, ITOP nblock 4 0 23 WAYNE Motion comp. coeff. calculated, time = 6.3890218734741211E-03 WAYNE Motion comp. added to patch, time = 8.077893018722534 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6739835739135742E-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 = 189.2404719591141 Writing 2208 lines of data to file WAYNE write output data 1.222913980484009 ==w out 23 4416 945 90439680 WAYNE PROCESS 222.1180359125137 Processing block number 24 WAYNE PATCHES: 34777 38872 patch# 24 reference line: 36824 742.878 seconds. before reading done reading WAYNE load raw data , time = 23.03192794322968 ATTN ifrq ipol ln 8 4 38872 19.00000 IPOL, ITOP nblock 4 0 24 WAYNE Motion comp. coeff. calculated, time = 6.1269998550415039E-03 WAYNE Motion comp. added to patch, time = 8.032171010971069 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.1029710769653320E-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 = 140.3419839143753 Writing 2208 lines of data to file WAYNE write output data 1.215548038482666 ==w out 12 6624 945 135659520 WAYNE PROCESS 172.2330280542374 ==w out 13 8835 = 7.849212050437927 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 2.0849704742431641E-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 = 150.6407840251923 Writing 2208 lines of data to file WAYNE write output data 1.156802058219910 ==w out 8 6624 945 135659520 WAYNE PROCESS 185.5627130270004 ==w out 9 8835 0 0.0000000E+00 -29.14614 1.971170 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.3338700E-02 2.9290199E-02 WAYNE Azimuth compression done, time = 219.0005780458450 Writing 2208 lines of data to file WAYNE write output data 1.083472013473511 ==w out 3 4416 945 90439680 WAYNE PROCESS 251.3374290466309 Processing block number 4 TESTING WHY -2.2311101E-02 2.9275199E-02 1512 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 735.128 seconds. TESTING 4537 before reading done reading WAYNE load raw data , time = 22.74615705013275 ATTN ifrq ipol ln 8 4 8632 19.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 5.5789947509765625E-03 TESTING 0.0000000E+00 -27.44357 2.281723 WAYNE Motion comp. added to patch, time = 7.928215980529785 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3280382156372070E-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 -27.44357 2.281723 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.2311101E-02 2.9275199E-02 WAYNE Azimuth compression done, time = 158.1750930547714 Writing 2208 lines of data to file WAYNE write output data 1.053617954254150 ==w out 4 6624 945 135659520 WAYNE PROCESS 189.9120600223541 ==w out 5 8835 = 7.846202015876770 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 = 160.0379120111465 Writing 2208 lines of data to file WAYNE write output data 1.055782079696655 ==w out 20 6624 945 135659520 WAYNE PROCESS 191.8497200012207 ==w out 21 8835 = 8.047819018363953 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.1159648895263672E-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 = 154.0944889783859 Writing 2208 lines of data to file WAYNE write output data 1.060935020446777 ==w out 32 6624 945 135659520 WAYNE PROCESS 185.9704099893570 ==w out 33 8835 = 7.783540010452271 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.1220445632934570E-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 = 157.7835199832916 Writing 2208 lines of data to file WAYNE write output data 1.061513066291809 ==w out 28 6624 945 135659520 WAYNE PROCESS 190.4176880121231 ==w out 29 8835 = 7.940056920051575 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.1740198135375977E-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 = 154.1044640541077 Writing 2208 lines of data to file WAYNE write output data 1.028387904167175 ==w out 24 6624 945 135659520 WAYNE PROCESS 186.1153099536896 ==w out 25 8835 1 217606 0 2 217495 0 3 218026 0 4 218089 0 5 217612 0 6 217580 0 7 218011 0 8 217441 0 9 217609 0 10 218099 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: 0.1542038917541504 WAYNE LOOP TIME: 936.6021209955215 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_c.vv_j /mnt/air65/airops/1355/ts1355_c.mocompv /mnt/air65/airops/1355/ts1355_c.dop /mnt/air65/airops/1355/ts1355_c.glb 2560 83904 update intf hdr ha: 6988.200 UPDATE: 2560 83904 3.331000 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_c.mocompv dopfile /mnt/air65/airops/1355/ts1355_c.dop globalfile /mnt/air65/airops/1355/ts1355_c.glb /mnt/air65/airops/1355/ts1355_c.glb 35 deskew line ra ha trc: 94.97231 184 8101.542 6988.200 89.87302 after deskew line ra ha trc: 94.97231 184 8101.542 6988.200 89.87302 lat1 lon1: 184 64.00552 -147.2205 83904 last ra n_ns ns: 8101.542 0 1 84087 83904 lati loni: 84087 64.00555 -146.3016 84087 1 center ra n_ns ns: 12361.89 1279 1279 42135 83904 lati loni: 42135 64.04395 -146.7600 42135 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_c.vv_j WAYNE FINAL PROCESS 939.4195309877396 ********************************************* ***** ***** ***** 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/1355/ts1355_c.vv_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_c.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.cv Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1355/ts1355_c.TT Name of the line output file? /mnt/air65/airops/1355/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 8.442461967468262 Deskewing 38 patches Processing block number 1 DEBUG -369 184.5772 -368.1202 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -369 -369 0 half line dmj dgc: 0 945 184 -369 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 -369 -369 1104 half line dmj dgc: 1 945 184 -369 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 -325 200.1486 -324.6407 0.0000000E+00 0.0000000E+00 1105 1557 44 408 patch iptc,sj,dgj,dgi,id: 2 1557 -325 -369 408 half line dmj dgc: 0 2457 200 -369 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1557 1105 Zeroing lines in arrays Total # of output lines = 2 1556 1557 2661 0 1104 patch iptc,sj,dgj,dgi,id: 2 2661 -325 -325 1104 half line dmj dgc: 1 2457 200 -369 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2661 1557 Zeroing lines in arrays Total # of output lines = 2 2660 Processing block number 3 DEBUG -287 212.1377 -286.4308 0.0000000E+00 0.0000000E+00 2661 3107 38 408 patch iptc,sj,dgj,dgi,id: 3 3107 -287 -325 408 half line dmj dgc: 0 3969 212 -369 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3107 2661 Zeroing lines in arrays Total # of output lines = 3 3106 3107 4211 0 1104 patch iptc,sj,dgj,dgi,id: 3 4211 -287 -287 1104 half line dmj dgc: 1 3969 212 -369 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4211 3107 Zeroing lines in arrays Total # of output lines = 3 4210 Processing block number 4 DEBUG -257 220.1639 -256.4734 0.0000000E+00 0.0000000E+00 4211 4649 30 408 patch iptc,sj,dgj,dgi,id: 4 4649 -257 -287 408 half line dmj dgc: 0 5481 220 -369 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4649 4211 Zeroing lines in arrays Total # of output lines = 4 4648 4649 5753 0 1104 patch iptc,sj,dgj,dgi,id: 4 5753 -257 -257 1104 half line dmj dgc: 1 5481 220 -369 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5753 4649 Zeroing lines in arrays Total # of output lines = 4 5752 Processing block number 5 DEBUG -230 226.4289 -229.1819 0.0000000E+00 0.0000000E+00 5753 6188 27 408 patch iptc,sj,dgj,dgi,id: 5 6188 -230 -257 408 half line dmj dgc: 0 6993 226 -369 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6188 5753 Zeroing lines in arrays Total # of output lines = 5 6187 6188 7292 0 1104 patch iptc,sj,dgj,dgi,id: 5 7292 -230 -230 1104 half line dmj dgc: 1 6993 226 -369 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7292 6188 Zeroing lines in arrays Total # of output lines = 5 7291 Processing block number 6 DEBUG -201 233.2246 -200.5598 0.0000000E+00 0.0000000E+00 7292 7729 29 408 patch iptc,sj,dgj,dgi,id: 6 7729 -201 -230 408 half line dmj dgc: 0 8505 233 -369 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 7729 7292 Zeroing lines in arrays Total # of output lines = 6 7728 7729 8833 0 1104 patch iptc,sj,dgj,dgi,id: 6 8833 -201 -201 1104 half line dmj dgc: 1 8505 233 -369 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 8833 7729 Zeroing lines in arrays Total # of output lines = 6 8832 Processing block number 7 DEBUG -180 238.4245 -179.3994 0.0000000E+00 0.0000000E+00 8833 9262 21 408 patch iptc,sj,dgj,dgi,id: 7 9262 -180 -201 408 half line dmj dgc: 0 10017 238 -369 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 9262 8833 Zeroing lines in arrays Total # of output lines = 7 9261 9262 10366 0 1104 patch iptc,sj,dgj,dgi,id: 7 10366 -180 -180 1104 half line dmj dgc: 1 10017 238 -369 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 sj>s1: 10366 9262 Zeroing lines in arrays Total # of output lines = 7 10365 Processing block number 8 DEBUG -169 241.9969 -168.1654 0.0000000E+00 0.0000000E+00 10366 10785 11 408 patch iptc,sj,dgj,dgi,id: 8 10785 -169 -180 408 half line dmj dgc: 0 11529 241 -369 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 10785 10366 Zeroing lines in arrays Total # of output lines = 8 10784 10785 11889 0 1104 patch iptc,sj,dgj,dgi,id: 8 11889 -169 -169 1104 half line dmj dgc: 1 11529 241 -369 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 11889 10785 Zeroing lines in arrays Total # of output lines = 8 11888 Processing block number 9 DEBUG -174 239.3549 -172.9544 0.0000000E+00 0.0000000E+00 11889 12292 -5 408 patch iptc,sj,dgj,dgi,id: 9 4 -174 -169 408 half line dmj dgc: 0 13041 239 -369 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 s1>sj: 11889 4 Zeroing lines in arrays Total # of output lines = 9 12291 4 1108 0 1104 patch iptc,sj,dgj,dgi,id: 9 1108 -174 -174 1104 half line dmj dgc: 1 13041 239 -369 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 1108 4 Zeroing lines in arrays Total # of output lines = 9 13395 Processing block number 10 DEBUG -187 232.7095 -186.6992 0.0000000E+00 0.0000000E+00 1108 1503 -13 408 patch iptc,sj,dgj,dgi,id: 10 1503 -187 -174 408 half line dmj dgc: 0 14553 232 -369 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 1503 1108 Zeroing lines in arrays Total # of output lines = 10 13790 1503 2607 0 1104 patch iptc,sj,dgj,dgi,id: 10 2607 -187 -187 1104 half line dmj dgc: 1 14553 232 -369 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 2607 1503 Zeroing lines in arrays Total # of output lines = 10 14894 Processing block number 11 DEBUG -208 224.2937 -207.2272 0.0000000E+00 0.0000000E+00 2607 2994 -21 408 patch iptc,sj,dgj,dgi,id: 11 2994 -208 -187 408 half line dmj dgc: 0 16065 224 -369 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 2994 2607 Zeroing lines in arrays Total # of output lines = 11 15281 2994 4098 0 1104 patch iptc,sj,dgj,dgi,id: 11 4098 -208 -208 1104 half line dmj dgc: 1 16065 224 -369 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 4098 2994 Zeroing lines in arrays Total # of output lines = 11 16385 Processing block number 12 DEBUG -226 218.2305 -225.6587 0.0000000E+00 0.0000000E+00 4098 4488 -18 408 patch iptc,sj,dgj,dgi,id: 12 4488 -226 -208 408 half line dmj dgc: 0 17577 218 -369 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 4488 4098 Zeroing lines in arrays Total # of output lines = 12 16775 4488 5592 0 1104 patch iptc,sj,dgj,dgi,id: 12 5592 -226 -226 1104 half line dmj dgc: 1 17577 218 -369 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 5592 4488 Zeroing lines in arrays Total # of output lines = 12 17879 Processing block number 13 DEBUG -245 213.6647 -244.1117 0.0000000E+00 0.0000000E+00 5592 5981 -19 408 patch iptc,sj,dgj,dgi,id: 13 5981 -245 -226 408 half line dmj dgc: 0 19089 213 -369 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 5981 5592 Zeroing lines in arrays Total # of output lines = 13 18268 5981 7085 0 1104 patch iptc,sj,dgj,dgi,id: 13 7085 -245 -245 1104 half line dmj dgc: 1 19089 213 -369 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 7085 5981 Zeroing lines in arrays Total # of output lines = 13 19372 Processing block number 14 DEBUG -263 209.7414 -262.3225 0.0000000E+00 0.0000000E+00 7085 7475 -18 408 patch iptc,sj,dgj,dgi,id: 14 7475 -263 -245 408 half line dmj dgc: 0 20601 209 -369 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 sj>s1: 7475 7085 Zeroing lines in arrays Total # of output lines = 14 19762 7475 8579 0 1104 patch iptc,sj,dgj,dgi,id: 14 8579 -263 -263 1104 half line dmj dgc: 1 20601 209 -369 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 8579 7475 Zeroing lines in arrays Total # of output lines = 14 20866 Processing block number 15 DEBUG -276 208.5596 -275.7917 0.0000000E+00 0.0000000E+00 8579 8974 -13 408 patch iptc,sj,dgj,dgi,id: 15 8974 -276 -263 408 half line dmj dgc: 0 22113 208 -369 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 8974 8579 Zeroing lines in arrays Total # of output lines = 15 21261 8974 10078 0 1104 patch iptc,sj,dgj,dgi,id: 15 10078 -276 -276 1104 half line dmj dgc: 1 22113 208 -369 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 10078 8974 Zeroing lines in arrays Total # of output lines = 15 22365 Processing block number 16 DEBUG -273 212.6385 -272.5030 0.0000000E+00 0.0000000E+00 10078 10489 3 408 patch iptc,sj,dgj,dgi,id: 16 10489 -273 -276 408 half line dmj dgc: 0 23625 212 -369 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 10489 10078 Zeroing lines in arrays Total # of output lines = 16 22776 10489 11593 0 1104 patch iptc,sj,dgj,dgi,id: 16 11593 -273 -273 1104 half line dmj dgc: 1 23625 212 -369 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 11593 10489 Zeroing lines in arrays Total # of output lines = 16 23880 Processing block number 17 DEBUG -257 219.1699 -256.0373 0.0000000E+00 0.0000000E+00 11593 12017 16 408 patch iptc,sj,dgj,dgi,id: 17 12017 -257 -273 408 half line dmj dgc: 0 25137 219 -369 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 12017 11593 Zeroing lines in arrays Total # of output lines = 17 24304 12017 13121 0 1104 patch iptc,sj,dgj,dgi,id: 17 833 -257 -257 1104 half line dmj dgc: 1 25137 219 -369 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 s1>sj: 12017 833 Zeroing lines in arrays Total # of output lines = 17 25408 Processing block number 18 DEBUG -222 226.0079 -221.3346 0.0000000E+00 0.0000000E+00 833 1276 35 408 patch iptc,sj,dgj,dgi,id: 18 1276 -222 -257 408 half line dmj dgc: 0 26649 225 -369 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 1276 833 Zeroing lines in arrays Total # of output lines = 18 25851 1276 2380 0 1104 patch iptc,sj,dgj,dgi,id: 18 2380 -222 -222 1104 half line dmj dgc: 1 26649 225 -369 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 2380 1276 Zeroing lines in arrays Total # of output lines = 18 26955 Processing block number 19 DEBUG -184 230.6396 -183.8297 0.0000000E+00 0.0000000E+00 2380 2826 38 408 patch iptc,sj,dgj,dgi,id: 19 2826 -184 -222 408 half line dmj dgc: 0 28161 230 -369 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 2826 2380 Zeroing lines in arrays Total # of output lines = 19 27401 2826 3930 0 1104 patch iptc,sj,dgj,dgi,id: 19 3930 -184 -184 1104 half line dmj dgc: 1 28161 230 -369 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 3930 2826 Zeroing lines in arrays Total # of output lines = 19 28505 Processing block number 20 DEBUG -144 237.6374 -142.9491 0.0000000E+00 0.0000000E+00 3930 4378 40 408 patch iptc,sj,dgj,dgi,id: 20 4378 -144 -184 408 half line dmj dgc: 0 29673 237 -369 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 4378 3930 Zeroing lines in arrays Total # of output lines = 20 28953 4378 5482 0 1104 patch iptc,sj,dgj,dgi,id: 20 5482 -144 -144 1104 half line dmj dgc: 1 29673 237 -369 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 sj>s1: 5482 4378 Zeroing lines in arrays Total # of output lines = 20 30057 Processing block number 21 DEBUG -105 246.7852 -104.7691 0.0000000E+00 0.0000000E+00 5482 5929 39 408 patch iptc,sj,dgj,dgi,id: 21 5929 -105 -144 408 half line dmj dgc: 0 31185 246 -369 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 5929 5482 Zeroing lines in arrays Total # of output lines = 21 30504 5929 7033 0 1104 patch iptc,sj,dgj,dgi,id: 21 7033 -105 -105 1104 half line dmj dgc: 1 31185 246 -369 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 7033 5929 Zeroing lines in arrays Total # of output lines = 21 31608 Processing block number 22 DEBUG -65 258.0563 -64.59030 0.0000000E+00 0.0000000E+00 7033 7481 40 408 patch iptc,sj,dgj,dgi,id: 22 7481 -65 -105 408 half line dmj dgc: 0 32697 257 -369 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Writing data negflag .eq. 0 sj>s1: 7481 7033 Zeroing lines in arrays Total # of output lines = 22 32056 7481 8585 0 1104 patch iptc,sj,dgj,dgi,id: 22 8585 -65 -65 1104 half line dmj dgc: 1 32697 257 -369 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 8585 7481 Zeroing lines in arrays Total # of output lines = 22 33160 Processing block number 23 DEBUG -38 265.1984 -37.31588 0.0000000E+00 0.0000000E+00 8585 9020 27 408 patch iptc,sj,dgj,dgi,id: 23 9020 -38 -65 408 half line dmj dgc: 0 34209 265 -369 Actual deskew ireclen: 20480 ** 23 1104 0 49680 Writing data negflag .eq. 0 sj>s1: 9020 8585 Zeroing lines in arrays Total # of output lines = 23 33595 9020 10124 0 1104 patch iptc,sj,dgj,dgi,id: 23 10124 -38 -38 1104 half line dmj dgc: 1 34209 265 -369 Actual deskew ireclen: 20480 ** 23 1104 1 50784 Writing data negflag .eq. 0 sj>s1: 10124 9020 Zeroing lines in arrays Total # of output lines = 23 34699 Processing block number 24 DEBUG -19 270.9012 -18.04062 0.0000000E+00 0.0000000E+00 10124 10551 19 408 patch iptc,sj,dgj,dgi,id: 24 10551 -19 -38 408 half line dmj dgc: 0 35721 270 -369 Actual deskew ireclen: 20480 ** 24 1104 0 51888 Writing data negflag .eq. 0 sj>s1: 10551 10124 Zeroing lines in arrays Total # of output lines = 24 35126 10551 11655 0 1104 patch iptc,sj,dgj,dgi,id: 24 11655 -19 -19 1104 half line dmj dgc: 1 35721 270 -369 Actual deskew ireclen: 20480 ** 24 1104 1 52992 Writing data negflag .eq. 0 sj>s1: 11655 10551 Zeroing lines in arrays Total # of output lines = 24 36230 Processing block number 25 DEBUG -11 272.3926 -10.57236 0.0000000E+00 0.0000000E+00 11655 12071 8 408 patch iptc,sj,dgj,dgi,id: 25 12071 -11 -19 408 half line dmj dgc: 0 37233 272 -369 Actual deskew ireclen: 20480 ** 25 1104 0 54096 Writing data negflag .eq. 0 sj>s1: 12071 11655 Zeroing lines in arrays Total # of output lines = 25 36646 12071 13175 0 1104 patch iptc,sj,dgj,dgi,id: 25 887 -11 -11 1104 half line dmj dgc: 1 37233 272 -369 Actual deskew ireclen: 20480 ** 25 1104 1 55200 Writing data negflag .eq. 0 s1>sj: 12071 887 Zeroing lines in arrays Total # of output lines = 25 37750 Processing block number 26 DEBUG -8 272.4428 -7.125092 0.0000000E+00 0.0000000E+00 887 1298 3 408 patch iptc,sj,dgj,dgi,id: 26 1298 -8 -11 408 half line dmj dgc: 0 38745 272 -369 Actual deskew ireclen: 20480 ** 26 1104 0 56304 Writing data negflag .eq. 0 sj>s1: 1298 887 Zeroing lines in arrays Total # of output lines = 26 38161 1298 2402 0 1104 patch iptc,sj,dgj,dgi,id: 26 2402 -8 -8 1104 half line dmj dgc: 1 38745 272 -369 Actual deskew ireclen: 20480 ** 26 1104 1 57408 Writing data negflag .eq. 0 sj>s1: 2402 1298 Zeroing lines in arrays Total # of output lines = 26 39265 Processing block number 27 DEBUG -8 271.1017 -7.303613 0.0000000E+00 0.0000000E+00 2402 2810 0 408 patch iptc,sj,dgj,dgi,id: 27 2810 -8 -8 408 half line dmj dgc: 0 40257 271 -369 Actual deskew ireclen: 20480 ** 27 1104 0 58512 Writing data negflag .eq. 0 sj>s1: 2810 2402 Zeroing lines in arrays Total # of output lines = 27 39673 2810 3914 0 1104 patch iptc,sj,dgj,dgi,id: 27 3914 -8 -8 1104 half line dmj dgc: 1 40257 271 -369 Actual deskew ireclen: 20480 ** 27 1104 1 59616 Writing data negflag .eq. 0 sj>s1: 3914 2810 Zeroing lines in arrays Total # of output lines = 27 40777 Processing block number 28 DEBUG -2 273.2032 -1.483045 0.0000000E+00 0.0000000E+00 3914 4328 6 408 patch iptc,sj,dgj,dgi,id: 28 4328 -2 -8 408 half line dmj dgc: 0 41769 273 -369 Actual deskew ireclen: 20480 ** 28 1104 0 60720 Writing data negflag .eq. 0 sj>s1: 4328 3914 Zeroing lines in arrays Total # of output lines = 28 41191 4328 5432 0 1104 patch iptc,sj,dgj,dgi,id: 28 5432 -2 -2 1104 half line dmj dgc: 1 41769 273 -369 Actual deskew ireclen: 20480 ** 28 1104 1 61824 Writing data negflag .eq. 0 sj>s1: 5432 4328 Zeroing lines in arrays Total # of output lines = 28 42295 Processing block number 29 DEBUG 10 280.7002 10.52185 0.0000000E+00 0.0000000E+00 5432 5852 12 408 patch iptc,sj,dgj,dgi,id: 29 5852 10 -2 408 half line dmj dgc: 0 43281 280 -369 Actual deskew ireclen: 20480 ** 29 1104 0 62928 Writing data negflag .eq. 0 sj>s1: 5852 5432 Zeroing lines in arrays Total # of output lines = 29 42715 5852 6956 0 1104 patch iptc,sj,dgj,dgi,id: 29 6956 10 10 1104 half line dmj dgc: 1 43281 280 -369 Actual deskew ireclen: 20480 ** 29 1104 1 64032 Writing data negflag .eq. 0 sj>s1: 6956 5852 Zeroing lines in arrays Total # of output lines = 29 43819 Processing block number 30 DEBUG 25 291.6830 25.62260 0.0000000E+00 0.0000000E+00 6956 7379 15 408 patch iptc,sj,dgj,dgi,id: 30 7379 25 10 408 half line dmj dgc: 0 44793 291 -369 Actual deskew ireclen: 20480 ** 30 1104 0 65136 Writing data negflag .eq. 0 sj>s1: 7379 6956 Zeroing lines in arrays Total # of output lines = 30 44242 7379 8483 0 1104 patch iptc,sj,dgj,dgi,id: 30 8483 25 25 1104 half line dmj dgc: 1 44793 291 -369 Actual deskew ireclen: 20480 ** 30 1104 1 66240 Writing data negflag .eq. 0 sj>s1: 8483 7379 Zeroing lines in arrays Total # of output lines = 30 45346 Processing block number 31 DEBUG 28 299.8434 28.33218 0.0000000E+00 0.0000000E+00 8483 8894 3 408 patch iptc,sj,dgj,dgi,id: 31 8894 28 25 408 half line dmj dgc: 0 46305 299 -369 Actual deskew ireclen: 20480 ** 31 1104 0 67344 Writing data negflag .eq. 0 sj>s1: 8894 8483 Zeroing lines in arrays Total # of output lines = 31 45757 8894 9998 0 1104 patch iptc,sj,dgj,dgi,id: 31 9998 28 28 1104 half line dmj dgc: 1 46305 299 -369 Actual deskew ireclen: 20480 ** 31 1104 1 68448 Writing data negflag .eq. 0 sj>s1: 9998 8894 Zeroing lines in arrays Total # of output lines = 31 46861 Processing block number 32 DEBUG 13 300.8485 13.40065 0.0000000E+00 0.0000000E+00 9998 10391 -15 408 patch iptc,sj,dgj,dgi,id: 32 10391 13 28 408 half line dmj dgc: 0 47817 300 -369 Actual deskew ireclen: 20480 ** 32 1104 0 69552 Writing data negflag .eq. 0 sj>s1: 10391 9998 Zeroing lines in arrays Total # of output lines = 32 47254 10391 11495 0 1104 patch iptc,sj,dgj,dgi,id: 32 11495 13 13 1104 half line dmj dgc: 1 47817 300 -369 Actual deskew ireclen: 20480 ** 32 1104 1 70656 Writing data negflag .eq. 0 sj>s1: 11495 10391 Zeroing lines in arrays Total # of output lines = 32 48358 Processing block number 33 DEBUG -4 296.9197 -3.452802 0.0000000E+00 0.0000000E+00 11495 11886 -17 408 patch iptc,sj,dgj,dgi,id: 33 11886 -4 13 408 half line dmj dgc: 0 49329 296 -369 Actual deskew ireclen: 20480 ** 33 1104 0 71760 Writing data negflag .eq. 0 sj>s1: 11886 11495 Zeroing lines in arrays Total # of output lines = 33 48749 11886 12990 0 1104 patch iptc,sj,dgj,dgi,id: 33 702 -4 -4 1104 half line dmj dgc: 1 49329 296 -369 Actual deskew ireclen: 20480 ** 33 1104 1 72864 Writing data negflag .eq. 0 s1>sj: 11886 702 Zeroing lines in arrays Total # of output lines = 33 49853 Processing block number 34 DEBUG -23 286.3355 -22.61156 0.0000000E+00 0.0000000E+00 702 1091 -19 408 patch iptc,sj,dgj,dgi,id: 34 1091 -23 -4 408 half line dmj dgc: 0 50841 286 -369 Actual deskew ireclen: 20480 ** 34 1104 0 73968 Writing data negflag .eq. 0 sj>s1: 1091 702 Zeroing lines in arrays Total # of output lines = 34 50242 1091 2195 0 1104 patch iptc,sj,dgj,dgi,id: 34 2195 -23 -23 1104 half line dmj dgc: 1 50841 286 -369 Actual deskew ireclen: 20480 ** 34 1104 1 75072 Writing data negflag .eq. 0 sj>s1: 2195 1091 Zeroing lines in arrays Total # of output lines = 34 51346 Processing block number 35 DEBUG -27 277.1275 -26.56020 0.0000000E+00 0.0000000E+00 2195 2599 -4 408 patch iptc,sj,dgj,dgi,id: 35 2599 -27 -23 408 half line dmj dgc: 0 52353 277 -369 Actual deskew ireclen: 20480 ** 35 1104 0 76176 Writing data negflag .eq. 0 sj>s1: 2599 2195 Zeroing lines in arrays Total # of output lines = 35 51750 2599 3703 0 1104 patch iptc,sj,dgj,dgi,id: 35 3703 -27 -27 1104 half line dmj dgc: 1 52353 277 -369 Actual deskew ireclen: 20480 ** 35 1104 1 77280 Writing data negflag .eq. 0 sj>s1: 3703 2599 Zeroing lines in arrays Total # of output lines = 35 52854 Processing block number 36 DEBUG -20 272.1986 -19.61243 0.0000000E+00 0.0000000E+00 3703 4118 7 408 patch iptc,sj,dgj,dgi,id: 36 4118 -20 -27 408 half line dmj dgc: 0 53865 272 -369 Actual deskew ireclen: 20480 ** 36 1104 0 78384 Writing data negflag .eq. 0 sj>s1: 4118 3703 Zeroing lines in arrays Total # of output lines = 36 53269 4118 5222 0 1104 patch iptc,sj,dgj,dgi,id: 36 5222 -20 -20 1104 half line dmj dgc: 1 53865 272 -369 Actual deskew ireclen: 20480 ** 36 1104 1 79488 Writing data negflag .eq. 0 sj>s1: 5222 4118 Zeroing lines in arrays Total # of output lines = 36 54373 Processing block number 37 DEBUG -1 275.8916 -0.7786804 0.0000000E+00 0.0000000E+00 5222 5649 19 408 patch iptc,sj,dgj,dgi,id: 37 5649 -1 -20 408 half line dmj dgc: 0 55377 275 -369 Actual deskew ireclen: 20480 ** 37 1104 0 80592 Writing data negflag .eq. 0 sj>s1: 5649 5222 Zeroing lines in arrays Total # of output lines = 37 54800 5649 6753 0 1104 patch iptc,sj,dgj,dgi,id: 37 6753 -1 -1 1104 half line dmj dgc: 1 55377 275 -369 Actual deskew ireclen: 20480 ** 37 1104 1 81696 Writing data negflag .eq. 0 sj>s1: 6753 5649 Zeroing lines in arrays Total # of output lines = 37 55904 Processing block number 38 DEBUG 18 284.3214 19.05955 0.0000000E+00 0.0000000E+00 6753 7139 19 367 patch iptc,sj,dgj,dgi,id: 38 7139 18 -1 367 half line dmj dgc: 0 56848 284 -369 Actual deskew ireclen: 20480 ** 38 1104 0 82800 Writing data negflag .eq. 0 sj>s1: 7139 6753 Zeroing lines in arrays Total # of output lines = 38 56290 7139 8243 0 1104 patch iptc,sj,dgj,dgi,id: 38 8243 18 18 1104 half line dmj dgc: 1 56848 284 -369 Actual deskew ireclen: 20480 ** 38 1104 1 83904 Writing data negflag .eq. 0 sj>s1: 8243 7139 Zeroing lines in arrays Total # of output lines = 38 57394 ia dmi dgi: 8243 284 18 Writing the last 1370 lines last half sj>s1 9613 8243 57394 WAYNE done patche 256.1626650094986 Total # of output lines = 58764 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 58764 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 257.5542539358139 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9458544 33.82310 146 -0.094 3046 0.094 33.82310 0.000034 0.000027 0.000000 r_peak,r_snr = 0.9344370 345.6029 246 -0.094 3046 0.094 345.60294 0.000035 0.000025 0.000000 r_peak,r_snr = 0.8697023 23.01703 346 -0.094 3046 0.094 23.01703 0.000099 0.000077 -0.000001 r_peak,r_snr = 0.9303682 120.0162 446 -0.063 3046 0.094 120.01619 0.000041 0.000030 0.000000 r_peak,r_snr = 0.9171807 121.1343 546 -0.063 3046 0.094 121.13435 0.000048 0.000038 -0.000001 r_peak,r_snr = 0.7998481 87.50851 646 -0.063 3046 0.094 87.50851 0.000144 0.000109 -0.000001 r_peak,r_snr = 0.9597664 6.736354 746 -0.063 3046 0.094 6.73635 0.000036 0.000029 0.000000 r_peak,r_snr = 0.9268714 61.03388 846 -0.063 3046 0.094 61.03388 0.000043 0.000035 0.000000 r_peak,r_snr = 0.8899671 390.2079 946 -0.063 3046 0.094 390.20789 0.000060 0.000045 0.000000 r_peak,r_snr = 0.8962343 16.30291 1046 -0.063 3046 0.094 16.30291 0.000077 0.000069 0.000001 r_peak,r_snr = 0.9049586 43.59331 1146 -0.063 3046 0.063 43.59331 0.000062 0.000049 0.000000 r_peak,r_snr = 0.6763409 258.1978 1246 -0.094 3046 0.125 258.19781 0.000278 0.000226 -0.000010 r_peak,r_snr = 0.8349051 141.7512 1346 -0.031 3046 0.063 141.75122 0.000109 0.000080 0.000000 r_peak,r_snr = 0.9238571 6.542984 1446 -0.031 3046 0.063 6.54298 0.000076 0.000066 0.000002 r_peak,r_snr = 0.8965206 95.26531 1546 -0.063 3046 0.063 95.26531 0.000065 0.000053 0.000001 r_peak,r_snr = 0.8804215 386.4147 1646 -0.031 3046 0.063 386.41467 0.000066 0.000053 -0.000001 r_peak,r_snr = 0.9021411 156.3098 1746 -0.063 3046 0.094 156.30975 0.000059 0.000046 0.000001 r_peak,r_snr = 0.7858125 449.3985 1846 -0.031 3046 0.031 449.39847 0.000130 0.000103 0.000001 r_peak,r_snr = 0.8051315 316.0192 1946 -0.031 3046 0.063 316.01917 0.000124 0.000094 0.000001 r_peak,r_snr = 0.7284495 343.2356 2046 -0.063 3046 0.063 343.23563 0.000201 0.000143 0.000005 At line = 3400 Reading in data.... r_peak,r_snr = 0.9440636 42.47913 146 -0.094 3446 0.094 42.47913 0.000035 0.000028 0.000000 r_peak,r_snr = 0.9347243 144.9600 246 -0.094 3446 0.125 144.96001 0.000034 0.000028 0.000000 r_peak,r_snr = 0.9154745 64.57930 346 -0.094 3446 0.094 64.57930 0.000051 0.000039 -0.000001 r_peak,r_snr = 0.8699183 245.2158 446 -0.094 3446 0.094 245.21576 0.000075 0.000057 -0.000001 r_peak,r_snr = 0.9364879 226.7452 546 -0.063 3446 0.094 226.74524 0.000036 0.000026 0.000000 r_peak,r_snr = 0.8885565 153.1643 646 -0.094 3446 0.094 153.16428 0.000069 0.000051 -0.000001 r_peak,r_snr = 0.9523821 41.52975 746 -0.063 3446 0.063 41.52975 0.000031 0.000024 0.000000 r_peak,r_snr = 0.8771067 56.11826 846 -0.094 3446 0.063 56.11826 0.000085 0.000063 0.000002 r_peak,r_snr = 0.8211446 503.2240 946 -0.094 3446 0.063 503.22397 0.000106 0.000075 -0.000001 r_peak,r_snr = 0.9182649 32.39161 1046 -0.063 3446 0.094 32.39161 0.000050 0.000039 0.000000 r_peak,r_snr = 0.8813375 14.10922 1146 -0.063 3446 0.094 14.10922 0.000102 0.000080 0.000000 r_peak,r_snr = 0.8888859 72.54153 1246 -0.063 3446 0.094 72.54153 0.000069 0.000056 0.000001 r_peak,r_snr = 0.6659846 288.9150 1346 -0.031 3446 0.094 288.91504 0.000261 0.000236 0.000004 r_peak,r_snr = 0.8791870 9.436380 1446 -0.031 3446 0.031 9.43638 0.000135 0.000139 0.000001 r_peak,r_snr = 0.8867352 20.48421 1546 -0.063 3446 0.031 20.48421 0.000099 0.000076 0.000000 r_peak,r_snr = 0.8791996 347.7690 1646 -0.063 3446 0.063 347.76895 0.000066 0.000053 0.000000 r_peak,r_snr = 0.7866985 413.9615 1746 -0.063 3446 0.063 413.96155 0.000127 0.000104 0.000000 r_peak,r_snr = 0.7899865 452.4959 1846 -0.063 3446 0.031 452.49594 0.000130 0.000096 -0.000001 r_peak,r_snr = 0.8097813 323.2704 1946 -0.063 3446 0.063 323.27039 0.000119 0.000092 0.000000 r_peak,r_snr = 0.7449112 310.8511 2046 -0.063 3446 0.094 310.85114 0.000183 0.000132 0.000005 At line = 3800 Reading in data.... r_peak,r_snr = 0.9437435 32.29168 146 -0.094 3846 0.094 32.29168 0.000039 0.000033 -0.000002 r_peak,r_snr = 0.9412547 62.74277 246 -0.094 3846 0.094 62.74277 0.000033 0.000025 0.000000 r_peak,r_snr = 0.9504625 369.5854 346 -0.094 3846 0.094 369.58545 0.000026 0.000018 0.000000 r_peak,r_snr = 0.9236047 126.0057 446 -0.094 3846 0.094 126.00567 0.000042 0.000029 0.000000 r_peak,r_snr = 0.9244637 63.48936 546 -0.094 3846 0.063 63.48936 0.000048 0.000035 0.000000 r_peak,r_snr = 0.9481366 29.80133 646 -0.063 3846 0.094 29.80133 0.000035 0.000028 0.000000 r_peak,r_snr = 0.9262605 399.0065 746 -0.063 3846 0.094 399.00647 0.000038 0.000028 0.000000 r_peak,r_snr = 0.9384083 45.13825 846 -0.063 3846 0.094 45.13825 0.000041 0.000034 -0.000001 r_peak,r_snr = 0.7845381 322.7996 946 -0.063 3846 0.063 322.79956 0.000148 0.000098 0.000001 r_peak,r_snr = 0.9153225 118.3140 1046 -0.063 3846 0.094 118.31396 0.000047 0.000037 0.000000 r_peak,r_snr = 0.9247783 12.04794 1146 -0.063 3846 0.031 12.04794 0.000073 0.000064 0.000002 r_peak,r_snr = 0.9145682 14.27104 1246 -0.063 3846 0.063 14.27104 0.000068 0.000056 0.000001 r_peak,r_snr = 0.8729610 37.52820 1346 -0.031 3846 0.063 37.52820 0.000085 0.000072 0.000000 r_peak,r_snr = 0.8493634 94.61909 1446 -0.063 3846 0.063 94.61909 0.000101 0.000085 0.000001 r_peak,r_snr = 0.9107903 28.19694 1546 -0.063 3846 0.063 28.19694 0.000059 0.000046 -0.000001 r_peak,r_snr = 0.8969608 235.6111 1646 -0.063 3846 0.063 235.61111 0.000059 0.000045 0.000000 r_peak,r_snr = 0.7900535 400.0371 1746 -0.063 3846 0.063 400.03708 0.000130 0.000098 0.000000 r_peak,r_snr = 0.8061208 358.3411 1846 -0.063 3846 0.063 358.34113 0.000129 0.000091 0.000000 r_peak,r_snr = 0.8090935 345.8723 1946 -0.063 3846 0.031 345.87234 0.000117 0.000094 0.000002 r_peak,r_snr = 0.6350120 338.6528 2046 -0.094 3846 0.031 338.65280 0.000316 0.000206 0.000004 At line = 4200 Reading in data.... r_peak,r_snr = 0.9410615 46.48232 146 -0.094 4246 0.125 46.48232 0.000036 0.000029 -0.000001 r_peak,r_snr = 0.9403111 259.1114 246 -0.063 4246 0.094 259.11142 0.000032 0.000024 0.000000 r_peak,r_snr = 0.9442191 177.6436 346 -0.063 4246 0.094 177.64362 0.000030 0.000022 0.000001 r_peak,r_snr = 0.9319037 429.7033 446 -0.063 4246 0.094 429.70334 0.000034 0.000025 0.000000 r_peak,r_snr = 0.9283969 192.5428 546 -0.063 4246 0.063 192.54277 0.000039 0.000029 0.000000 r_peak,r_snr = 0.9515734 50.34087 646 -0.063 4246 0.094 50.34087 0.000031 0.000023 0.000000 r_peak,r_snr = 0.9416606 195.0298 746 -0.063 4246 0.094 195.02979 0.000031 0.000023 -0.000001 r_peak,r_snr = 0.9375840 54.45390 846 -0.063 4246 0.094 54.45390 0.000036 0.000028 0.000000 r_peak,r_snr = 0.8188291 29.15694 946 -0.094 4246 0.063 29.15694 0.000124 0.000093 -0.000001 r_peak,r_snr = 0.9156696 31.80140 1046 -0.063 4246 0.094 31.80140 0.000058 0.000044 0.000000 r_peak,r_snr = 0.9194328 47.05608 1146 -0.063 4246 0.094 47.05608 0.000056 0.000043 0.000000 r_peak,r_snr = 0.9056591 59.45853 1246 -0.063 4246 0.094 59.45853 0.000061 0.000052 0.000000 r_peak,r_snr = 0.8916878 56.45319 1346 -0.063 4246 0.063 56.45319 0.000073 0.000056 0.000000 r_peak,r_snr = 0.8621419 35.44043 1446 -0.031 4246 0.063 35.44043 0.000106 0.000092 0.000000 r_peak,r_snr = 0.9308355 65.80139 1546 -0.031 4246 0.063 65.80139 0.000043 0.000032 0.000000 r_peak,r_snr = 0.8795597 31.08103 1646 -0.063 4246 0.063 31.08103 0.000084 0.000065 -0.000001 r_peak,r_snr = 0.7721934 394.1455 1746 -0.063 4246 0.063 394.14554 0.000142 0.000114 0.000000 r_peak,r_snr = 0.7806451 409.2161 1846 -0.063 4246 0.063 409.21613 0.000144 0.000105 0.000001 r_peak,r_snr = 0.7624434 395.9897 1946 -0.031 4246 0.063 395.98972 0.000161 0.000110 -0.000001 r_peak,r_snr = 0.7426634 179.5405 2046 -0.063 4246 0.031 179.54053 0.000183 0.000146 0.000001 At line = 4600 Reading in data.... r_peak,r_snr = 0.9377331 28.85434 146 -0.094 4646 0.094 28.85434 0.000045 0.000033 0.000000 r_peak,r_snr = 0.9539314 19.17943 246 -0.063 4646 0.094 19.17943 0.000033 0.000025 0.000000 r_peak,r_snr = 0.9485145 375.8770 346 -0.094 4646 0.094 375.87695 0.000026 0.000019 0.000000 r_peak,r_snr = 0.9207180 422.1385 446 -0.063 4646 0.094 422.13855 0.000041 0.000029 0.000000 r_peak,r_snr = 0.9261858 240.8170 546 -0.094 4646 0.063 240.81702 0.000042 0.000029 0.000000 r_peak,r_snr = 0.9468096 165.2898 646 -0.063 4646 0.094 165.28978 0.000028 0.000021 0.000000 r_peak,r_snr = 0.9349198 361.5826 746 -0.063 4646 0.094 361.58255 0.000035 0.000026 0.000000 r_peak,r_snr = 0.9419748 73.67664 846 -0.063 4646 0.063 73.67664 0.000032 0.000024 0.000000 r_peak,r_snr = 0.8591707 46.48133 946 -0.094 4646 0.094 46.48133 0.000095 0.000067 0.000000 r_peak,r_snr = 0.9266574 15.01726 1046 -0.063 4646 0.094 15.01726 0.000058 0.000045 0.000000 r_peak,r_snr = 0.9075856 83.95573 1146 -0.063 4646 0.094 83.95573 0.000058 0.000049 0.000000 r_peak,r_snr = 0.8856596 14.60887 1246 -0.094 4646 0.063 14.60887 0.000106 0.000093 0.000002 r_peak,r_snr = 0.8872044 262.0523 1346 -0.063 4646 0.094 262.05228 0.000066 0.000050 0.000000 r_peak,r_snr = 0.8716598 38.84808 1446 -0.063 4646 0.063 38.84808 0.000092 0.000074 0.000000 r_peak,r_snr = 0.9118887 175.8339 1546 -0.031 4646 0.063 175.83391 0.000050 0.000042 0.000000 r_peak,r_snr = 0.8083712 170.2106 1646 -0.063 4646 0.063 170.21056 0.000131 0.000104 0.000003 r_peak,r_snr = 0.7627088 402.6410 1746 -0.031 4646 0.063 402.64102 0.000159 0.000120 0.000001 r_peak,r_snr = 0.8058290 260.6224 1846 -0.031 4646 0.031 260.62238 0.000129 0.000102 -0.000003 r_peak,r_snr = 0.8133019 145.5999 1946 -0.031 4646 0.063 145.59990 0.000122 0.000097 -0.000001 r_peak,r_snr = 0.7125177 276.6683 2046 -0.063 4646 0.031 276.66833 0.000209 0.000158 0.000004 At line = 5000 Reading in data.... r_peak,r_snr = 0.9407821 46.02876 146 -0.094 5046 0.125 46.02876 0.000036 0.000026 0.000000 r_peak,r_snr = 0.9504372 19.76459 246 -0.063 5046 0.094 19.76459 0.000033 0.000025 0.000000 r_peak,r_snr = 0.9528297 16.36345 346 -0.094 5046 0.094 16.36345 0.000029 0.000022 -0.000001 r_peak,r_snr = 0.8976769 332.0363 446 -0.094 5046 0.063 332.03625 0.000056 0.000040 0.000000 r_peak,r_snr = 0.9346460 152.1610 546 -0.094 5046 0.063 152.16103 0.000037 0.000026 -0.000001 r_peak,r_snr = 0.9523390 294.8897 646 -0.094 5046 0.094 294.88971 0.000026 0.000018 0.000000 r_peak,r_snr = 0.9463418 170.6871 746 -0.063 5046 0.063 170.68706 0.000030 0.000021 0.000000 r_peak,r_snr = 0.9380046 55.46168 846 -0.063 5046 0.094 55.46168 0.000039 0.000030 0.000000 r_peak,r_snr = 0.9021333 300.0273 946 -0.063 5046 0.063 300.02725 0.000050 0.000041 0.000000 r_peak,r_snr = 0.9395664 5.880101 1046 -0.063 5046 0.063 5.88010 0.000062 0.000044 0.000000 r_peak,r_snr = 0.8815471 38.25087 1146 -0.063 5046 0.063 38.25087 0.000084 0.000064 0.000000 r_peak,r_snr = 0.8658812 36.69294 1246 -0.063 5046 0.094 36.69294 0.000099 0.000086 -0.000001 r_peak,r_snr = 0.8807276 21.72492 1346 -0.063 5046 0.063 21.72492 0.000086 0.000070 0.000001 r_peak,r_snr = 0.8991549 389.6065 1446 -0.031 5046 0.063 389.60654 0.000054 0.000045 0.000000 r_peak,r_snr = 0.9049306 44.91654 1546 -0.063 5046 0.063 44.91654 0.000062 0.000048 0.000000 r_peak,r_snr = 0.7720339 323.6949 1646 -0.094 5046 0.031 323.69485 0.000154 0.000109 -0.000001 r_peak,r_snr = 0.7808635 437.8254 1746 -0.063 5046 0.063 437.82541 0.000138 0.000099 -0.000001 r_peak,r_snr = 0.7307767 416.7784 1846 -0.063 5046 0.063 416.77841 0.000191 0.000135 0.000001 r_peak,r_snr = 0.7384622 278.2587 1946 -0.031 5046 0.031 278.25867 0.000181 0.000131 0.000001 r_peak,r_snr = 0.6198635 410.1581 2046 -0.094 5046 0.063 410.15814 0.000326 0.000217 -0.000002 At line = 5400 Reading in data.... r_peak,r_snr = 0.9413843 177.0994 146 -0.094 5446 0.094 177.09944 0.000030 0.000023 0.000000 r_peak,r_snr = 0.9473372 101.2768 246 -0.094 5446 0.094 101.27681 0.000030 0.000023 0.000000 r_peak,r_snr = 0.9346981 184.1021 346 -0.094 5446 0.063 184.10205 0.000034 0.000026 -0.000001 r_peak,r_snr = 0.9324055 428.2664 446 -0.063 5446 0.094 428.26636 0.000033 0.000026 0.000000 r_peak,r_snr = 0.9327258 293.4898 546 -0.094 5446 0.063 293.48978 0.000035 0.000025 0.000000 r_peak,r_snr = 0.9399541 119.7536 646 -0.094 5446 0.094 119.75364 0.000034 0.000025 -0.000001 r_peak,r_snr = 0.9428937 372.7857 746 -0.094 5446 0.063 372.78571 0.000028 0.000021 0.000000 r_peak,r_snr = 0.9108332 66.58609 846 -0.094 5446 0.063 66.58609 0.000056 0.000043 0.000001 r_peak,r_snr = 0.8825614 450.8258 946 -0.094 5446 0.063 450.82581 0.000063 0.000049 0.000000 r_peak,r_snr = 0.8904899 17.59108 1046 -0.063 5446 0.063 17.59108 0.000084 0.000061 0.000001 r_peak,r_snr = 0.8610239 25.39791 1146 -0.063 5446 0.063 25.39791 0.000115 0.000083 -0.000001 r_peak,r_snr = 0.9146363 12.66634 1246 -0.063 5446 0.063 12.66634 0.000072 0.000064 0.000002 r_peak,r_snr = 0.9237795 38.34678 1346 -0.063 5446 0.063 38.34678 0.000054 0.000045 0.000001 r_peak,r_snr = 0.9326665 28.90318 1446 -0.063 5446 0.063 28.90318 0.000046 0.000036 0.000000 r_peak,r_snr = 0.8241603 215.4179 1546 -0.031 5446 0.063 215.41788 0.000119 0.000100 0.000001 r_peak,r_snr = 0.7854499 224.1398 1646 -0.063 5446 0.063 224.13976 0.000146 0.000108 -0.000001 r_peak,r_snr = 0.8104885 261.3886 1746 -0.063 5446 0.063 261.38864 0.000119 0.000099 0.000000 r_peak,r_snr = 0.8373510 116.0222 1846 -0.063 5446 0.031 116.02222 0.000104 0.000086 0.000002 r_peak,r_snr = 0.7649215 471.5934 1946 -0.031 5446 0.063 471.59335 0.000149 0.000115 -0.000003 r_peak,r_snr = 0.7092448 427.2039 2046 -0.063 5446 0.094 427.20386 0.000206 0.000149 0.000000 At line = 5800 Reading in data.... r_peak,r_snr = 0.9440848 71.46404 146 -0.094 5846 0.094 71.46404 0.000031 0.000024 0.000000 r_peak,r_snr = 0.9484270 44.01276 246 -0.094 5846 0.094 44.01276 0.000032 0.000023 0.000000 r_peak,r_snr = 0.9485623 385.0158 346 -0.094 5846 0.063 385.01584 0.000026 0.000019 0.000000 r_peak,r_snr = 0.9093170 307.9660 446 -0.094 5846 0.094 307.96603 0.000053 0.000037 -0.000001 r_peak,r_snr = 0.9370524 453.6482 546 -0.063 5846 0.094 453.64819 0.000031 0.000024 0.000000 r_peak,r_snr = 0.9402299 115.2232 646 -0.063 5846 0.094 115.22321 0.000033 0.000025 0.000000 r_peak,r_snr = 0.9175307 404.3524 746 -0.063 5846 0.094 404.35236 0.000045 0.000032 -0.000001 r_peak,r_snr = 0.9270219 174.5127 846 -0.063 5846 0.094 174.51266 0.000040 0.000030 0.000000 r_peak,r_snr = 0.8885990 21.62777 946 -0.094 5846 0.094 21.62777 0.000086 0.000063 0.000000 r_peak,r_snr = 0.8335816 23.43456 1046 -0.063 5846 0.094 23.43456 0.000126 0.000098 -0.000002 r_peak,r_snr = 0.5489143 71.56708 1146 -0.063 5846 0.000 71.56708 0.000558 0.000464 -0.000004 r_peak,r_snr = 0.8797778 27.26784 1246 -0.063 5846 0.094 27.26784 0.000084 0.000069 -0.000001 r_peak,r_snr = 0.8899076 35.45411 1346 -0.063 5846 0.094 35.45411 0.000083 0.000074 0.000001 e vector 1 error r_peak,r_snr = 0.9526607 4.588666 1446 -0.063 5846 0.094 4.58867 0.000057 0.000043 0.000000 r_peak,r_snr = 0.8448783 14.88161 1546 -0.031 5846 0.063 14.88161 0.000151 0.000143 -0.000005 r_peak,r_snr = 0.9048480 77.14217 1646 -0.063 5846 0.063 77.14217 0.000057 0.000045 -0.000001 r_peak,r_snr = 0.8097788 393.8336 1746 -0.063 5846 0.063 393.83356 0.000115 0.000090 0.000000 r_peak,r_snr = 0.8832140 105.3538 1846 -0.031 5846 0.063 105.35379 0.000074 0.000062 0.000001 r_peak,r_snr = 0.8793049 195.0650 1946 -0.063 5846 0.063 195.06500 0.000070 0.000052 0.000000 r_peak,r_snr = 0.7833750 418.5461 2046 -0.063 5846 0.063 418.54608 0.000132 0.000102 0.000002 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.8520241 28.16415 146 -0.031 3046 0.281 28.16415 0.000113 0.000096 0.000000 r_peak,r_snr = 0.8539523 268.3598 246 -0.063 3046 0.250 268.35977 0.000089 0.000069 0.000000 r_peak,r_snr = 0.8266782 20.63539 346 -0.063 3046 0.250 20.63539 0.000141 0.000115 -0.000001 r_peak,r_snr = 0.8686442 106.1812 446 -0.031 3046 0.250 106.18119 0.000086 0.000065 0.000000 r_peak,r_snr = 0.8619980 111.7921 546 -0.031 3046 0.219 111.79208 0.000086 0.000074 -0.000002 r_peak,r_snr = 0.7598122 85.99423 646 -0.031 3046 0.219 85.99423 0.000181 0.000145 0.000001 r_peak,r_snr = 0.9090508 6.004323 746 -0.031 3046 0.219 6.00432 0.000093 0.000081 0.000002 r_peak,r_snr = 0.8500133 47.61176 846 -0.031 3046 0.219 47.61176 0.000101 0.000090 -0.000001 r_peak,r_snr = 0.8388600 344.8307 946 -0.031 3046 0.219 344.83066 0.000094 0.000075 -0.000001 r_peak,r_snr = 0.8295877 15.00512 1046 -0.031 3046 0.219 15.00512 0.000142 0.000133 0.000003 r_peak,r_snr = 0.8641778 43.73892 1146 0.000 3046 0.188 43.73892 0.000095 0.000078 0.000000 r_peak,r_snr = 0.6175439 221.2994 1246 0.000 3046 0.281 221.29942 0.000372 0.000331 -0.000012 r_peak,r_snr = 0.7379707 105.0337 1346 0.000 3046 0.188 105.03367 0.000202 0.000173 -0.000001 r_peak,r_snr = 0.8825185 6.555868 1446 0.031 3046 0.188 6.55587 0.000126 0.000112 0.000003 r_peak,r_snr = 0.7927832 72.15955 1546 0.000 3046 0.219 72.15955 0.000153 0.000151 0.000003 r_peak,r_snr = 0.7856153 330.4379 1646 0.000 3046 0.188 330.43790 0.000139 0.000118 -0.000002 r_peak,r_snr = 0.8352390 131.7310 1746 0.000 3046 0.188 131.73102 0.000110 0.000093 0.000001 r_peak,r_snr = 0.6496398 347.5562 1846 0.000 3046 0.188 347.55621 0.000266 0.000239 0.000003 r_peak,r_snr = 0.6624441 231.7832 1946 0.031 3046 0.219 231.78316 0.000273 0.000248 -0.000001 r_peak,r_snr = 0.6069562 266.4787 2046 0.000 3046 0.219 266.47867 0.000368 0.000317 0.000012 At line = 3400 Reading in data.... r_peak,r_snr = 0.8609014 36.34426 146 -0.031 3446 0.250 36.34426 0.000101 0.000090 0.000000 r_peak,r_snr = 0.8405597 120.8972 246 -0.063 3446 0.250 120.89717 0.000098 0.000086 -0.000001 r_peak,r_snr = 0.8589600 59.31902 346 -0.063 3446 0.250 59.31902 0.000092 0.000076 -0.000002 r_peak,r_snr = 0.8333857 207.6898 446 -0.063 3446 0.219 207.68982 0.000102 0.000080 -0.000001 r_peak,r_snr = 0.8701893 189.9459 546 -0.031 3446 0.250 189.94594 0.000081 0.000063 0.000000 r_peak,r_snr = 0.8466503 141.4577 646 -0.031 3446 0.219 141.45775 0.000100 0.000078 -0.000002 r_peak,r_snr = 0.8788446 35.72152 746 -0.031 3446 0.219 35.72152 0.000090 0.000075 -0.000001 r_peak,r_snr = 0.8453571 52.23338 846 -0.031 3446 0.188 52.23338 0.000113 0.000088 0.000003 r_peak,r_snr = 0.7535042 425.1603 946 -0.031 3446 0.188 425.16034 0.000162 0.000125 -0.000001 r_peak,r_snr = 0.8608651 29.21665 1046 -0.031 3446 0.219 29.21665 0.000094 0.000076 0.000000 r_peak,r_snr = 0.8361793 13.70118 1146 0.000 3446 0.219 13.70118 0.000156 0.000125 0.000000 r_peak,r_snr = 0.8009489 61.46355 1246 -0.031 3446 0.219 61.46355 0.000144 0.000126 0.000001 r_peak,r_snr = 0.6529636 300.7920 1346 0.000 3446 0.219 300.79202 0.000270 0.000235 0.000000 r_peak,r_snr = 0.8298749 9.699840 1446 0.000 3446 0.156 9.69984 0.000200 0.000222 -0.000003 r_peak,r_snr = 0.8204668 17.45902 1546 0.031 3446 0.188 17.45902 0.000179 0.000154 -0.000001 r_peak,r_snr = 0.7489010 282.2141 1646 0.000 3446 0.188 282.21408 0.000174 0.000143 0.000001 r_peak,r_snr = 0.6789349 323.7105 1746 0.000 3446 0.219 323.71054 0.000236 0.000208 0.000001 r_peak,r_snr = 0.6633632 353.1514 1846 0.000 3446 0.188 353.15143 0.000256 0.000218 -0.000004 r_peak,r_snr = 0.6988687 242.5643 1946 0.000 3446 0.188 242.56435 0.000233 0.000199 0.000001 r_peak,r_snr = 0.6309436 257.0655 2046 0.000 3446 0.188 257.06549 0.000330 0.000273 0.000010 At line = 3800 Reading in data.... r_peak,r_snr = 0.8668668 26.52947 146 -0.031 3846 0.250 26.52947 0.000106 0.000099 -0.000004 r_peak,r_snr = 0.8587235 53.07355 246 -0.063 3846 0.250 53.07355 0.000091 0.000075 -0.000001 r_peak,r_snr = 0.8673919 305.9965 346 -0.063 3846 0.219 305.99646 0.000079 0.000059 0.000000 r_peak,r_snr = 0.8529503 106.8262 446 -0.031 3846 0.219 106.82621 0.000088 0.000066 0.000000 r_peak,r_snr = 0.8565998 54.16923 546 -0.063 3846 0.250 54.16923 0.000102 0.000083 -0.000001 r_peak,r_snr = 0.8747981 25.90580 646 -0.031 3846 0.219 25.90580 0.000096 0.000085 -0.000001 r_peak,r_snr = 0.8479499 327.9936 746 -0.031 3846 0.219 327.99356 0.000088 0.000068 0.000000 r_peak,r_snr = 0.8908274 40.83190 846 0.000 3846 0.219 40.83190 0.000078 0.000070 -0.000002 r_peak,r_snr = 0.6801612 247.3498 946 -0.031 3846 0.219 247.34981 0.000261 0.000203 0.000001 r_peak,r_snr = 0.8440554 99.65411 1046 -0.031 3846 0.219 99.65411 0.000095 0.000078 -0.000001 r_peak,r_snr = 0.8779268 11.05096 1146 -0.031 3846 0.219 11.05096 0.000131 0.000130 0.000004 r_peak,r_snr = 0.8308198 12.24613 1246 -0.031 3846 0.188 12.24613 0.000164 0.000140 0.000002 r_peak,r_snr = 0.8185933 32.05994 1346 0.000 3846 0.188 32.05994 0.000135 0.000116 0.000001 r_peak,r_snr = 0.8220108 97.72664 1446 0.000 3846 0.156 97.72664 0.000120 0.000103 0.000002 r_peak,r_snr = 0.8487457 26.67072 1546 0.031 3846 0.156 26.67072 0.000109 0.000091 0.000000 r_peak,r_snr = 0.7977057 202.6091 1646 0.000 3846 0.188 202.60910 0.000136 0.000110 0.000000 r_peak,r_snr = 0.6615592 297.8208 1746 -0.031 3846 0.188 297.82083 0.000254 0.000231 0.000000 r_peak,r_snr = 0.6632339 279.6895 1846 0.000 3846 0.188 279.68954 0.000288 0.000227 0.000002 r_peak,r_snr = 0.6932007 283.9028 1946 0.000 3846 0.188 283.90277 0.000230 0.000219 0.000003 r_peak,r_snr = 0.5300752 201.8095 2046 0.000 3846 0.188 201.80952 0.000531 0.000404 0.000007 At line = 4200 Reading in data.... r_peak,r_snr = 0.8655393 37.75550 146 -0.031 4246 0.281 37.75550 0.000094 0.000085 -0.000002 r_peak,r_snr = 0.8386551 208.7453 246 -0.031 4246 0.281 208.74527 0.000099 0.000082 -0.000001 r_peak,r_snr = 0.8664757 153.8862 346 -0.031 4246 0.250 153.88617 0.000080 0.000064 0.000002 r_peak,r_snr = 0.8545877 352.5693 446 -0.063 4246 0.250 352.56927 0.000081 0.000064 0.000000 r_peak,r_snr = 0.8730298 163.1944 546 -0.031 4246 0.219 163.19435 0.000075 0.000060 -0.000001 r_peak,r_snr = 0.8877169 45.42115 646 -0.031 4246 0.188 45.42115 0.000082 0.000063 0.000000 r_peak,r_snr = 0.8769588 183.3074 746 -0.031 4246 0.188 183.30736 0.000071 0.000057 -0.000002 r_peak,r_snr = 0.8867484 50.31348 846 -0.031 4246 0.188 50.31348 0.000069 0.000059 0.000000 r_peak,r_snr = 0.7167621 22.91422 946 -0.063 4246 0.250 22.91422 0.000234 0.000204 -0.000002 r_peak,r_snr = 0.8591279 29.38956 1046 -0.031 4246 0.219 29.38956 0.000105 0.000085 0.000000 r_peak,r_snr = 0.8634008 42.59629 1146 0.000 4246 0.188 42.59629 0.000102 0.000085 0.000000 r_peak,r_snr = 0.8298685 51.12627 1246 0.000 4246 0.188 51.12627 0.000127 0.000111 -0.000001 r_peak,r_snr = 0.8032913 47.85577 1346 0.000 4246 0.156 47.85577 0.000155 0.000122 -0.000001 r_peak,r_snr = 0.8031263 37.20483 1446 0.000 4246 0.188 37.20483 0.000163 0.000150 0.000001 r_peak,r_snr = 0.8451567 56.36102 1546 0.031 4246 0.188 56.36102 0.000110 0.000095 -0.000001 r_peak,r_snr = 0.7622316 25.60021 1646 0.000 4246 0.188 25.60021 0.000205 0.000177 -0.000004 r_peak,r_snr = 0.6464595 312.1003 1746 -0.031 4246 0.219 312.10025 0.000279 0.000261 0.000000 r_peak,r_snr = 0.6616032 314.7102 1846 0.000 4246 0.156 314.71017 0.000281 0.000227 0.000003 r_peak,r_snr = 0.6047233 290.7382 1946 0.031 4246 0.219 290.73816 0.000353 0.000308 -0.000002 r_peak,r_snr = 0.6405759 164.0490 2046 0.031 4246 0.188 164.04897 0.000318 0.000285 0.000000 At line = 4600 Reading in data.... r_peak,r_snr = 0.8358285 23.02033 146 -0.063 4646 0.250 23.02033 0.000147 0.000116 0.000000 r_peak,r_snr = 0.8994446 17.83369 246 -0.031 4646 0.250 17.83369 0.000078 0.000064 -0.000001 r_peak,r_snr = 0.8731921 312.2854 346 -0.063 4646 0.219 312.28543 0.000071 0.000056 -0.000001 r_peak,r_snr = 0.8449915 357.0853 446 -0.031 4646 0.250 357.08533 0.000089 0.000068 -0.000001 r_peak,r_snr = 0.8541248 212.8963 546 -0.031 4646 0.219 212.89635 0.000091 0.000068 -0.000001 r_peak,r_snr = 0.8693267 145.0120 646 -0.031 4646 0.219 145.01202 0.000077 0.000063 0.000001 r_peak,r_snr = 0.8722267 319.2784 746 -0.031 4646 0.188 319.27841 0.000074 0.000059 0.000001 r_peak,r_snr = 0.8782530 64.73653 846 -0.031 4646 0.188 64.73653 0.000073 0.000060 -0.000001 r_peak,r_snr = 0.8010380 43.64318 946 -0.031 4646 0.188 43.64318 0.000147 0.000109 -0.000001 r_peak,r_snr = 0.8848501 13.96695 1046 0.000 4646 0.188 13.96695 0.000098 0.000079 0.000000 r_peak,r_snr = 0.8110538 70.34946 1146 0.000 4646 0.188 70.34946 0.000140 0.000124 0.000001 r_peak,r_snr = 0.8103632 12.07973 1246 -0.031 4646 0.219 12.07973 0.000210 0.000201 0.000008 r_peak,r_snr = 0.7271106 213.5850 1346 0.000 4646 0.188 213.58504 0.000205 0.000168 0.000000 r_peak,r_snr = 0.8237551 36.64183 1446 0.031 4646 0.125 36.64183 0.000133 0.000112 0.000000 r_peak,r_snr = 0.8351743 159.8418 1546 0.031 4646 0.156 159.84183 0.000106 0.000092 -0.000001 r_peak,r_snr = 0.7009647 138.9058 1646 0.000 4646 0.188 138.90582 0.000248 0.000235 0.000006 r_peak,r_snr = 0.6338505 302.7239 1746 0.000 4646 0.219 302.72388 0.000312 0.000266 0.000001 r_peak,r_snr = 0.6771416 182.3135 1846 0.031 4646 0.219 182.31348 0.000274 0.000255 -0.000006 r_peak,r_snr = 0.7050241 107.0933 1946 0.031 4646 0.188 107.09333 0.000233 0.000212 0.000000 r_peak,r_snr = 0.5492336 173.6392 2046 0.000 4646 0.219 173.63919 0.000456 0.000467 0.000006 At line = 5000 Reading in data.... r_peak,r_snr = 0.8544395 36.94238 146 -0.063 5046 0.250 36.94238 0.000102 0.000079 0.000000 r_peak,r_snr = 0.8839064 17.35382 246 -0.031 5046 0.250 17.35382 0.000088 0.000073 -0.000001 r_peak,r_snr = 0.8816038 14.12429 346 -0.063 5046 0.219 14.12429 0.000083 0.000069 -0.000002 r_peak,r_snr = 0.8435926 283.3964 446 -0.031 5046 0.188 283.39642 0.000092 0.000069 0.000001 r_peak,r_snr = 0.8644334 135.6443 546 -0.031 5046 0.219 135.64430 0.000085 0.000065 -0.000001 r_peak,r_snr = 0.8719723 251.4755 646 -0.031 5046 0.188 251.47546 0.000076 0.000057 0.000000 r_peak,r_snr = 0.8796319 166.9101 746 -0.031 5046 0.219 166.91013 0.000074 0.000055 -0.000001 r_peak,r_snr = 0.8707365 46.39746 846 -0.031 5046 0.219 46.39746 0.000091 0.000076 0.000001 r_peak,r_snr = 0.8350644 256.6377 946 -0.031 5046 0.219 256.63773 0.000094 0.000081 0.000000 r_peak,r_snr = 0.8769717 5.263402 1046 -0.031 5046 0.219 5.26340 0.000143 0.000121 0.000000 r_peak,r_snr = 0.7493020 26.63450 1146 0.000 5046 0.188 26.63450 0.000240 0.000182 -0.000003 r_peak,r_snr = 0.7960374 32.84828 1246 0.000 5046 0.219 32.84828 0.000170 0.000158 -0.000002 r_peak,r_snr = 0.7382330 16.45867 1346 -0.031 5046 0.156 16.45867 0.000258 0.000217 0.000002 r_peak,r_snr = 0.8236171 337.7477 1446 0.000 5046 0.188 337.74765 0.000104 0.000094 0.000000 r_peak,r_snr = 0.8321115 38.46012 1546 0.000 5046 0.188 38.46012 0.000119 0.000099 0.000000 r_peak,r_snr = 0.6807035 289.4382 1646 0.000 5046 0.156 289.43820 0.000253 0.000196 -0.000005 r_peak,r_snr = 0.6470876 356.2472 1746 0.000 5046 0.219 356.24716 0.000272 0.000231 -0.000001 r_peak,r_snr = 0.5780138 270.9611 1846 0.031 5046 0.188 270.96109 0.000402 0.000348 0.000004 r_peak,r_snr = 0.5535408 208.5822 1946 0.000 5046 0.250 208.58217 0.000465 0.000428 0.000005 r_peak,r_snr = 0.4792925 279.7703 2046 -0.063 5046 0.250 279.77029 0.000623 0.000507 0.000012 At line = 5400 Reading in data.... r_peak,r_snr = 0.8424978 144.7120 146 -0.063 5446 0.250 144.71202 0.000095 0.000078 -0.000001 r_peak,r_snr = 0.8798589 87.94279 246 -0.031 5446 0.250 87.94279 0.000074 0.000063 0.000001 r_peak,r_snr = 0.8551602 149.3989 346 -0.031 5446 0.250 149.39893 0.000085 0.000071 -0.000002 r_peak,r_snr = 0.8498958 339.3214 446 -0.031 5446 0.219 339.32138 0.000083 0.000071 -0.000001 r_peak,r_snr = 0.8532748 260.4553 546 -0.031 5446 0.219 260.45532 0.000084 0.000067 0.000000 r_peak,r_snr = 0.8776928 111.7524 646 -0.031 5446 0.219 111.75242 0.000074 0.000060 -0.000002 r_peak,r_snr = 0.8738520 320.9417 746 -0.031 5446 0.219 320.94165 0.000069 0.000056 0.000000 r_peak,r_snr = 0.8527330 61.52811 846 -0.031 5446 0.188 61.52811 0.000102 0.000086 0.000001 r_peak,r_snr = 0.8363409 424.2591 946 -0.031 5446 0.188 424.25912 0.000093 0.000074 0.000000 r_peak,r_snr = 0.8522747 16.54218 1046 -0.031 5446 0.188 16.54218 0.000122 0.000091 0.000001 r_peak,r_snr = 0.7618670 21.13476 1146 -0.031 5446 0.250 21.13476 0.000240 0.000207 -0.000005 r_peak,r_snr = 0.8854460 12.22825 1246 -0.031 5446 0.188 12.22825 0.000102 0.000095 0.000003 r_peak,r_snr = 0.8833992 35.70933 1346 0.000 5446 0.188 35.70933 0.000088 0.000077 0.000002 r_peak,r_snr = 0.8559415 25.90611 1446 0.000 5446 0.156 25.90611 0.000113 0.000094 -0.000001 r_peak,r_snr = 0.7232659 189.2005 1546 0.031 5446 0.156 189.20053 0.000228 0.000192 0.000000 r_peak,r_snr = 0.6588345 193.0705 1646 0.000 5446 0.188 193.07051 0.000287 0.000246 -0.000004 r_peak,r_snr = 0.7071800 206.1260 1746 0.031 5446 0.188 206.12598 0.000221 0.000203 -0.000002 r_peak,r_snr = 0.7234356 107.7274 1846 0.031 5446 0.188 107.72737 0.000206 0.000191 0.000001 r_peak,r_snr = 0.6326431 349.8398 1946 0.031 5446 0.156 349.83984 0.000303 0.000259 -0.000009 r_peak,r_snr = 0.5897463 313.9787 2046 0.000 5446 0.188 313.97867 0.000362 0.000304 -0.000003 At line = 5800 Reading in data.... r_peak,r_snr = 0.8567586 59.70676 146 -0.063 5846 0.250 59.70676 0.000090 0.000076 -0.000001 r_peak,r_snr = 0.8824438 40.43702 246 -0.031 5846 0.219 40.43702 0.000081 0.000062 -0.000001 r_peak,r_snr = 0.8637725 321.1662 346 -0.063 5846 0.219 321.16617 0.000077 0.000060 0.000000 r_peak,r_snr = 0.8653022 263.1031 446 -0.063 5846 0.219 263.10309 0.000085 0.000061 -0.000001 r_peak,r_snr = 0.8618040 387.1320 546 -0.031 5846 0.219 387.13199 0.000075 0.000062 0.000000 r_peak,r_snr = 0.8899225 106.2594 646 -0.031 5846 0.219 106.25939 0.000065 0.000053 0.000000 r_peak,r_snr = 0.8737502 375.5144 746 -0.031 5846 0.219 375.51437 0.000073 0.000053 -0.000002 r_peak,r_snr = 0.8738201 147.5649 846 0.000 5846 0.219 147.56487 0.000076 0.000059 0.000000 r_peak,r_snr = 0.8401254 18.61504 946 -0.063 5846 0.250 18.61504 0.000139 0.000114 0.000000 r_peak,r_snr = 0.7857823 21.39495 1046 0.000 5846 0.219 21.39495 0.000176 0.000146 -0.000003 r_peak,r_snr = 0.5309398 92.02486 1146 -0.031 5846 0.063 92.02486 0.000581 0.000415 -0.000006 e vector 1 error r_peak,r_snr = 0.8282434 28.02791 1246 -0.031 5846 0.156 28.02791 0.000130 0.000109 0.000000 r_peak,r_snr = 0.8394296 33.56497 1346 0.000 5846 0.188 33.56497 0.000132 0.000125 0.000000 r_peak,r_snr = 0.9234332 4.649650 1446 0.000 5846 0.156 4.64965 0.000096 0.000075 -0.000001 r_peak,r_snr = 0.7858016 15.02551 1546 0.000 5846 0.156 15.02551 0.000227 0.000235 -0.000010 r_peak,r_snr = 0.8108718 68.32979 1646 -0.031 5846 0.188 68.32979 0.000131 0.000112 -0.000002 r_peak,r_snr = 0.7145244 298.0248 1746 0.000 5846 0.188 298.02481 0.000204 0.000178 -0.000002 r_peak,r_snr = 0.8142273 102.0624 1846 0.000 5846 0.156 102.06238 0.000131 0.000120 0.000002 r_peak,r_snr = 0.7924130 159.6946 1946 0.031 5846 0.156 159.69464 0.000136 0.000110 0.000001 r_peak,r_snr = 0.6710963 307.3147 2046 0.000 5846 0.219 307.31467 0.000243 0.000215 0.000005 ************************************************** ***** ***** ***** 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: 58764 number of output lines: 6529 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 + 57025 + 57601 + 58177 + 58753 *** Filtering. o/p nlines: 6529 + 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 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: 58764 number of output lines: 6529 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 + 57025 + 57601 + 58177 + 58753 *** Filtering. o/p nlines: 6529 + 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 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: 58764 number of output lines: 6529 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 + 57025 + 57601 + 58177 + 58753 *** Filtering. o/p nlines: 6529 + 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 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 + 6400 + 6500 ************************************************** ***** ***** ***** 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 58764 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 6529 58764 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 + 6400 + 6500 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 6400 Unwrapping the phases Enter seed point index (0> Error file = SCREEN Reading from: ts1355_c.rdf interferogram width: 2560 number of lines/patch: 1024 start line: 3 number of lines: 6528 start sample: 1 end sample: 2550 Interferogram File: /mnt/air65/airops/1355/ts1355_c.phase SLC Amplitudes File: /mnt/air65/airops/1355/ts1355_c.amp Filtered Interferogram File: filt_int Phase Gradient File: phase_slp Gradient Corrected Corr. File: gradient_cc Unwrapped Phase File: /mnt/air65/airops/1355/ts1355_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: 8 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: 1.49599E-03 GEN_NEUTRONS: image intensity standard deviation: 4.14618E-03 GEN_NEUTRONS: image intensity neutrons: 1168 INIT_UNW_RT: number of residues: 1996 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: 18286 area fraction: 0.0071 average correlation of component: 0.8835 seed: 2 range: 28 azimuth: 64 points unwrapped: 11 area fraction: 0.0000 average correlation of component: 0.8716 seed: 11 range: 172 azimuth: 64 points unwrapped: 8345 area fraction: 0.0032 average correlation of component: 0.8814 seed: 15 range: 236 azimuth: 64 points unwrapped: 2393978 area fraction: 0.9269 average correlation of component: 0.8583 INIT_UNW_RT: largest component area: 0.9269 seed range: 236 INIT_UNW_RT: number of points for phase bootstrap: 7246 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: 1.24879E-03 GEN_NEUTRONS: image intensity standard deviation: 1.98721E-03 GEN_NEUTRONS: image intensity neutrons: 615 UNW_RT: number of residues: 813 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: 2544329 area fraction: 0.98515 average correlation of connected component: 0.8743 number of points for phase bootstrap: 7246 bootstrap phase variance : 0.0318 bootstrap phase difference: 12.5653 phase difference (multiples of 2PI): 2.0000 UNW_RT: points unwrapped: 2544329 area fraction: 0.9852 UNW_RT: phase bootstrap points for next patch: 7578 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: 1.62423E-03 GEN_NEUTRONS: image intensity standard deviation: 2.93083E-03 GEN_NEUTRONS: image intensity neutrons: 1639 UNW_RT: number of residues: 220 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: 2562991 area fraction: 0.99238 average correlation of connected component: 0.8752 number of points for phase bootstrap: 7578 bootstrap phase variance : 0.0330 bootstrap phase difference: 12.5652 phase difference (multiples of 2PI): 2.0000 UNW_RT: points unwrapped: 2562991 area fraction: 0.9924 UNW_RT: phase bootstrap points for next patch: 7621 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: 1.80032E-03 GEN_NEUTRONS: image intensity standard deviation: 3.07994E-03 GEN_NEUTRONS: image intensity neutrons: 2494 UNW_RT: number of residues: 264 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: 2568980 area fraction: 0.99470 average correlation of connected component: 0.8740 number of points for phase bootstrap: 7618 bootstrap phase variance : 0.0083 bootstrap phase difference: -6.2826 phase difference (multiples of 2PI): -1.0000 UNW_RT: points unwrapped: 2568980 area fraction: 0.9947 UNW_RT: phase bootstrap points for next patch: 7513 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: 2.12834E-03 GEN_NEUTRONS: image intensity standard deviation: 4.03192E-03 GEN_NEUTRONS: image intensity neutrons: 1282 UNW_RT: number of residues: 213 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: 2567249 area fraction: 0.99403 average correlation of connected component: 0.8919 number of points for phase bootstrap: 7510 bootstrap phase variance : -0.0855 bootstrap phase difference: -31.4178 phase difference (multiples of 2PI): -5.0000 UNW_RT: points unwrapped: 2567249 area fraction: 0.9940 UNW_RT: phase bootstrap points for next patch: 7582 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: 1.69532E-03 GEN_NEUTRONS: image intensity standard deviation: 3.34582E-03 GEN_NEUTRONS: image intensity neutrons: 1446 UNW_RT: number of residues: 274 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: 2572331 area fraction: 0.99600 average correlation of connected component: 0.8821 number of points for phase bootstrap: 7578 bootstrap phase variance : 0.1319 bootstrap phase difference: -25.1304 phase difference (multiples of 2PI): -4.0000 UNW_RT: points unwrapped: 2572331 area fraction: 0.9960 UNW_RT: phase bootstrap points for next patch: 7621 PATCH: 7 starting line: 5378 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: 1.48249E-03 GEN_NEUTRONS: image intensity standard deviation: 2.56196E-03 GEN_NEUTRONS: image intensity neutrons: 574 UNW_RT: number of residues: 355 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: 2577327 area fraction: 0.99793 average correlation of connected component: 0.8887 number of points for phase bootstrap: 7615 bootstrap phase variance : 0.0331 bootstrap phase difference: -12.5652 phase difference (multiples of 2PI): -2.0000 UNW_RT: points unwrapped: 2577327 area fraction: 0.9979 UNW_RT: phase bootstrap points for next patch: 7614 PATCH: 8 starting line: 6274 lines read: 256 starting output line: 65 ending output line: 256 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: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 1.57544E-03 GEN_NEUTRONS: image intensity standard deviation: 2.74057E-03 GEN_NEUTRONS: image intensity neutrons: 199 UNW_RT: number of residues: 99 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: 602972 area fraction: 0.95647 average correlation of connected component: 0.9182 number of points for phase bootstrap: 7611 bootstrap phase variance : 0.0331 bootstrap phase difference: -12.5652 phase difference (multiples of 2PI): -2.0000 UNW_RT: points unwrapped: 602972 area fraction: 0.9565 UNW_RT: phase bootstrap points for next patch: 7576 *** Normal Completion *** enter I/P file name (unw_phase_mag) /mnt/air65/airops/1355/ts1355_c.unw_phase_mag enter I/P file name for hdr (amp_file) /mnt/air65/airops/1355/ts1355_c.amp enter O/P file name for magitude file: /mnt/air65/airops/1355/ts1355_c.unw_vvvv enter O/P file name for phase file: /mnt/air65/airops/1355/ts1355_c.unw_intf Reading new header..STARTING at 0 r_new_hdr r_param_hdr ns nl offset : 2560 6529 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 12700 130048000 65044480 12701 130058240 65044480 12800 131072000 65556480 12801 131082240 65556480 12900 132096000 66068480 12901 132106240 66068480 13000 133120000 66580480 13001 133130240 66580480 ************************************************** ***** ***** ***** 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/1355/sensor.vh00c Number of lines in mocomp file: 60000 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 6529 Ave phase (rad), standard dev: 32.22618 8.506434 Total number of pixels averaged: 32552496 Phase Adjustment in cycles: 5.128956 Multi-looking lines 6529 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 6529 ***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/1355/sensor.vh00c Transmit leverarm: 1.889000 1.726800 1.912000 Receive levararm: 1.872000 0.6771000 -0.3541000 1st &total # lines: 1 60000 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 7488.199 7488.224 -36.04568 217.6094 2.5023460E-02 1)xr yr zr: 1.862237 0.7282944 -0.2998245 xv0 ,h_p c s xv: 100 7488.199 7488.223 -36.01333 217.6094 2.3226051E-02 100)xr yr zr: 1.862242 0.7282833 -0.2998245 -15168.33 -255.6868 7488.223 Enter the interf. calibration file name. HDDT: 98 ==xv0 h_a== 7488.199 6988.200 499.9990 ==r0 bw wavl dx dr== 8102.270 40.00000 5.6699999E-02 0.5100000 3.331000 ==phbt phtp calf==band 6.700000 66.90000 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: 121.9600 -60.20000 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 6529 3 Reading mask Reading line files Translating the phases to height. ==look_agl==: 1 1287 0.5307097 xv ha cos(p): -0.1742610 0.8321031 0.9995991 xv0 maphgt rf: 7488.199 499.9990 8102.749 **Bliine(100) dy dz:** 1.047641 2.265866 plane sch 0.0000000E+00 0.0000000E+00 0.0000000E+00 ==look_agl==: 2560 1840 1.137041 xv ha cos(p): -0.2853058 0.8324997 0.9995859 xv0 maphgt rf: 7488.199 499.9990 16627.44 **Bliine(100) dy dz:** 1.048525 2.265441 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 6400 Along-track offset = -14911.67 Writing map out. cal_cp lines: 2560 6529 30720 file cal_cp.dat: 2560 6529 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 6400 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 6400 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 6400 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 6400 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 6400 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 6400 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: 96.90000 -196.1100 Input ground spacing ? cross-track ground spacing: 5.000000 Radiometric Correction Vectors file: /mnt/air65/airops/1355/ts1355_c.rad_vec vec_len Rn ha y0out dyout: 17576 16626.30 6988.200 4100.225 5.000000 3.331000 NSAMP vec_len rg_len nbytes: 2560 2197 17576 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 6529 500 6529 750 6529 1000 6529 1250 6529 1500 6529 1750 6529 2000 6529 2250 6529 2500 6529 2750 6529 3000 6529 3250 6529 3500 6529 3750 6529 4000 6529 4250 6529 4500 6529 4750 6529 5000 6529 5250 6529 5500 6529 5750 6529 6000 6529 6250 6529 6500 6529 peg points: 63.97232 -146.9123 89.59814 63.97232 -146.9123 89.59814 BIGDELTA90-1 NAME OF HEADER PARAMETER SITE NAME BigDelta90-1 LATITUDE OF SITE (DEGREES) 64.0500 LONGITUDE OF SITE (DEGREES) -145.7667 IMAGE TITLE BIGDELTA90-1 HDDT ID 98 FREQUENCY C POLARIZATION VV CCT TYPE TS CCT ID 1355 ARCHIVAL FLAG 0 TRANSFER START FRAMECOUNT 4478320 PROCESSOR START FRAMECOUNT 4478320 LATITUDE AT START OF SCENE (DEGREES) 64.0055 LONGITUDE AT START OF SCENE (DEGREES) -147.2205 LATITUDE AT END OF SCENE (DEGREES) 64.0055 LONGITUDE AT END OF SCENE (DEGREES) -146.3016 APPROXIMATE STARTING HDDT FOOTAGE 419366 DATE OF ACQUISITION (GMT) 21-OCT-00 TIME OF ACQUISITION: GMT DAY 295 TIME OF ACQUISITION: SECONDS IN DAY 66774.0 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) 845.9 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) 7908.8 RADAR ALTITUDE (METERS) 6988.2 ALTITUDE USED IN PROCESSOR (METERS) 6988.2 ELEVATION OF INVESTIGATOR SITE (METERS) 500 AIRCRAFT TRACK ANGLE (DEGREES) 89.9 AIRCRAFT YAW ANGLE (DEGREES) -1.5 AIRCRAFT PITCH ANGLE (DEGREES) 1.6 AIRCRAFT ROLL ANGLE (DEGREES) 0.1 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) 30.4 FAR LOOK ANGLE (DEGEES) 65.1 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) 64.0440 IMAGE CENTER LONGITUDE (DEGREES) -146.7600 CALTONE VIDEO FREQUENCY 43.5938 CALTONE POWER MEASURED, DB, HH 97.1 CALTONE POWER MEASURED, DB, HV 96.9 CALTONE POWER MEASURED, DB, VH 97.1 CALTONE POWER MEASURED, DB, VV 96.9 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 6.7 CALTONE PHASE MEASURED, DEG, HV 66.9 CALTONE PHASE MEASURED, DEG, VH 6.5 CALTONE PHASE MEASURED, DEG, VV 66.9 GENERAL SCALE FACTOR 0.0 GPS ALTITUDE, M 7307.3 LATITUDE OF PEG POINT 63.9723244 LONGITUDE OF PEG POINT -146.9122772 HEADING AT PEG POINT 89.5981445 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: 845.9000 40.00000 10.00000 proj4 nsampr 2197 15417.15 6988.200 4100.225 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 17576 Byte offset to first data line: 26364 Peg point parameters: 63.97232 -146.9123 89.59814 Offset Parameters: s0 (m) = -14911.70 c0 (m) = 4100.225 Reading data. 10240 2197 6529 + 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 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 + 6400 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 = 1273060 2197 6045 -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 + 5888 ************************************************** ***** ***** ***** 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: 845.9000 40.00000 10.00000 nsampr O/p: 2197 15417.15 6988.200 4100.225 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: 17576 Reading data. 10240 2197 6529 + 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 Initializing output array. Near Range = 4100.225 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 + 6400 Resampling the data: second pass. 2560 6529 + 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 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 = 1268884 2197 6045 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 + 5888 ************************************************** ***** ***** ***** 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: 845.9000 40.00000 10.00000 nsampr O/p: 2197 15417.15 6988.200 4100.225 5.000000 # header output no1 no2 no3: 5 1 1 3 Byte offset to cali header out: 17576 Byte offset to calheader in: 20480 Byte offset to dem header 0 Byte offset to first data line: 43940 headers_sgi: 3 17576 30720 26364 projcr4 cal vector VV:ireclenr,nsampr,nbytes,calvecr VV cal vector: 8788 2197 17576 26364 Reading data. 10240 2197 6529 + 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 Initializing output array. Near Range = 4100.225 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 + 6400 Resampling the data: second pass. 2560 6529 + 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 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 = 1268884 2197 6045 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 + 5888 ************************************************** ***** ***** ***** 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: 845.9000 40.00000 10.00000 nsampr O/p: 2197 15417.15 6988.200 4100.225 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: 8788 Reading data. 2560 2197 6529 + 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 Initializing output array. Near Range = 4100.225 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 + 6400 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 + 6400 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 + 5888 ************************************************** ***** ***** ***** 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: 845.9000 40.00000 10.00000 nsampr O/p: 2197 15417.15 6988.200 4100.225 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: 8788 Reading data. 2560 2197 6529 + 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 Initializing output array. Near Range = 4100.225 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 + 6400 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 + 6400 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 + 5888 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: 17576 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 5888 Enter the output file name. ibytesdemheadin: 17576 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 5888 Minimum, Maximum heights: -759.3796 757.6276 Suggest we use 9.2590764E-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 5888 ************************************************** ***** ***** ***** 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: 2197 6045 43940 ns np offset: 2197 6045 43940 ibytesvectorin nvector: 26364 17576 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 5888 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 5888 Average RCS (dB) = -28.15700 Enter the output file name. cal offset: 13182 1 2 data offset: 35152 1 2 1 4 17576 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 5888 *** Convert real*4 to Byte image *** Enter data file to be converted: /mnt/air65/airops/1355/ts1355_c.vvgr channel= 3 Reading the header. New header present. Record length = 8788 Number of samples per line = 2197 Number of lines in image = 6045 Offset to data = 43940 Status = 0 New header is OK nsamp,nlines,ioff 2197 6045 43940 Enter data file for saving byte output: 33 0.1355839 0.0000000E+00 65 0.1381756 0.0000000E+00 97 0.1400020 0.0000000E+00 129 0.3116279 0.0000000E+00 161 0.3116279 0.0000000E+00 193 0.3116279 0.0000000E+00 225 0.3116279 0.0000000E+00 257 0.3116279 0.0000000E+00 289 0.3116279 0.0000000E+00 321 0.3116279 0.0000000E+00 353 0.3116279 0.0000000E+00 385 0.3116279 0.0000000E+00 417 0.3116279 0.0000000E+00 449 0.3116279 0.0000000E+00 481 0.3116279 0.0000000E+00 513 0.3116279 0.0000000E+00 545 0.3116279 0.0000000E+00 577 0.3116279 0.0000000E+00 609 0.3116279 0.0000000E+00 641 0.3116279 0.0000000E+00 673 0.3116279 0.0000000E+00 705 0.3116279 0.0000000E+00 737 0.3116279 0.0000000E+00 769 0.3116279 0.0000000E+00 801 0.3116279 0.0000000E+00 833 0.3116279 0.0000000E+00 865 0.3116279 0.0000000E+00 897 0.3116279 0.0000000E+00 929 0.3116279 0.0000000E+00 961 0.3116279 0.0000000E+00 993 0.3116279 0.0000000E+00 1025 0.3116279 0.0000000E+00 1057 0.3116279 0.0000000E+00 1089 0.3116279 0.0000000E+00 1121 0.3116279 0.0000000E+00 1153 0.3116279 0.0000000E+00 1185 0.3116279 0.0000000E+00 1217 0.3116279 0.0000000E+00 1249 0.3116279 0.0000000E+00 1281 0.3116279 0.0000000E+00 1313 0.3116279 0.0000000E+00 1345 0.3116279 0.0000000E+00 1377 0.3116279 0.0000000E+00 1409 0.3116279 0.0000000E+00 1441 0.3116279 0.0000000E+00 1473 0.3116279 0.0000000E+00 1505 0.3116279 0.0000000E+00 1537 0.3116279 0.0000000E+00 1569 0.3116279 0.0000000E+00 1601 0.3116279 0.0000000E+00 1633 0.3116279 0.0000000E+00 1665 0.3116279 0.0000000E+00 1697 0.3116279 0.0000000E+00 1729 0.3116279 0.0000000E+00 1761 0.3116279 0.0000000E+00 1793 0.3116279 0.0000000E+00 1825 0.3116279 0.0000000E+00 1857 0.3116279 0.0000000E+00 1889 0.3116279 0.0000000E+00 1921 0.3116279 0.0000000E+00 1953 0.3116279 0.0000000E+00 1985 0.3116279 0.0000000E+00 2017 0.3116279 0.0000000E+00 2049 0.3116279 0.0000000E+00 2081 0.3116279 0.0000000E+00 2113 0.3116279 0.0000000E+00 2145 0.3116279 0.0000000E+00 2177 0.3116279 0.0000000E+00 2209 0.3116279 0.0000000E+00 2241 0.3116279 0.0000000E+00 2273 0.3116279 0.0000000E+00 2305 0.3116279 0.0000000E+00 2337 0.3116279 0.0000000E+00 2369 0.3116279 0.0000000E+00 2401 0.3116279 0.0000000E+00 2433 0.3116279 0.0000000E+00 2465 0.3116279 0.0000000E+00 2497 0.3116279 0.0000000E+00 2529 0.3116279 0.0000000E+00 2561 0.3116279 0.0000000E+00 2593 0.3116279 0.0000000E+00 2625 0.3116279 0.0000000E+00 2657 0.3116279 0.0000000E+00 2689 0.3116279 0.0000000E+00 2721 0.3116279 0.0000000E+00 2753 0.3116279 0.0000000E+00 2785 0.3116279 0.0000000E+00 2817 0.3116279 0.0000000E+00 2849 0.3116279 0.0000000E+00 2881 0.3116279 0.0000000E+00 2913 0.3116279 0.0000000E+00 2945 0.3116279 0.0000000E+00 2977 0.3116279 0.0000000E+00 3009 0.3116279 0.0000000E+00 3041 0.3116279 0.0000000E+00 3073 0.3116279 0.0000000E+00 3105 0.3116279 0.0000000E+00 3137 0.3116279 0.0000000E+00 3169 0.3116279 0.0000000E+00 3201 0.3116279 0.0000000E+00 3233 0.3116279 0.0000000E+00 3265 0.3116279 0.0000000E+00 3297 0.3116279 0.0000000E+00 3329 0.3116279 0.0000000E+00 3361 0.3116279 0.0000000E+00 3393 0.3116279 0.0000000E+00 3425 0.3116279 0.0000000E+00 3457 0.3116279 0.0000000E+00 3489 0.3116279 0.0000000E+00 3521 0.3116279 0.0000000E+00 3553 0.3116279 0.0000000E+00 3585 0.3116279 0.0000000E+00 3617 0.3116279 0.0000000E+00 3649 0.3116279 0.0000000E+00 3681 0.3116279 0.0000000E+00 3713 0.3116279 0.0000000E+00 3745 0.3116279 0.0000000E+00 3777 0.3116279 0.0000000E+00 3809 0.3116279 0.0000000E+00 3841 0.3116279 0.0000000E+00 3873 0.3116279 0.0000000E+00 3905 0.3116279 0.0000000E+00 3937 0.3116279 0.0000000E+00 3969 0.3116279 0.0000000E+00 4001 0.3116279 0.0000000E+00 4033 0.3116279 0.0000000E+00 4065 0.3116279 0.0000000E+00 4097 0.3116279 0.0000000E+00 4129 0.3116279 0.0000000E+00 4161 0.3116279 0.0000000E+00 4193 0.3116279 0.0000000E+00 4225 0.3116279 0.0000000E+00 4257 0.3116279 0.0000000E+00 4289 0.3116279 0.0000000E+00 4321 0.3116279 0.0000000E+00 4353 0.3116279 0.0000000E+00 4385 0.3116279 0.0000000E+00 4417 0.3116279 0.0000000E+00 4449 0.3116279 0.0000000E+00 4481 0.3116279 0.0000000E+00 4513 0.3116279 0.0000000E+00 4545 0.3116279 0.0000000E+00 4577 0.3116279 0.0000000E+00 4609 0.3116279 0.0000000E+00 4641 0.3116279 0.0000000E+00 4673 0.3116279 0.0000000E+00 4705 0.3116279 0.0000000E+00 4737 0.3116279 0.0000000E+00 4769 0.3116279 0.0000000E+00 4801 0.3116279 0.0000000E+00 4833 0.3116279 0.0000000E+00 4865 0.3116279 0.0000000E+00 4897 0.3116279 0.0000000E+00 4929 0.3116279 0.0000000E+00 4961 0.3116279 0.0000000E+00 4993 0.3116279 0.0000000E+00 5025 0.3116279 0.0000000E+00 5057 0.3116279 0.0000000E+00 5089 0.3116279 0.0000000E+00 5121 0.3116279 0.0000000E+00 5153 0.3116279 0.0000000E+00 5185 0.3116279 0.0000000E+00 5217 0.3116279 0.0000000E+00 5249 0.3116279 0.0000000E+00 5281 0.3116279 0.0000000E+00 5313 0.3116279 0.0000000E+00 5345 0.3116279 0.0000000E+00 5377 0.3116279 0.0000000E+00 5409 0.3116279 0.0000000E+00 5441 0.3116279 0.0000000E+00 5473 0.3116279 0.0000000E+00 5505 0.3116279 0.0000000E+00 5537 0.3116279 0.0000000E+00 5569 0.3116279 0.0000000E+00 5601 0.3116279 0.0000000E+00 5633 0.3116279 0.0000000E+00 5665 0.3116279 0.0000000E+00 5697 0.3116279 0.0000000E+00 5729 0.3116279 0.0000000E+00 5761 0.3116279 0.0000000E+00 5793 0.3116279 0.0000000E+00 5825 0.3116279 0.0000000E+00 5857 0.3116279 0.0000000E+00 5889 0.3116279 0.0000000E+00 5921 0.3116279 0.0000000E+00 5953 0.3116279 0.0000000E+00 5985 0.3116279 0.0000000E+00 6017 0.3116279 0.0000000E+00 Min, Max r_scale = 0.0000000E+00 0.3116279 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 5900 5950 6000 done Thu Mar 14 15:16:11 PST 2002 Thu Mar 14 15:16:11 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 FOMs: 5,3-5,8; smooth to light chop; clear and cloudy; low d rift; signals look good, still getting lots of P-band pulsed RFI ; EGR-EGI lat diff: 0.12 mine (wide pulse); GS looks goodlliam Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1355/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: 60000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1355/ts1355_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: 419366 enter the title of image: title image BIGDELTA90-1 enter the CCT (job) ID: cct: 1355 target:BigDelta90-1 prod ID(cctid):1355 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: 500.0000 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 63.97086538374424 IGI lon: 1 -147.2237209137529 *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 8 0 >> ratn_phv = 0 4 0 >> ratn_pvh = 0 2 0 >> ratn_pvv = 0 10 0 >> ratn_lhh = 0 12 0 >> ratn_lhv = 0 12 0 >> ratn_lvh = 0 12 0 >> ratn_lvv = 0 12 0 >> ratn_chh = 0 9 10 >> ratn_chv = 0 9 10 >> ratn_cvh = 0 9 10 >> ratn_cvv = 0 9 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 119936 63.97086538374424 -147.2237209137529 63.97166666666666 -147.2400000000000 7906.512000000001 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 6298.996800000000 0.3000000000000000 1.600000000000000 88.40000000000001 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 63.97069549560547 -147.2229461669922 0.0000000000000000E+00 0.0000000000000000E+00 25425174.00000000 ****gps_frame**** 4478319 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8102.267048972740 1 937 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 4537819.357524013 34623.47269066396 gpsT doy: 295 10 21 gpsT: 25425174.00000000 2000 10 21 18 32 54 0.0000000000000000E+00 week# 1 F12 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 585174.1324320000 EGI msg 1 msl alt(from eo17): 7302.895746386719 EGI msg 1 wander angle(from eo17): 86.00646972656250 EGI09 lat: 63.97086538374424 EGI09 lon: -147.2237209137529 EGI09 alt: 6123.000000000000 EGI09 Height_above_ellipsoid - height_msl: 6.400800000000000 EGI-09 word11 gps Vel East m/s: 213.2802458564758 EGI-09 word12 gps Vel North m/s: 11.09206481323242 EGI-09 word13 gps Vel Upper m/s: -0.1060984657287598 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 E838 EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 66759.92987060547 EGI-09 Time Valid: 4.057344000000000 EGI-18 dec32 Vel North m/s: 30.79651069641113 EGI-18 dec32 Vel East m/s: 202.8967742919922 EGI-18 dec32 Vel Upper m/s: -0.1047639846801758 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 64.50000000000000 63.50000000000000 53.62500000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 9.0332031250000000E-03 1.1474609375000000E-02 EGI-13 GPS sigma roll/pitch/az: 7.6498118704142811E-04 7.6498118704142811E-04 1.6392454008030601E-03 r_time_tag_17: 0.9252480000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: 11.74192630920410 -217.2944121734619 8.6099395751953137E-03 EO17 wrander az roll pitch az: 1.501096074745343 5.4931640625000000E-02 1.636962890625000 88.32458496093750 EO17 r_cnexx/y/z: 0.4385016662999988 1.7769487574696541E-02 0.8985547414049506 EO17 r_lon: -147.2229543048888 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E DD4F D68D dec64: 216A 4882 63FE B469 r_hwgpstime(1): 585172.9898806863 r_utctime_18: 66759.98988068421 EGI-18 dec32 lat: 63.97103950215168 EGI-18 dec32 lon: -147.2236620501143 EGI-18 dec32 sea level alt: 7461.027832031250 EGI-18 dec32 WGS84 alt: 7467.439453125000 WGS84_alt-msl_alt: 6.411621093750000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 1 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 19 e22_msg(5) satellite 3: 1 e22_msg(7) satellite 4: B e22_msg(9) satellite 5: 5 EGI-22 Tdop: 2.093750000000000 1.921875000000000 1.390625000000000 1.328125000000000 0.8281250000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -3.132096000000000 geod_utctime time_tag_17 time_valid: 66759.92987060547 5.119512000000000 4.057344000000000 r_utc_ttag r_del_time_18: 585173.9920386075 2.0000000000000001E-09 J2000 r_hwtime = 25425174.13243200 GPS J2000 time = 25425173.99203861 Message 1 Time = 25425174.13243200 INS Time = 1.065856000000000 Roll angle = 6.0424804687500000E-02 Pitch angle = 1.631469726562500 Heading angle = 88.32458496093750 Long. acc = 0.3600000000000000 Lat. acc = -2.9999999999999999E-02 Norm. acc = -9.740000000000000 East vel. = 217.5930000000000 North vel. = 2.933000000000000 Up vel. = 4.0000000000000001E-03 True Grnd Spd = 217.6093750000000 Altitude = 7309.000000000000 Latitude = 63.96874358877540 Longitude = -147.2223304398358 Message 6 Week = 60 GPS Time = 25425173.99203861 GDOP = 2.093750000000000 PDOP = 1.921875000000000 HDOP = 1.390625000000000 VDOP = 1.328125000000000 TDOP = 0.8281250000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 63.97103950215168 GPS Lon = -147.2236620501143 GPS Alt = 7467.439453125000 GPS East Vel = 202.8967742919922 GPS North Vel = 30.79651069641113 GPS Up Vel = -0.1047639846801758 Message 4 Sigma Pos x = 64.50000000000000 Sigma Pos y = 63.50000000000000 Sigma Pos z = 53.62500000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 9.0332031250000000E-03 Sigma Vel z = 1.1474609375000000E-02 Message 7 Satellites used = 20 25 1 11 5 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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Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data 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 9064 20008 7308.817717907270 Done decoding data from header array... Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25425174.0000 25425316.7740 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57605 88.30261 88.76953 0.1307029 0 trc 89.49651 89.22456 89.75716 0.1768126 0 tgs 217.66344 217.29688 217.87500 0.1494292 0 roll 0.09233 -0.27466 0.58228 0.1963496 0 pitch 1.64685 1.58203 1.75232 0.0414259 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22233 -147.15741 0.0187615 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92494 -147.24000 -146.61167 0.1815359 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.32397 6147.20640 6840.01680 158.1372422 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79157 0.50000 1.90000 0.1304429 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7306.43043 7308.81772 0.7101329 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.00000 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006532 0 hwlon -146.90792 -147.22233 -146.59360 0.1815641 0 hwalt 7300.85361 7295.45176 7308.81772 3.7456520 0 hwev 217.66110 217.29800 217.88300 0.1496878 0 hwnv 1.91181 0.92100 2.94300 0.6712155 0 hwuv 0.06236 -0.17200 0.39300 0.1121145 0 hwroll 0.09241 -0.27466 0.58228 0.1964523 0 hwpitch 1.64687 1.58203 1.75232 0.0414464 0 hwhdg 88.57629 88.30261 88.76953 0.1304994 0 hwtrc 89.49677 89.22456 89.75716 0.1766857 0 hwtgs 217.66341 217.29688 217.87500 0.1495175 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 119936 1 119936 hdrgpssec-1 t_prf-1 119936 25425315.77478108 1.1840000515803695E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 937 25425315.00000000 4597601 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25425175.00000000 i_yearind 20008 GPS time for first pulse = 25425174.00104113 25425174.00000000 New startrecT: 25425174.00104113 25425174.13243200 1 New start and number of records = 113 119790 New start and number of blocks = 1 937 +6+r_hwhead(10/200): 0.0000000000000000E+00 5.4931640625000000E-03 88.32458496093750 GPS trend coefficients = 1.601781732692298 -4.853670229373576 2.478952927447506 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57627 88.30261 88.76953 0.1305555 0 trc 89.49669 89.22456 89.75663 0.1766745 0 tgs 217.66359 217.29688 217.87500 0.1493834 0 roll 0.09228 -0.27466 0.58228 0.1963947 0 pitch 1.64686 1.58203 1.75232 0.0414479 0 delx 0.25729 0.00000 0.25737 0.0007440 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22226 -147.15748 0.0187613 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92493 -147.23667 -146.61167 0.1815298 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.27778 6147.20640 6840.01680 158.2005539 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79061 0.50000 1.00000 0.1254973 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7307.20492 7307.34334 0.0352192 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.000Reading from stdin 00 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006532 0 hwlon -146.90792 -147.22226 -146.59366 0.1815640 0 hwalt 7300.85361 7295.45176 7308.81387 3.7456511 0 hwev 217.66110 217.29800 217.88300 0.1496878 0 hwnv 1.91181 0.92300 2.94300 0.6712151 0 hwuv 0.06236 -0.17200 0.39300 0.1121145 0 hwroll 0.09240 -0.27466 0.57678 0.1964457 0 hwpitch 1.64687 1.58203 1.75232 0.0414566 0 hwhdg 88.57629 88.30261 88.76953 0.1305114 0 hwtrc 89.49676 89.22509 89.75663 0.1766910 0 hwtgs 217.66345 217.29688 217.87500 0.1494416 0 Finished final analysis of data... Average Barometric Altitude = 7908.831017289132 Average Radar Altitude = 6491.277781856979 Average GPS Altitude = 7307.296311924030 >>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/1355/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: 937 Number of valid data points = 937 Start time GPS data = 25425172.99998989 End time GPS data = 25425313.99998718 Positions and Distances Start position = 63.9715799 -147.0676802 7486.794 End position = 63.9727282 -146.7524153 7487.417 Loxodromic Heading (deg) = 89.5250321 Loxodromic Distance (km) = 15442.3413551 Geodesic Heading (deg) = 89.3833877 Geodesic Distance (km) = 15442.3254479 Peg latitude and longitude = 63.9723236 -146.9122814 Peg heading = 89.5981409 Rotation matrix First row = -0.367646730 0.551189324 0.749016830 Second row = -0.239553609 -0.834374531 0.496420397 Third row = 0.898582189 0.003077651 0.438794460 Translation vector Vector = -0.15010 -0.09780 -38471.11867 Local Radius of Curvature = 6395444.908761902 startrec dgps_pacrim2k: 113 119790 **i_ts: 113 25425174.13300000 25425172.99998989 1.133010115474463 Start and end pulse used = 113 118437 gmt sec s e = 25425174.13300000 25425313.99996273 dgps sec s = 25425172.99998989 25425313.99998718 r_tsv: -2362434.775458875 -1521144.855004064 5715009.739195997 r_tev: -2345476.235184105 -1546724.397116353 5715131.328131497 lat/lon r_geodis: 1.116499678368468 -2.569525666015919 1.116542146102486 -2.558602830669908 30654.85433313598 Ellipsoidal delta s (m) = 0.2590755411677765 DGPS... lat/lon r_geodis: -5.4745093250431636E-06 -2.3797082592440762E-03 3.4867230862997477E-06 2.4135159106489674E-03 30654.85468696007 Delta s on reference surface = 0.2590755441580750 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1355/ts1355_l.peg DGPS Peg latitude and longitude = 63.9723236 -146.9122814 DGPS Peg heading = 89.5981409 == dgps_egi == r_hwheadf: 88.32458496093750 -5.4931640625000000E-03 0.0000000000000000E+00 113 Making final angle restore...Honeywell 88.32458496093750 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 4.0998904267578668E-06 Standard deviation of difference = 4.1746663298923640E-04 Making fits... Vertical fit coefficients = 7488.199130144905 0.1890630821790467 -5.5165563933901041E-04 Cross track fit coefficients = 219.6699698187169 3.6850476499923346E-02 5.6505546975661042E-04 Along track fit coefficients = 202.1007636230292 -0.1593021873037719 4.2580113981591228E-04 avg alt (1): 7488.199130144905 alt r_avgrefh: 7489.951836918471 i_yearind p-hgt t-hgt: 20008 7488.199130144905 500.0000 avg_ralt tmp: 6988.199218750000 6988.199 enter proc_alt: -1.000000 yaw: -1.548433 88.32458496093750 89.87301773171329 113 tape #: 98 PRF at the start of the run: 845.8805345651181 845.8806 Miscellaneous Information Start range = 8102.267048972740 Start ground range = 4100.219873608160 Time orgin = 25425174.00104113 Pulse spacing = 0.2572949504826003 First frame = 4478432 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/1355/ts1355_l.mocomp Name of the H-pol motion compensation file? /mnt/air65/airops/1355/ts1355_l.mocomph Name of the V-pol motion compensation file? /mnt/air65/airops/1355/ts1355_l.mocompv How many lines per polarization? 60000 + 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/1355/ts1355_l.par Enter the raw data file name. /mnt/air62/airops/1355/l_hh Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_l.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_l_hh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_l_hh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_l_hh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_l_hh.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1057 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (35.82965,0.0000000E+00) (-59.71608,0.0000000E+00) (7.962144,0.0000000E+00) attenuation (dB): 12.00000 no_loop: 64 Pulse#/no_loop: 1 1057 4.6512397E+08 plot_x: 936 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 86.66311 Power RMS: 8.2679726E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 21535.61 Amp. RMS: 22.62742 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -40.26379 Phase RMS: 0.1375533 Incoherent PH 1st: -40.27613 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 86.66209 CalTone Power Coherently dB : 86.66311 Incoherent PW - Coherent PW : -1.0147095E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 21532.65 CalTone Amplitude Coherently : 21535.61 Incoherent Amp.- Coherent Amp. : -2.957031 ------------ *** ------------ running time (sec): 32.79 ********** 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/1355/ts1355_l.par Enter the raw data file name. /mnt/air62/airops/1355/l_hv Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_l.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_l_hv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_l_hv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_l_hv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_l_hv.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1057 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (7.962144,0.0000000E+00) (-19.90536,0.0000000E+00) (-59.71608,0.0000000E+00) attenuation (dB): 12.00000 no_loop: 64 Pulse#/no_loop: 1 1057 8.6786189E+08 plot_x: 936 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 89.35648 Power RMS: 2.2097087E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 29364.60 Amp. RMS: 44.54211 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -92.06892 Phase RMS: 0.1432055 Incoherent PH 1st: -92.05426 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 89.35813 CalTone Power Coherently dB : 89.35648 Incoherent PW - Coherent PW : 1.6555786E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 29392.62 CalTone Amplitude Coherently : 29364.60 Incoherent Amp.- Coherent Amp. : 28.01758 ------------ *** ------------ running time (sec): 29.93 ********** 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/1355/ts1355_l.par Enter the raw data file name. /mnt/air62/airops/1355/l_vh Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_l.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_l_vh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_l_vh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_l_vh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_l_vh.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1057 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (23.88643,0.0000000E+00) (-51.75394,0.0000000E+00) (15.92429,0.0000000E+00) attenuation (dB): 12.00000 no_loop: 64 Pulse#/no_loop: 1 1057 4.6859078E+08 plot_x: 936 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 86.70016 Power RMS: 7.3287748E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 21627.69 Amp. RMS: 26.53300 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -40.13649 Phase RMS: 0.1366629 Incoherent PH 1st: -40.15741 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 86.70061 CalTone Power Coherently dB : 86.70016 Incoherent PW - Coherent PW : 4.5013428E-04 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 21659.70 CalTone Amplitude Coherently : 21627.69 Incoherent Amp.- Coherent Amp. : 32.00586 ------------ *** ------------ running time (sec): 29.99 ********** 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/1355/ts1355_l.par Enter the raw data file name. /mnt/air62/airops/1355/l_vv Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_l.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_l_vv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_l_vv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_l_vv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_l_vv.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1057 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (31.84858,0.0000000E+00) (3.981072,0.0000000E+00) (-27.86750,0.0000000E+00) attenuation (dB): 12.00000 no_loop: 64 Pulse#/no_loop: 1 1057 8.7346720E+08 plot_x: 936 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 89.36942 Power RMS: 7.6546557E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 29408.44 Amp. RMS: 53.66563 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -92.09819 Phase RMS: 0.1623798 Incoherent PH 1st: -92.07870 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 89.36657 CalTone Power Coherently dB : 89.36942 Incoherent PW - Coherent PW : -2.8457642E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 29421.12 CalTone Amplitude Coherently : 29408.44 Incoherent Amp.- Coherent Amp. : 12.68359 ------------ *** ------------ running time (sec): 29.92 ********** 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: -37.02198 5.5812264E-04 z fit: constant and linear terms: -0.2473269 4.1801592E-05 y and z standard deviations (meters) 1.419700 0.3048878 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 = 1.4607748E-02 2.1767834E-02 2.7298376E-02 3.0630941E-02 Differences = -8.9685209E-03 -1.8084347E-03 3.7221070E-03 7.0546716E-03 PATCH NUMER 2 First line = 3493 Averages = 2.6088480E-02 2.9556671E-02 3.3012893E-02 3.6237925E-02 Differences = -5.1355418E-03 -1.6673505E-03 1.7888714E-03 5.0139036E-03 PATCH NUMER 3 First line = 6985 Averages = 3.2131393E-02 3.5017323E-02 3.7886180E-02 3.7498422E-02 Differences = -3.5019517E-03 -6.1602145E-04 2.2528358E-03 1.8650778E-03 PATCH NUMER 4 First line = 10477 Averages = 3.7515931E-02 3.7661847E-02 3.5305727E-02 3.1719062E-02 Differences = 1.9652881E-03 2.1112040E-03 -2.4491549E-04 -3.8315803E-03 PATCH NUMER 5 First line = 13969 Averages = 3.6625221E-02 3.2568451E-02 3.0454548E-02 2.7915455E-02 Differences = 4.7343113E-03 6.7754090E-04 -1.4363620E-03 -3.9754547E-03 PATCH NUMER 6 First line = 17461 Averages = 3.0979378E-02 2.8612701E-02 2.6799347E-02 2.6763882E-02 Differences = 2.6905593E-03 3.2388233E-04 -1.4894716E-03 -1.5249364E-03 PATCH NUMER 7 First line = 20953 Averages = 2.7068200E-02 2.6539423E-02 2.9357608E-02 3.2719221E-02 Differences = -1.8529221E-03 -2.3816992E-03 4.3648668E-04 3.7980992E-03 PATCH NUMER 8 First line = 24445 Averages = 2.8084991E-02 3.1755216E-02 3.5346765E-02 3.9538205E-02 Differences = -5.5962894E-03 -1.9260645E-03 1.6654842E-03 5.8569238E-03 PATCH NUMER 9 First line = 27937 Averages = 3.4228258E-02 3.8177159E-02 4.3094758E-02 4.8166364E-02 Differences = -6.6884421E-03 -2.7395412E-03 2.1780580E-03 7.2496645E-03 PATCH NUMER 10 First line = 31429 Averages = 4.1623630E-02 4.7095586E-02 4.8923828E-02 5.0698150E-02 Differences = -5.4617040E-03 1.0251999E-05 1.8384941E-03 3.6128163E-03 PATCH NUMER 11 First line = 34921 Averages = 4.8660830E-02 5.0528146E-02 5.0339095E-02 4.9761057E-02 Differences = -1.1614636E-03 7.0585310E-04 5.1680207E-04 -6.1236322E-05 PATCH NUMER 12 First line = 38413 Averages = 5.0576117E-02 4.9639396E-02 5.1179036E-02 5.4572523E-02 Differences = -9.1563538E-04 -1.8523559E-03 -3.1271577E-04 3.0807704E-03 PATCH NUMER 13 First line = 41905 Averages = 5.0349448E-02 5.3466059E-02 5.7492465E-02 5.6706879E-02 Differences = -4.1541457E-03 -1.0375343E-03 2.9888712E-03 2.2032857E-03 PATCH NUMER 14 First line = 45397 Averages = 5.6351624E-02 5.7606217E-02 5.4588486E-02 5.1226359E-02 Differences = 1.4084727E-03 2.6630647E-03 -3.5466626E-04 -3.7167929E-03 PATCH NUMER 15 First line = 48889 Averages = 5.5128455E-02 5.3034421E-02 4.8953366E-02 5.0473411E-02 Differences = 3.2311827E-03 1.1371486E-03 -2.9439069E-03 -1.4238618E-03 PATCH NUMER 16 First line = 52381 last black mod_64: 59 60000 52381 8192 Averages = 4.9115885E-02 4.9655359E-02 5.2715905E-02 5.4697968E-02 Differences = -2.4303757E-03 -1.8909015E-03 1.1696443E-03 3.1517074E-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/1355/sensor.hh00l Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/l_hh Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_l.mocomph Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.lh WAYNE init fft, calc slant range, load unpack, interpo 1.4511000E-02 reading motion compensation data WAYNE read motion compen 1.390951 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 0.4732891 start range comp, time = 1.974 WAYNE PREV 1.895399 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: 51808 59999 patch# 16 reference line: 55903 2.290 seconds. before reading done reading WAYNE load raw data , time = 47.32016503810883 ATTN ifrq ipol ln 4 1 59999 12.00000 IPOL, ITOP nblock 1 0 16 ****shift in azimuth (fractional pixel)= -0.4997485 shift in azimuth *fractional pixel= -0.4997485 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2086033821105957E-02 WAYNE Motion comp. added to patch, time = 17.57921195030212 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.7599334716796875E-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 = 324.4338209629059 Writing 4192 lines of data to file WAYNE write output data 2.377518057823181 ==w out 16 0 2001 0 WAYNE PROCESS 391.7274100780487 ==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 2.284 seconds. before reading done reading WAYNE load raw data , time = 47.58033895492554 ATTN ifrq ipol ln 4 1 57080 12.00000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4997220 shift in azimuth *fractional pixel= -0.4997220 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1986970901489258E-02 WAYNE Motion comp. added to patch, time = 17.75940895080566 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9100179672241211E-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 = 443.5433969497681 Writing 4192 lines of data to file WAYNE write output data 2.013568997383118 ==w out 15 0 2001 0 WAYNE PROCESS 510.9137660264969 ==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 2.255 seconds. before reading done reading WAYNE load raw data , time = 48.99432301521301 ATTN ifrq ipol ln 4 1 50096 12.00000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4997457 shift in azimuth *fractional pixel= -0.4997457 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2151002883911133E-02 WAYNE Motion comp. added to patch, time = 17.35390102863312 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7999877929687500E-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 = 446.3147300481796 Writing 4192 lines of data to file WAYNE write output data 2.195897936820984 ==w out 13 0 2001 0 WAYNE PROCESS 514.8758310079575 ==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 2.282 seconds. before reading done reading WAYNE load raw data , time = 47.20520401000977 ATTN ifrq ipol ln 4 1 53588 12.00000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4997112 shift in azimuth *fractional pixel= -0.4997112 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2003064155578613E-02 WAYNE Motion comp. added to patch, time = 17.73915505409241 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 2.8450489044189453E-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 = 448.8461579084396 Writing 4192 lines of data to file WAYNE write output data 2.196045994758606 ==w out 14 0 2001 0 WAYNE PROCESS 516.0036439895630 ==w out 15 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 2.242 seconds. before reading done reading WAYNE load raw data , time = 46.62370800971985 ATTN ifrq ipol ln 4 1 43112 12.00000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4997663 shift in azimuth *fractional pixel= -0.4997663 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1940002441406250E-02 WAYNE Motion comp. added to patch, time = 17.03381896018982 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.8440952301025391E-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 = 431.2671259641647 Writing 4192 lines of data to file WAYNE write output data 1.953567981719971 ==w out 11 0 2001 0 WAYNE PROCESS 496.8946529626846 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 499.137 seconds. before reading done reading WAYNE load raw data , time = 53.67818796634674 ATTN ifrq ipol ln 4 1 46604 12.00000 IPOL, ITOP nblock 1 0 12 ****shift in azimuth (fractional pixel)= -0.4997679 shift in azimuth *fractional pixel= -0.4997679 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0887026786804199E-02 WAYNE Motion comp. added to patch, time = 15.45705211162567 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.0241022109985352E-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 = 292.3291389942169 Writing 4192 lines of data to file WAYNE write output data 1.983497977256775 ==w out 12 4192 2001 85852160 WAYNE PROCESS 363.4801499843597 ==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 2.187 seconds. before reading done reading WAYNE load raw data , time = 46.16612303256989 ATTN ifrq ipol ln 4 1 15176 12.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4997341 shift in azimuth *fractional pixel= -0.4997341 1.000000 WAYNE Motion comp. coeff. calculated, time = 3.5874962806701660E-02 WAYNE Motion comp. added to patch, time = 17.49283003807068 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.6940107345581055E-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 = 439.3559750318527 Writing 4192 lines of data to file WAYNE write output data 2.043729066848755 ==w out 3 0 2001 0 WAYNE PROCESS 505.0989140272141 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 507.286 seconds. before reading done reading WAYNE load raw data , time = 54.03417110443115 ATTN ifrq ipol ln 4 1 18668 12.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4997361 shift in azimuth *fractional pixel= -0.4997361 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1438965797424316E-02 WAYNE Motion comp. added to patch, time = 15.98542094230652 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3714900016784668E-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 = 293.9161299467087 Writing 4192 lines of data to file WAYNE write output data 1.977926969528198 ==w out 4 4192 2001 85852160 WAYNE PROCESS 365.9500949382782 ==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 2.203 seconds. before reading done reading WAYNE load raw data , time = 46.55347001552582 ATTN ifrq ipol ln 4 1 22160 12.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4997289 shift in azimuth *fractional pixel= -0.4997289 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1858940124511719E-02 WAYNE Motion comp. added to patch, time = 17.29054498672485 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6739835739135742E-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 = 439.6365090608597 Writing 4192 lines of data to file WAYNE write output data 2.047181010246277 ==w out 5 0 2001 0 WAYNE PROCESS 505.5439540147781 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 507.747 seconds. before reading done reading WAYNE load raw data , time = 54.61656391620636 ATTN ifrq ipol ln 4 1 25652 12.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4997081 shift in azimuth *fractional pixel= -0.4997081 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1107087135314941E-02 WAYNE Motion comp. added to patch, time = 16.09993600845337 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.4799785614013672E-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 = 295.0817389488220 Writing 4192 lines of data to file WAYNE write output data 1.953338980674744 ==w out 6 4192 2001 85852160 WAYNE PROCESS 367.7704249620438 ==w out 7 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -2.4259100E-02 2.9014500E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.172 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 47.20658397674561 ATTN ifrq ipol ln 4 1 8192 12.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4997054 shift in azimuth *fractional pixel= -0.4997054 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1943936347961426E-02 TESTING 0.0000000E+00 -30.24149 1.910299 WAYNE Motion comp. added to patch, time = 17.38838601112366 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9190778732299805E-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 -30.24149 1.910299 HEY,dt,fract,ye,pe -0.4997054 1.000000 -2.4259100E-02 2.9014500E-02 WAYNE Azimuth compression done, time = 448.1534960269928 Writing 4192 lines of data to file WAYNE write output data 2.182732939720154 ==w out 1 0 2001 0 WAYNE PROCESS 514.9478030204773 Processing block number 2 TESTING WHY -2.1667600E-02 2.9171800E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 517.120 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 54.46510398387909 ATTN ifrq ipol ln 4 1 11684 12.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4997193 shift in azimuth *fractional pixel= -0.4997193 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1070966720581055E-02 TESTING 0.0000000E+00 -26.37113 2.340863 WAYNE Motion comp. added to patch, time = 16.15203094482422 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 1.4856934547424316E-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 -26.37113 2.340863 HEY,dt,fract,ye,pe -0.4997193 1.000000 -2.1667600E-02 2.9171800E-02 WAYNE Azimuth compression done, time = 292.5792380571365 Writing 4192 lines of data to file WAYNE write output data 2.001853942871094 ==w out 2 4192 2001 85852160 WAYNE PROCESS 365.2255589962006 ==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 2.220 seconds. before reading done reading WAYNE load raw data , time = 48.98978090286255 ATTN ifrq ipol ln 4 1 29144 12.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4996827 shift in azimuth *fractional pixel= -0.4996827 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1914968490600586E-02 WAYNE Motion comp. added to patch, time = 18.31721901893616 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 3.3149719238281250E-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 = 445.4461050033569 Writing 4192 lines of data to file WAYNE write output data 2.224300026893616 ==w out 7 0 2001 0 WAYNE PROCESS 514.9947949647903 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 517.215 seconds. before reading done reading WAYNE load raw data , time = 55.45211195945740 ATTN ifrq ipol ln 4 1 32636 12.00000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4997138 shift in azimuth *fractional pixel= -0.4997138 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1033058166503906E-02 WAYNE Motion comp. added to patch, time = 16.43741703033447 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.1304011344909668E-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 = 291.6335680484772 Writing 4192 lines of data to file WAYNE write output data 2.047613024711609 ==w out 8 4192 2001 85852160 WAYNE PROCESS 365.6045479774475 ==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 2.230 seconds. before reading done reading WAYNE load raw data , time = 46.87922596931458 ATTN ifrq ipol ln 4 1 36128 12.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4997495 shift in azimuth *fractional pixel= -0.4997495 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2026071548461914E-02 WAYNE Motion comp. added to patch, time = 17.04375600814819 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8159618377685547E-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 = 448.7684489488602 Writing 4192 lines of data to file WAYNE write output data 2.214902997016907 ==w out 9 0 2001 0 WAYNE PROCESS 514.9228860139847 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 517.153 seconds. before reading done reading WAYNE load raw data , time = 54.54658102989197 ATTN ifrq ipol ln 4 1 39620 12.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4997631 shift in azimuth *fractional pixel= -0.4997631 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1132001876831055E-02 WAYNE Motion comp. added to patch, time = 15.85002303123474 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2422075271606445E-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 = 293.8556209802628 Writing 4192 lines of data to file WAYNE write output data 2.011873006820679 ==w out 10 4192 2001 85852160 WAYNE PROCESS 366.2990480661392 ==w out 11 8387 1 225731 0 2 225766 0 3 225819 0 4 225821 0 5 225698 0 6 225815 0 7 220942 0 8 225749 0 9 225638 0 10 225791 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: 0.3459790945053101 WAYNE LOOP TIME: 892.1948260068893 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_l.hh_j /mnt/air65/airops/1355/ts1355_l.mocomph /mnt/air65/airops/1355/ts1355_l.dop /mnt/air65/airops/1355/ts1355_l.glb 2560 67072 update intf hdr ha: 6988.200 UPDATE: 2560 67072 3.331000 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_l.mocomph dopfile /mnt/air65/airops/1355/ts1355_l.dop globalfile /mnt/air65/airops/1355/ts1355_l.glb /mnt/air65/airops/1355/ts1355_l.glb 35 deskew line ra ha trc: 103.4286 201 8101.542 6988.200 89.87302 after deskew line ra ha trc: 103.4286 201 8101.542 6988.200 89.87302 lat1 lon1: 201 64.00552 -147.2203 67072 last ra n_ns ns: 8101.542 0 1 67272 67072 lati loni: 67272 64.00555 -146.4851 67272 1 center ra n_ns ns: 12361.89 1279 1279 33736 67072 lati loni: 33736 64.04395 -146.8517 33736 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_l.hh_j WAYNE FINAL PROCESS 894.4032340049744 ********************************************* ***** ***** ***** 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/1355/ts1355_l.hh_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_l.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.lh Line up to another frequency [y/n]? y Name of the deskew file to line up to? /mnt/air62/airops/1355/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/1355/ts1355_l.TT Name of the line output file? /mnt/air65/airops/1355/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 4.184277892112732 Deskewing 16 patches Processing block number 1 DEBUG -318 200.5522 -317.6719 -0.4997054 -0.4997054 patch iptc,sj,dgj,dgi,id: 1 1108 -318 -318 0 half line dmj dgc: 0 2001 200 -369 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1108 1 Zeroing lines in arrays Total # of output lines = 1 1107 1108 3204 0 2096 patch iptc,sj,dgj,dgi,id: 1 3204 -318 -318 2096 half line dmj dgc: 1 2001 200 -369 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3204 1108 Zeroing lines in arrays Total # of output lines = 1 3203 Processing block number 2 DEBUG -240 223.4015 -239.4970 -0.4997193 -0.4997193 3204 4678 78 1396 patch iptc,sj,dgj,dgi,id: 2 4678 -240 -318 1396 half line dmj dgc: 0 5493 223 -369 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4678 3204 Zeroing lines in arrays Total # of output lines = 2 4677 4678 6774 0 2096 patch iptc,sj,dgj,dgi,id: 2 6774 -240 -240 2096 half line dmj dgc: 1 5493 223 -369 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6774 4678 Zeroing lines in arrays Total # of output lines = 2 6773 Processing block number 3 DEBUG -190 235.6349 -190.3328 -0.4997341 -0.4997341 6774 8220 50 1396 patch iptc,sj,dgj,dgi,id: 3 8220 -190 -240 1396 half line dmj dgc: 0 8985 236 -369 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8220 6774 Zeroing lines in arrays Total # of output lines = 3 8219 8220 10316 0 2096 patch iptc,sj,dgj,dgi,id: 3 10316 -190 -190 2096 half line dmj dgc: 1 8985 236 -369 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10316 8220 Zeroing lines in arrays Total # of output lines = 3 10315 Processing block number 4 DEBUG -185 233.9613 -184.8937 -0.4997361 -0.4997361 10316 11717 5 1396 patch iptc,sj,dgj,dgi,id: 4 11717 -185 -190 1396 half line dmj dgc: 0 12477 234 -369 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11717 10316 Zeroing lines in arrays Total # of output lines = 4 11716 11717 13813 0 2096 patch iptc,sj,dgj,dgi,id: 4 1525 -185 -185 2096 half line dmj dgc: 1 12477 234 -369 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11717 1525 Zeroing lines in arrays Total # of output lines = 4 13812 Processing block number 5 DEBUG -217 221.8916 -217.1717 -0.4997289 -0.4997289 1525 2889 -32 1396 patch iptc,sj,dgj,dgi,id: 5 2889 -217 -185 1396 half line dmj dgc: 0 15969 222 -369 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2889 1525 Zeroing lines in arrays Total # of output lines = 5 15176 2889 4985 0 2096 patch iptc,sj,dgj,dgi,id: 5 4985 -217 -217 2096 half line dmj dgc: 1 15969 222 -369 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4985 2889 Zeroing lines in arrays Total # of output lines = 5 17272 Processing block number 6 DEBUG -257 211.7813 -256.6536 -0.4997081 -0.4997081 4985 6341 -40 1396 patch iptc,sj,dgj,dgi,id: 6 6341 -257 -217 1396 half line dmj dgc: 0 19461 212 -369 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6341 4985 Zeroing lines in arrays Total # of output lines = 6 18628 6341 8437 0 2096 patch iptc,sj,dgj,dgi,id: 6 8437 -257 -257 2096 half line dmj dgc: 1 19461 212 -369 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8437 6341 Zeroing lines in arrays Total # of output lines = 6 20724 Processing block number 7 DEBUG -257 215.2431 -256.7636 -0.4996827 -0.4996827 8437 9833 0 1396 patch iptc,sj,dgj,dgi,id: 7 9833 -257 -257 1396 half line dmj dgc: 0 22953 215 -369 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9833 8437 Zeroing lines in arrays Total # of output lines = 7 22120 9833 11929 0 2096 patch iptc,sj,dgj,dgi,id: 7 11929 -257 -257 2096 half line dmj dgc: 1 22953 215 -369 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11929 9833 Zeroing lines in arrays Total # of output lines = 7 24216 Processing block number 8 DEBUG -201 227.7861 -200.8094 -0.4997138 -0.4997138 11929 13381 56 1396 patch iptc,sj,dgj,dgi,id: 8 1093 -201 -257 1396 half line dmj dgc: 0 26445 228 -369 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11929 1093 Zeroing lines in arrays Total # of output lines = 8 25668 1093 3189 0 2096 patch iptc,sj,dgj,dgi,id: 8 3189 -201 -201 2096 half line dmj dgc: 1 26445 228 -369 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 3189 1093 Zeroing lines in arrays Total # of output lines = 8 27764 Processing block number 9 DEBUG -113 245.9981 -112.5341 -0.4997495 -0.4997495 3189 4673 88 1396 patch iptc,sj,dgj,dgi,id: 9 4673 -113 -201 1396 half line dmj dgc: 0 29937 246 -369 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4673 3189 Zeroing lines in arrays Total # of output lines = 9 29248 4673 6769 0 2096 patch iptc,sj,dgj,dgi,id: 9 6769 -113 -113 2096 half line dmj dgc: 1 29937 246 -369 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6769 4673 Zeroing lines in arrays Total # of output lines = 9 31344 Processing block number 10 DEBUG -44 263.1067 -44.21601 -0.4997631 -0.4997631 6769 8234 69 1396 patch iptc,sj,dgj,dgi,id: 10 8234 -44 -113 1396 half line dmj dgc: 0 33429 263 -369 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 8234 6769 Zeroing lines in arrays Total # of output lines = 10 32809 8234 10330 0 2096 patch iptc,sj,dgj,dgi,id: 10 10330 -44 -44 2096 half line dmj dgc: 1 33429 263 -369 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 10330 8234 Zeroing lines in arrays Total # of output lines = 10 34905 Processing block number 11 DEBUG -13 270.5326 -13.16011 -0.4997663 -0.4997663 10330 11757 31 1396 patch iptc,sj,dgj,dgi,id: 11 11757 -13 -44 1396 half line dmj dgc: 0 36921 270 -369 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 11757 10330 Zeroing lines in arrays Total # of output lines = 11 36332 11757 13853 0 2096 patch iptc,sj,dgj,dgi,id: 11 1565 -13 -13 2096 half line dmj dgc: 1 36921 270 -369 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 11757 1565 Zeroing lines in arrays Total # of output lines = 11 38428 Processing block number 12 DEBUG 1 276.0600 1.389653 -0.4997679 -0.4997679 1565 2975 14 1396 patch iptc,sj,dgj,dgi,id: 12 2975 1 -13 1396 half line dmj dgc: 0 40413 276 -369 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2975 1565 Zeroing lines in arrays Total # of output lines = 12 39838 2975 5071 0 2096 patch iptc,sj,dgj,dgi,id: 12 5071 1 1 2096 half line dmj dgc: 1 40413 276 -369 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 5071 2975 Zeroing lines in arrays Total # of output lines = 12 41934 Processing block number 13 DEBUG 15 289.0595 14.76619 -0.4997457 -0.4997457 5071 6481 14 1396 patch iptc,sj,dgj,dgi,id: 13 6481 15 1 1396 half line dmj dgc: 0 43905 289 -369 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 6481 5071 Zeroing lines in arrays Total # of output lines = 13 43344 6481 8577 0 2096 patch iptc,sj,dgj,dgi,id: 13 8577 15 15 2096 half line dmj dgc: 1 43905 289 -369 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 8577 6481 Zeroing lines in arrays Total # of output lines = 13 45440 Processing block number 14 DEBUG 4 294.0200 3.930369 -0.4997112 -0.4997112 8577 9962 -11 1396 patch iptc,sj,dgj,dgi,id: 14 9962 4 15 1396 half line dmj dgc: 0 47397 294 -369 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9962 8577 Zeroing lines in arrays Total # of output lines = 14 46825 9962 12058 0 2096 patch iptc,sj,dgj,dgi,id: 14 12058 4 4 2096 half line dmj dgc: 1 47397 294 -369 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 12058 9962 Zeroing lines in arrays Total # of output lines = 14 48921 Processing block number 15 DEBUG -16 282.3979 -15.71466 -0.4997220 -0.4997220 12058 13434 -20 1396 patch iptc,sj,dgj,dgi,id: 15 1146 -16 4 1396 half line dmj dgc: 0 50889 282 -369 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 12058 1146 Zeroing lines in arrays Total # of output lines = 15 50297 1146 3242 0 2096 patch iptc,sj,dgj,dgi,id: 15 3242 -16 -16 2096 half line dmj dgc: 1 50889 282 -369 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 3242 1146 Zeroing lines in arrays Total # of output lines = 15 52393 Processing block number 16 DEBUG -4 277.7478 -3.838171 -0.4997485 -0.4997485 3242 4077 12 823 patch iptc,sj,dgj,dgi,id: 16 4077 -4 -16 823 half line dmj dgc: 0 53808 278 -369 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4077 3242 Zeroing lines in arrays Total # of output lines = 16 53228 4077 6173 0 2096 patch iptc,sj,dgj,dgi,id: 16 6173 -4 -4 2096 half line dmj dgc: 1 53808 278 -369 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6173 4077 Zeroing lines in arrays Total # of output lines = 16 55324 ia dmi dgi: 6173 278 -4 Writing the last 2378 lines last half sj>s1 8551 6173 55324 WAYNE done patche 204.0719189643860 Total # of output lines = 57702 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 57702 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 204.4311169385910 ********************************************* ***** ***** ***** 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/1355/sensor.hv00l Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/l_hv Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_l.mocomph Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.lh WAYNE init fft, calc slant range, load unpack, interpo 1.5945002E-02 reading motion compensation data WAYNE read motion compen 1.407947 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 0.4757011 start range comp, time = 2.120 WAYNE PREV 1.915637 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 2.395 seconds. before reading done reading WAYNE load raw data , time = 55.41561102867126 ATTN ifrq ipol ln 4 2 57080 12.00000 IPOL, ITOP nblock 2 0 15 ****shift in azimuth (fractional pixel)= -0.4997220 shift in azimuth *fractional pixel= -0.4997220 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1968016624450684E-02 WAYNE Motion comp. added to patch, time = 17.77362298965454 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9170513153076172E-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 = 446.8340150117874 Writing 4192 lines of data to file WAYNE write output data 2.007344961166382 ==w out 15 0 2001 0 WAYNE PROCESS 522.0477598905563 ==w out 16 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 51808 59999 patch# 16 reference line: 55903 2.411 seconds. before reading done reading WAYNE load raw data , time = 53.93092095851898 ATTN ifrq ipol ln 4 2 59999 12.00000 IPOL, ITOP nblock 2 0 16 ****shift in azimuth (fractional pixel)= -0.4997485 shift in azimuth *fractional pixel= -0.4997485 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1801004409790039E-02 WAYNE Motion comp. added to patch, time = 17.70983898639679 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.9479265213012695E-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 = 450.8643790483475 Writing 4192 lines of data to file WAYNE write output data 2.043419003486633 ==w out 16 0 2001 0 WAYNE PROCESS 524.5651320219040 ==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 2.381 seconds. before reading done reading WAYNE load raw data , time = 54.07368505001068 ATTN ifrq ipol ln 4 2 53588 12.00000 IPOL, ITOP nblock 2 0 14 ****shift in azimuth (fractional pixel)= -0.4997112 shift in azimuth *fractional pixel= -0.4997112 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1940956115722656E-02 WAYNE Motion comp. added to patch, time = 17.83242106437683 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7759075164794922E-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 = 451.4810279607773 Writing 4192 lines of data to file WAYNE write output data 2.177662968635559 ==w out 14 0 2001 0 WAYNE PROCESS 525.5811549425125 ==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 2.367 seconds. before reading done reading WAYNE load raw data , time = 55.70335400104523 ATTN ifrq ipol ln 4 2 50096 12.00000 IPOL, ITOP nblock 2 0 13 ****shift in azimuth (fractional pixel)= -0.4997457 shift in azimuth *fractional pixel= -0.4997457 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1972904205322266E-02 WAYNE Motion comp. added to patch, time = 17.26652705669403 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.1030178070068359E-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 = 452.1140520572662 Writing 4192 lines of data to file WAYNE write output data 2.176589965820313 ==w out 13 0 2001 0 WAYNE PROCESS 527.2779229879379 ==w out 14 4195 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 2.321 seconds. before reading done reading WAYNE load raw data , time = 53.32296502590179 ATTN ifrq ipol ln 4 2 22160 12.00000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4997289 shift in azimuth *fractional pixel= -0.4997289 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2212991714477539E-02 WAYNE Motion comp. added to patch, time = 17.32132697105408 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 = 326.8896250724792 Writing 4192 lines of data to file WAYNE write output data 2.252689957618713 ==w out 5 0 2001 0 WAYNE PROCESS 399.8033519983292 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 402.125 seconds. before reading done reading WAYNE load raw data , time = 46.49985206127167 ATTN ifrq ipol ln 4 2 25652 12.00000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4997081 shift in azimuth *fractional pixel= -0.4997081 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1706948280334473E-02 WAYNE Motion comp. added to patch, time = 16.41999697685242 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4159073829650879E-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 = 280.1510469913483 Writing 4192 lines of data to file WAYNE write output data 2.079195976257324 ==w out 6 4192 2001 85852160 WAYNE PROCESS 345.1875150203705 ==w out 7 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -2.4259100E-02 2.9014500E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.294 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 54.62822699546814 ATTN ifrq ipol ln 4 2 8192 12.00000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4997054 shift in azimuth *fractional pixel= -0.4997054 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1767983436584473E-02 TESTING 7.5730495E-03 -30.56717 0.9631739 WAYNE Motion comp. added to patch, time = 17.41834402084351 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7650594711303711E-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 -30.56717 0.9631739 HEY,dt,fract,ye,pe -0.4997054 1.000000 -2.4259100E-02 2.9014500E-02 WAYNE Azimuth compression done, time = 445.3679410219193 Writing 4192 lines of data to file WAYNE write output data 1.981855988502502 ==w out 1 0 2001 0 WAYNE PROCESS 519.4124699831009 Processing block number 2 TESTING WHY -2.1667600E-02 2.9171800E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 521.707 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 49.43632709980011 ATTN ifrq ipol ln 4 2 11684 12.00000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4997193 shift in azimuth *fractional pixel= -0.4997193 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1172056198120117E-02 TESTING 7.5730495E-03 -26.69682 1.393739 WAYNE Motion comp. added to patch, time = 16.06584894657135 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7052998542785645E-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 -26.69682 1.393739 HEY,dt,fract,ye,pe -0.4997193 1.000000 -2.1667600E-02 2.9171800E-02 WAYNE Azimuth compression done, time = 279.3425790071487 Writing 4192 lines of data to file WAYNE write output data 1.968021035194397 ==w out 2 4192 2001 85852160 WAYNE PROCESS 346.8523480892181 ==w out 3 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 2.358 seconds. before reading done reading WAYNE load raw data , time = 53.80151104927063 ATTN ifrq ipol ln 4 2 43112 12.00000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4997663 shift in azimuth *fractional pixel= -0.4997663 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1862039566040039E-02 WAYNE Motion comp. added to patch, time = 16.99207603931427 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7990341186523438E-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 = 452.9121689796448 Writing 4192 lines of data to file WAYNE write output data 2.255321025848389 ==w out 11 0 2001 0 WAYNE PROCESS 525.9775389432907 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 528.336 seconds. before reading done reading WAYNE load raw data , time = 51.37979710102081 ATTN ifrq ipol ln 4 2 46604 12.00000 IPOL, ITOP nblock 2 0 12 ****shift in azimuth (fractional pixel)= -0.4997679 shift in azimuth *fractional pixel= -0.4997679 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1233925819396973E-02 WAYNE Motion comp. added to patch, time = 15.52312302589417 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.9123077392578125E-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 = 288.6131520271301 Writing 4192 lines of data to file WAYNE write output data 2.011013031005859 ==w out 12 4192 2001 85852160 WAYNE PROCESS 357.5586700439453 ==w out 13 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 2.345 seconds. before reading done reading WAYNE load raw data , time = 56.24842894077301 ATTN ifrq ipol ln 4 2 36128 12.00000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4997495 shift in azimuth *fractional pixel= -0.4997495 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1904001235961914E-02 WAYNE Motion comp. added to patch, time = 17.18785703182220 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.5319328308105469E-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 = 453.3777459859848 Writing 4192 lines of data to file WAYNE write output data 1.998802065849304 ==w out 9 0 2001 0 WAYNE PROCESS 528.8308629989624 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 531.176 seconds. before reading done reading WAYNE load raw data , time = 52.34743797779083 ATTN ifrq ipol ln 4 2 39620 12.00000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4997631 shift in azimuth *fractional pixel= -0.4997631 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1187911033630371E-02 WAYNE Motion comp. added to patch, time = 15.85949301719666 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 1.8910884857177734E-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 = 285.0277670621872 Writing 4192 lines of data to file WAYNE write output data 2.068151116371155 ==w out 10 4192 2001 85852160 WAYNE PROCESS 355.3346710205078 ==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 2.308 seconds. before reading done reading WAYNE load raw data , time = 53.66346395015717 ATTN ifrq ipol ln 4 2 15176 12.00000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4997341 shift in azimuth *fractional pixel= -0.4997341 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1819005012512207E-02 WAYNE Motion comp. added to patch, time = 17.58237695693970 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.7160644531250000E-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 = 453.1836999654770 Writing 4192 lines of data to file WAYNE write output data 2.252420067787170 ==w out 3 0 2001 0 WAYNE PROCESS 526.6983430385590 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 529.007 seconds. before reading done reading WAYNE load raw data , time = 50.64477396011353 ATTN ifrq ipol ln 4 2 18668 12.00000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4997361 shift in azimuth *fractional pixel= -0.4997361 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0944008827209473E-02 WAYNE Motion comp. added to patch, time = 15.98871803283691 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 1.5291929244995117E-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 = 289.0551760196686 Writing 4192 lines of data to file WAYNE write output data 2.047146916389465 ==w out 4 4192 2001 85852160 WAYNE PROCESS 357.7634609937668 ==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 2.335 seconds. before reading done reading WAYNE load raw data , time = 53.80764102935791 ATTN ifrq ipol ln 4 2 29144 12.00000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4996827 shift in azimuth *fractional pixel= -0.4996827 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1767983436584473E-02 WAYNE Motion comp. added to patch, time = 17.79111003875732 WAYNE Doppler estimation done, time = 7.0333480834960938E-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 = 453.3656100034714 Writing 4192 lines of data to file WAYNE write output data 2.223564982414246 ==w out 7 0 2001 0 WAYNE PROCESS 527.2040070295334 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 529.539 seconds. before reading done reading WAYNE load raw data , time = 50.55158901214600 ATTN ifrq ipol ln 4 2 32636 12.00000 IPOL, ITOP nblock 2 0 8 ****shift in azimuth (fractional pixel)= -0.4997138 shift in azimuth *fractional pixel= -0.4997138 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1190056800842285E-02 WAYNE Motion comp. added to patch, time = 16.31219995021820 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 1.5147924423217773E-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 = 288.8777799606323 Writing 4192 lines of data to file WAYNE write output data 2.032444000244141 ==w out 8 4192 2001 85852160 WAYNE PROCESS 357.8020430803299 ==w out 9 8387 1 228053 0 2 228090 0 3 227734 0 4 225824 0 5 227849 0 6 227843 0 7 228079 0 8 228068 0 9 223417 0 10 227670 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: 0.2273149490356445 WAYNE LOOP TIME: 895.7806489467621 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_l.hv_j /mnt/air65/airops/1355/ts1355_l.mocomph /mnt/air65/airops/1355/ts1355_l.dop /mnt/air65/airops/1355/ts1355_l.glb 2560 67072 update intf hdr ha: 6988.200 UPDATE: 2560 67072 3.331000 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_l.mocomph dopfile /mnt/air65/airops/1355/ts1355_l.dop globalfile /mnt/air65/airops/1355/ts1355_l.glb /mnt/air65/airops/1355/ts1355_l.glb 35 deskew line ra ha trc: 103.4286 201 8101.542 6988.200 89.87302 after deskew line ra ha trc: 103.4286 201 8101.542 6988.200 89.87302 lat1 lon1: 201 64.00552 -147.2203 67072 last ra n_ns ns: 8101.542 0 1 67272 67072 lati loni: 67272 64.00555 -146.4851 67272 1 center ra n_ns ns: 12361.89 1279 1279 33736 67072 lati loni: 33736 64.04395 -146.8517 33736 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_l.hv_j WAYNE FINAL PROCESS 898.1381269693375 ********************************************* ***** ***** ***** 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/1355/ts1355_l.hv_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_l.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.lh Line up to another frequency [y/n]? y Name of the deskew file to line up to? /mnt/air62/airops/1355/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/1355/ts1355_l.TB Name of the line output file? /mnt/air65/airops/1355/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 6.307820916175842 Deskewing 16 patches Processing block number 1 DEBUG -318 200.5374 -317.6866 -0.4997054 -0.4997054 patch iptc,sj,dgj,dgi,id: 1 1108 -318 -318 0 half line dmj dgc: 0 2001 200 -369 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1108 1 Zeroing lines in arrays Total # of output lines = 1 1107 1108 3204 0 2096 patch iptc,sj,dgj,dgi,id: 1 3204 -318 -318 2096 half line dmj dgc: 1 2001 200 -369 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3204 1108 Zeroing lines in arrays Total # of output lines = 1 3203 Processing block number 2 DEBUG -240 223.3868 -239.5117 -0.4997193 -0.4997193 3204 4678 78 1396 patch iptc,sj,dgj,dgi,id: 2 4678 -240 -318 1396 half line dmj dgc: 0 5493 223 -369 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4678 3204 Zeroing lines in arrays Total # of output lines = 2 4677 4678 6774 0 2096 patch iptc,sj,dgj,dgi,id: 2 6774 -240 -240 2096 half line dmj dgc: 1 5493 223 -369 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6774 4678 Zeroing lines in arrays Total # of output lines = 2 6773 Processing block number 3 DEBUG -190 235.6202 -190.3475 -0.4997341 -0.4997341 6774 8220 50 1396 patch iptc,sj,dgj,dgi,id: 3 8220 -190 -240 1396 half line dmj dgc: 0 8985 236 -369 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8220 6774 Zeroing lines in arrays Total # of output lines = 3 8219 8220 10316 0 2096 patch iptc,sj,dgj,dgi,id: 3 10316 -190 -190 2096 half line dmj dgc: 1 8985 236 -369 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10316 8220 Zeroing lines in arrays Total # of output lines = 3 10315 Processing block number 4 DEBUG -185 233.9466 -184.9084 -0.4997361 -0.4997361 10316 11717 5 1396 patch iptc,sj,dgj,dgi,id: 4 11717 -185 -190 1396 half line dmj dgc: 0 12477 234 -369 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11717 10316 Zeroing lines in arrays Total # of output lines = 4 11716 11717 13813 0 2096 patch iptc,sj,dgj,dgi,id: 4 1525 -185 -185 2096 half line dmj dgc: 1 12477 234 -369 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11717 1525 Zeroing lines in arrays Total # of output lines = 4 13812 Processing block number 5 DEBUG -217 221.8769 -217.1864 -0.4997289 -0.4997289 1525 2889 -32 1396 patch iptc,sj,dgj,dgi,id: 5 2889 -217 -185 1396 half line dmj dgc: 0 15969 222 -369 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2889 1525 Zeroing lines in arrays Total # of output lines = 5 15176 2889 4985 0 2096 patch iptc,sj,dgj,dgi,id: 5 4985 -217 -217 2096 half line dmj dgc: 1 15969 222 -369 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4985 2889 Zeroing lines in arrays Total # of output lines = 5 17272 Processing block number 6 DEBUG -257 211.7666 -256.6683 -0.4997081 -0.4997081 4985 6341 -40 1396 patch iptc,sj,dgj,dgi,id: 6 6341 -257 -217 1396 half line dmj dgc: 0 19461 212 -369 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6341 4985 Zeroing lines in arrays Total # of output lines = 6 18628 6341 8437 0 2096 patch iptc,sj,dgj,dgi,id: 6 8437 -257 -257 2096 half line dmj dgc: 1 19461 212 -369 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8437 6341 Zeroing lines in arrays Total # of output lines = 6 20724 Processing block number 7 DEBUG -257 215.2284 -256.7784 -0.4996827 -0.4996827 8437 9833 0 1396 patch iptc,sj,dgj,dgi,id: 7 9833 -257 -257 1396 half line dmj dgc: 0 22953 215 -369 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9833 8437 Zeroing lines in arrays Total # of output lines = 7 22120 9833 11929 0 2096 patch iptc,sj,dgj,dgi,id: 7 11929 -257 -257 2096 half line dmj dgc: 1 22953 215 -369 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11929 9833 Zeroing lines in arrays Total # of output lines = 7 24216 Processing block number 8 DEBUG -201 227.7714 -200.8241 -0.4997138 -0.4997138 11929 13381 56 1396 patch iptc,sj,dgj,dgi,id: 8 1093 -201 -257 1396 half line dmj dgc: 0 26445 228 -369 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11929 1093 Zeroing lines in arrays Total # of output lines = 8 25668 1093 3189 0 2096 patch iptc,sj,dgj,dgi,id: 8 3189 -201 -201 2096 half line dmj dgc: 1 26445 228 -369 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 3189 1093 Zeroing lines in arrays Total # of output lines = 8 27764 Processing block number 9 DEBUG -113 245.9834 -112.5488 -0.4997495 -0.4997495 3189 4673 88 1396 patch iptc,sj,dgj,dgi,id: 9 4673 -113 -201 1396 half line dmj dgc: 0 29937 246 -369 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4673 3189 Zeroing lines in arrays Total # of output lines = 9 29248 4673 6769 0 2096 patch iptc,sj,dgj,dgi,id: 9 6769 -113 -113 2096 half line dmj dgc: 1 29937 246 -369 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6769 4673 Zeroing lines in arrays Total # of output lines = 9 31344 Processing block number 10 DEBUG -44 263.0920 -44.23073 -0.4997631 -0.4997631 6769 8234 69 1396 patch iptc,sj,dgj,dgi,id: 10 8234 -44 -113 1396 half line dmj dgc: 0 33429 263 -369 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 8234 6769 Zeroing lines in arrays Total # of output lines = 10 32809 8234 10330 0 2096 patch iptc,sj,dgj,dgi,id: 10 10330 -44 -44 2096 half line dmj dgc: 1 33429 263 -369 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 10330 8234 Zeroing lines in arrays Total # of output lines = 10 34905 Processing block number 11 DEBUG -13 270.5179 -13.17483 -0.4997663 -0.4997663 10330 11757 31 1396 patch iptc,sj,dgj,dgi,id: 11 11757 -13 -44 1396 half line dmj dgc: 0 36921 270 -369 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 11757 10330 Zeroing lines in arrays Total # of output lines = 11 36332 11757 13853 0 2096 patch iptc,sj,dgj,dgi,id: 11 1565 -13 -13 2096 half line dmj dgc: 1 36921 270 -369 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 11757 1565 Zeroing lines in arrays Total # of output lines = 11 38428 Processing block number 12 DEBUG 1 276.0453 1.374932 -0.4997679 -0.4997679 1565 2975 14 1396 patch iptc,sj,dgj,dgi,id: 12 2975 1 -13 1396 half line dmj dgc: 0 40413 276 -369 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2975 1565 Zeroing lines in arrays Total # of output lines = 12 39838 2975 5071 0 2096 patch iptc,sj,dgj,dgi,id: 12 5071 1 1 2096 half line dmj dgc: 1 40413 276 -369 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 5071 2975 Zeroing lines in arrays Total # of output lines = 12 41934 Processing block number 13 DEBUG 15 289.0448 14.75146 -0.4997457 -0.4997457 5071 6481 14 1396 patch iptc,sj,dgj,dgi,id: 13 6481 15 1 1396 half line dmj dgc: 0 43905 289 -369 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 6481 5071 Zeroing lines in arrays Total # of output lines = 13 43344 6481 8577 0 2096 patch iptc,sj,dgj,dgi,id: 13 8577 15 15 2096 half line dmj dgc: 1 43905 289 -369 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 8577 6481 Zeroing lines in arrays Total # of output lines = 13 45440 Processing block number 14 DEBUG 4 294.0053 3.915648 -0.4997112 -0.4997112 8577 9962 -11 1396 patch iptc,sj,dgj,dgi,id: 14 9962 4 15 1396 half line dmj dgc: 0 47397 294 -369 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9962 8577 Zeroing lines in arrays Total # of output lines = 14 46825 9962 12058 0 2096 patch iptc,sj,dgj,dgi,id: 14 12058 4 4 2096 half line dmj dgc: 1 47397 294 -369 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 12058 9962 Zeroing lines in arrays Total # of output lines = 14 48921 Processing block number 15 DEBUG -16 282.3832 -15.72939 -0.4997220 -0.4997220 12058 13434 -20 1396 patch iptc,sj,dgj,dgi,id: 15 1146 -16 4 1396 half line dmj dgc: 0 50889 282 -369 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 12058 1146 Zeroing lines in arrays Total # of output lines = 15 50297 1146 3242 0 2096 patch iptc,sj,dgj,dgi,id: 15 3242 -16 -16 2096 half line dmj dgc: 1 50889 282 -369 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 3242 1146 Zeroing lines in arrays Total # of output lines = 15 52393 Processing block number 16 DEBUG -4 277.7331 -3.852892 -0.4997485 -0.4997485 3242 4077 12 823 patch iptc,sj,dgj,dgi,id: 16 4077 -4 -16 823 half line dmj dgc: 0 53808 278 -369 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4077 3242 Zeroing lines in arrays Total # of output lines = 16 53228 4077 6173 0 2096 patch iptc,sj,dgj,dgi,id: 16 6173 -4 -4 2096 half line dmj dgc: 1 53808 278 -369 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6173 4077 Zeroing lines in arrays Total # of output lines = 16 55324 ia dmi dgi: 6173 278 -4 Writing the last 2378 lines last half sj>s1 8551 6173 55324 WAYNE done patche 234.3258219957352 Total # of output lines = 57702 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 57702 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 235.0141129493713 ********************************************* ***** ***** ***** 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/1355/sensor.vh00l Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/l_vh Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_l.mocompv Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.lv WAYNE init fft, calc slant range, load unpack, interpo 1.5909001E-02 reading motion compensation data WAYNE read motion compen 1.406106 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 0.4764410 start range comp, time = 2.128 WAYNE PREV 1.915860 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: 51808 59999 patch# 16 reference line: 55903 2.436 seconds. before reading done reading WAYNE load raw data , time = 55.09235906600952 ATTN ifrq ipol ln 4 3 59999 12.00000 IPOL, ITOP nblock 3 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1883020401000977E-02 WAYNE Motion comp. added to patch, time = 17.64307296276093 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.0490159988403320E-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 = 372.7970510721207 Writing 4192 lines of data to file WAYNE write output data 2.238505959510803 ==w out 16 0 2001 0 WAYNE PROCESS 447.7879550457001 ==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 2.422 seconds. before reading done reading WAYNE load raw data , time = 55.71386194229126 ATTN ifrq ipol ln 4 3 57080 12.00000 IPOL, ITOP nblock 3 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1884927749633789E-02 WAYNE Motion comp. added to patch, time = 17.84573698043823 WAYNE Doppler estimation done, time = 5.1295757293701172E-04 WAYNE write deskew done, time = 3.2969713211059570E-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 = 430.3881949186325 Writing 4192 lines of data to file WAYNE write output data 2.226225972175598 ==w out 15 0 2001 0 WAYNE PROCESS 506.1933629512787 ==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 2.408 seconds. before reading done reading WAYNE load raw data , time = 54.56126797199249 ATTN ifrq ipol ln 4 3 53588 12.00000 IPOL, ITOP nblock 3 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1727094650268555E-02 WAYNE Motion comp. added to patch, time = 17.70291197299957 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8630495071411133E-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 = 447.1108120679855 Writing 4192 lines of data to file WAYNE write output data 2.007090091705322 ==w out 14 0 2001 0 WAYNE PROCESS 521.3984700441360 ==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 2.395 seconds. before reading done reading WAYNE load raw data , time = 56.19724607467651 ATTN ifrq ipol ln 4 3 50096 12.00000 IPOL, ITOP nblock 3 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1865019798278809E-02 WAYNE Motion comp. added to patch, time = 17.36863100528717 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.1449794769287109E-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 = 467.9940570592880 Writing 4192 lines of data to file WAYNE write output data 2.174839973449707 ==w out 13 0 2001 0 WAYNE PROCESS 543.7521109580994 ==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 2.334 seconds. before reading done reading WAYNE load raw data , time = 53.78674697875977 ATTN ifrq ipol ln 4 3 15176 12.00000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1664986610412598E-02 WAYNE Motion comp. added to patch, time = 17.47023499011993 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.7949810028076172E-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 = 356.7281969785690 Writing 4192 lines of data to file WAYNE write output data 2.218268990516663 ==w out 3 0 2001 0 WAYNE PROCESS 430.2198330163956 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 432.554 seconds. before reading done reading WAYNE load raw data , time = 45.36671888828278 ATTN ifrq ipol ln 4 3 18668 12.00000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1244058609008789E-02 WAYNE Motion comp. added to patch, time = 16.08904993534088 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 1.1204004287719727E-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 = 279.8700369596481 Writing 4192 lines of data to file WAYNE write output data 2.081457018852234 ==w out 4 4192 2001 85852160 WAYNE PROCESS 343.4312349557877 ==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 2.344 seconds. before reading done reading WAYNE load raw data , time = 53.20183897018433 ATTN ifrq ipol ln 4 3 22160 12.00000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 1.2060046195983887E-02 WAYNE Motion comp. added to patch, time = 17.26418399810791 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.7879476547241211E-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 = 385.5635490417480 Writing 4192 lines of data to file WAYNE write output data 2.122359991073608 ==w out 5 0 2001 0 WAYNE PROCESS 458.1685229539871 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 460.513 seconds. before reading done reading WAYNE load raw data , time = 45.71103405952454 ATTN ifrq ipol ln 4 3 25652 12.00000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1411070823669434E-02 WAYNE Motion comp. added to patch, time = 16.25314104557037 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 4.8377037048339844E-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 = 277.7041950225830 Writing 4192 lines of data to file WAYNE write output data 2.079449057579041 ==w out 6 4192 2001 85852160 WAYNE PROCESS 341.8089669942856 ==w out 7 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 2.384 seconds. before reading done reading WAYNE load raw data , time = 54.89472699165344 ATTN ifrq ipol ln 4 3 43112 12.00000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 1.2014031410217285E-02 WAYNE Motion comp. added to patch, time = 17.10616803169250 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8450489044189453E-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 = 398.9553239345551 Writing 4192 lines of data to file WAYNE write output data 2.161540985107422 ==w out 11 0 2001 0 WAYNE PROCESS 473.1348069906235 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 475.519 seconds. before reading done reading WAYNE load raw data , time = 46.90170502662659 ATTN ifrq ipol ln 4 3 46604 12.00000 IPOL, ITOP nblock 3 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1247992515563965E-02 WAYNE Motion comp. added to patch, time = 15.54659199714661 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 5.5675983428955078E-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 = 290.5626400709152 Writing 4192 lines of data to file WAYNE write output data 1.969156026840210 ==w out 12 4192 2001 85852160 WAYNE PROCESS 355.0483640432358 ==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 2.354 seconds. before reading done reading WAYNE load raw data , time = 56.56225502490997 ATTN ifrq ipol ln 4 3 29144 12.00000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1919975280761719E-02 WAYNE Motion comp. added to patch, time = 18.08967804908752 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.8429498672485352E-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 = 415.7896189689636 Writing 4192 lines of data to file WAYNE write output data 2.119606971740723 ==w out 7 0 2001 0 WAYNE PROCESS 492.5798459053040 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 494.934 seconds. before reading done reading WAYNE load raw data , time = 48.61541199684143 ATTN ifrq ipol ln 4 3 32636 12.00000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1774063110351563E-02 WAYNE Motion comp. added to patch, time = 16.37808907032013 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 3.6345005035400391E-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 = 287.2415870428085 Writing 4192 lines of data to file WAYNE write output data 1.966220974922180 ==w out 8 4192 2001 85852160 WAYNE PROCESS 354.2509529590607 ==w out 9 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -2.4259100E-02 2.9014500E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.318 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 54.33133792877197 ATTN ifrq ipol ln 4 3 8192 12.00000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1723041534423828E-02 TESTING -7.5730495E-03 -30.55987 0.9638477 WAYNE Motion comp. added to patch, time = 17.40540802478790 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.6910305023193359E-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 -30.55987 0.9638477 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.4259100E-02 2.9014500E-02 WAYNE Azimuth compression done, time = 468.0939170122147 Writing 4192 lines of data to file WAYNE write output data 2.192209005355835 ==w out 1 0 2001 0 WAYNE PROCESS 542.0388820171356 Processing block number 2 TESTING WHY -2.1667600E-02 2.9171800E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 544.358 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 47.28156495094299 ATTN ifrq ipol ln 4 3 11684 12.00000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1341094970703125E-02 TESTING -7.5730495E-03 -26.69024 1.394165 WAYNE Motion comp. added to patch, time = 16.18357098102570 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.5168061256408691E-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 -26.69024 1.394165 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.1667600E-02 2.9171800E-02 WAYNE Azimuth compression done, time = 280.0367350578308 Writing 4192 lines of data to file WAYNE write output data 1.975106954574585 ==w out 2 4192 2001 85852160 WAYNE PROCESS 345.5150380134583 ==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 2.367 seconds. before reading done reading WAYNE load raw data , time = 54.85769104957581 ATTN ifrq ipol ln 4 3 36128 12.00000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1898994445800781E-02 WAYNE Motion comp. added to patch, time = 17.08945703506470 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7199983596801758E-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 = 468.5879639387131 Writing 4192 lines of data to file WAYNE write output data 2.257812023162842 ==w out 9 0 2001 0 WAYNE PROCESS 542.8091830015182 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 545.176 seconds. before reading done reading WAYNE load raw data , time = 48.15980398654938 ATTN ifrq ipol ln 4 3 39620 12.00000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1533975601196289E-02 WAYNE Motion comp. added to patch, time = 15.93423593044281 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.8810024261474609E-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 = 279.8208711147308 Writing 4192 lines of data to file WAYNE write output data 2.021790981292725 ==w out 10 4192 2001 85852160 WAYNE PROCESS 345.9786499738693 ==w out 11 8387 1 227025 0 2 230350 0 3 230500 0 4 230228 0 5 230437 0 6 230485 0 7 230494 0 8 230489 0 9 230495 0 10 230491 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: 0.1591500043869019 WAYNE LOOP TIME: 899.5438508987427 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_l.vh_j /mnt/air65/airops/1355/ts1355_l.mocompv /mnt/air65/airops/1355/ts1355_l.dop /mnt/air65/airops/1355/ts1355_l.glb 2560 67072 update intf hdr ha: 6988.200 UPDATE: 2560 67072 3.331000 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_l.mocompv dopfile /mnt/air65/airops/1355/ts1355_l.dop globalfile /mnt/air65/airops/1355/ts1355_l.glb /mnt/air65/airops/1355/ts1355_l.glb 35 deskew line ra ha trc: 103.4286 201 8101.542 6988.200 89.87302 after deskew line ra ha trc: 103.4286 201 8101.542 6988.200 89.87302 lat1 lon1: 201 64.00552 -147.2203 67072 last ra n_ns ns: 8101.542 0 1 67272 67072 lati loni: 67272 64.00555 -146.4851 67272 1 center ra n_ns ns: 12361.89 1279 1279 33736 67072 lati loni: 33736 64.04395 -146.8517 33736 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_l.vh_j WAYNE FINAL PROCESS 901.8764239549637 ********************************************* ***** ***** ***** 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/1355/ts1355_l.vh_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_l.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.lv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /mnt/air62/airops/1355/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/1355/ts1355_l.BT Name of the line output file? /mnt/air65/airops/1355/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 7.565024018287659 Deskewing 16 patches Processing block number 1 DEBUG -318 201.0666 -317.1575 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1108 -318 -318 0 half line dmj dgc: 0 2001 200 -369 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1108 1 Zeroing lines in arrays Total # of output lines = 1 1107 1108 3204 0 2096 patch iptc,sj,dgj,dgi,id: 1 3204 -318 -318 2096 half line dmj dgc: 1 2001 200 -369 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3204 1108 Zeroing lines in arrays Total # of output lines = 1 3203 Processing block number 2 DEBUG -240 223.9160 -238.9825 0.0000000E+00 0.0000000E+00 3204 4678 78 1396 patch iptc,sj,dgj,dgi,id: 2 4678 -240 -318 1396 half line dmj dgc: 0 5493 223 -369 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4678 3204 Zeroing lines in arrays Total # of output lines = 2 4677 4678 6774 0 2096 patch iptc,sj,dgj,dgi,id: 2 6774 -240 -240 2096 half line dmj dgc: 1 5493 223 -369 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6774 4678 Zeroing lines in arrays Total # of output lines = 2 6773 Processing block number 3 DEBUG -190 236.1494 -189.8183 0.0000000E+00 0.0000000E+00 6774 8220 50 1396 patch iptc,sj,dgj,dgi,id: 3 8220 -190 -240 1396 half line dmj dgc: 0 8985 236 -369 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8220 6774 Zeroing lines in arrays Total # of output lines = 3 8219 8220 10316 0 2096 patch iptc,sj,dgj,dgi,id: 3 10316 -190 -190 2096 half line dmj dgc: 1 8985 236 -369 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10316 8220 Zeroing lines in arrays Total # of output lines = 3 10315 Processing block number 4 DEBUG -185 234.4758 -184.3792 0.0000000E+00 0.0000000E+00 10316 11717 5 1396 patch iptc,sj,dgj,dgi,id: 4 11717 -185 -190 1396 half line dmj dgc: 0 12477 234 -369 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11717 10316 Zeroing lines in arrays Total # of output lines = 4 11716 11717 13813 0 2096 patch iptc,sj,dgj,dgi,id: 4 1525 -185 -185 2096 half line dmj dgc: 1 12477 234 -369 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11717 1525 Zeroing lines in arrays Total # of output lines = 4 13812 Processing block number 5 DEBUG -217 222.4061 -216.6573 0.0000000E+00 0.0000000E+00 1525 2889 -32 1396 patch iptc,sj,dgj,dgi,id: 5 2889 -217 -185 1396 half line dmj dgc: 0 15969 222 -369 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2889 1525 Zeroing lines in arrays Total # of output lines = 5 15176 2889 4985 0 2096 patch iptc,sj,dgj,dgi,id: 5 4985 -217 -217 2096 half line dmj dgc: 1 15969 222 -369 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4985 2889 Zeroing lines in arrays Total # of output lines = 5 17272 Processing block number 6 DEBUG -257 212.2958 -256.1392 0.0000000E+00 0.0000000E+00 4985 6341 -40 1396 patch iptc,sj,dgj,dgi,id: 6 6341 -257 -217 1396 half line dmj dgc: 0 19461 212 -369 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6341 4985 Zeroing lines in arrays Total # of output lines = 6 18628 6341 8437 0 2096 patch iptc,sj,dgj,dgi,id: 6 8437 -257 -257 2096 half line dmj dgc: 1 19461 212 -369 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8437 6341 Zeroing lines in arrays Total # of output lines = 6 20724 Processing block number 7 DEBUG -257 215.7575 -256.2492 0.0000000E+00 0.0000000E+00 8437 9833 0 1396 patch iptc,sj,dgj,dgi,id: 7 9833 -257 -257 1396 half line dmj dgc: 0 22953 215 -369 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9833 8437 Zeroing lines in arrays Total # of output lines = 7 22120 9833 11929 0 2096 patch iptc,sj,dgj,dgi,id: 7 11929 -257 -257 2096 half line dmj dgc: 1 22953 215 -369 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11929 9833 Zeroing lines in arrays Total # of output lines = 7 24216 Processing block number 8 DEBUG -201 228.3005 -200.2950 0.0000000E+00 0.0000000E+00 11929 13381 56 1396 patch iptc,sj,dgj,dgi,id: 8 1093 -201 -257 1396 half line dmj dgc: 0 26445 228 -369 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11929 1093 Zeroing lines in arrays Total # of output lines = 8 25668 1093 3189 0 2096 patch iptc,sj,dgj,dgi,id: 8 3189 -201 -201 2096 half line dmj dgc: 1 26445 228 -369 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 3189 1093 Zeroing lines in arrays Total # of output lines = 8 27764 Processing block number 9 DEBUG -113 246.5126 -112.0196 0.0000000E+00 0.0000000E+00 3189 4673 88 1396 patch iptc,sj,dgj,dgi,id: 9 4673 -113 -201 1396 half line dmj dgc: 0 29937 246 -369 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4673 3189 Zeroing lines in arrays Total # of output lines = 9 29248 4673 6769 0 2096 patch iptc,sj,dgj,dgi,id: 9 6769 -113 -113 2096 half line dmj dgc: 1 29937 246 -369 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6769 4673 Zeroing lines in arrays Total # of output lines = 9 31344 Processing block number 10 DEBUG -44 263.6212 -43.70153 0.0000000E+00 0.0000000E+00 6769 8234 69 1396 patch iptc,sj,dgj,dgi,id: 10 8234 -44 -113 1396 half line dmj dgc: 0 33429 263 -369 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 8234 6769 Zeroing lines in arrays Total # of output lines = 10 32809 8234 10330 0 2096 patch iptc,sj,dgj,dgi,id: 10 10330 -44 -44 2096 half line dmj dgc: 1 33429 263 -369 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 10330 8234 Zeroing lines in arrays Total # of output lines = 10 34905 Processing block number 11 DEBUG -13 271.0471 -12.64563 0.0000000E+00 0.0000000E+00 10330 11757 31 1396 patch iptc,sj,dgj,dgi,id: 11 11757 -13 -44 1396 half line dmj dgc: 0 36921 270 -369 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 11757 10330 Zeroing lines in arrays Total # of output lines = 11 36332 11757 13853 0 2096 patch iptc,sj,dgj,dgi,id: 11 1565 -13 -13 2096 half line dmj dgc: 1 36921 270 -369 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 11757 1565 Zeroing lines in arrays Total # of output lines = 11 38428 Processing block number 12 DEBUG 1 276.5745 1.904142 0.0000000E+00 0.0000000E+00 1565 2975 14 1396 patch iptc,sj,dgj,dgi,id: 12 2975 1 -13 1396 half line dmj dgc: 0 40413 276 -369 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2975 1565 Zeroing lines in arrays Total # of output lines = 12 39838 2975 5071 0 2096 patch iptc,sj,dgj,dgi,id: 12 5071 1 1 2096 half line dmj dgc: 1 40413 276 -369 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 5071 2975 Zeroing lines in arrays Total # of output lines = 12 41934 Processing block number 13 DEBUG 15 289.5740 15.28065 0.0000000E+00 0.0000000E+00 5071 6481 14 1396 patch iptc,sj,dgj,dgi,id: 13 6481 15 1 1396 half line dmj dgc: 0 43905 289 -369 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 6481 5071 Zeroing lines in arrays Total # of output lines = 13 43344 6481 8577 0 2096 patch iptc,sj,dgj,dgi,id: 13 8577 15 15 2096 half line dmj dgc: 1 43905 289 -369 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 8577 6481 Zeroing lines in arrays Total # of output lines = 13 45440 Processing block number 14 DEBUG 4 294.5344 4.444801 0.0000000E+00 0.0000000E+00 8577 9962 -11 1396 patch iptc,sj,dgj,dgi,id: 14 9962 4 15 1396 half line dmj dgc: 0 47397 294 -369 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9962 8577 Zeroing lines in arrays Total # of output lines = 14 46825 9962 12058 0 2096 patch iptc,sj,dgj,dgi,id: 14 12058 4 4 2096 half line dmj dgc: 1 47397 294 -369 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 12058 9962 Zeroing lines in arrays Total # of output lines = 14 48921 Processing block number 15 DEBUG -16 282.9124 -15.20022 0.0000000E+00 0.0000000E+00 12058 13434 -20 1396 patch iptc,sj,dgj,dgi,id: 15 1146 -16 4 1396 half line dmj dgc: 0 50889 282 -369 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 12058 1146 Zeroing lines in arrays Total # of output lines = 15 50297 1146 3242 0 2096 patch iptc,sj,dgj,dgi,id: 15 3242 -16 -16 2096 half line dmj dgc: 1 50889 282 -369 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 3242 1146 Zeroing lines in arrays Total # of output lines = 15 52393 Processing block number 16 DEBUG -4 278.2623 -3.323702 0.0000000E+00 0.0000000E+00 3242 4077 12 823 patch iptc,sj,dgj,dgi,id: 16 4077 -4 -16 823 half line dmj dgc: 0 53808 278 -369 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4077 3242 Zeroing lines in arrays Total # of output lines = 16 53228 4077 6173 0 2096 patch iptc,sj,dgj,dgi,id: 16 6173 -4 -4 2096 half line dmj dgc: 1 53808 278 -369 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6173 4077 Zeroing lines in arrays Total # of output lines = 16 55324 ia dmi dgi: 6173 278 -4 Writing the last 2378 lines last half sj>s1 8551 6173 55324 WAYNE done patche 206.4067250490189 Total # of output lines = 57702 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 57702 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 207.2764929533005 ********************************************* ***** ***** ***** 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/1355/sensor.vv00l Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/l_vv Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_l.mocompv Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.lv WAYNE init fft, calc slant range, load unpack, interpo 1.5990999E-02 reading motion compensation data WAYNE read motion compen 1.408111 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 0.4763221 start range comp, time = 3.066 WAYNE PREV 1.916541 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 3.463 seconds. before reading done reading WAYNE load raw data , time = 49.77148103713989 ATTN ifrq ipol ln 4 4 50096 12.00000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1942982673645020E-02 WAYNE Motion comp. added to patch, time = 17.15217995643616 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 WAYNE Azimuth compression done, time = 341.5633239746094 Writing 4192 lines of data to file WAYNE write output data 2.211818933486938 ==w out 13 0 2001 0 WAYNE PROCESS 410.7151899337769 ==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 3.476 seconds. before reading done reading WAYNE load raw data , time = 51.04689300060272 ATTN ifrq ipol ln 4 4 53588 12.00000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1798977851867676E-02 WAYNE Motion comp. added to patch, time = 17.52151703834534 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.9569864273071289E-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 = 367.8767100572586 Writing 4192 lines of data to file WAYNE write output data 2.452899932861328 ==w out 14 0 2001 0 WAYNE PROCESS 438.9150019884109 ==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 3.488 seconds. before reading done reading WAYNE load raw data , time = 50.09903705120087 ATTN ifrq ipol ln 4 4 57080 12.00000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1821985244750977E-02 WAYNE Motion comp. added to patch, time = 17.77846109867096 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8730630874633789E-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 = 460.9398130178452 Writing 4192 lines of data to file WAYNE write output data 2.353320956230164 ==w out 15 0 2001 0 WAYNE PROCESS 531.1873049736023 ==w out 16 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 51808 59999 patch# 16 reference line: 55903 3.501 seconds. before reading done reading WAYNE load raw data , time = 51.13307690620422 ATTN ifrq ipol ln 4 4 59999 12.00000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1734008789062500E-02 WAYNE Motion comp. added to patch, time = 17.58971393108368 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 3.3010244369506836E-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 = 460.4462970495224 Writing 4192 lines of data to file WAYNE write output data 2.328598022460938 ==w out 16 0 2001 0 WAYNE PROCESS 531.5157049894333 ==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 3.404 seconds. before reading done reading WAYNE load raw data , time = 49.00134599208832 ATTN ifrq ipol ln 4 4 15176 12.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1930108070373535E-02 WAYNE Motion comp. added to patch, time = 17.24666404724121 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.7430057525634766E-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 = 369.9491460323334 Writing 4192 lines of data to file WAYNE write output data 2.450117945671082 ==w out 3 0 2001 0 WAYNE PROCESS 438.6637479066849 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 442.068 seconds. before reading done reading WAYNE load raw data , time = 45.51478397846222 ATTN ifrq ipol ln 4 4 18668 12.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1459946632385254E-02 WAYNE Motion comp. added to patch, time = 16.02673006057739 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.4670362472534180E-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 = 287.4665429592133 Writing 4192 lines of data to file WAYNE write output data 2.139447927474976 ==w out 4 4192 2001 85852160 WAYNE PROCESS 351.1629539728165 ==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 3.449 seconds. before reading done reading WAYNE load raw data , time = 51.94698500633240 ATTN ifrq ipol ln 4 4 43112 12.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1704087257385254E-02 WAYNE Motion comp. added to patch, time = 17.09627497196198 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.6720037460327148E-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 = 427.1144479513168 Writing 4192 lines of data to file WAYNE write output data 2.078780055046082 ==w out 11 0 2001 0 WAYNE PROCESS 498.2542899847031 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 501.704 seconds. before reading done reading WAYNE load raw data , time = 48.38466393947601 ATTN ifrq ipol ln 4 4 46604 12.00000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1235952377319336E-02 WAYNE Motion comp. added to patch, time = 15.48824298381805 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 1.8823981285095215E-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 = 285.2552950382233 Writing 4192 lines of data to file WAYNE write output data 2.002771019935608 ==w out 12 4192 2001 85852160 WAYNE PROCESS 351.1625380516052 ==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 3.416 seconds. before reading done reading WAYNE load raw data , time = 49.87595403194427 ATTN ifrq ipol ln 4 4 22160 12.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1819005012512207E-02 WAYNE Motion comp. added to patch, time = 17.34883296489716 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8340816497802734E-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 = 427.2798390388489 Writing 4192 lines of data to file WAYNE write output data 2.061120033264160 ==w out 5 0 2001 0 WAYNE PROCESS 496.5825190544128 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 499.999 seconds. before reading done reading WAYNE load raw data , time = 46.18911004066467 ATTN ifrq ipol ln 4 4 25652 12.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1112928390502930E-02 WAYNE Motion comp. added to patch, time = 16.10263001918793 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.8406968116760254E-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 = 290.2882609367371 Writing 4192 lines of data to file WAYNE write output data 1.981276988983154 ==w out 6 4192 2001 85852160 WAYNE PROCESS 354.6121269464493 ==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 3.427 seconds. before reading done reading WAYNE load raw data , time = 51.71824002265930 ATTN ifrq ipol ln 4 4 29144 12.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1860966682434082E-02 WAYNE Motion comp. added to patch, time = 17.59774100780487 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 3.1670331954956055E-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 = 428.3065220117569 Writing 4192 lines of data to file WAYNE write output data 2.072377085685730 ==w out 7 0 2001 0 WAYNE PROCESS 499.7121460437775 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 503.140 seconds. before reading done reading WAYNE load raw data , time = 48.81791198253632 ATTN ifrq ipol ln 4 4 32636 12.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1040091514587402E-02 WAYNE Motion comp. added to patch, time = 16.20016801357269 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.5549612045288086E-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 = 290.0207830667496 Writing 4192 lines of data to file WAYNE write output data 1.970106005668640 ==w out 8 4192 2001 85852160 WAYNE PROCESS 357.0279779434204 ==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 3.440 seconds. before reading done reading WAYNE load raw data , time = 49.70231103897095 ATTN ifrq ipol ln 4 4 36128 12.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1690020561218262E-02 WAYNE Motion comp. added to patch, time = 17.01559901237488 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8740167617797852E-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 = 460.7381650209427 Writing 4192 lines of data to file WAYNE write output data 2.226359009742737 ==w out 9 0 2001 0 WAYNE PROCESS 529.6987390518188 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 533.139 seconds. before reading done reading WAYNE load raw data , time = 45.92962896823883 ATTN ifrq ipol ln 4 4 39620 12.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1381030082702637E-02 WAYNE Motion comp. added to patch, time = 15.94377100467682 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5792002677917480E-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 = 284.8317300081253 Writing 4192 lines of data to file WAYNE write output data 1.981698989868164 ==w out 10 4192 2001 85852160 WAYNE PROCESS 348.7254869937897 ==w out 11 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -2.4259100E-02 2.9014500E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.389 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 49.80264604091644 ATTN ifrq ipol ln 4 4 8192 12.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1866927146911621E-02 TESTING 0.0000000E+00 -30.88555 1.6722966E-02 WAYNE Motion comp. added to patch, time = 17.36817800998688 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.9590129852294922E-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 -30.88555 1.6722966E-02 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.4259100E-02 2.9014500E-02 WAYNE Azimuth compression done, time = 460.6161730289459 Writing 4192 lines of data to file WAYNE write output data 2.284940004348755 ==w out 1 0 2001 0 WAYNE PROCESS 530.0883640050888 Processing block number 2 TESTING WHY -2.1667600E-02 2.9171800E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 533.478 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 46.17700207233429 ATTN ifrq ipol ln 4 4 11684 12.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1343002319335938E-02 TESTING 0.0000000E+00 -27.01593 0.4470406 WAYNE Motion comp. added to patch, time = 16.21941804885864 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4207949638366699E-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 -27.01593 0.4470406 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.1667600E-02 2.9171800E-02 WAYNE Azimuth compression done, time = 284.8848029375076 Writing 4192 lines of data to file WAYNE write output data 1.990000963211060 ==w out 2 4192 2001 85852160 WAYNE PROCESS 349.3083050251007 ==w out 3 8387 1 230855 0 2 230975 0 3 232697 0 4 232897 0 5 232838 0 6 232983 0 7 230320 0 8 232724 0 9 232773 0 10 230241 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: 0.4129951000213623 WAYNE LOOP TIME: 890.5256060361862 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_l.vv_j /mnt/air65/airops/1355/ts1355_l.mocompv /mnt/air65/airops/1355/ts1355_l.dop /mnt/air65/airops/1355/ts1355_l.glb 2560 67072 update intf hdr ha: 6988.200 UPDATE: 2560 67072 3.331000 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_l.mocompv dopfile /mnt/air65/airops/1355/ts1355_l.dop globalfile /mnt/air65/airops/1355/ts1355_l.glb /mnt/air65/airops/1355/ts1355_l.glb 35 deskew line ra ha trc: 103.4286 201 8101.542 6988.200 89.87302 after deskew line ra ha trc: 103.4286 201 8101.542 6988.200 89.87302 lat1 lon1: 201 64.00552 -147.2203 67072 last ra n_ns ns: 8101.542 0 1 67272 67072 lati loni: 67272 64.00555 -146.4851 67272 1 center ra n_ns ns: 12361.89 1279 1279 33736 67072 lati loni: 33736 64.04395 -146.8517 33736 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_l.vv_j WAYNE FINAL PROCESS 893.8979799747467 ********************************************* ***** ***** ***** 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/1355/ts1355_l.vv_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_l.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.lv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /mnt/air62/airops/1355/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/1355/ts1355_l.BB Name of the line output file? /mnt/air65/airops/1355/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 2.868448972702026 Deskewing 16 patches Processing block number 1 DEBUG -318 201.0519 -317.1722 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1108 -318 -318 0 half line dmj dgc: 0 2001 200 -369 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1108 1 Zeroing lines in arrays Total # of output lines = 1 1107 1108 3204 0 2096 patch iptc,sj,dgj,dgi,id: 1 3204 -318 -318 2096 half line dmj dgc: 1 2001 200 -369 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3204 1108 Zeroing lines in arrays Total # of output lines = 1 3203 Processing block number 2 DEBUG -240 223.9013 -238.9973 0.0000000E+00 0.0000000E+00 3204 4678 78 1396 patch iptc,sj,dgj,dgi,id: 2 4678 -240 -318 1396 half line dmj dgc: 0 5493 223 -369 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4678 3204 Zeroing lines in arrays Total # of output lines = 2 4677 4678 6774 0 2096 patch iptc,sj,dgj,dgi,id: 2 6774 -240 -240 2096 half line dmj dgc: 1 5493 223 -369 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6774 4678 Zeroing lines in arrays Total # of output lines = 2 6773 Processing block number 3 DEBUG -190 236.1347 -189.8330 0.0000000E+00 0.0000000E+00 6774 8220 50 1396 patch iptc,sj,dgj,dgi,id: 3 8220 -190 -240 1396 half line dmj dgc: 0 8985 236 -369 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8220 6774 Zeroing lines in arrays Total # of output lines = 3 8219 8220 10316 0 2096 patch iptc,sj,dgj,dgi,id: 3 10316 -190 -190 2096 half line dmj dgc: 1 8985 236 -369 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10316 8220 Zeroing lines in arrays Total # of output lines = 3 10315 Processing block number 4 DEBUG -185 234.4611 -184.3939 0.0000000E+00 0.0000000E+00 10316 11717 5 1396 patch iptc,sj,dgj,dgi,id: 4 11717 -185 -190 1396 half line dmj dgc: 0 12477 234 -369 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11717 10316 Zeroing lines in arrays Total # of output lines = 4 11716 11717 13813 0 2096 patch iptc,sj,dgj,dgi,id: 4 1525 -185 -185 2096 half line dmj dgc: 1 12477 234 -369 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11717 1525 Zeroing lines in arrays Total # of output lines = 4 13812 Processing block number 5 DEBUG -217 222.3914 -216.6720 0.0000000E+00 0.0000000E+00 1525 2889 -32 1396 patch iptc,sj,dgj,dgi,id: 5 2889 -217 -185 1396 half line dmj dgc: 0 15969 222 -369 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2889 1525 Zeroing lines in arrays Total # of output lines = 5 15176 2889 4985 0 2096 patch iptc,sj,dgj,dgi,id: 5 4985 -217 -217 2096 half line dmj dgc: 1 15969 222 -369 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4985 2889 Zeroing lines in arrays Total # of output lines = 5 17272 Processing block number 6 DEBUG -257 212.2811 -256.1539 0.0000000E+00 0.0000000E+00 4985 6341 -40 1396 patch iptc,sj,dgj,dgi,id: 6 6341 -257 -217 1396 half line dmj dgc: 0 19461 212 -369 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6341 4985 Zeroing lines in arrays Total # of output lines = 6 18628 6341 8437 0 2096 patch iptc,sj,dgj,dgi,id: 6 8437 -257 -257 2096 half line dmj dgc: 1 19461 212 -369 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8437 6341 Zeroing lines in arrays Total # of output lines = 6 20724 Processing block number 7 DEBUG -257 215.7428 -256.2639 0.0000000E+00 0.0000000E+00 8437 9833 0 1396 patch iptc,sj,dgj,dgi,id: 7 9833 -257 -257 1396 half line dmj dgc: 0 22953 215 -369 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9833 8437 Zeroing lines in arrays Total # of output lines = 7 22120 9833 11929 0 2096 patch iptc,sj,dgj,dgi,id: 7 11929 -257 -257 2096 half line dmj dgc: 1 22953 215 -369 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11929 9833 Zeroing lines in arrays Total # of output lines = 7 24216 Processing block number 8 DEBUG -201 228.2858 -200.3097 0.0000000E+00 0.0000000E+00 11929 13381 56 1396 patch iptc,sj,dgj,dgi,id: 8 1093 -201 -257 1396 half line dmj dgc: 0 26445 228 -369 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11929 1093 Zeroing lines in arrays Total # of output lines = 8 25668 1093 3189 0 2096 patch iptc,sj,dgj,dgi,id: 8 3189 -201 -201 2096 half line dmj dgc: 1 26445 228 -369 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 3189 1093 Zeroing lines in arrays Total # of output lines = 8 27764 Processing block number 9 DEBUG -113 246.4979 -112.0343 0.0000000E+00 0.0000000E+00 3189 4673 88 1396 patch iptc,sj,dgj,dgi,id: 9 4673 -113 -201 1396 half line dmj dgc: 0 29937 246 -369 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4673 3189 Zeroing lines in arrays Total # of output lines = 9 29248 4673 6769 0 2096 patch iptc,sj,dgj,dgi,id: 9 6769 -113 -113 2096 half line dmj dgc: 1 29937 246 -369 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6769 4673 Zeroing lines in arrays Total # of output lines = 9 31344 Processing block number 10 DEBUG -44 263.6064 -43.71625 0.0000000E+00 0.0000000E+00 6769 8234 69 1396 patch iptc,sj,dgj,dgi,id: 10 8234 -44 -113 1396 half line dmj dgc: 0 33429 263 -369 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 8234 6769 Zeroing lines in arrays Total # of output lines = 10 32809 8234 10330 0 2096 patch iptc,sj,dgj,dgi,id: 10 10330 -44 -44 2096 half line dmj dgc: 1 33429 263 -369 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 10330 8234 Zeroing lines in arrays Total # of output lines = 10 34905 Processing block number 11 DEBUG -13 271.0323 -12.66035 0.0000000E+00 0.0000000E+00 10330 11757 31 1396 patch iptc,sj,dgj,dgi,id: 11 11757 -13 -44 1396 half line dmj dgc: 0 36921 270 -369 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 11757 10330 Zeroing lines in arrays Total # of output lines = 11 36332 11757 13853 0 2096 patch iptc,sj,dgj,dgi,id: 11 1565 -13 -13 2096 half line dmj dgc: 1 36921 270 -369 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 11757 1565 Zeroing lines in arrays Total # of output lines = 11 38428 Processing block number 12 DEBUG 1 276.5598 1.889421 0.0000000E+00 0.0000000E+00 1565 2975 14 1396 patch iptc,sj,dgj,dgi,id: 12 2975 1 -13 1396 half line dmj dgc: 0 40413 276 -369 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2975 1565 Zeroing lines in arrays Total # of output lines = 12 39838 2975 5071 0 2096 patch iptc,sj,dgj,dgi,id: 12 5071 1 1 2096 half line dmj dgc: 1 40413 276 -369 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 5071 2975 Zeroing lines in arrays Total # of output lines = 12 41934 Processing block number 13 DEBUG 15 289.5593 15.26593 0.0000000E+00 0.0000000E+00 5071 6481 14 1396 patch iptc,sj,dgj,dgi,id: 13 6481 15 1 1396 half line dmj dgc: 0 43905 289 -369 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 6481 5071 Zeroing lines in arrays Total # of output lines = 13 43344 6481 8577 0 2096 patch iptc,sj,dgj,dgi,id: 13 8577 15 15 2096 half line dmj dgc: 1 43905 289 -369 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 8577 6481 Zeroing lines in arrays Total # of output lines = 13 45440 Processing block number 14 DEBUG 4 294.5197 4.430080 0.0000000E+00 0.0000000E+00 8577 9962 -11 1396 patch iptc,sj,dgj,dgi,id: 14 9962 4 15 1396 half line dmj dgc: 0 47397 294 -369 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9962 8577 Zeroing lines in arrays Total # of output lines = 14 46825 9962 12058 0 2096 patch iptc,sj,dgj,dgi,id: 14 12058 4 4 2096 half line dmj dgc: 1 47397 294 -369 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 12058 9962 Zeroing lines in arrays Total # of output lines = 14 48921 Processing block number 15 DEBUG -16 282.8977 -15.21494 0.0000000E+00 0.0000000E+00 12058 13434 -20 1396 patch iptc,sj,dgj,dgi,id: 15 1146 -16 4 1396 half line dmj dgc: 0 50889 282 -369 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 12058 1146 Zeroing lines in arrays Total # of output lines = 15 50297 1146 3242 0 2096 patch iptc,sj,dgj,dgi,id: 15 3242 -16 -16 2096 half line dmj dgc: 1 50889 282 -369 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 3242 1146 Zeroing lines in arrays Total # of output lines = 15 52393 Processing block number 16 DEBUG -4 278.2476 -3.338423 0.0000000E+00 0.0000000E+00 3242 4077 12 823 patch iptc,sj,dgj,dgi,id: 16 4077 -4 -16 823 half line dmj dgc: 0 53808 278 -369 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4077 3242 Zeroing lines in arrays Total # of output lines = 16 53228 4077 6173 0 2096 patch iptc,sj,dgj,dgi,id: 16 6173 -4 -4 2096 half line dmj dgc: 1 53808 278 -369 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6173 4077 Zeroing lines in arrays Total # of output lines = 16 55324 ia dmi dgi: 6173 278 -4 Writing the last 2378 lines last half sj>s1 8551 6173 55324 WAYNE done patche 211.1126470565796 Total # of output lines = 57702 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 57702 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 211.7853419780731 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9909347 15.61736 146 -0.031 3046 -0.094 15.61736 0.000007 0.000023 0.000000 r_peak,r_snr = 0.9859384 71.98102 e vector 2 error 246 0.000 3046 -0.094 71.98102 0.000007 0.000026 0.000000 r_peak,r_snr = 0.9066447 17.43549 346 0.000 3046 -0.094 17.43549 0.000067 0.000269 0.000003 r_peak,r_snr = 0.9630226 45.05079 446 0.000 3046 -0.094 45.05079 0.000022 0.000081 -0.000001 r_peak,r_snr = 0.9050401 48.58705 546 -0.031 3046 -0.156 48.58705 0.000056 0.000213 -0.000003 r_peak,r_snr = 0.9321682 63.24680 646 -0.031 3046 -0.094 63.24680 0.000038 0.000155 0.000003 r_peak,r_snr = 0.9957365 7.861662 746 0.000 3046 -0.063 7.86166 0.000004 0.000016 0.000000 r_peak,r_snr = 0.9637126 49.31634 846 -0.031 3046 -0.063 49.31634 0.000023 0.000081 0.000001 r_peak,r_snr = 0.9294210 102.4442 946 0.000 3046 -0.031 102.44422 0.000036 0.000136 0.000003 r_peak,r_snr = 0.9480511 13.45744 1046 0.000 3046 -0.125 13.45744 0.000043 0.000159 -0.000002 r_peak,r_snr = 0.9265874 39.79358 1146 0.000 3046 -0.094 39.79358 0.000048 0.000187 -0.000004 r_peak,r_snr = 0.9179640 93.44730 1246 -0.031 3046 -0.094 93.44730 0.000044 0.000167 0.000000 r_peak,r_snr = 0.9556222 41.42682 1346 -0.031 3046 -0.031 41.42682 0.000029 0.000109 -0.000001 r_peak,r_snr = 0.9873198 7.201444 1446 -0.031 3046 -0.063 7.20144 0.000013 0.000054 0.000002 r_peak,r_snr = 0.9809460 9.028389 1546 -0.031 3046 -0.031 9.02839 0.000016 0.000057 0.000000 r_peak,r_snr = 0.9654570 106.9669 1646 -0.031 3046 -0.094 106.96691 0.000017 0.000059 -0.000001 r_peak,r_snr = 0.9793414 53.98991 1746 -0.031 3046 -0.063 53.98991 0.000012 0.000047 0.000000 r_peak,r_snr = 0.9510980 100.9883 1846 -0.031 3046 -0.063 100.98833 0.000026 0.000087 0.000001 r_peak,r_snr = 0.9506072 64.96749 1946 -0.031 3046 -0.063 64.96749 0.000029 0.000105 0.000000 r_peak,r_snr = 0.9319240 105.6443 2046 -0.063 3046 -0.031 105.64426 0.000035 0.000123 0.000003 At line = 3400 Reading in data.... r_peak,r_snr = 0.9833474 18.44355 146 0.000 3446 -0.094 18.44355 0.000011 0.000042 -0.000001 r_peak,r_snr = 0.9869452 41.20781 246 0.000 3446 -0.125 41.20781 0.000008 0.000035 0.000000 r_peak,r_snr = 0.9720526 41.25122 346 0.000 3446 -0.094 41.25122 0.000018 0.000060 0.000000 r_peak,r_snr = 0.9363871 43.53134 446 0.000 3446 -0.125 43.53134 0.000043 0.000159 -0.000003 r_peak,r_snr = 0.9660540 48.89550 546 0.000 3446 -0.031 48.89550 0.000019 0.000085 0.000000 r_peak,r_snr = 0.9550176 46.26719 646 -0.031 3446 -0.063 46.26719 0.000027 0.000104 -0.000001 r_peak,r_snr = 0.9928245 20.23116 746 0.000 3446 -0.094 20.23116 0.000005 0.000022 0.000000 r_peak,r_snr = 0.9561561 40.70470 846 -0.031 3446 -0.094 40.70470 0.000025 0.000104 0.000001 r_peak,r_snr = 0.8666711 92.05214 946 0.000 3446 -0.031 92.05214 0.000082 0.000307 -0.000002 r_peak,r_snr = 0.9270563 33.53259 1046 -0.031 3446 -0.094 33.53259 0.000048 0.000187 -0.000004 r_peak,r_snr = 0.8949959 13.48283 1146 -0.031 3446 -0.094 13.48283 0.000104 0.000408 -0.000004 r_peak,r_snr = 0.9848303 23.24383 1246 -0.031 3446 -0.094 23.24383 0.000010 0.000037 0.000000 r_peak,r_snr = 0.9188730 95.26666 1346 -0.031 3446 -0.094 95.26666 0.000042 0.000173 0.000002 r_peak,r_snr = 0.9800239 6.234622 1446 -0.031 3446 -0.094 6.23462 0.000022 0.000098 -0.000001 r_peak,r_snr = 0.9748315 7.099232 1546 0.000 3446 -0.125 7.09923 0.000025 0.000082 0.000002 r_peak,r_snr = 0.9821193 46.86130 1646 -0.031 3446 -0.063 46.86130 0.000010 0.000039 0.000001 r_peak,r_snr = 0.9555308 101.3767 1746 -0.031 3446 -0.094 101.37666 0.000023 0.000087 0.000000 r_peak,r_snr = 0.9487048 81.45614 1846 -0.031 3446 -0.094 81.45614 0.000029 0.000108 -0.000001 r_peak,r_snr = 0.9527206 87.29662 1946 -0.031 3446 -0.094 87.29662 0.000026 0.000096 0.000003 r_peak,r_snr = 0.9316429 105.6235 2046 -0.063 3446 -0.063 105.62347 0.000035 0.000129 0.000005 At line = 3800 Reading in data.... r_peak,r_snr = 0.9861991 19.02168 146 0.000 3846 -0.094 19.02168 0.000010 0.000039 0.000001 r_peak,r_snr = 0.9811135 53.92956 246 0.000 3846 -0.094 53.92956 0.000010 0.000036 0.000000 r_peak,r_snr = 0.9814053 96.08862 346 0.000 3846 -0.063 96.08862 0.000009 0.000036 0.000000 r_peak,r_snr = 0.9623467 43.92770 446 0.000 3846 -0.094 43.92770 0.000021 0.000082 0.000000 r_peak,r_snr = 0.9646416 28.09334 546 0.000 3846 -0.125 28.09334 0.000024 0.000091 0.000002 r_peak,r_snr = 0.9770358 13.05891 646 -0.031 3846 -0.125 13.05891 0.000019 0.000083 0.000000 r_peak,r_snr = 0.9615549 98.54910 746 0.000 3846 -0.125 98.54910 0.000020 0.000064 -0.000002 r_peak,r_snr = 0.9833815 23.20796 846 -0.031 3846 -0.031 23.20796 0.000012 0.000042 0.000001 r_peak,r_snr = 0.7322145 65.13966 946 -0.031 3846 0.000 65.13966 0.000203 0.001104 -0.000024 r_peak,r_snr = 0.9510857 66.96008 1046 0.000 3846 -0.094 66.96008 0.000028 0.000093 0.000001 r_peak,r_snr = 0.9758649 13.76783 1146 -0.031 3846 -0.156 13.76783 0.000022 0.000117 -0.000002 r_peak,r_snr = 0.9854538 12.70257 1246 -0.031 3846 -0.094 12.70257 0.000011 0.000039 -0.000001 r_peak,r_snr = 0.9722071 13.78226 1346 -0.031 3846 -0.125 13.78226 0.000023 0.000092 -0.000002 r_peak,r_snr = 0.9877807 27.79834 1446 -0.031 3846 -0.063 27.79834 0.000008 0.000031 0.000000 r_peak,r_snr = 0.9921286 6.770649 1546 -0.031 3846 -0.094 6.77065 0.000006 0.000021 0.000000 r_peak,r_snr = 0.9868002 25.03437 1646 -0.031 3846 -0.094 25.03437 0.000009 0.000033 0.000000 r_peak,r_snr = 0.9416122 109.8675 1746 -0.031 3846 -0.094 109.86748 0.000029 0.000110 0.000000 r_peak,r_snr = 0.9437528 116.8035 1846 -0.063 3846 -0.063 116.80354 0.000027 0.000105 0.000002 r_peak,r_snr = 0.9267157 98.29423 1946 -0.031 3846 -0.094 98.29423 0.000040 0.000139 0.000000 r_peak,r_snr = 0.9209408 101.1240 2046 -0.031 3846 0.000 101.12402 0.000041 0.000164 0.000001 At line = 4200 Reading in data.... r_peak,r_snr = 0.9850418 17.01774 146 0.000 4246 -0.125 17.01774 0.000009 0.000038 0.000000 r_peak,r_snr = 0.9803956 106.0115 246 0.000 4246 -0.094 106.01149 0.000010 0.000034 0.000000 r_peak,r_snr = 0.9832076 77.73261 346 0.000 4246 -0.094 77.73261 0.000009 0.000033 0.000000 r_peak,r_snr = 0.9732028 132.5341 446 0.000 4246 -0.063 132.53410 0.000012 0.000043 0.000000 r_peak,r_snr = 0.9674535 64.07435 546 0.000 4246 -0.156 64.07435 0.000019 0.000069 0.000001 r_peak,r_snr = 0.9881699 21.17904 646 -0.031 4246 -0.094 21.17904 0.000008 0.000029 0.000000 r_peak,r_snr = 0.9778175 52.88422 746 0.000 4246 -0.094 52.88422 0.000012 0.000042 0.000000 r_peak,r_snr = 0.9640254 72.81822 846 0.000 4246 -0.063 72.81822 0.000019 0.000072 0.000000 r_peak,r_snr = 0.8529909 34.43034 946 -0.031 4246 -0.063 34.43034 0.000102 0.000408 0.000005 r_peak,r_snr = 0.9792271 20.06123 1046 0.000 4246 -0.094 20.06123 0.000014 0.000053 -0.000001 r_peak,r_snr = 0.9766774 24.17520 1146 -0.031 4246 -0.031 24.17520 0.000016 0.000057 -0.000001 r_peak,r_snr = 0.9883088 22.10009 1246 -0.031 4246 -0.063 22.10009 0.000008 0.000031 0.000001 r_peak,r_snr = 0.9148537 31.55935 1346 -0.031 4246 -0.094 31.55935 0.000058 0.000211 0.000002 r_peak,r_snr = 0.9748319 31.65093 1446 -0.031 4246 -0.063 31.65093 0.000018 0.000083 0.000001 r_peak,r_snr = 0.9890256 12.29677 1546 -0.031 4246 -0.094 12.29677 0.000008 0.000027 0.000000 r_peak,r_snr = 0.9773486 21.78244 1646 -0.031 4246 -0.063 21.78244 0.000016 0.000059 -0.000001 r_peak,r_snr = 0.9423890 101.6728 1746 -0.031 4246 -0.094 101.67278 0.000031 0.000106 -0.000001 r_peak,r_snr = 0.9424489 105.0838 1846 -0.031 4246 -0.063 105.08377 0.000029 0.000110 -0.000002 r_peak,r_snr = 0.9427390 112.8304 1946 -0.031 4246 -0.094 112.83041 0.000028 0.000107 0.000000 r_peak,r_snr = 0.9243709 96.53194 2046 -0.031 4246 -0.063 96.53194 0.000038 0.000160 0.000001 At line = 4600 Reading in data.... r_peak,r_snr = 0.9931330 15.96823 146 0.000 4646 -0.094 15.96823 0.000005 0.000017 0.000000 r_peak,r_snr = 0.9814354 14.55149 246 0.000 4646 -0.125 14.55149 0.000015 0.000058 0.000001 r_peak,r_snr = 0.9811011 82.68866 346 0.000 4646 -0.094 82.68866 0.000009 0.000035 0.000000 r_peak,r_snr = 0.9693439 104.2917 446 -0.031 4646 -0.094 104.29172 0.000016 0.000050 -0.000002 r_peak,r_snr = 0.9627267 62.27373 546 0.000 4646 -0.094 62.27373 0.000019 0.000064 0.000000 r_peak,r_snr = 0.9853252 72.86749 646 -0.031 4646 -0.094 72.86749 0.000008 0.000028 0.000000 r_peak,r_snr = 0.9717737 102.4166 746 0.000 4646 -0.094 102.41656 0.000014 0.000050 0.000000 r_peak,r_snr = 0.9826720 17.96003 846 0.000 4646 -0.063 17.96003 0.000012 0.000041 0.000000 r_peak,r_snr = 0.9373453 73.92809 946 -0.031 4646 -0.031 73.92809 0.000034 0.000138 0.000002 r_peak,r_snr = 0.9772008 21.12175 1046 0.000 4646 -0.094 21.12175 0.000016 0.000071 -0.000001 r_peak,r_snr = 0.9807130 14.75246 1146 0.000 4646 -0.063 14.75246 0.000014 0.000061 -0.000001 r_peak,r_snr = 0.9749140 10.84336 1246 -0.031 4646 -0.094 10.84336 0.000023 0.000093 -0.000002 r_peak,r_snr = 0.9698132 67.93055 1346 -0.031 4646 -0.031 67.93055 0.000017 0.000059 0.000001 r_peak,r_snr = 0.9795771 14.88776 1446 -0.031 4646 -0.094 14.88776 0.000014 0.000051 0.000000 r_peak,r_snr = 0.9865649 27.80538 1546 -0.031 4646 -0.125 27.80538 0.000008 0.000034 0.000000 r_peak,r_snr = 0.9292237 92.36280 1646 -0.031 4646 -0.094 92.36280 0.000036 0.000141 0.000001 r_peak,r_snr = 0.9334720 113.5904 1746 -0.031 4646 -0.063 113.59036 0.000032 0.000127 -0.000002 r_peak,r_snr = 0.9452790 96.86248 1846 -0.031 4646 -0.094 96.86248 0.000028 0.000102 -0.000001 r_peak,r_snr = 0.9465319 71.58169 1946 -0.031 4646 -0.063 71.58169 0.000030 0.000117 0.000002 r_peak,r_snr = 0.9343312 104.2087 2046 -0.031 4646 -0.063 104.20873 0.000035 0.000122 -0.000001 At line = 5000 Reading in data.... r_peak,r_snr = 0.9919963 22.20066 146 0.000 5046 -0.094 22.20066 0.000005 0.000019 0.000000 r_peak,r_snr = 0.9885520 13.53606 246 0.000 5046 -0.094 13.53606 0.000009 0.000041 0.000000 r_peak,r_snr = 0.9828106 13.84874 346 0.000 5046 -0.094 13.84874 0.000011 0.000042 0.000000 r_peak,r_snr = 0.9429070 53.53863 446 -0.031 5046 -0.125 53.53863 0.000035 0.000111 0.000002 r_peak,r_snr = 0.9730531 62.00803 546 0.000 5046 -0.094 62.00803 0.000014 0.000049 -0.000001 r_peak,r_snr = 0.9863924 103.0271 646 0.000 5046 -0.094 103.02705 0.000007 0.000022 0.000000 r_peak,r_snr = 0.9822121 50.52836 746 0.000 5046 -0.063 50.52836 0.000010 0.000035 -0.000001 r_peak,r_snr = 0.9773962 29.37578 846 -0.031 5046 -0.063 29.37578 0.000015 0.000055 0.000001 r_peak,r_snr = 0.9680814 71.17612 946 -0.031 5046 -0.063 71.17612 0.000018 0.000060 -0.000001 r_peak,r_snr = 0.9718334 4.827109 1046 -0.031 5046 -0.094 4.82711 0.000029 0.000110 -0.000001 r_peak,r_snr = 0.9790376 30.34652 1146 0.000 5046 -0.063 30.34652 0.000013 0.000052 -0.000001 r_peak,r_snr = 0.9749605 21.03141 1246 0.000 5046 -0.031 21.03141 0.000017 0.000070 0.000000 r_peak,r_snr = 0.9645816 14.95926 1346 -0.031 5046 -0.094 14.95926 0.000026 0.000095 0.000001 r_peak,r_snr = 0.9715248 86.11375 1446 -0.031 5046 -0.094 86.11375 0.000014 0.000060 0.000002 r_peak,r_snr = 0.9827973 12.50152 1546 -0.031 5046 -0.031 12.50152 0.000013 0.000051 0.000002 r_peak,r_snr = 0.9326371 116.2656 1646 -0.031 5046 -0.031 116.26558 0.000033 0.000124 -0.000004 r_peak,r_snr = 0.9467995 73.89854 1746 -0.063 5046 -0.063 73.89854 0.000030 0.000110 0.000002 r_peak,r_snr = 0.9130532 95.64900 1846 -0.031 5046 -0.063 95.64900 0.000046 0.000174 0.000000 r_peak,r_snr = 0.9308575 90.47784 1946 -0.031 5046 0.000 90.47784 0.000037 0.000144 -0.000004 r_peak,r_snr = 0.9143586 117.3469 2046 -0.031 5046 -0.063 117.34690 0.000041 0.000156 0.000001 At line = 5400 Reading in data.... r_peak,r_snr = 0.9884489 48.81131 146 0.000 5446 -0.094 48.81131 0.000007 0.000023 0.000000 r_peak,r_snr = 0.9738505 38.80886 246 0.000 5446 -0.063 38.80886 0.000016 0.000064 0.000000 r_peak,r_snr = 0.9704995 67.41804 346 0.000 5446 -0.063 67.41804 0.000016 0.000058 -0.000001 r_peak,r_snr = 0.9777532 104.5543 446 0.000 5446 -0.094 104.55431 0.000011 0.000038 0.000000 r_peak,r_snr = 0.9782901 67.52814 546 -0.031 5446 -0.094 67.52814 0.000011 0.000039 -0.000001 r_peak,r_snr = 0.9785041 95.79908 646 0.000 5446 -0.125 95.79908 0.000011 0.000036 0.000000 r_peak,r_snr = 0.9825714 85.92847 746 -0.031 5446 -0.063 85.92847 0.000009 0.000036 0.000000 r_peak,r_snr = 0.9621006 56.87525 846 0.000 5446 -0.031 56.87525 0.000021 0.000073 0.000000 r_peak,r_snr = 0.9761146 107.0165 946 -0.031 5446 -0.031 107.01648 0.000012 0.000039 0.000000 r_peak,r_snr = 0.9369378 10.36713 1046 -0.063 5446 -0.063 10.36713 0.000053 0.000195 -0.000003 r_peak,r_snr = 0.9104386 18.58637 1146 0.000 5446 -0.094 18.58637 0.000075 0.000329 0.000001 r_peak,r_snr = 0.9824544 11.66889 1246 -0.031 5446 -0.031 11.66889 0.000014 0.000056 0.000001 r_peak,r_snr = 0.9861438 33.84199 1346 -0.031 5446 -0.094 33.84199 0.000008 0.000036 0.000001 r_peak,r_snr = 0.9842718 21.43501 1446 -0.031 5446 -0.063 21.43501 0.000010 0.000042 0.000000 r_peak,r_snr = 0.9328288 72.40935 1546 -0.031 5446 -0.031 72.40935 0.000038 0.000151 0.000002 r_peak,r_snr = 0.9279406 110.6381 1646 -0.031 5446 -0.094 110.63809 0.000038 0.000132 -0.000004 r_peak,r_snr = 0.9422092 80.43604 1746 -0.031 5446 -0.094 80.43604 0.000032 0.000121 -0.000002 r_peak,r_snr = 0.9482189 61.84679 1846 -0.031 5446 -0.031 61.84679 0.000029 0.000125 -0.000002 r_peak,r_snr = 0.9253144 110.6278 1946 -0.063 5446 -0.063 110.62779 0.000036 0.000142 -0.000003 r_peak,r_snr = 0.9284185 99.28627 2046 -0.031 5446 -0.031 99.28627 0.000037 0.000145 0.000002 At line = 5800 Reading in data.... r_peak,r_snr = 0.9886385 32.53113 146 0.000 5846 -0.094 32.53113 0.000006 0.000023 0.000000 r_peak,r_snr = 0.9608471 35.92398 246 -0.031 5846 -0.125 35.92398 0.000022 0.000085 0.000001 r_peak,r_snr = 0.9758144 64.96031 346 -0.031 5846 -0.094 64.96031 0.000013 0.000046 0.000001 r_peak,r_snr = 0.9604104 57.80590 446 -0.031 5846 -0.125 57.80590 0.000022 0.000074 0.000000 r_peak,r_snr = 0.9718004 96.82952 546 0.000 5846 -0.094 96.82952 0.000014 0.000048 0.000001 r_peak,r_snr = 0.9809175 101.8206 646 0.000 5846 -0.094 101.82058 0.000009 0.000034 0.000000 r_peak,r_snr = 0.9764959 92.87785 746 -0.031 5846 -0.063 92.87785 0.000011 0.000037 0.000000 r_peak,r_snr = 0.9634837 48.55871 846 -0.031 5846 -0.063 48.55871 0.000021 0.000079 0.000001 r_peak,r_snr = 0.9765657 21.60833 946 -0.031 5846 -0.063 21.60833 0.000015 0.000060 0.000001 r_peak,r_snr = 0.8229535 57.80960 1046 -0.063 5846 -0.063 57.80960 0.000122 0.000494 -0.000014 r_peak,r_snr = 0.7199296 26.54027 1146 -0.094 5846 0.000 26.54027 0.000281 0.001284 0.000000 r_peak,r_snr = 0.9793465 10.91714 1246 0.000 5846 -0.094 10.91714 0.000018 0.000074 -0.000002 r_peak,r_snr = 0.9808475 17.68439 1346 -0.031 5846 -0.094 17.68439 0.000017 0.000067 -0.000001 r_peak,r_snr = 0.9862621 3.646821 1446 -0.063 5846 -0.125 3.64682 0.000017 0.000069 0.000000 r_peak,r_snr = 0.9601425 9.211535 1546 -0.031 5846 -0.063 9.21153 0.000035 0.000158 0.000005 r_peak,r_snr = 0.9873813 18.84932 1646 -0.031 5846 -0.063 18.84932 0.000009 0.000037 0.000000 r_peak,r_snr = 0.9414876 96.61787 1746 -0.031 5846 -0.063 96.61787 0.000029 0.000111 0.000002 r_peak,r_snr = 0.9699842 39.18333 1846 -0.063 5846 -0.063 39.18333 0.000019 0.000062 0.000002 r_peak,r_snr = 0.9777428 14.19921 1946 -0.031 5846 -0.063 14.19921 0.000016 0.000054 -0.000001 r_peak,r_snr = 0.9310821 125.0169 2046 -0.031 5846 -0.031 125.01689 0.000032 0.000120 0.000001 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9776473 14.97134 146 0.031 3046 -0.188 14.97134 0.000017 0.000059 0.000000 r_peak,r_snr = 0.9707992 70.90150 246 0.031 3046 -0.156 70.90150 0.000016 0.000058 0.000000 r_peak,r_snr = 0.8963725 17.44823 346 0.031 3046 -0.188 17.44823 0.000076 0.000322 0.000005 r_peak,r_snr = 0.9570040 41.51912 446 0.031 3046 -0.125 41.51912 0.000027 0.000097 -0.000001 r_peak,r_snr = 0.9175084 49.98207 546 0.031 3046 -0.188 49.98207 0.000048 0.000179 -0.000002 r_peak,r_snr = 0.9152188 61.12506 646 0.031 3046 -0.125 61.12506 0.000049 0.000203 0.000004 r_peak,r_snr = 0.9845868 7.754841 746 0.031 3046 -0.094 7.75484 0.000016 0.000061 0.000000 r_peak,r_snr = 0.9477742 47.89138 846 0.031 3046 -0.094 47.89138 0.000034 0.000122 0.000002 r_peak,r_snr = 0.9298255 97.25539 946 0.031 3046 -0.125 97.25539 0.000037 0.000136 0.000002 r_peak,r_snr = 0.9558243 13.83155 1046 0.031 3046 -0.156 13.83155 0.000036 0.000134 -0.000002 r_peak,r_snr = 0.9251764 41.49493 1146 0.031 3046 -0.125 41.49493 0.000048 0.000192 -0.000004 r_peak,r_snr = 0.9031362 92.85930 1246 0.031 3046 -0.125 92.85930 0.000053 0.000203 0.000000 r_peak,r_snr = 0.9469934 39.08614 1346 0.000 3046 -0.063 39.08614 0.000036 0.000135 0.000000 r_peak,r_snr = 0.9820454 7.085212 1446 0.000 3046 -0.094 7.08521 0.000019 0.000080 0.000003 r_peak,r_snr = 0.9703326 8.672406 1546 0.000 3046 -0.063 8.67241 0.000026 0.000094 0.000000 r_peak,r_snr = 0.9319780 101.7322 1646 -0.031 3046 -0.188 101.73222 0.000035 0.000127 -0.000002 r_peak,r_snr = 0.9565232 51.88271 1746 0.000 3046 -0.094 51.88271 0.000026 0.000106 0.000001 r_peak,r_snr = 0.9184244 101.7599 1846 0.000 3046 -0.063 101.75994 0.000046 0.000155 0.000002 r_peak,r_snr = 0.9197062 64.24108 1946 -0.031 3046 -0.063 64.24108 0.000048 0.000183 0.000001 r_peak,r_snr = 0.9123766 104.2208 2046 -0.031 3046 -0.094 104.22083 0.000047 0.000167 0.000004 At line = 3400 Reading in data.... r_peak,r_snr = 0.9655247 17.83069 146 0.031 3446 -0.188 17.83069 0.000023 0.000093 -0.000002 r_peak,r_snr = 0.9775642 39.63747 246 0.031 3446 -0.219 39.63747 0.000015 0.000064 0.000001 r_peak,r_snr = 0.9623554 39.94124 346 0.031 3446 -0.156 39.94124 0.000024 0.000083 -0.000001 r_peak,r_snr = 0.9411515 43.88966 446 0.031 3446 -0.125 43.88966 0.000039 0.000146 -0.000002 r_peak,r_snr = 0.9689362 49.51196 546 0.031 3446 -0.125 49.51196 0.000018 0.000078 0.000000 r_peak,r_snr = 0.9414614 46.47976 646 0.031 3446 -0.094 46.47976 0.000037 0.000141 -0.000001 r_peak,r_snr = 0.9778227 19.85752 746 0.031 3446 -0.125 19.85752 0.000017 0.000073 -0.000001 r_peak,r_snr = 0.9495863 39.27116 846 0.031 3446 -0.094 39.27116 0.000029 0.000126 0.000001 r_peak,r_snr = 0.8981810 91.97662 946 0.031 3446 -0.125 91.97662 0.000062 0.000218 0.000000 r_peak,r_snr = 0.9387009 31.33611 1046 0.000 3446 -0.125 31.33611 0.000040 0.000155 -0.000003 r_peak,r_snr = 0.8918961 12.73246 1146 0.000 3446 -0.125 12.73246 0.000110 0.000456 0.000000 r_peak,r_snr = 0.9714188 23.22526 1246 0.000 3446 -0.125 23.22526 0.000020 0.000074 0.000000 r_peak,r_snr = 0.8947043 94.65106 1346 -0.031 3446 -0.156 94.65106 0.000059 0.000236 0.000002 r_peak,r_snr = 0.9734609 6.131786 1446 0.000 3446 -0.094 6.13179 0.000029 0.000136 0.000000 r_peak,r_snr = 0.9664183 7.002969 1546 0.000 3446 -0.125 7.00297 0.000034 0.000114 0.000003 r_peak,r_snr = 0.9577297 44.31614 1646 0.000 3446 -0.094 44.31614 0.000026 0.000100 0.000002 r_peak,r_snr = 0.9154642 99.34886 1746 0.000 3446 -0.156 99.34886 0.000046 0.000183 0.000000 r_peak,r_snr = 0.9106356 78.52753 1846 -0.031 3446 -0.094 78.52753 0.000053 0.000207 -0.000002 r_peak,r_snr = 0.9242254 85.19289 1946 -0.031 3446 -0.125 85.19289 0.000044 0.000162 0.000005 r_peak,r_snr = 0.9128248 103.7479 2046 -0.031 3446 -0.094 103.74789 0.000046 0.000172 0.000006 At line = 3800 Reading in data.... r_peak,r_snr = 0.9739425 18.17520 146 0.031 3846 -0.156 18.17520 0.000020 0.000080 0.000002 r_peak,r_snr = 0.9675713 50.29724 246 0.031 3846 -0.125 50.29724 0.000019 0.000066 0.000000 r_peak,r_snr = 0.9648825 94.00250 346 0.031 3846 -0.125 94.00250 0.000017 0.000071 0.000000 r_peak,r_snr = 0.9554653 43.39155 446 0.031 3846 -0.156 43.39155 0.000025 0.000099 0.000000 r_peak,r_snr = 0.9645844 26.80087 546 0.031 3846 -0.188 26.80087 0.000025 0.000095 0.000002 r_peak,r_snr = 0.9730457 13.16055 646 0.031 3846 -0.188 13.16055 0.000023 0.000101 0.000001 r_peak,r_snr = 0.9195527 93.54079 746 0.031 3846 -0.188 93.54079 0.000044 0.000147 -0.000003 r_peak,r_snr = 0.9766527 22.89240 846 0.031 3846 -0.094 22.89240 0.000017 0.000061 0.000001 r_peak,r_snr = 0.8126866 71.19077 946 0.000 3846 -0.063 71.19077 0.000126 0.000613 -0.000011 r_peak,r_snr = 0.9443636 63.72576 1046 0.031 3846 -0.156 63.72576 0.000033 0.000110 0.000002 r_peak,r_snr = 0.9695688 13.85591 1146 0.000 3846 -0.219 13.85591 0.000028 0.000151 -0.000002 r_peak,r_snr = 0.9718853 12.14604 1246 0.000 3846 -0.125 12.14604 0.000023 0.000083 -0.000002 r_peak,r_snr = 0.9485974 13.31610 1346 0.000 3846 -0.156 13.31610 0.000045 0.000187 -0.000004 r_peak,r_snr = 0.9803139 27.30382 1446 0.000 3846 -0.125 27.30382 0.000014 0.000052 0.000000 r_peak,r_snr = 0.9834166 6.658363 1546 0.000 3846 -0.156 6.65836 0.000013 0.000047 0.000000 r_peak,r_snr = 0.9710385 24.36897 1646 -0.031 3846 -0.125 24.36897 0.000021 0.000076 0.000000 r_peak,r_snr = 0.9034008 106.7429 1746 0.000 3846 -0.125 106.74288 0.000052 0.000199 0.000001 r_peak,r_snr = 0.8959247 110.3101 1846 -0.063 3846 -0.063 110.31014 0.000054 0.000221 0.000003 r_peak,r_snr = 0.8872007 92.80900 1946 -0.031 3846 -0.156 92.80900 0.000066 0.000244 -0.000002 r_peak,r_snr = 0.9018241 103.2178 2046 -0.031 3846 0.000 103.21777 0.000053 0.000214 0.000002 At line = 4200 Reading in data.... r_peak,r_snr = 0.9692317 17.01435 146 0.031 4246 -0.188 17.01435 0.000019 0.000083 0.000001 r_peak,r_snr = 0.9600931 103.3578 246 0.031 4246 -0.156 103.35783 0.000021 0.000074 0.000000 r_peak,r_snr = 0.9683491 75.77728 346 0.031 4246 -0.156 75.77728 0.000017 0.000065 0.000000 r_peak,r_snr = 0.9644105 130.6931 446 0.031 4246 -0.125 130.69315 0.000016 0.000058 0.000000 r_peak,r_snr = 0.9640042 63.43022 546 0.031 4246 -0.188 63.43022 0.000020 0.000078 0.000001 r_peak,r_snr = 0.9750642 20.93049 646 0.031 4246 -0.156 20.93049 0.000016 0.000063 0.000000 r_peak,r_snr = 0.9551258 52.06381 746 0.031 4246 -0.156 52.06381 0.000026 0.000089 -0.000001 r_peak,r_snr = 0.9585705 73.42733 846 0.031 4246 -0.094 73.42733 0.000022 0.000084 0.000000 r_peak,r_snr = 0.8833096 34.22131 946 0.031 4246 -0.125 34.22131 0.000079 0.000302 0.000006 r_peak,r_snr = 0.9716960 19.95747 1046 0.031 4246 -0.063 19.95747 0.000019 0.000073 -0.000001 r_peak,r_snr = 0.9709514 23.60298 1146 0.000 4246 -0.063 23.60298 0.000020 0.000073 -0.000001 r_peak,r_snr = 0.9741963 21.13403 1246 0.000 4246 -0.094 21.13403 0.000018 0.000073 0.000002 r_peak,r_snr = 0.7748967 23.67594 1346 0.000 4246 -0.156 23.67594 0.000210 0.000842 0.000013 r_peak,r_snr = 0.9674705 31.43926 1446 0.000 4246 -0.125 31.43926 0.000024 0.000112 0.000002 r_peak,r_snr = 0.9771625 11.86685 1546 0.000 4246 -0.125 11.86685 0.000017 0.000059 0.000001 r_peak,r_snr = 0.9604359 20.79191 1646 0.000 4246 -0.125 20.79191 0.000028 0.000110 -0.000001 r_peak,r_snr = 0.8964103 98.35885 1746 0.000 4246 -0.125 98.35885 0.000059 0.000213 -0.000001 r_peak,r_snr = 0.9081259 101.6700 1846 0.000 4246 -0.094 101.66998 0.000048 0.000193 -0.000003 r_peak,r_snr = 0.9152490 109.8829 1946 -0.031 4246 -0.156 109.88292 0.000043 0.000169 -0.000001 r_peak,r_snr = 0.8915212 93.49191 2046 -0.031 4246 -0.125 93.49191 0.000058 0.000253 0.000000 At line = 4600 Reading in data.... r_peak,r_snr = 0.9825529 15.81161 146 0.031 4646 -0.156 15.81161 0.000013 0.000046 0.000000 r_peak,r_snr = 0.9722215 14.03235 246 0.031 4646 -0.125 14.03235 0.000023 0.000092 0.000002 r_peak,r_snr = 0.9647056 80.49598 346 0.063 4646 -0.156 80.49598 0.000018 0.000068 0.000001 r_peak,r_snr = 0.9644671 100.1115 446 0.031 4646 -0.125 100.11149 0.000019 0.000059 -0.000002 r_peak,r_snr = 0.9580796 60.59359 546 0.031 4646 -0.125 60.59359 0.000022 0.000074 -0.000001 r_peak,r_snr = 0.9757466 71.47257 646 0.000 4646 -0.156 71.47257 0.000013 0.000048 0.000000 r_peak,r_snr = 0.9605238 101.1347 746 0.031 4646 -0.125 101.13470 0.000020 0.000073 0.000000 r_peak,r_snr = 0.9763817 17.87243 846 0.031 4646 -0.094 17.87243 0.000017 0.000058 0.000000 r_peak,r_snr = 0.9395544 72.72710 946 0.000 4646 -0.031 72.72710 0.000033 0.000132 0.000002 r_peak,r_snr = 0.9734511 21.19335 1046 0.031 4646 -0.094 21.19335 0.000019 0.000085 0.000000 r_peak,r_snr = 0.9716733 14.39465 1146 0.031 4646 -0.094 14.39465 0.000022 0.000094 -0.000001 r_peak,r_snr = 0.9582571 10.39950 1246 0.000 4646 -0.156 10.39950 0.000042 0.000169 -0.000003 r_peak,r_snr = 0.9026738 65.49250 1346 0.000 4646 0.000 65.49250 0.000063 0.000222 0.000004 r_peak,r_snr = 0.9711854 15.03473 1446 0.000 4646 -0.125 15.03473 0.000020 0.000074 0.000000 r_peak,r_snr = 0.9718968 27.76206 1546 0.000 4646 -0.156 27.76206 0.000017 0.000074 0.000000 r_peak,r_snr = 0.9114555 91.12355 1646 0.000 4646 -0.125 91.12355 0.000047 0.000186 0.000002 r_peak,r_snr = 0.9006459 110.7921 1746 0.000 4646 -0.094 110.79211 0.000050 0.000206 -0.000004 r_peak,r_snr = 0.9216940 95.87894 1846 -0.031 4646 -0.094 95.87894 0.000041 0.000152 -0.000001 r_peak,r_snr = 0.9260600 70.53615 1946 0.000 4646 -0.094 70.53615 0.000043 0.000174 0.000003 r_peak,r_snr = 0.9119951 101.8881 2046 -0.031 4646 -0.063 101.88808 0.000048 0.000178 0.000000 At line = 5000 Reading in data.... r_peak,r_snr = 0.9821729 21.53438 146 0.031 5046 -0.156 21.53438 0.000012 0.000045 0.000000 r_peak,r_snr = 0.9808847 13.48636 246 0.031 5046 -0.125 13.48636 0.000015 0.000072 0.000000 r_peak,r_snr = 0.9636207 13.16676 346 0.063 5046 -0.156 13.16676 0.000024 0.000097 -0.000001 r_peak,r_snr = 0.9504672 55.60894 446 0.031 5046 -0.125 55.60894 0.000030 0.000097 0.000001 r_peak,r_snr = 0.9639729 64.77647 546 0.031 5046 -0.188 64.77647 0.000019 0.000067 -0.000001 r_peak,r_snr = 0.9687621 101.6315 646 0.031 5046 -0.156 101.63147 0.000017 0.000054 -0.000001 r_peak,r_snr = 0.9702919 49.74276 746 0.031 5046 -0.125 49.74276 0.000017 0.000062 -0.000001 r_peak,r_snr = 0.9752545 29.30450 846 0.031 5046 -0.094 29.30450 0.000017 0.000060 0.000001 r_peak,r_snr = 0.9648515 70.67238 946 0.000 5046 -0.094 70.67238 0.000020 0.000067 -0.000001 r_peak,r_snr = 0.9693258 4.855108 1046 0.031 5046 -0.094 4.85511 0.000032 0.000122 -0.000001 r_peak,r_snr = 0.9633957 28.04566 1146 0.031 5046 -0.094 28.04566 0.000024 0.000098 -0.000001 r_peak,r_snr = 0.9549796 19.61090 1246 0.031 5046 -0.063 19.61090 0.000032 0.000137 0.000001 r_peak,r_snr = 0.8998311 13.57754 1346 -0.031 5046 -0.125 13.57754 0.000085 0.000343 0.000004 r_peak,r_snr = 0.9254279 84.59439 1446 0.000 5046 -0.156 84.59439 0.000040 0.000178 0.000006 r_peak,r_snr = 0.9709454 12.09825 1546 0.000 5046 -0.063 12.09825 0.000023 0.000091 0.000003 r_peak,r_snr = 0.8642504 109.8157 1646 0.000 5046 -0.094 109.81567 0.000072 0.000298 -0.000009 r_peak,r_snr = 0.8861858 73.40840 1746 -0.031 5046 -0.094 73.40840 0.000070 0.000276 0.000004 r_peak,r_snr = 0.8651171 95.21727 1846 -0.031 5046 -0.094 95.21727 0.000077 0.000292 -0.000002 r_peak,r_snr = 0.8900526 87.62624 1946 0.000 5046 0.031 87.62624 0.000063 0.000260 -0.000006 r_peak,r_snr = 0.8670107 111.9121 2046 -0.031 5046 0.000 111.91209 0.000069 0.000274 0.000003 At line = 5400 Reading in data.... r_peak,r_snr = 0.9765971 48.13757 146 0.031 5446 -0.156 48.13757 0.000014 0.000048 0.000001 r_peak,r_snr = 0.9662498 39.40839 246 0.031 5446 -0.125 39.40839 0.000021 0.000086 0.000000 r_peak,r_snr = 0.9532534 64.52360 346 0.031 5446 -0.156 64.52360 0.000027 0.000096 -0.000002 r_peak,r_snr = 0.9694496 101.5422 446 0.031 5446 -0.156 101.54215 0.000015 0.000053 0.000000 r_peak,r_snr = 0.9696918 64.59947 546 0.031 5446 -0.125 64.59947 0.000016 0.000055 -0.000002 r_peak,r_snr = 0.9687157 94.62773 646 0.031 5446 -0.156 94.62773 0.000016 0.000054 0.000000 r_peak,r_snr = 0.9748988 86.04970 746 0.031 5446 -0.125 86.04970 0.000012 0.000053 0.000001 r_peak,r_snr = 0.9644271 56.80440 846 0.031 5446 -0.063 56.80440 0.000020 0.000069 0.000000 r_peak,r_snr = 0.9711474 105.0270 946 0.031 5446 -0.063 105.02696 0.000014 0.000048 0.000000 r_peak,r_snr = 0.9374917 10.01889 1046 -0.031 5446 -0.094 10.01889 0.000054 0.000197 -0.000002 r_peak,r_snr = 0.9223146 19.60747 1146 0.031 5446 -0.094 19.60747 0.000063 0.000274 0.000002 r_peak,r_snr = 0.9753579 11.66970 1246 0.000 5446 -0.063 11.66970 0.000020 0.000081 0.000001 r_peak,r_snr = 0.9753613 33.53176 1346 0.000 5446 -0.125 33.53176 0.000015 0.000066 0.000001 r_peak,r_snr = 0.9615585 20.66178 1446 0.000 5446 -0.094 20.66178 0.000026 0.000110 0.000001 r_peak,r_snr = 0.8876250 72.47173 1546 -0.031 5446 -0.063 72.47173 0.000068 0.000276 0.000004 r_peak,r_snr = 0.8693802 108.3878 1646 0.000 5446 -0.125 108.38785 0.000073 0.000274 -0.000007 r_peak,r_snr = 0.8982451 78.10349 1746 0.000 5446 -0.156 78.10349 0.000062 0.000237 -0.000002 r_peak,r_snr = 0.9068971 58.50457 1846 0.000 5446 -0.031 58.50457 0.000057 0.000258 -0.000004 r_peak,r_snr = 0.8826274 110.0628 1946 -0.031 5446 -0.094 110.06281 0.000060 0.000245 -0.000005 r_peak,r_snr = 0.9114910 96.31422 2046 -0.031 5446 0.000 96.31422 0.000048 0.000190 0.000002 At line = 5800 Reading in data.... r_peak,r_snr = 0.9751480 31.08645 146 0.063 5846 -0.156 31.08645 0.000015 0.000052 -0.000001 r_peak,r_snr = 0.9530297 36.11149 246 0.000 5846 -0.125 36.11149 0.000027 0.000106 0.000001 r_peak,r_snr = 0.9608787 65.72880 346 0.031 5846 -0.125 65.72880 0.000021 0.000077 0.000003 r_peak,r_snr = 0.9530397 57.65425 446 0.031 5846 -0.156 57.65425 0.000026 0.000091 0.000001 r_peak,r_snr = 0.9649861 95.00846 546 0.031 5846 -0.125 95.00846 0.000018 0.000061 0.000001 r_peak,r_snr = 0.9678775 103.6155 646 0.031 5846 -0.156 103.61549 0.000015 0.000059 0.000000 e vector 2 error r_peak,r_snr = 0.9665930 93.43240 746 0.031 5846 -0.125 93.43240 0.000016 0.000054 0.000000 r_peak,r_snr = 0.9641793 47.12857 846 0.031 5846 -0.031 47.12857 0.000021 0.000078 0.000001 r_peak,r_snr = 0.9722650 21.10915 946 0.000 5846 -0.094 21.10915 0.000018 0.000072 0.000001 r_peak,r_snr = 0.8513858 61.00362 1046 0.000 5846 -0.125 61.00362 0.000099 0.000389 -0.000008 r_peak,r_snr = 0.7743363 28.90726 1146 -0.031 5846 0.000 28.90726 0.000204 0.000858 -0.000006 r_peak,r_snr = 0.9696530 11.02628 1246 0.031 5846 -0.156 11.02628 0.000026 0.000112 -0.000002 r_peak,r_snr = 0.9740142 16.97847 1346 0.000 5846 -0.094 16.97847 0.000024 0.000096 -0.000002 r_peak,r_snr = 0.9819559 3.603942 1446 -0.031 5846 -0.156 3.60394 0.000023 0.000093 0.000000 r_peak,r_snr = 0.9464577 8.926845 1546 -0.031 5846 -0.156 8.92684 0.000049 0.000228 0.000007 r_peak,r_snr = 0.9748570 18.56989 1646 0.000 5846 -0.094 18.56989 0.000019 0.000078 -0.000001 r_peak,r_snr = 0.9046627 93.52708 1746 0.000 5846 -0.125 93.52708 0.000050 0.000201 0.000003 r_peak,r_snr = 0.9417071 35.38441 1846 -0.031 5846 -0.094 35.38441 0.000040 0.000133 0.000005 r_peak,r_snr = 0.9575015 14.08401 1946 -0.031 5846 -0.094 14.08401 0.000032 0.000109 -0.000003 r_peak,r_snr = 0.9057037 119.9264 2046 -0.031 5846 0.000 119.92636 0.000046 0.000178 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: 57702 number of output lines: 6411 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 + 57025 + 57601 *** Filtering. o/p nlines: 6411 + 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 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: 57702 number of output lines: 6411 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 + 57025 + 57601 *** Filtering. o/p nlines: 6411 + 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 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: 57702 number of output lines: 6411 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 + 57025 + 57601 *** Filtering. o/p nlines: 6411 + 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 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 + 6300 + 6400 ************************************************** ***** ***** ***** 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 57702 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 6411 57702 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 + 6400 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 6400 Unwrapping the phases Enter seed point index (0> Error file = SCREEN Reading from: ts1355_l.rdf interferogram width: 2560 number of lines/patch: 1024 start line: 3 number of lines: 6410 start sample: 1 end sample: 2550 Interferogram File: /mnt/air65/airops/1355/ts1355_l.phase SLC Amplitudes File: /mnt/air65/airops/1355/ts1355_l.amp Filtered Interferogram File: filt_int Phase Gradient File: phase_slp Gradient Corrected Corr. File: gradient_cc Unwrapped Phase File: /mnt/air65/airops/1355/ts1355_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: 8 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: 7.71728E-04 GEN_NEUTRONS: image intensity standard deviation: 2.19081E-03 GEN_NEUTRONS: image intensity neutrons: 883 INIT_UNW_RT: number of residues: 517 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: 7.19738E-04 GEN_NEUTRONS: image intensity standard deviation: 1.35827E-03 GEN_NEUTRONS: image intensity neutrons: 812 INIT_UNW_RT: number of residues: 462 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: 2558243 area fraction: 0.9905 average correlation of component: 0.9843 INIT_UNW_RT: largest component area: 0.9905 seed range: 12 INIT_UNW_RT: number of points for phase bootstrap: 7585 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: 9.61559E-04 GEN_NEUTRONS: image intensity standard deviation: 2.60985E-03 GEN_NEUTRONS: image intensity neutrons: 603 UNW_RT: number of residues: 40 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: 2574031 area fraction: 0.99665 average correlation of connected component: 0.9829 number of points for phase bootstrap: 7585 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 2574031 area fraction: 0.9967 UNW_RT: phase bootstrap points for next patch: 7620 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: 1.00704E-03 GEN_NEUTRONS: image intensity standard deviation: 2.46467E-03 GEN_NEUTRONS: image intensity neutrons: 536 UNW_RT: number of residues: 42 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: 2576166 area fraction: 0.99748 average correlation of connected component: 0.9831 number of points for phase bootstrap: 7620 bootstrap phase variance : 0.0083 bootstrap phase difference: -6.2826 phase difference (multiples of 2PI): -1.0000 UNW_RT: points unwrapped: 2576166 area fraction: 0.9975 UNW_RT: phase bootstrap points for next patch: 7601 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: 1.09087E-03 GEN_NEUTRONS: image intensity standard deviation: 3.15081E-03 GEN_NEUTRONS: image intensity neutrons: 604 UNW_RT: number of residues: 14 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: 2577886 area fraction: 0.99815 average correlation of connected component: 0.9906 number of points for phase bootstrap: 7601 bootstrap phase variance : 0.0083 bootstrap phase difference: -6.2826 phase difference (multiples of 2PI): -1.0000 UNW_RT: points unwrapped: 2577886 area fraction: 0.9981 UNW_RT: phase bootstrap points for next patch: 7617 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: 1.02017E-03 GEN_NEUTRONS: image intensity standard deviation: 3.00051E-03 GEN_NEUTRONS: image intensity neutrons: 1016 UNW_RT: number of residues: 87 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: 2578562 area fraction: 0.99841 average correlation of connected component: 0.9850 number of points for phase bootstrap: 7617 bootstrap phase variance : 0.0083 bootstrap phase difference: -6.2826 phase difference (multiples of 2PI): -1.0000 UNW_RT: points unwrapped: 2578562 area fraction: 0.9984 UNW_RT: phase bootstrap points for next patch: 7623 PATCH: 7 starting line: 5378 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: 7.83752E-04 GEN_NEUTRONS: image intensity standard deviation: 1.45370E-03 GEN_NEUTRONS: image intensity neutrons: 597 UNW_RT: number of residues: 53 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: 2570736 area fraction: 0.99538 average correlation of connected component: 0.9917 number of points for phase bootstrap: 7623 bootstrap phase variance : 0.0083 bootstrap phase difference: -6.2826 phase difference (multiples of 2PI): -1.0000 UNW_RT: points unwrapped: 2570736 area fraction: 0.9954 UNW_RT: phase bootstrap points for next patch: 7618 PATCH: 8 starting line: 6274 lines read: 138 starting output line: 65 ending output line: 138 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: 134 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2546 GEN_NEUTRONS: average image intensity: 8.00216E-04 GEN_NEUTRONS: image intensity standard deviation: 1.39564E-03 GEN_NEUTRONS: image intensity neutrons: 75 UNW_RT: number of residues: 29 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: 302937 area fraction: 0.91671 average correlation of connected component: 1.0514 number of points for phase bootstrap: 7618 bootstrap phase variance : 0.0083 bootstrap phase difference: -6.2826 phase difference (multiples of 2PI): -1.0000 UNW_RT: points unwrapped: 302937 area fraction: 0.9167 UNW_RT: phase bootstrap points for next patch: 7625 *** Normal Completion *** enter I/P file name (unw_phase_mag) /mnt/air65/airops/1355/ts1355_l.unw_phase_mag enter I/P file name for hdr (amp_file) /mnt/air65/airops/1355/ts1355_l.amp enter O/P file name for magitude file: /mnt/air65/airops/1355/ts1355_l.unw_vvvv enter O/P file name for phase file: /mnt/air65/airops/1355/ts1355_l.unw_intf Reading new header..STARTING at 0 r_new_hdr r_param_hdr ns nl offset : 2560 6411 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 12700 130048000 65044480 12701 130058240 65044480 12800 131072000 65556480 12801 131082240 65556480 ************************************************** ***** ***** ***** 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/1355/sensor.hv00l Number of lines in mocomp file: 60000 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 6411 Ave phase (rad), standard dev: 9.306455 1.408238 Total number of pixels averaged: 27548784 Phase Adjustment in cycles: 1.481168 Multi-looking lines 6411 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 6411 ***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/1355/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 60000 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 7488.199 7488.224 -36.04568 217.6094 2.5023460E-02 1)xr yr zr: -8.3923385E-02 1.024371 2.7028766E-02 xv0 ,h_p c s xv: 100 7488.199 7488.222 -36.01289 217.6094 2.3160437E-02 100)xr yr zr: -8.3917111E-02 1.024371 2.7028766E-02 -15168.33 -255.6868 7488.222 Enter the interf. calibration file name. HDDT: 98 ==xv0 h_a== 7488.199 6988.200 499.9990 ==r0 bw wavl dx dr== 8102.270 40.00000 0.2422600 0.5100000 3.331000 ==phbt phtp calf==band -40.30000 -92.10000 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: -51.80000 -92.10000 -40.30000 ==ph0 cal-dph cph0: 97.70000 -51.80000 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 6411 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 6400 Along-track offset = -10477.94 Writing map out. cal_cp lines: 2560 6411 30720 file cal_cp.dat: 2560 6411 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 6400 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 6400 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 6400 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 6400 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 6400 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 6400 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: 89.40000 -235.0400 Input ground spacing ? cross-track ground spacing: 5.000000 Radiometric Correction Vectors file: /mnt/air65/airops/1355/ts1355_l.rad_vec vec_len Rn ha y0out dyout: 17576 16626.30 6988.200 4100.225 5.000000 3.331000 NSAMP vec_len rg_len nbytes: 2560 2197 17576 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 6411 500 6411 750 6411 1000 6411 1250 6411 1500 6411 1750 6411 2000 6411 2250 6411 2500 6411 2750 6411 3000 6411 3250 6411 3500 6411 3750 6411 4000 6411 4250 6411 4500 6411 4750 6411 5000 6411 5250 6411 5500 6411 5750 6411 6000 6411 6250 6411 peg points: 63.97232 -146.9123 89.59814 63.97232 -146.9123 89.59814 BIGDELTA90-1 NAME OF HEADER PARAMETER SITE NAME BigDelta90-1 LATITUDE OF SITE (DEGREES) 64.0500 LONGITUDE OF SITE (DEGREES) -145.7667 IMAGE TITLE BIGDELTA90-1 HDDT ID 98 FREQUENCY L POLARIZATION VV CCT TYPE TS CCT ID 1355 ARCHIVAL FLAG 0 TRANSFER START FRAMECOUNT 4478320 PROCESSOR START FRAMECOUNT 4478320 LATITUDE AT START OF SCENE (DEGREES) 64.0055 LONGITUDE AT START OF SCENE (DEGREES) -147.2203 LATITUDE AT END OF SCENE (DEGREES) 64.0055 LONGITUDE AT END OF SCENE (DEGREES) -146.4851 APPROXIMATE STARTING HDDT FOOTAGE 419366 DATE OF ACQUISITION (GMT) 21-OCT-00 TIME OF ACQUISITION: GMT DAY 295 TIME OF ACQUISITION: SECONDS IN DAY 66774.0 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) 845.9 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) 7908.8 RADAR ALTITUDE (METERS) 6988.2 ALTITUDE USED IN PROCESSOR (METERS) 6988.2 ELEVATION OF INVESTIGATOR SITE (METERS) 500 AIRCRAFT TRACK ANGLE (DEGREES) 89.9 AIRCRAFT YAW ANGLE (DEGREES) -1.5 AIRCRAFT PITCH ANGLE (DEGREES) 1.6 AIRCRAFT ROLL ANGLE (DEGREES) 0.1 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) 30.4 FAR LOOK ANGLE (DEGEES) 65.1 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) 64.0440 IMAGE CENTER LONGITUDE (DEGREES) -146.8517 CALTONE VIDEO FREQUENCY 43.5938 CALTONE POWER MEASURED, DB, HH 86.7 CALTONE POWER MEASURED, DB, HV 89.4 CALTONE POWER MEASURED, DB, VH 86.7 CALTONE POWER MEASURED, DB, VV 89.4 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 -40.3 CALTONE PHASE MEASURED, DEG, HV -92.1 CALTONE PHASE MEASURED, DEG, VH -40.1 CALTONE PHASE MEASURED, DEG, VV -92.1 GENERAL SCALE FACTOR 0.0 GPS ALTITUDE, M 7307.3 LATITUDE OF PEG POINT 63.9723244 LONGITUDE OF PEG POINT -146.9122772 HEADING AT PEG POINT 89.5981445 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: 845.9000 40.00000 10.00000 proj4 nsampr 2197 15417.15 6988.200 4100.225 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 17576 Byte offset to first data line: 26364 Peg point parameters: 63.97232 -146.9123 89.59814 Offset Parameters: s0 (m) = -10477.90 c0 (m) = 4100.225 Reading data. 10240 2197 6411 + 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 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 + 6400 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 = 2944443 2197 5936 -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 + 5888 ************************************************** ***** ***** ***** 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: 845.9000 40.00000 10.00000 nsampr O/p: 2197 15417.15 6988.200 4100.225 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: 17576 Reading data. 10240 2197 6411 + 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 Initializing output array. Near Range = 4100.225 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 + 6400 Resampling the data: second pass. 2560 6411 + 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 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 = 2960983 2197 5936 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 + 5888 ************************************************** ***** ***** ***** 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: 845.9000 40.00000 10.00000 nsampr O/p: 2197 15417.15 6988.200 4100.225 5.000000 # header output no1 no2 no3: 5 1 1 3 Byte offset to cali header out: 17576 Byte offset to calheader in: 20480 Byte offset to dem header 0 Byte offset to first data line: 43940 headers_sgi: 3 17576 30720 26364 projcr4 cal vector VV:ireclenr,nsampr,nbytes,calvecr VV cal vector: 8788 2197 17576 26364 Reading data. 10240 2197 6411 + 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 Initializing output array. Near Range = 4100.225 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 + 6400 Resampling the data: second pass. 2560 6411 + 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 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 = 2958248 2197 5936 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 + 5888 ************************************************** ***** ***** ***** 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: 845.9000 40.00000 10.00000 nsampr O/p: 2197 15417.15 6988.200 4100.225 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: 8788 Reading data. 2560 2197 6411 + 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 Initializing output array. Near Range = 4100.225 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 + 6400 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 + 6400 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 + 5888 ************************************************** ***** ***** ***** 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: 845.9000 40.00000 10.00000 nsampr O/p: 2197 15417.15 6988.200 4100.225 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: 8788 Reading data. 2560 2197 6411 + 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 Initializing output array. Near Range = 4100.225 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 + 6400 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 + 6400 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 + 5888 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 17576 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 2197 2197 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 2197 2197 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 8788 0 26364 8788 0 52728 8788 0 79092 8788 0 26364 8788 0 52728 8788 0 26364 8788 0 52728 8788 0 26364 8788 0 52728 105456 17576 8788 8788 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 8788 8788 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: 17576 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 5888 Enter the output file name. ibytesdemheadin: 17576 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 5888 Minimum, Maximum heights: -1376.504 511.9628 Suggest we use 0.1152629 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 5888 ************************************************** ***** ***** ***** 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: 2197 6045 105456 ns np offset: 2197 6045 105456 ibytesvectorin nvector: 79092 17576 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 5888 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 5888 Average RCS (dB) = -29.41455 Enter the output file name. cal offset: 13182 1 2 data offset: 35152 1 2 1 4 17576 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 5888 *** Convert real*4 to Byte image *** Enter data file to be converted: /mnt/air65/airops/1355/ts1355_l.vvgr channel= 3 Reading the header. New header present. Record length = 8788 Number of samples per line = 2197 Number of lines in image = 6045 Offset to data = 105456 Status = 0 New header is OK nsamp,nlines,ioff 2197 6045 105456 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 0.1391294 0.0000000E+00 929 0.1391294 0.0000000E+00 961 0.1529239 0.0000000E+00 993 0.1529239 0.0000000E+00 1025 0.1741246 0.0000000E+00 1057 0.1741246 0.0000000E+00 1089 0.1741246 0.0000000E+00 1121 0.1805596 0.0000000E+00 1153 0.2088060 0.0000000E+00 1185 0.2088060 0.0000000E+00 1217 0.2250844 0.0000000E+00 1249 0.2250844 0.0000000E+00 1281 0.2250844 0.0000000E+00 1313 0.2267150 0.0000000E+00 1345 0.2295847 0.0000000E+00 1377 0.2295847 0.0000000E+00 1409 0.2295847 0.0000000E+00 1441 0.2295847 0.0000000E+00 1473 0.2295847 0.0000000E+00 1505 0.2295847 0.0000000E+00 1537 0.2315941 0.0000000E+00 1569 0.2315941 0.0000000E+00 1601 0.2315941 0.0000000E+00 1633 0.2315941 0.0000000E+00 1665 0.2315941 0.0000000E+00 1697 0.2315941 0.0000000E+00 1729 0.2356536 0.0000000E+00 1761 0.2356536 0.0000000E+00 1793 0.2382175 0.0000000E+00 1825 0.2382175 0.0000000E+00 1857 0.2382175 0.0000000E+00 1889 0.2382175 0.0000000E+00 1921 0.2382175 0.0000000E+00 1953 0.2382175 0.0000000E+00 1985 0.2382175 0.0000000E+00 2017 0.2382175 0.0000000E+00 2049 0.2382175 0.0000000E+00 2081 0.2382175 0.0000000E+00 2113 0.2382175 0.0000000E+00 2145 0.3239602 0.0000000E+00 2177 0.3239602 0.0000000E+00 2209 0.3239602 0.0000000E+00 2241 0.3239602 0.0000000E+00 2273 0.3239602 0.0000000E+00 2305 0.3239602 0.0000000E+00 2337 0.3239602 0.0000000E+00 2369 0.3239602 0.0000000E+00 2401 0.3239602 0.0000000E+00 2433 0.3239602 0.0000000E+00 2465 0.3239602 0.0000000E+00 2497 0.3239602 0.0000000E+00 2529 0.3239602 0.0000000E+00 2561 0.3239602 0.0000000E+00 2593 0.3239602 0.0000000E+00 2625 0.3239602 0.0000000E+00 2657 0.3239602 0.0000000E+00 2689 0.3239602 0.0000000E+00 2721 0.3239602 0.0000000E+00 2753 0.3239602 0.0000000E+00 2785 0.3239602 0.0000000E+00 2817 0.3239602 0.0000000E+00 2849 0.3239602 0.0000000E+00 2881 0.3239602 0.0000000E+00 2913 0.3239602 0.0000000E+00 2945 0.3239602 0.0000000E+00 2977 0.3239602 0.0000000E+00 3009 0.3239602 0.0000000E+00 3041 0.3239602 0.0000000E+00 3073 0.3239602 0.0000000E+00 3105 0.3239602 0.0000000E+00 3137 0.3239602 0.0000000E+00 3169 0.3239602 0.0000000E+00 3201 0.3239602 0.0000000E+00 3233 0.3239602 0.0000000E+00 3265 0.3239602 0.0000000E+00 3297 0.3239602 0.0000000E+00 3329 0.3239602 0.0000000E+00 3361 0.3239602 0.0000000E+00 3393 0.3239602 0.0000000E+00 3425 0.3239602 0.0000000E+00 3457 0.3239602 0.0000000E+00 3489 0.3239602 0.0000000E+00 3521 0.3239602 0.0000000E+00 3553 0.3239602 0.0000000E+00 3585 0.3239602 0.0000000E+00 3617 0.3239602 0.0000000E+00 3649 0.3239602 0.0000000E+00 3681 0.3239602 0.0000000E+00 3713 0.3239602 0.0000000E+00 3745 0.3239602 0.0000000E+00 3777 0.3239602 0.0000000E+00 3809 0.3239602 0.0000000E+00 3841 0.3239602 0.0000000E+00 3873 0.3239602 0.0000000E+00 3905 0.3761764 0.0000000E+00 3937 0.3761764 0.0000000E+00 3969 0.3761764 0.0000000E+00 4001 0.3761764 0.0000000E+00 4033 0.3761764 0.0000000E+00 4065 0.3761764 0.0000000E+00 4097 0.3761764 0.0000000E+00 4129 0.3761764 0.0000000E+00 4161 0.3761764 0.0000000E+00 4193 0.3761764 0.0000000E+00 4225 0.3761764 0.0000000E+00 4257 0.3761764 0.0000000E+00 4289 0.3761764 0.0000000E+00 4321 0.3761764 0.0000000E+00 4353 0.3761764 0.0000000E+00 4385 0.3761764 0.0000000E+00 4417 0.3761764 0.0000000E+00 4449 0.3761764 0.0000000E+00 4481 0.3761764 0.0000000E+00 4513 0.3761764 0.0000000E+00 4545 0.3761764 0.0000000E+00 4577 0.3761764 0.0000000E+00 4609 0.3761764 0.0000000E+00 4641 0.3761764 0.0000000E+00 4673 0.3761764 0.0000000E+00 4705 0.3761764 0.0000000E+00 4737 0.3761764 0.0000000E+00 4769 0.3761764 0.0000000E+00 4801 0.3761764 0.0000000E+00 4833 0.3761764 0.0000000E+00 4865 0.3761764 0.0000000E+00 4897 0.3761764 0.0000000E+00 4929 0.3761764 0.0000000E+00 4961 0.3761764 0.0000000E+00 4993 0.3761764 0.0000000E+00 5025 0.3761764 0.0000000E+00 5057 0.3761764 0.0000000E+00 5089 0.3761764 0.0000000E+00 5121 0.3761764 0.0000000E+00 5153 0.3761764 0.0000000E+00 5185 0.3761764 0.0000000E+00 5217 0.3761764 0.0000000E+00 5249 0.3761764 0.0000000E+00 5281 0.3761764 0.0000000E+00 5313 0.3761764 0.0000000E+00 5345 0.3761764 0.0000000E+00 5377 0.3761764 0.0000000E+00 5409 0.3761764 0.0000000E+00 5441 0.3761764 0.0000000E+00 5473 0.3761764 0.0000000E+00 5505 0.3761764 0.0000000E+00 5537 0.3761764 0.0000000E+00 5569 0.3761764 0.0000000E+00 5601 0.3761764 0.0000000E+00 5633 0.3761764 0.0000000E+00 5665 0.3761764 0.0000000E+00 5697 0.3761764 0.0000000E+00 5729 0.3761764 0.0000000E+00 5761 0.3761764 0.0000000E+00 5793 0.3761764 0.0000000E+00 5825 0.3761764 0.0000000E+00 5857 0.3761764 0.0000000E+00 5889 0.3761764 0.0000000E+00 5921 0.3761764 0.0000000E+00 5953 0.3761764 0.0000000E+00 5985 0.3761764 0.0000000E+00 6017 0.3761764 0.0000000E+00 Min, Max r_scale = 0.0000000E+00 0.3761764 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 5900 5950 6000 done Thu Mar 14 17:09:05 PST 2002 Thu Mar 14 17:09:05 PST 2002 Thu Mar 14 17:09:05 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 FOMs: 5,3-5,8; smooth to light chop; clear and cloudy; low d rift; signals look good, still getting lots of P-band pulsed RFI ; EGR-EGI lat diff: 0.12 mine (wide pulse); GS looks goodlliam Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/mnt/air62/airops/1355/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: 60000 window delay: window delay 0 enter the .par filename : par filename:/mnt/air65/airops/1355/ts1355_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: 419366 enter the title of image: title image BIGDELTA90-1 enter the CCT (job) ID: cct: 1355 target:BigDelta90-1 prod ID(cctid):1355 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: 500.0000 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 63.97086538374424 IGI lon: 1 -147.2237209137529 *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 8 0 >> ratn_phv = 0 4 0 >> ratn_pvh = 0 2 0 >> ratn_pvv = 0 10 0 >> ratn_lhh = 0 12 0 >> ratn_lhv = 0 12 0 >> ratn_lvh = 0 12 0 >> ratn_lvv = 0 12 0 >> ratn_chh = 0 9 10 >> ratn_chv = 0 9 10 >> ratn_cvh = 0 9 10 >> ratn_cvv = 0 9 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 119936 63.97086538374424 -147.2237209137529 63.97166666666666 -147.2400000000000 7906.512000000001 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 6298.996800000000 0.3000000000000000 1.600000000000000 88.40000000000001 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 63.97069549560547 -147.2229461669922 0.0000000000000000E+00 0.0000000000000000E+00 25425174.00000000 ****gps_frame**** 4478319 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8181.008602849635 1 937 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 4537819.357524013 34623.47269066396 gpsT doy: 295 10 21 gpsT: 25425174.00000000 2000 10 21 18 32 54 0.0000000000000000E+00 week# 1 F12 GPS week num: 60 GPS i_pass: -1 main header kk hwTIME: 1 585174.1324320000 EGI msg 1 msl alt(from eo17): 7302.895746386719 EGI msg 1 wander angle(from eo17): 86.00646972656250 EGI09 lat: 63.97086538374424 EGI09 lon: -147.2237209137529 EGI09 alt: 6123.000000000000 EGI09 Height_above_ellipsoid - height_msl: 6.400800000000000 EGI-09 word11 gps Vel East m/s: 213.2802458564758 EGI-09 word12 gps Vel North m/s: 11.09206481323242 EGI-09 word13 gps Vel Upper m/s: -0.1060984657287598 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 E838 EO-9(17)nav FOM 1 8103 538 EO-16(30)Time FOM 1 400 538 EGI-09 w21-22geod_utctime: 66759.92987060547 EGI-09 Time Valid: 4.057344000000000 EGI-18 dec32 Vel North m/s: 30.79651069641113 EGI-18 dec32 Vel East m/s: 202.8967742919922 EGI-18 dec32 Vel Upper m/s: -0.1047639846801758 EGI-10 GPS week number: 60 EGI-13 GPS sigma Pos-x/y/z: 64.50000000000000 63.50000000000000 53.62500000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 9.0332031250000000E-03 1.1474609375000000E-02 EGI-13 GPS sigma roll/pitch/az: 7.6498118704142811E-04 7.6498118704142811E-04 1.6392454008030601E-03 r_time_tag_17: 0.9252480000000000 EGI-16 time fom;year doy: 4 0 295 EO17 vel-x/y/z: 11.74192630920410 -217.2944121734619 8.6099395751953137E-03 EO17 wrander az roll pitch az: 1.501096074745343 5.4931640625000000E-02 1.636962890625000 88.32458496093750 EO17 r_cnexx/y/z: 0.4385016662999988 1.7769487574696541E-02 0.8985547414049506 EO17 r_lon: -147.2229543048888 EO16 GPS FOM (acc): 4.000000000000000 EGI-18 w1-8: E000 4A0E DD4F D68D dec64: 216A 4882 63FE B469 r_hwgpstime(1): 585172.9898806863 r_utctime_18: 66759.98988068421 EGI-18 dec32 lat: 63.97103950215168 EGI-18 dec32 lon: -147.2236620501143 EGI-18 dec32 sea level alt: 7461.027832031250 EGI-18 dec32 WGS84 alt: 7467.439453125000 WGS84_alt-msl_alt: 6.411621093750000 del time from EO18 word10: 2.0000000000000001E-09 del time EO18 word10: 1 2 1 e22_msg(1) satellite 1: 14 e22_msg(3) satellite 2: 19 e22_msg(5) satellite 3: 1 e22_msg(7) satellite 4: B e22_msg(9) satellite 5: 5 EGI-22 Tdop: 2.093750000000000 1.921875000000000 1.390625000000000 1.328125000000000 0.8281250000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 6 -3.132096000000000 geod_utctime time_tag_17 time_valid: 66759.92987060547 5.119512000000000 4.057344000000000 r_utc_ttag r_del_time_18: 585173.9920386075 2.0000000000000001E-09 J2000 r_hwtime = 25425174.13243200 GPS J2000 time = 25425173.99203861 Message 1 Time = 25425174.13243200 INS Time = 1.065856000000000 Roll angle = 6.0424804687500000E-02 Pitch angle = 1.631469726562500 Heading angle = 88.32458496093750 Long. acc = 0.3600000000000000 Lat. acc = -2.9999999999999999E-02 Norm. acc = -9.740000000000000 East vel. = 217.5930000000000 North vel. = 2.933000000000000 Up vel. = 4.0000000000000001E-03 True Grnd Spd = 217.6093750000000 Altitude = 7309.000000000000 Latitude = 63.96874358877540 Longitude = -147.2223304398358 Message 6 Week = 60 GPS Time = 25425173.99203861 GDOP = 2.093750000000000 PDOP = 1.921875000000000 HDOP = 1.390625000000000 VDOP = 1.328125000000000 TDOP = 0.8281250000000000 Spherical Acc = 3.000000000000000 Time Acc = 4.000000000000000 GPS Lat = 63.97103950215168 GPS Lon = -147.2236620501143 GPS Alt = 7467.439453125000 GPS East Vel = 202.8967742919922 GPS North Vel = 30.79651069641113 GPS Up Vel = -0.1047639846801758 Message 4 Sigma Pos x = 64.50000000000000 Sigma Pos y = 63.50000000000000 Sigma Pos z = 53.62500000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 9.0332031250000000E-03 Sigma Vel z = 1.1474609375000000E-02 Message 7 Satellites used = 20 25 1 11 5 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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Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data msg_1 33 Problem with Honeywell data 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 Honeywell EGI98Fall for gps-hgt 9066 20008 7308.817715843428 Done decoding data from header array... Data collected on ==> 21-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 25425174.0000 25425316.7740 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57605 88.30261 88.76953 0.1307029 0 trc 89.49651 89.22456 89.75716 0.1768126 0 tgs 217.66344 217.29688 217.87500 0.1494292 0 roll 0.09233 -0.27466 0.58228 0.1963496 0 pitch 1.64685 1.58203 1.75232 0.0414259 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22233 -147.15741 0.0187615 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92494 -147.24000 -146.61167 0.1815359 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.32397 6147.20640 6840.01680 158.1372422 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79157 0.50000 1.90000 0.1304429 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7306.43043 7308.81772 0.7101329 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.00000 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006531 0 hwlon -146.90790 -147.22233 -146.59360 0.1815463 0 hwalt 7300.85323 7295.45175 7308.81772 3.7453293 0 hwev 217.66112 217.29800 217.88300 0.1496766 0 hwnv 1.91161 0.92100 2.94300 0.6712827 0 hwuv 0.06236 -0.17200 0.39300 0.1121025 0 hwroll 0.09242 -0.27466 0.58228 0.1964345 0 hwpitch 1.64686 1.58203 1.75232 0.0414467 0 hwhdg 88.57633 88.30261 88.76953 0.1305082 0 hwtrc 89.49682 89.22456 89.75716 0.1767032 0 hwtgs 217.66343 217.29688 217.87500 0.1495047 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 119936 1 119936 hdrgpssec-1 t_prf-1 119936 25425315.77492634 1.1840000515803695E-03 Finished correcting GPS times for pulses... search for first good time: j> srccsb ?: 1 1 *goodtime gps_time gps_frame 937 25425315.00000000 4597601 Finished correcting GPS times for SIXGUN data... r_start_frm_time gps_time(i_q) 25425175.00000000 i_yearind 20008 GPS time for first pulse = 25425174.00104113 25425174.00000000 New startrecT: 25425174.00104113 25425174.13243200 1 New start and number of records = 113 119790 New start and number of blocks = 1 937 +6+r_hwhead(10/200): 0.0000000000000000E+00 5.4931640625000000E-03 88.32458496093750 GPS trend coefficients = 1.601781877244182 -4.853671024702845 2.478953686837068 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00118 0.00118 0.00118 0.0000008 0 hdg 88.57627 88.30261 88.76953 0.1305555 0 trc 89.49669 89.22456 89.75663 0.1766745 0 tgs 217.66359 217.29688 217.87500 0.1493834 0 roll 0.09228 -0.27466 0.58228 0.1963947 0 pitch 1.64686 1.58203 1.75232 0.0414479 0 delx 0.25729 0.00000 0.25737 0.0007440 0 lati 63.96893 63.96874 63.96912 0.0001089 0 loni -147.18987 -147.22226 -147.15748 0.0187613 0 latd 63.97266 63.97167 63.97333 0.0008176 0 lond -146.92493 -147.23667 -146.61167 0.1815298 0 balt 7908.83102 7905.59760 7911.38880 1.3097372 0 ralt 6491.27778 6147.20640 6840.01680 158.2005539 0 dpth 1.64973 1.60000 1.70000 0.0499993 0 droll 0.33746 0.00000 0.80000 0.1827548 0 thd 88.68890 88.40000 88.90000 0.1437587 0 dad 0.79061 0.50000 1.00000 0.1254973 0 latg 63.97213 63.97070 63.97314 0.0007013 0 long -146.91058 -147.22295 -146.59712 0.1816388 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 7307.29631 7307.20492 7307.34334 0.0352155 0 phh_aten 8.00000 8.00000 8.00000 0.0000000 0 phv_aten 4.00Reading from stdin 000 4.00000 4.00000 0.0000000 0 pvh_aten 2.00000 2.00000 2.00000 0.0000000 0 pvv_aten 10.00000 10.00000 10.00000 0.0000000 0 lhh_aten 12.00000 12.00000 12.00000 0.0000000 0 lhv_aten 12.00000 12.00000 12.00000 0.0000000 0 lvh_aten 12.00000 12.00000 12.00000 0.0000000 0 lvv_aten 12.00000 12.00000 12.00000 0.0000000 0 chh_aten 19.00000 19.00000 19.00000 0.0000000 0 chv_aten 19.00000 19.00000 19.00000 0.0000000 0 cvh_aten 19.00000 19.00000 19.00000 0.0000000 0 cvv_aten 19.00000 19.00000 19.00000 0.0000000 0 hwlat 63.97012 63.96874 63.97103 0.0006531 0 hwlon -146.90790 -147.22226 -146.59367 0.1815463 0 hwalt 7300.85323 7295.45176 7308.81387 3.7453283 0 hwev 217.66112 217.29800 217.88300 0.1496766 0 hwnv 1.91161 0.92300 2.94300 0.6712824 0 hwuv 0.06236 -0.17200 0.39300 0.1121024 0 hwroll 0.09242 -0.27466 0.57678 0.1964279 0 hwpitch 1.64686 1.58203 1.75232 0.0414569 0 hwhdg 88.57633 88.30261 88.76953 0.1305203 0 hwtrc 89.49681 89.22509 89.75663 0.1767087 0 hwtgs 217.66346 217.29688 217.87500 0.1494288 0 Finished final analysis of data... Average Barometric Altitude = 7908.831017289132 Average Radar Altitude = 6491.277781856979 Average GPS Altitude = 7307.296309716471 >>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/1355/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: 937 Number of valid data points = 937 Start time GPS data = 25425172.99998989 End time GPS data = 25425313.99998718 Positions and Distances Start position = 63.9715799 -147.0676802 7486.794 End position = 63.9727282 -146.7524153 7487.417 Loxodromic Heading (deg) = 89.5250321 Loxodromic Distance (km) = 15442.3413551 Geodesic Heading (deg) = 89.3833877 Geodesic Distance (km) = 15442.3254479 Peg latitude and longitude = 63.9723236 -146.9122814 Peg heading = 89.5981409 Rotation matrix First row = -0.367646730 0.551189324 0.749016830 Second row = -0.239553609 -0.834374531 0.496420397 Third row = 0.898582189 0.003077651 0.438794460 Translation vector Vector = -0.15010 -0.09780 -38471.11867 Local Radius of Curvature = 6395444.908761902 startrec dgps_pacrim2k: 113 119790 **i_ts: 113 25425174.13300000 25425172.99998989 1.133010115474463 Start and end pulse used = 113 118437 gmt sec s e = 25425174.13300000 25425314.00010800 dgps sec s = 25425172.99998989 25425313.99998718 r_tsv: -2362434.775458875 -1521144.855004064 5715009.739195997 r_tev: -2345476.235184105 -1546724.397116353 5715131.328131497 lat/lon r_geodis: 1.116499678368468 -2.569525666015919 1.116542146102486 -2.558602830669908 30654.85433313598 Ellipsoidal delta s (m) = 0.2590755411677765 DGPS... lat/lon r_geodis: -5.4745093250431636E-06 -2.3797082592440762E-03 3.4867230862997477E-06 2.4135159106489674E-03 30654.85468696007 Delta s on reference surface = 0.2590755441580750 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/mnt/air65/airops/1355/ts1355_p.peg DGPS Peg latitude and longitude = 63.9723236 -146.9122814 DGPS Peg heading = 89.5981409 == dgps_egi == r_hwheadf: 88.32458496093750 -5.4931640625000000E-03 0.0000000000000000E+00 113 Making final angle restore...Honeywell 88.32458496093750 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 6.4394457948502423E-04 Standard deviation of difference = 1.8376352783154733E-04 Making fits... Vertical fit coefficients = 7488.199126747256 0.1890631276648662 -5.5165591389449986E-04 Cross track fit coefficients = 219.6699726953901 3.6850215959487898E-02 5.6505708573426072E-04 Along track fit coefficients = 202.1039318722620 -0.1594810129781026 4.2696012008339168E-04 avg alt (1): 7488.199126747256 alt r_avgrefh: 7489.951837124153 i_yearind p-hgt t-hgt: 20008 7488.199126747256 500.0000 avg_ralt tmp: 6988.199218750000 6988.199 enter proc_alt: -1.000000 yaw: -1.548433 88.32458496093750 89.87301773166656 113 tape #: 98 PRF at the start of the run: 845.8805345651181 845.8806 Miscellaneous Information Start range = 8181.008602849635 Start ground range = 4253.701145938867 Time orgin = 25425174.00104113 Pulse spacing = 0.2572949504826003 First frame = 4478432 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/1355/ts1355_p.mocomp Name of the H-pol motion compensation file? /mnt/air65/airops/1355/ts1355_p.mocomph Name of the V-pol motion compensation file? /mnt/air65/airops/1355/ts1355_p.mocompv How many lines per polarization? 60000 + 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/1355/ts1355_p.par Enter the raw data file name. /mnt/air62/airops/1355/p_hh Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_p.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_p_hh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_p_hh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_p_hh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_p_hh.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1073 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (27.63075,0.0000000E+00) (-17.58320,0.0000000E+00) (-7.535659,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1073 2.4239391E+09 plot_x: 936 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 93.85773 Power RMS: 0.1036445 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 49304.57 Amp. RMS: 78.38367 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 63.57173 Phase RMS: 0.1012616 Incoherent PH 1st: 63.57630 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 93.85731 CalTone Power Coherently dB : 93.85773 Incoherent PW - Coherent PW : -4.2724609E-04 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 49301.85 CalTone Amplitude Coherently : 49304.57 Incoherent Amp.- Coherent Amp. : -2.714844 ------------ *** ------------ running time (sec): 33.06 ********** 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/1355/ts1355_p.par Enter the raw data file name. /mnt/air62/airops/1355/p_hv Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_p.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_p_hv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_p_hv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_p_hv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_p_hv.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1073 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (6.339573,0.0000000E+00) (-23.77340,0.0000000E+00) (15.84893,0.0000000E+00) attenuation (dB): 4.000000 no_loop: 64 Pulse#/no_loop: 1 1073 2.0442780E+09 plot_x: 936 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 93.14877 Power RMS: 3.1250000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 45440.11 Amp. RMS: 106.1320 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -73.68053 Phase RMS: 0.1697309 Incoherent PH 1st: -73.67631 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 93.14816 CalTone Power Coherently dB : 93.14877 Incoherent PW - Coherent PW : -6.1035156E-04 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 45489.33 CalTone Amplitude Coherently : 45440.11 Incoherent Amp.- Coherent Amp. : 49.22266 ------------ *** ------------ running time (sec): 29.91 ********** 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/1355/ts1355_p.par Enter the raw data file name. /mnt/air62/airops/1355/p_vh Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_p.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_p_vh.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_p_vh.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_p_vh.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_p_vh.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1073 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (26.43744,0.0000000E+00) (-15.10711,0.0000000E+00) (6.294627,0.0000000E+00) attenuation (dB): 2.000000 no_loop: 64 Pulse#/no_loop: 1 1073 2.3679493E+09 plot_x: 936 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 93.74775 Power RMS: 0.2096314 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 48682.81 Amp. RMS: 16.00000 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 63.63141 Phase RMS: 3.1250000E-02 Incoherent PH 1st: 63.62320 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 93.74845 CalTone Power Coherently dB : 93.74775 Incoherent PW - Coherent PW : 7.0190430E-04 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 48736.57 CalTone Amplitude Coherently : 48682.81 Incoherent Amp.- Coherent Amp. : 53.76172 ------------ *** ------------ running time (sec): 29.86 ********** 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/1355/ts1355_p.par Enter the raw data file name. /mnt/air62/airops/1355/p_vv Enter the motion compensation file name. /mnt/air65/airops/1355/ts1355_p.mocomp Enter a file name for the range spectrum: /mnt/air65/airops/1355/db_p_vv.dat Enter a file name for the sampled caltone power: /mnt/air65/airops/1355/1st_p_vv.dat Enter histogram of the caltone power file name: /mnt/air65/airops/1355/pw_hist_p_vv.dat Enter histogram of the caltone phase file name: /mnt/air65/airops/1355/ph_hist_p_vv.dat Enter start range line #: 1 How many lines of raw data? 60000 How many lines to be processed? 60000 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 : 3728 5904 Prediction cal_bin 1073 start/end pulse: 1 59904 64-Loop Count: 935 cmplx raw(1 2 3): (-3.162278,0.0000000E+00) (-31.62278,0.0000000E+00) (-3.162278,0.0000000E+00) attenuation (dB): 10.00000 no_loop: 64 Pulse#/no_loop: 1 1073 2.2186099E+09 plot_x: 936 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 93.48595 Power RMS: 3.1250000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 47238.90 Amp. RMS: 128.9961 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -74.64534 Phase RMS: 0.1104854 Incoherent PH 1st: -74.65097 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 93.48740 CalTone Power Coherently dB : 93.48595 Incoherent PW - Coherent PW : 1.4495850E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 47298.12 CalTone Amplitude Coherently : 47238.90 Incoherent Amp.- Coherent Amp. : 59.22266 ------------ *** ------------ running time (sec): 30.16 ********** 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: -37.02198 5.5812270E-04 z fit: constant and linear terms: -0.2473310 4.1801897E-05 y and z standard deviations (meters) 1.419703 0.3048876 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 = 5.1556756E-03 7.6827649E-03 9.6347211E-03 1.0810920E-02 Differences = -3.1653601E-03 -6.3827075E-04 1.3136854E-03 2.4898844E-03 PATCH NUMER 2 First line = 3493 Averages = 9.2076985E-03 1.0431766E-02 1.1651609E-02 1.2789856E-02 Differences = -1.8125437E-03 -5.8847666E-04 6.3136686E-04 1.7696135E-03 PATCH NUMER 3 First line = 6985 Averages = 1.1340491E-02 1.2359055E-02 1.3371592E-02 1.3234737E-02 Differences = -1.2359833E-03 -2.1742005E-04 7.9511758E-04 6.5826252E-04 PATCH NUMER 4 First line = 10477 Averages = 1.3240917E-02 1.3292416E-02 1.2460844E-02 1.1194963E-02 Differences = 6.9363136E-04 7.4513070E-04 -8.6441636E-05 -1.3523223E-03 PATCH NUMER 5 First line = 13969 Averages = 1.2926548E-02 1.1494747E-02 1.0748664E-02 9.8525137E-03 Differences = 1.6709324E-03 2.3913197E-04 -5.0695147E-04 -1.4031017E-03 PATCH NUMER 6 First line = 17461 Averages = 1.0933898E-02 1.0098601E-02 9.4585931E-03 9.4460761E-03 Differences = 9.4961002E-04 1.1431240E-04 -5.2569527E-04 -5.3821225E-04 PATCH NUMER 7 First line = 20953 Averages = 9.5534818E-03 9.3668550E-03 1.0361508E-02 1.1547960E-02 Differences = -6.5397192E-04 -8.4059872E-04 1.5405472E-04 1.3405066E-03 PATCH NUMER 8 First line = 24445 Averages = 9.9123493E-03 1.1207723E-02 1.2475329E-02 1.3954661E-02 Differences = -1.9751620E-03 -6.7978818E-04 5.8781728E-04 2.0671496E-03 PATCH NUMER 9 First line = 27937 Averages = 1.2080561E-02 1.3474291E-02 1.5209913E-02 1.6999893E-02 Differences = -2.3606261E-03 -9.6689630E-04 7.6872576E-04 2.5587054E-03 PATCH NUMER 10 First line = 31429 Averages = 1.4690692E-02 1.6621972E-02 1.7267233E-02 1.7893463E-02 Differences = -1.9276608E-03 3.6191195E-06 6.4888038E-04 1.2751110E-03 PATCH NUMER 11 First line = 34921 Averages = 1.7174410E-02 1.7833464E-02 1.7766738E-02 1.7562725E-02 Differences = -4.0992908E-04 2.4912506E-04 1.8239953E-04 -2.1614134E-05 PATCH NUMER 12 First line = 38413 Averages = 1.7850393E-02 1.7519787E-02 1.8063189E-02 1.9260891E-02 Differences = -3.2316521E-04 -6.5377168E-04 -1.1036918E-04 1.0873321E-03 PATCH NUMER 13 First line = 41905 Averages = 1.7770393E-02 1.8870372E-02 2.0291457E-02 2.0014191E-02 Differences = -1.4661700E-03 -3.6619045E-04 1.0548942E-03 7.7762827E-04 PATCH NUMER 14 First line = 45397 Averages = 1.9888809E-02 2.0331606E-02 1.9266523E-02 1.8079892E-02 Differences = 4.9710833E-04 9.3990564E-04 -1.2517720E-04 -1.3118088E-03 PATCH NUMER 15 First line = 48889 Averages = 1.9457100E-02 1.8718030E-02 1.7277658E-02 1.7814144E-02 Differences = 1.1404157E-03 4.0134601E-04 -1.0390263E-03 -5.0253980E-04 PATCH NUMER 16 First line = 52381 last black mod_64: 59 60000 52381 8192 Averages = 1.7335018E-02 1.7525420E-02 1.8605612E-02 1.9305166E-02 Differences = -8.5777976E-04 -6.6737831E-04 4.1281432E-04 1.1123680E-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/1355/sensor.pp_2000 Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/p_hh Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_p.mocomph Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.4647003E-02 reading motion compensation data WAYNE read motion compen 1.389454 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 0.4732760 start range comp, time = 1.974 WAYNE PREV 1.893710 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 2.215 seconds. before reading done reading WAYNE load raw data , time = 49.11725199222565 ATTN ifrq ipol ln 0 1 50096 8.000000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4997457 shift in azimuth *fractional pixel= -0.4997457 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.5015959739685059E-02 WAYNE Motion comp. added to patch, time = 17.14158499240875 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.0770301818847656E-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 = 423.1464329957962 Writing 4192 lines of data to file WAYNE write output data 2.663101077079773 ==w out 13 0 2001 0 WAYNE PROCESS 492.0884211063385 ==w out 14 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 51808 59999 patch# 16 reference line: 55903 2.251 seconds. before reading done reading WAYNE load raw data , time = 46.59563410282135 ATTN ifrq ipol ln 0 1 59999 8.000000 IPOL, ITOP nblock 1 0 16 ****shift in azimuth (fractional pixel)= -0.4997485 shift in azimuth *fractional pixel= -0.4997485 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4986038208007813E-02 WAYNE Motion comp. added to patch, time = 17.39945197105408 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.8879642486572266E-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 = 432.7277849912643 Writing 4192 lines of data to file WAYNE write output data 2.149595022201538 ==w out 16 0 2001 0 WAYNE PROCESS 498.8923070430756 ==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 2.242 seconds. before reading done reading WAYNE load raw data , time = 47.83058905601501 ATTN ifrq ipol ln 0 1 57080 8.000000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4997220 shift in azimuth *fractional pixel= -0.4997220 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4921069145202637E-02 WAYNE Motion comp. added to patch, time = 17.93923902511597 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.2579898834228516E-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 = 453.6532200574875 Writing 4192 lines of data to file WAYNE write output data 2.270411014556885 ==w out 15 0 2001 0 WAYNE PROCESS 521.7136229276657 ==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 2.225 seconds. before reading done reading WAYNE load raw data , time = 47.01036500930786 ATTN ifrq ipol ln 0 1 53588 8.000000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4997112 shift in azimuth *fractional pixel= -0.4997112 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4907956123352051E-02 WAYNE Motion comp. added to patch, time = 17.47956705093384 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.2120943069458008E-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 = 455.0392550230026 Writing 4192 lines of data to file WAYNE write output data 2.309149026870728 ==w out 14 0 2001 0 WAYNE PROCESS 521.8582710027695 ==w out 15 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -2.4259100E-02 2.9014500E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.144 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 47.37136805057526 ATTN ifrq ipol ln 0 1 8192 8.000000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4997054 shift in azimuth *fractional pixel= -0.4997054 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4873981475830078E-02 TESTING 0.0000000E+00 -30.85038 0.1221339 WAYNE Motion comp. added to patch, time = 17.17855107784271 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9329061508178711E-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 -30.85038 0.1221339 HEY,dt,fract,ye,pe -0.4997054 1.000000 -2.4259100E-02 2.9014500E-02 WAYNE Azimuth compression done, time = 363.2327799797058 Writing 4192 lines of data to file WAYNE write output data 2.649415016174316 ==w out 1 0 2001 0 WAYNE PROCESS 430.4515669345856 Processing block number 2 TESTING WHY -2.1667600E-02 2.9171800E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 432.596 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 47.06728506088257 ATTN ifrq ipol ln 0 1 11684 8.000000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4997193 shift in azimuth *fractional pixel= -0.4997193 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.5236020088195801E-02 TESTING 0.0000000E+00 -26.98117 0.5526462 WAYNE Motion comp. added to patch, time = 16.12738609313965 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 6.8030357360839844E-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 -26.98117 0.5526462 HEY,dt,fract,ye,pe -0.4997193 1.000000 -2.1667600E-02 2.9171800E-02 WAYNE Azimuth compression done, time = 309.2310119867325 Writing 4192 lines of data to file WAYNE write output data 2.275066971778870 ==w out 2 4192 2001 85852160 WAYNE PROCESS 374.7242900133133 ==w out 3 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 2.205 seconds. before reading done reading WAYNE load raw data , time = 46.92885994911194 ATTN ifrq ipol ln 0 1 43112 8.000000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4997663 shift in azimuth *fractional pixel= -0.4997663 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4889955520629883E-02 WAYNE Motion comp. added to patch, time = 16.86183702945709 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7239322662353516E-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 = 363.7833670377731 Writing 4192 lines of data to file WAYNE write output data 2.658493995666504 ==w out 11 0 2001 0 WAYNE PROCESS 430.2518810033798 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 432.457 seconds. before reading done reading WAYNE load raw data , time = 46.32346904277802 ATTN ifrq ipol ln 0 1 46604 8.000000 IPOL, ITOP nblock 1 0 12 ****shift in azimuth (fractional pixel)= -0.4997679 shift in azimuth *fractional pixel= -0.4997679 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.5019059181213379E-02 WAYNE Motion comp. added to patch, time = 15.75197994709015 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 7.3530673980712891E-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 = 310.7237789630890 Writing 4192 lines of data to file WAYNE write output data 2.280762076377869 ==w out 12 4192 2001 85852160 WAYNE PROCESS 375.1039609909058 ==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 2.163 seconds. before reading done reading WAYNE load raw data , time = 46.13341200351715 ATTN ifrq ipol ln 0 1 15176 8.000000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4997341 shift in azimuth *fractional pixel= -0.4997341 1.000000 WAYNE Motion comp. coeff. calculated, time = 3.6918997764587402E-02 WAYNE Motion comp. added to patch, time = 17.12336099147797 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.7209520339965820E-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 = 453.4943970441818 Writing 4192 lines of data to file WAYNE write output data 2.134940028190613 ==w out 3 0 2001 0 WAYNE PROCESS 518.9273890256882 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 521.091 seconds. before reading done reading WAYNE load raw data , time = 53.49143099784851 ATTN ifrq ipol ln 0 1 18668 8.000000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4997361 shift in azimuth *fractional pixel= -0.4997361 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4076948165893555E-02 WAYNE Motion comp. added to patch, time = 15.74009799957275 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 9.2129707336425781E-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 = 284.7983340024948 Writing 4192 lines of data to file WAYNE write output data 1.981007099151611 ==w out 4 4192 2001 85852160 WAYNE PROCESS 356.0356190204620 ==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 2.181 seconds. before reading done reading WAYNE load raw data , time = 47.58889698982239 ATTN ifrq ipol ln 0 1 29144 8.000000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4996827 shift in azimuth *fractional pixel= -0.4996827 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4932990074157715E-02 WAYNE Motion comp. added to patch, time = 17.62428998947144 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.0810832977294922E-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 = 453.5955799818039 Writing 4192 lines of data to file WAYNE write output data 2.290704011917114 ==w out 7 0 2001 0 WAYNE PROCESS 521.1197990179062 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 523.301 seconds. before reading done reading WAYNE load raw data , time = 53.63833904266357 ATTN ifrq ipol ln 0 1 32636 8.000000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4997138 shift in azimuth *fractional pixel= -0.4997138 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4026999473571777E-02 WAYNE Motion comp. added to patch, time = 16.03595197200775 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 8.3390474319458008E-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 = 285.1042239665985 Writing 4192 lines of data to file WAYNE write output data 1.977779030799866 ==w out 8 4192 2001 85852160 WAYNE PROCESS 356.7801270484924 ==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 2.174 seconds. before reading done reading WAYNE load raw data , time = 46.15384101867676 ATTN ifrq ipol ln 0 1 22160 8.000000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4997289 shift in azimuth *fractional pixel= -0.4997289 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4750957489013672E-02 WAYNE Motion comp. added to patch, time = 17.18908894062042 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8020143508911133E-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 = 453.0316129922867 Writing 4192 lines of data to file WAYNE write output data 2.095963001251221 ==w out 5 0 2001 0 WAYNE PROCESS 518.4898370504379 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 520.664 seconds. before reading done reading WAYNE load raw data , time = 53.31768202781677 ATTN ifrq ipol ln 0 1 25652 8.000000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4997081 shift in azimuth *fractional pixel= -0.4997081 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4052033424377441E-02 WAYNE Motion comp. added to patch, time = 15.87967693805695 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8525114059448242E-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 = 296.0046780109406 Writing 4192 lines of data to file WAYNE write output data 1.984110951423645 ==w out 6 4192 2001 85852160 WAYNE PROCESS 367.2300490140915 ==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 2.194 seconds. before reading done reading WAYNE load raw data , time = 47.46997499465942 ATTN ifrq ipol ln 0 1 36128 8.000000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4997495 shift in azimuth *fractional pixel= -0.4997495 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4929056167602539E-02 WAYNE Motion comp. added to patch, time = 16.96033298969269 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8320550918579102E-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 = 454.2202700376511 Writing 4192 lines of data to file WAYNE write output data 2.271592974662781 ==w out 9 0 2001 0 WAYNE PROCESS 520.9415910243988 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 523.136 seconds. before reading done reading WAYNE load raw data , time = 53.71069300174713 ATTN ifrq ipol ln 0 1 39620 8.000000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4997631 shift in azimuth *fractional pixel= -0.4997631 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4029026031494141E-02 WAYNE Motion comp. added to patch, time = 15.70410299301147 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.4736056327819824E-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 = 296.2216839790344 Writing 4192 lines of data to file WAYNE write output data 2.004799962043762 ==w out 10 4192 2001 85852160 WAYNE PROCESS 367.6714199781418 ==w out 11 8387 1 236142 0 2 240573 0 3 240576 0 4 240575 0 5 240574 0 6 240456 0 7 240302 0 8 240578 0 9 240431 0 10 240453 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: 0.3425040245056152 WAYNE LOOP TIME: 899.5304930210114 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_p.hh_j /mnt/air65/airops/1355/ts1355_p.mocomph /mnt/air65/airops/1355/ts1355_p.dop /mnt/air65/airops/1355/ts1355_p.glb 2560 67072 update intf hdr ha: 6988.200 UPDATE: 2560 67072 6.662100 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_p.mocomph dopfile /mnt/air65/airops/1355/ts1355_p.dop globalfile /mnt/air65/airops/1355/ts1355_p.glb /mnt/air65/airops/1355/ts1355_p.glb 35 deskew line ra ha trc: 99.70026 193 8180.270 6988.200 89.87302 after deskew line ra ha trc: 99.70026 193 8180.270 6988.200 89.87302 lat1 lon1: 193 64.00689 -147.2204 67072 last ra n_ns ns: 8180.270 0 1 67264 67072 lati loni: 67264 64.00695 -146.4853 67264 1 center ra n_ns ns: 16701.10 1279 1279 33728 67072 lati loni: 33728 64.08376 -146.8518 33728 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_p.hh_j WAYNE FINAL PROCESS 901.8124779462814 ********************************************* ***** ***** ***** 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/1355/ts1355_p.hh_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_p.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.ph Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1355/ts1355_p.hh Name of the line output file? /mnt/air65/airops/1355/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 4.732431054115295 Deskewing 16 patches Processing block number 1 DEBUG -750 193.3049 -749.4709 -0.4997054 -0.4997054 patch iptc,sj,dgj,dgi,id: 1 1 -750 -750 0 half line dmj dgc: 0 2001 193 -750 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 -750 -750 2096 half line dmj dgc: 1 2001 193 -750 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 -625 216.9265 -625.1595 -0.4997193 -0.4997193 2097 3618 125 1396 patch iptc,sj,dgj,dgi,id: 2 3618 -625 -750 1396 half line dmj dgc: 0 5493 217 -750 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3618 2097 Zeroing lines in arrays Total # of output lines = 2 3617 3618 5714 0 2096 patch iptc,sj,dgj,dgi,id: 2 5714 -625 -625 2096 half line dmj dgc: 1 5493 217 -750 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5714 3618 Zeroing lines in arrays Total # of output lines = 2 5713 Processing block number 3 DEBUG -545 229.6757 -545.2014 -0.4997341 -0.4997341 5714 7190 80 1396 patch iptc,sj,dgj,dgi,id: 3 7190 -545 -625 1396 half line dmj dgc: 0 8985 230 -750 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 7190 5714 Zeroing lines in arrays Total # of output lines = 3 7189 7190 9286 0 2096 patch iptc,sj,dgj,dgi,id: 3 9286 -545 -545 2096 half line dmj dgc: 1 8985 230 -750 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9286 7190 Zeroing lines in arrays Total # of output lines = 3 9285 Processing block number 4 DEBUG -534 228.1011 -533.8259 -0.4997361 -0.4997361 9286 10693 11 1396 patch iptc,sj,dgj,dgi,id: 4 10693 -534 -545 1396 half line dmj dgc: 0 12477 228 -750 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10693 9286 Zeroing lines in arrays Total # of output lines = 4 10692 10693 12789 0 2096 patch iptc,sj,dgj,dgi,id: 4 501 -534 -534 2096 half line dmj dgc: 1 12477 228 -750 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10693 501 Zeroing lines in arrays Total # of output lines = 4 12788 Processing block number 5 DEBUG -583 215.7487 -582.9418 -0.4997289 -0.4997289 501 1848 -49 1396 patch iptc,sj,dgj,dgi,id: 5 1848 -583 -534 1396 half line dmj dgc: 0 15969 216 -750 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1848 501 Zeroing lines in arrays Total # of output lines = 5 14135 1848 3944 0 2096 patch iptc,sj,dgj,dgi,id: 5 3944 -583 -583 2096 half line dmj dgc: 1 15969 216 -750 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3944 1848 Zeroing lines in arrays Total # of output lines = 5 16231 Processing block number 6 DEBUG -647 205.2276 -646.9045 -0.4997081 -0.4997081 3944 5276 -64 1396 patch iptc,sj,dgj,dgi,id: 6 5276 -647 -583 1396 half line dmj dgc: 0 19461 205 -750 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5276 3944 Zeroing lines in arrays Total # of output lines = 6 17563 5276 7372 0 2096 patch iptc,sj,dgj,dgi,id: 6 7372 -647 -647 2096 half line dmj dgc: 1 19461 205 -750 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7372 5276 Zeroing lines in arrays Total # of output lines = 6 19659 Processing block number 7 DEBUG -650 208.6388 -649.9788 -0.4996827 -0.4996827 7372 8765 -3 1396 patch iptc,sj,dgj,dgi,id: 7 8765 -650 -647 1396 half line dmj dgc: 0 22953 209 -750 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8765 7372 Zeroing lines in arrays Total # of output lines = 7 21052 8765 10861 0 2096 patch iptc,sj,dgj,dgi,id: 7 10861 -650 -650 2096 half line dmj dgc: 1 22953 209 -750 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10861 8765 Zeroing lines in arrays Total # of output lines = 7 23148 Processing block number 8 DEBUG -558 221.7880 -557.8275 -0.4997138 -0.4997138 10861 12349 92 1396 patch iptc,sj,dgj,dgi,id: 8 61 -558 -650 1396 half line dmj dgc: 0 26445 222 -750 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 10861 61 Zeroing lines in arrays Total # of output lines = 8 24636 61 2157 0 2096 patch iptc,sj,dgj,dgi,id: 8 2157 -558 -558 2096 half line dmj dgc: 1 26445 222 -750 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 2157 61 Zeroing lines in arrays Total # of output lines = 8 26732 Processing block number 9 DEBUG -411 240.9799 -411.1641 -0.4997495 -0.4997495 2157 3700 147 1396 patch iptc,sj,dgj,dgi,id: 9 3700 -411 -558 1396 half line dmj dgc: 0 29937 241 -750 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 3700 2157 Zeroing lines in arrays Total # of output lines = 9 28275 3700 5796 0 2096 patch iptc,sj,dgj,dgi,id: 9 5796 -411 -411 2096 half line dmj dgc: 1 29937 241 -750 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 5796 3700 Zeroing lines in arrays Total # of output lines = 9 30371 Processing block number 10 DEBUG -300 258.8050 -300.1817 -0.4997631 -0.4997631 5796 7303 111 1396 patch iptc,sj,dgj,dgi,id: 10 7303 -300 -411 1396 half line dmj dgc: 0 33429 259 -750 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7303 5796 Zeroing lines in arrays Total # of output lines = 10 31878 7303 9399 0 2096 patch iptc,sj,dgj,dgi,id: 10 9399 -300 -300 2096 half line dmj dgc: 1 33429 259 -750 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9399 7303 Zeroing lines in arrays Total # of output lines = 10 33974 Processing block number 11 DEBUG -250 266.5616 -249.4378 -0.4997663 -0.4997663 9399 10845 50 1396 patch iptc,sj,dgj,dgi,id: 11 10845 -250 -300 1396 half line dmj dgc: 0 36921 266 -750 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10845 9399 Zeroing lines in arrays Total # of output lines = 11 35420 10845 12941 0 2096 patch iptc,sj,dgj,dgi,id: 11 653 -250 -250 2096 half line dmj dgc: 1 36921 266 -750 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10845 653 Zeroing lines in arrays Total # of output lines = 11 37516 Processing block number 12 DEBUG -227 272.2155 -227.3755 -0.4997679 -0.4997679 653 2072 23 1396 patch iptc,sj,dgj,dgi,id: 12 2072 -227 -250 1396 half line dmj dgc: 0 40413 272 -750 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2072 653 Zeroing lines in arrays Total # of output lines = 12 38935 2072 4168 0 2096 patch iptc,sj,dgj,dgi,id: 12 4168 -227 -227 2096 half line dmj dgc: 1 40413 272 -750 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 4168 2072 Zeroing lines in arrays Total # of output lines = 12 41031 Processing block number 13 DEBUG -214 285.2206 -213.6874 -0.4997457 -0.4997457 4168 5577 13 1396 patch iptc,sj,dgj,dgi,id: 13 5577 -214 -227 1396 half line dmj dgc: 0 43905 285 -750 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 5577 4168 Zeroing lines in arrays Total # of output lines = 13 42440 5577 7673 0 2096 patch iptc,sj,dgj,dgi,id: 13 7673 -214 -214 2096 half line dmj dgc: 1 43905 285 -750 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 7673 5577 Zeroing lines in arrays Total # of output lines = 13 44536 Processing block number 14 DEBUG -238 289.9593 -237.6678 -0.4997112 -0.4997112 7673 9045 -24 1396 patch iptc,sj,dgj,dgi,id: 14 9045 -238 -214 1396 half line dmj dgc: 0 47397 290 -750 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9045 7673 Zeroing lines in arrays Total # of output lines = 14 45908 9045 11141 0 2096 patch iptc,sj,dgj,dgi,id: 14 11141 -238 -238 2096 half line dmj dgc: 1 47397 290 -750 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 11141 9045 Zeroing lines in arrays Total # of output lines = 14 48004 Processing block number 15 DEBUG -264 278.2238 -263.9755 -0.4997220 -0.4997220 11141 12511 -26 1396 patch iptc,sj,dgj,dgi,id: 15 223 -264 -238 1396 half line dmj dgc: 0 50889 278 -750 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 11141 223 Zeroing lines in arrays Total # of output lines = 15 49374 223 2319 0 2096 patch iptc,sj,dgj,dgi,id: 15 2319 -264 -264 2096 half line dmj dgc: 1 50889 278 -750 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2319 223 Zeroing lines in arrays Total # of output lines = 15 51470 Processing block number 16 DEBUG -238 273.8048 -238.3306 -0.4997485 -0.4997485 2319 3168 26 823 patch iptc,sj,dgj,dgi,id: 16 3168 -238 -264 823 half line dmj dgc: 0 53808 274 -750 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 3168 2319 Zeroing lines in arrays Total # of output lines = 16 52319 3168 5264 0 2096 patch iptc,sj,dgj,dgi,id: 16 5264 -238 -238 2096 half line dmj dgc: 1 53808 274 -750 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 5264 3168 Zeroing lines in arrays Total # of output lines = 16 54415 ia dmi dgi: 5264 274 -238 Writing the last 2608 lines last half sj>s1 7872 5264 54415 WAYNE done patche 200.2049490213394 Total # of output lines = 57023 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 57023 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 200.5665760040283 ********************************************* ***** ***** ***** 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/1355/sensor.pp_2000 Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/p_hv Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_p.mocomph Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.6091999E-02 reading motion compensation data WAYNE read motion compen 1.413375 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 0.4752449 start range comp, time = 2.585 WAYNE PREV 1.921544 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 2.847 seconds. before reading done reading WAYNE load raw data , time = 55.74068403244019 ATTN ifrq ipol ln 0 2 53588 4.000000 IPOL, ITOP nblock 2 0 14 ****shift in azimuth (fractional pixel)= -0.4997112 shift in azimuth *fractional pixel= -0.4997112 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2133002281188965E-02 WAYNE Motion comp. added to patch, time = 17.54868710041046 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.3140182495117188E-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 = 377.5005899667740 Writing 4192 lines of data to file WAYNE write output data 2.230927944183350 ==w out 14 0 2001 0 WAYNE PROCESS 453.0388330221176 ==w out 15 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 51808 59999 patch# 16 reference line: 55903 2.871 seconds. before reading done reading WAYNE load raw data , time = 54.93931508064270 ATTN ifrq ipol ln 0 2 59999 4.000000 IPOL, ITOP nblock 2 0 16 ****shift in azimuth (fractional pixel)= -0.4997485 shift in azimuth *fractional pixel= -0.4997485 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1963009834289551E-02 WAYNE Motion comp. added to patch, time = 17.31750702857971 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 4.2480230331420898E-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 = 407.0321129560471 Writing 4192 lines of data to file WAYNE write output data 2.152799010276794 ==w out 16 0 2001 0 WAYNE PROCESS 481.4605580568314 ==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 2.834 seconds. before reading done reading WAYNE load raw data , time = 54.95754003524780 ATTN ifrq ipol ln 0 2 50096 4.000000 IPOL, ITOP nblock 2 0 13 ****shift in azimuth (fractional pixel)= -0.4997457 shift in azimuth *fractional pixel= -0.4997457 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2127995491027832E-02 WAYNE Motion comp. added to patch, time = 17.10164999961853 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.8489828109741211E-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 = 473.0157089233398 Writing 4192 lines of data to file WAYNE write output data 3.031372904777527 ==w out 13 0 2001 0 WAYNE PROCESS 548.1231179237366 ==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 2.858 seconds. before reading done reading WAYNE load raw data , time = 54.71510601043701 ATTN ifrq ipol ln 0 2 57080 4.000000 IPOL, ITOP nblock 2 0 15 ****shift in azimuth (fractional pixel)= -0.4997220 shift in azimuth *fractional pixel= -0.4997220 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1837959289550781E-02 WAYNE Motion comp. added to patch, time = 17.41731095314026 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.9090642929077148E-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 = 472.9627599716187 Writing 4192 lines of data to file WAYNE write output data 3.043889999389648 ==w out 15 0 2001 0 WAYNE PROCESS 548.1559089422226 ==w out 16 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -2.4259100E-02 2.9014500E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.757 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 53.95935893058777 ATTN ifrq ipol ln 0 2 8192 4.000000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4997054 shift in azimuth *fractional pixel= -0.4997054 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1723995208740234E-02 TESTING 0.0000000E+00 -30.85038 0.1221339 WAYNE Motion comp. added to patch, time = 17.22823703289032 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7669668197631836E-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 -30.85038 0.1221339 HEY,dt,fract,ye,pe -0.4997054 1.000000 -2.4259100E-02 2.9014500E-02 WAYNE Azimuth compression done, time = 375.7425760030746 Writing 4192 lines of data to file WAYNE write output data 2.226143956184387 ==w out 1 0 2001 0 WAYNE PROCESS 449.1724199056625 Processing block number 2 TESTING WHY -2.1667600E-02 2.9171800E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 451.930 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 48.19410693645477 ATTN ifrq ipol ln 0 2 11684 4.000000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4997193 shift in azimuth *fractional pixel= -0.4997193 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1422991752624512E-02 TESTING 0.0000000E+00 -26.98117 0.5526462 WAYNE Motion comp. added to patch, time = 15.98066890239716 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.6035079956054688E-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 -26.98117 0.5526462 HEY,dt,fract,ye,pe -0.4997193 1.000000 -2.1667600E-02 2.9171800E-02 WAYNE Azimuth compression done, time = 291.1462390422821 Writing 4192 lines of data to file WAYNE write output data 2.095790982246399 ==w out 2 4192 2001 85852160 WAYNE PROCESS 357.4455209970474 ==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 2.810 seconds. before reading done reading WAYNE load raw data , time = 54.75755000114441 ATTN ifrq ipol ln 0 2 36128 4.000000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4997495 shift in azimuth *fractional pixel= -0.4997495 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1876940727233887E-02 WAYNE Motion comp. added to patch, time = 16.97458803653717 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8030872344970703E-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 = 375.9288020133972 Writing 4192 lines of data to file WAYNE write output data 2.234773039817810 ==w out 9 0 2001 0 WAYNE PROCESS 449.9123560190201 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 452.723 seconds. before reading done reading WAYNE load raw data , time = 49.09435307979584 ATTN ifrq ipol ln 0 2 39620 4.000000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4997631 shift in azimuth *fractional pixel= -0.4997631 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2835979461669922E-02 WAYNE Motion comp. added to patch, time = 15.74808907508850 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.2798070907592773E-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 = 290.1244620084763 Writing 4192 lines of data to file WAYNE write output data 2.098992943763733 ==w out 10 4192 2001 85852160 WAYNE PROCESS 357.0930719375610 ==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 2.821 seconds. before reading done reading WAYNE load raw data , time = 55.94246101379395 ATTN ifrq ipol ln 0 2 43112 4.000000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4997663 shift in azimuth *fractional pixel= -0.4997663 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1902928352355957E-02 WAYNE Motion comp. added to patch, time = 17.00350904464722 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9169321060180664E-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 = 377.0766450166702 Writing 4192 lines of data to file WAYNE write output data 2.361783027648926 ==w out 11 0 2001 0 WAYNE PROCESS 452.4012070894241 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 455.222 seconds. before reading done reading WAYNE load raw data , time = 50.29584097862244 ATTN ifrq ipol ln 0 2 46604 4.000000 IPOL, ITOP nblock 2 0 12 ****shift in azimuth (fractional pixel)= -0.4997679 shift in azimuth *fractional pixel= -0.4997679 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1494040489196777E-02 WAYNE Motion comp. added to patch, time = 15.63208603858948 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 1.5481948852539063E-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 = 300.2597910165787 Writing 4192 lines of data to file WAYNE write output data 1.970697045326233 ==w out 12 4192 2001 85852160 WAYNE PROCESS 368.1872290372849 ==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 2.771 seconds. before reading done reading WAYNE load raw data , time = 54.35128605365753 ATTN ifrq ipol ln 0 2 15176 4.000000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4997341 shift in azimuth *fractional pixel= -0.4997341 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1853933334350586E-02 WAYNE Motion comp. added to patch, time = 17.12511003017426 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.7539730072021484E-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 = 406.8666599988937 Writing 4192 lines of data to file WAYNE write output data 2.163568019866943 ==w out 3 0 2001 0 WAYNE PROCESS 480.5229560136795 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 483.294 seconds. before reading done reading WAYNE load raw data , time = 46.44745993614197 ATTN ifrq ipol ln 0 2 18668 4.000000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4997361 shift in azimuth *fractional pixel= -0.4997361 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1407017707824707E-02 WAYNE Motion comp. added to patch, time = 15.79834198951721 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.6629648208618164E-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 = 291.5985430479050 Writing 4192 lines of data to file WAYNE write output data 1.964728951454163 ==w out 4 4192 2001 85852160 WAYNE PROCESS 355.8284720182419 ==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 2.784 seconds. before reading done reading WAYNE load raw data , time = 53.73805594444275 ATTN ifrq ipol ln 0 2 22160 4.000000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4997289 shift in azimuth *fractional pixel= -0.4997289 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2114048004150391E-02 WAYNE Motion comp. added to patch, time = 17.12138700485229 WAYNE Doppler estimation done, time = 8.1062316894531250E-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 = 472.8873230218887 Writing 4192 lines of data to file WAYNE write output data 2.527855992317200 ==w out 5 0 2001 0 WAYNE PROCESS 546.2910790443420 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 549.075 seconds. before reading done reading WAYNE load raw data , time = 45.68369007110596 ATTN ifrq ipol ln 0 2 25652 4.000000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4997081 shift in azimuth *fractional pixel= -0.4997081 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1633038520812988E-02 WAYNE Motion comp. added to patch, time = 16.16833496093750 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4896025657653809E-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 = 284.8827619552612 Writing 4192 lines of data to file WAYNE write output data 1.947643995285034 ==w out 6 4192 2001 85852160 WAYNE PROCESS 348.7206270694733 ==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 2.796 seconds. before reading done reading WAYNE load raw data , time = 56.25866889953613 ATTN ifrq ipol ln 0 2 29144 4.000000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4996827 shift in azimuth *fractional pixel= -0.4996827 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2124896049499512E-02 WAYNE Motion comp. added to patch, time = 17.48764300346375 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.1980276107788086E-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 = 471.7935329675674 Writing 4192 lines of data to file WAYNE write output data 2.996407985687256 ==w out 7 0 2001 0 WAYNE PROCESS 548.5546990633011 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 551.351 seconds. before reading done reading WAYNE load raw data , time = 48.59969806671143 ATTN ifrq ipol ln 0 2 32636 4.000000 IPOL, ITOP nblock 2 0 8 ****shift in azimuth (fractional pixel)= -0.4997138 shift in azimuth *fractional pixel= -0.4997138 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1847019195556641E-02 WAYNE Motion comp. added to patch, time = 16.24066305160522 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.1420001983642578E-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 = 283.8300470113754 Writing 4192 lines of data to file WAYNE write output data 1.942303061485291 ==w out 8 4192 2001 85852160 WAYNE PROCESS 350.6478570699692 ==w out 9 8387 1 242866 0 2 242981 0 3 243019 0 4 243002 0 5 243005 0 6 238852 0 7 242923 0 8 242987 0 9 242793 0 10 242836 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: 0.4533060789108276 WAYNE LOOP TIME: 910.1973800659180 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_p.hv_j /mnt/air65/airops/1355/ts1355_p.mocomph /mnt/air65/airops/1355/ts1355_p.dop /mnt/air65/airops/1355/ts1355_p.glb 2560 67072 update intf hdr ha: 6988.200 UPDATE: 2560 67072 6.662100 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_p.mocomph dopfile /mnt/air65/airops/1355/ts1355_p.dop globalfile /mnt/air65/airops/1355/ts1355_p.glb /mnt/air65/airops/1355/ts1355_p.glb 35 deskew line ra ha trc: 99.70026 193 8180.270 6988.200 89.87302 after deskew line ra ha trc: 99.70026 193 8180.270 6988.200 89.87302 lat1 lon1: 193 64.00689 -147.2204 67072 last ra n_ns ns: 8180.270 0 1 67264 67072 lati loni: 67264 64.00695 -146.4853 67264 1 center ra n_ns ns: 16701.10 1279 1279 33728 67072 lati loni: 33728 64.08376 -146.8518 33728 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_p.hv_j WAYNE FINAL PROCESS 913.0472350120544 ********************************************* ***** ***** ***** 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/1355/ts1355_p.hv_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_p.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.ph Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1355/ts1355_p.hv Name of the line output file? /mnt/air65/airops/1355/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 4.883609056472778 Deskewing 16 patches Processing block number 1 DEBUG -750 193.3049 -749.4709 -0.4997054 -0.4997054 patch iptc,sj,dgj,dgi,id: 1 1 -750 -750 0 half line dmj dgc: 0 2001 193 -750 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 -750 -750 2096 half line dmj dgc: 1 2001 193 -750 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 -625 216.9265 -625.1595 -0.4997193 -0.4997193 2097 3618 125 1396 patch iptc,sj,dgj,dgi,id: 2 3618 -625 -750 1396 half line dmj dgc: 0 5493 217 -750 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3618 2097 Zeroing lines in arrays Total # of output lines = 2 3617 3618 5714 0 2096 patch iptc,sj,dgj,dgi,id: 2 5714 -625 -625 2096 half line dmj dgc: 1 5493 217 -750 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5714 3618 Zeroing lines in arrays Total # of output lines = 2 5713 Processing block number 3 DEBUG -545 229.6757 -545.2014 -0.4997341 -0.4997341 5714 7190 80 1396 patch iptc,sj,dgj,dgi,id: 3 7190 -545 -625 1396 half line dmj dgc: 0 8985 230 -750 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 7190 5714 Zeroing lines in arrays Total # of output lines = 3 7189 7190 9286 0 2096 patch iptc,sj,dgj,dgi,id: 3 9286 -545 -545 2096 half line dmj dgc: 1 8985 230 -750 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9286 7190 Zeroing lines in arrays Total # of output lines = 3 9285 Processing block number 4 DEBUG -534 228.1011 -533.8259 -0.4997361 -0.4997361 9286 10693 11 1396 patch iptc,sj,dgj,dgi,id: 4 10693 -534 -545 1396 half line dmj dgc: 0 12477 228 -750 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10693 9286 Zeroing lines in arrays Total # of output lines = 4 10692 10693 12789 0 2096 patch iptc,sj,dgj,dgi,id: 4 501 -534 -534 2096 half line dmj dgc: 1 12477 228 -750 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10693 501 Zeroing lines in arrays Total # of output lines = 4 12788 Processing block number 5 DEBUG -583 215.7487 -582.9418 -0.4997289 -0.4997289 501 1848 -49 1396 patch iptc,sj,dgj,dgi,id: 5 1848 -583 -534 1396 half line dmj dgc: 0 15969 216 -750 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1848 501 Zeroing lines in arrays Total # of output lines = 5 14135 1848 3944 0 2096 patch iptc,sj,dgj,dgi,id: 5 3944 -583 -583 2096 half line dmj dgc: 1 15969 216 -750 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3944 1848 Zeroing lines in arrays Total # of output lines = 5 16231 Processing block number 6 DEBUG -647 205.2276 -646.9045 -0.4997081 -0.4997081 3944 5276 -64 1396 patch iptc,sj,dgj,dgi,id: 6 5276 -647 -583 1396 half line dmj dgc: 0 19461 205 -750 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5276 3944 Zeroing lines in arrays Total # of output lines = 6 17563 5276 7372 0 2096 patch iptc,sj,dgj,dgi,id: 6 7372 -647 -647 2096 half line dmj dgc: 1 19461 205 -750 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7372 5276 Zeroing lines in arrays Total # of output lines = 6 19659 Processing block number 7 DEBUG -650 208.6388 -649.9788 -0.4996827 -0.4996827 7372 8765 -3 1396 patch iptc,sj,dgj,dgi,id: 7 8765 -650 -647 1396 half line dmj dgc: 0 22953 209 -750 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8765 7372 Zeroing lines in arrays Total # of output lines = 7 21052 8765 10861 0 2096 patch iptc,sj,dgj,dgi,id: 7 10861 -650 -650 2096 half line dmj dgc: 1 22953 209 -750 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10861 8765 Zeroing lines in arrays Total # of output lines = 7 23148 Processing block number 8 DEBUG -558 221.7880 -557.8275 -0.4997138 -0.4997138 10861 12349 92 1396 patch iptc,sj,dgj,dgi,id: 8 61 -558 -650 1396 half line dmj dgc: 0 26445 222 -750 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 10861 61 Zeroing lines in arrays Total # of output lines = 8 24636 61 2157 0 2096 patch iptc,sj,dgj,dgi,id: 8 2157 -558 -558 2096 half line dmj dgc: 1 26445 222 -750 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 2157 61 Zeroing lines in arrays Total # of output lines = 8 26732 Processing block number 9 DEBUG -411 240.9799 -411.1641 -0.4997495 -0.4997495 2157 3700 147 1396 patch iptc,sj,dgj,dgi,id: 9 3700 -411 -558 1396 half line dmj dgc: 0 29937 241 -750 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 3700 2157 Zeroing lines in arrays Total # of output lines = 9 28275 3700 5796 0 2096 patch iptc,sj,dgj,dgi,id: 9 5796 -411 -411 2096 half line dmj dgc: 1 29937 241 -750 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 5796 3700 Zeroing lines in arrays Total # of output lines = 9 30371 Processing block number 10 DEBUG -300 258.8050 -300.1817 -0.4997631 -0.4997631 5796 7303 111 1396 patch iptc,sj,dgj,dgi,id: 10 7303 -300 -411 1396 half line dmj dgc: 0 33429 259 -750 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7303 5796 Zeroing lines in arrays Total # of output lines = 10 31878 7303 9399 0 2096 patch iptc,sj,dgj,dgi,id: 10 9399 -300 -300 2096 half line dmj dgc: 1 33429 259 -750 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9399 7303 Zeroing lines in arrays Total # of output lines = 10 33974 Processing block number 11 DEBUG -250 266.5616 -249.4378 -0.4997663 -0.4997663 9399 10845 50 1396 patch iptc,sj,dgj,dgi,id: 11 10845 -250 -300 1396 half line dmj dgc: 0 36921 266 -750 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10845 9399 Zeroing lines in arrays Total # of output lines = 11 35420 10845 12941 0 2096 patch iptc,sj,dgj,dgi,id: 11 653 -250 -250 2096 half line dmj dgc: 1 36921 266 -750 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10845 653 Zeroing lines in arrays Total # of output lines = 11 37516 Processing block number 12 DEBUG -227 272.2155 -227.3755 -0.4997679 -0.4997679 653 2072 23 1396 patch iptc,sj,dgj,dgi,id: 12 2072 -227 -250 1396 half line dmj dgc: 0 40413 272 -750 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2072 653 Zeroing lines in arrays Total # of output lines = 12 38935 2072 4168 0 2096 patch iptc,sj,dgj,dgi,id: 12 4168 -227 -227 2096 half line dmj dgc: 1 40413 272 -750 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 4168 2072 Zeroing lines in arrays Total # of output lines = 12 41031 Processing block number 13 DEBUG -214 285.2206 -213.6874 -0.4997457 -0.4997457 4168 5577 13 1396 patch iptc,sj,dgj,dgi,id: 13 5577 -214 -227 1396 half line dmj dgc: 0 43905 285 -750 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 5577 4168 Zeroing lines in arrays Total # of output lines = 13 42440 5577 7673 0 2096 patch iptc,sj,dgj,dgi,id: 13 7673 -214 -214 2096 half line dmj dgc: 1 43905 285 -750 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 7673 5577 Zeroing lines in arrays Total # of output lines = 13 44536 Processing block number 14 DEBUG -238 289.9593 -237.6678 -0.4997112 -0.4997112 7673 9045 -24 1396 patch iptc,sj,dgj,dgi,id: 14 9045 -238 -214 1396 half line dmj dgc: 0 47397 290 -750 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9045 7673 Zeroing lines in arrays Total # of output lines = 14 45908 9045 11141 0 2096 patch iptc,sj,dgj,dgi,id: 14 11141 -238 -238 2096 half line dmj dgc: 1 47397 290 -750 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 11141 9045 Zeroing lines in arrays Total # of output lines = 14 48004 Processing block number 15 DEBUG -264 278.2238 -263.9755 -0.4997220 -0.4997220 11141 12511 -26 1396 patch iptc,sj,dgj,dgi,id: 15 223 -264 -238 1396 half line dmj dgc: 0 50889 278 -750 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 11141 223 Zeroing lines in arrays Total # of output lines = 15 49374 223 2319 0 2096 patch iptc,sj,dgj,dgi,id: 15 2319 -264 -264 2096 half line dmj dgc: 1 50889 278 -750 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2319 223 Zeroing lines in arrays Total # of output lines = 15 51470 Processing block number 16 DEBUG -238 273.8048 -238.3306 -0.4997485 -0.4997485 2319 3168 26 823 patch iptc,sj,dgj,dgi,id: 16 3168 -238 -264 823 half line dmj dgc: 0 53808 274 -750 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 3168 2319 Zeroing lines in arrays Total # of output lines = 16 52319 3168 5264 0 2096 patch iptc,sj,dgj,dgi,id: 16 5264 -238 -238 2096 half line dmj dgc: 1 53808 274 -750 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 5264 3168 Zeroing lines in arrays Total # of output lines = 16 54415 ia dmi dgi: 5264 274 -238 Writing the last 2608 lines last half sj>s1 7872 5264 54415 WAYNE done patche 216.8804670572281 Total # of output lines = 57023 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 57023 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 217.8642740249634 ********************************************* ***** ***** ***** 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/1355/sensor.pp_2000 Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/p_vh Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_p.mocompv Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.6183000E-02 reading motion compensation data WAYNE read motion compen 1.408751 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 0.4759051 start range comp, time = 2.129 WAYNE PREV 1.917741 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: 51808 59999 patch# 16 reference line: 55903 2.379 seconds. before reading done reading WAYNE load raw data , time = 55.15748095512390 ATTN ifrq ipol ln 0 3 59999 2.000000 IPOL, ITOP nblock 3 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1886000633239746E-02 WAYNE Motion comp. added to patch, time = 17.41297900676727 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9089450836181641E-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 = 380.7857409715652 Writing 4192 lines of data to file WAYNE write output data 2.473791956901550 ==w out 16 0 2001 0 WAYNE PROCESS 455.8471109867096 ==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 2.346 seconds. before reading done reading WAYNE load raw data , time = 54.93621301651001 ATTN ifrq ipol ln 0 3 50096 2.000000 IPOL, ITOP nblock 3 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1999011039733887E-02 WAYNE Motion comp. added to patch, time = 17.10096800327301 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7370452880859375E-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 = 424.4727330207825 Writing 4192 lines of data to file WAYNE write output data 2.244899988174438 ==w out 13 0 2001 0 WAYNE PROCESS 498.7712700366974 ==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 2.370 seconds. before reading done reading WAYNE load raw data , time = 56.43380093574524 ATTN ifrq ipol ln 0 3 57080 2.000000 IPOL, ITOP nblock 3 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1909961700439453E-02 WAYNE Motion comp. added to patch, time = 17.73446595668793 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.0800104141235352E-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 = 462.8996059894562 Writing 4192 lines of data to file WAYNE write output data 2.004089951515198 ==w out 15 0 2001 0 WAYNE PROCESS 539.0888439416885 ==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 2.359 seconds. before reading done reading WAYNE load raw data , time = 55.26087808609009 ATTN ifrq ipol ln 0 3 53588 2.000000 IPOL, ITOP nblock 3 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1795043945312500E-02 WAYNE Motion comp. added to patch, time = 17.70906805992126 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.4189224243164063E-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 = 474.5807089805603 Writing 4192 lines of data to file WAYNE write output data 2.105384945869446 ==w out 14 0 2001 0 WAYNE PROCESS 549.6730300188065 ==w out 15 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 2.333 seconds. before reading done reading WAYNE load raw data , time = 55.23921906948090 ATTN ifrq ipol ln 0 3 43112 2.000000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1875987052917480E-02 WAYNE Motion comp. added to patch, time = 16.90852999687195 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6940107345581055E-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 = 327.8157119750977 Writing 4192 lines of data to file WAYNE write output data 2.179656028747559 ==w out 11 0 2001 0 WAYNE PROCESS 402.1596120595932 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 404.493 seconds. before reading done reading WAYNE load raw data , time = 46.91428101062775 ATTN ifrq ipol ln 0 3 46604 2.000000 IPOL, ITOP nblock 3 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1520028114318848E-02 WAYNE Motion comp. added to patch, time = 15.71722495555878 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 6.9267034530639648E-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 = 286.5620859861374 Writing 4192 lines of data to file WAYNE write output data 2.186252951622009 ==w out 12 4192 2001 85852160 WAYNE PROCESS 351.4622869491577 ==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 2.302 seconds. before reading done reading WAYNE load raw data , time = 54.19977700710297 ATTN ifrq ipol ln 0 3 22160 2.000000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 1.2123942375183105E-02 WAYNE Motion comp. added to patch, time = 17.13275301456451 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7509927749633789E-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 = 381.1302170753479 Writing 4192 lines of data to file WAYNE write output data 2.459704041481018 ==w out 5 0 2001 0 WAYNE PROCESS 454.9390590190887 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 457.242 seconds. before reading done reading WAYNE load raw data , time = 45.52340590953827 ATTN ifrq ipol ln 0 3 25652 2.000000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1490941047668457E-02 WAYNE Motion comp. added to patch, time = 16.06683206558228 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 1.1210083961486816E-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 = 287.3929990530014 Writing 4192 lines of data to file WAYNE write output data 2.040961980819702 ==w out 6 4192 2001 85852160 WAYNE PROCESS 351.0483069419861 ==w out 7 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -2.4259100E-02 2.9014500E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.281 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 54.37198901176453 ATTN ifrq ipol ln 0 3 8192 2.000000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1781096458435059E-02 TESTING 0.0000000E+00 -30.84983 0.1221689 WAYNE Motion comp. added to patch, time = 17.28899896144867 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6559829711914063E-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 -30.84983 0.1221689 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.4259100E-02 2.9014500E-02 WAYNE Azimuth compression done, time = 434.1993100643158 Writing 4192 lines of data to file WAYNE write output data 2.212880015373230 ==w out 1 0 2001 0 WAYNE PROCESS 508.0891269445419 Processing block number 2 TESTING WHY -2.1667600E-02 2.9171800E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 510.371 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 49.12697899341583 ATTN ifrq ipol ln 0 3 11684 2.000000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1028051376342773E-02 TESTING 0.0000000E+00 -26.98060 0.5527185 WAYNE Motion comp. added to patch, time = 15.89638495445251 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.8315076828002930E-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 -26.98060 0.5527185 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.1667600E-02 2.9171800E-02 WAYNE Azimuth compression done, time = 280.5097800493240 Writing 4192 lines of data to file WAYNE write output data 2.017945051193237 ==w out 2 4192 2001 85852160 WAYNE PROCESS 347.5817570686340 ==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 2.312 seconds. before reading done reading WAYNE load raw data , time = 55.71909201145172 ATTN ifrq ipol ln 0 3 29144 2.000000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1865973472595215E-02 WAYNE Motion comp. added to patch, time = 17.55531704425812 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 3.4109354019165039E-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 = 434.2850220203400 Writing 4192 lines of data to file WAYNE write output data 2.204232931137085 ==w out 7 0 2001 0 WAYNE PROCESS 509.7823089361191 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 512.095 seconds. before reading done reading WAYNE load raw data , time = 49.66488397121429 ATTN ifrq ipol ln 0 3 32636 2.000000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1144042015075684E-02 WAYNE Motion comp. added to patch, time = 15.96471500396729 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.4064073562622070E-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 = 278.8482730388641 Writing 4192 lines of data to file WAYNE write output data 2.025604009628296 ==w out 8 4192 2001 85852160 WAYNE PROCESS 346.5301979780197 ==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 2.322 seconds. before reading done reading WAYNE load raw data , time = 54.86218810081482 ATTN ifrq ipol ln 0 3 36128 2.000000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1783003807067871E-02 WAYNE Motion comp. added to patch, time = 16.97175109386444 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7830600738525391E-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 = 462.5264519453049 Writing 4192 lines of data to file WAYNE write output data 1.977463006973267 ==w out 9 0 2001 0 WAYNE PROCESS 536.3541640043259 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 538.676 seconds. before reading done reading WAYNE load raw data , time = 48.73112499713898 ATTN ifrq ipol ln 0 3 39620 2.000000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1255979537963867E-02 WAYNE Motion comp. added to patch, time = 15.77419197559357 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4774074554443359E-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 = 281.0048359632492 Writing 4192 lines of data to file WAYNE write output data 1.948378920555115 ==w out 10 4192 2001 85852160 WAYNE PROCESS 347.4958479404449 ==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 2.293 seconds. before reading done reading WAYNE load raw data , time = 54.23447108268738 ATTN ifrq ipol ln 0 3 15176 2.000000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1690020561218262E-02 WAYNE Motion comp. added to patch, time = 17.17035794258118 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.7780532836914063E-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 = 475.9999979734421 Writing 4192 lines of data to file WAYNE write output data 2.073274016380310 ==w out 3 0 2001 0 WAYNE PROCESS 549.4944299459457 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 551.788 seconds. before reading done reading WAYNE load raw data , time = 47.20488202571869 ATTN ifrq ipol ln 0 3 18668 2.000000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1687994003295898E-02 WAYNE Motion comp. added to patch, time = 15.87599098682404 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.4510025978088379E-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 = 282.5427479743958 Writing 4192 lines of data to file WAYNE write output data 2.017870903015137 ==w out 4 4192 2001 85852160 WAYNE PROCESS 347.6793229579926 ==w out 5 8387 1 244916 0 2 243307 0 3 245060 0 4 243102 0 5 242465 0 6 245324 0 7 245458 0 8 245047 0 9 245056 0 10 245400 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: 4.4387936592102051E-02 WAYNE LOOP TIME: 907.7420369386673 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_p.vh_j /mnt/air65/airops/1355/ts1355_p.mocompv /mnt/air65/airops/1355/ts1355_p.dop /mnt/air65/airops/1355/ts1355_p.glb 2560 67072 update intf hdr ha: 6988.200 UPDATE: 2560 67072 6.662100 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_p.mocompv dopfile /mnt/air65/airops/1355/ts1355_p.dop globalfile /mnt/air65/airops/1355/ts1355_p.glb /mnt/air65/airops/1355/ts1355_p.glb 35 deskew line ra ha trc: 99.70026 193 8180.270 6988.200 89.87302 after deskew line ra ha trc: 99.70026 193 8180.270 6988.200 89.87302 lat1 lon1: 193 64.00689 -147.2204 67072 last ra n_ns ns: 8180.270 0 1 67264 67072 lati loni: 67264 64.00695 -146.4853 67264 1 center ra n_ns ns: 16701.10 1279 1279 33728 67072 lati loni: 33728 64.08376 -146.8518 33728 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_p.vh_j WAYNE FINAL PROCESS 909.9385490417480 ********************************************* ***** ***** ***** 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/1355/ts1355_p.vh_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_p.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.pv Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1355/ts1355_p.vh Name of the line output file? /mnt/air65/airops/1355/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.233551979064941 Deskewing 16 patches Processing block number 1 DEBUG -750 193.8046 -748.9713 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -750 -750 0 half line dmj dgc: 0 2001 193 -750 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 -750 -750 2096 half line dmj dgc: 1 2001 193 -750 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 -625 217.4263 -624.6598 0.0000000E+00 0.0000000E+00 2097 3618 125 1396 patch iptc,sj,dgj,dgi,id: 2 3618 -625 -750 1396 half line dmj dgc: 0 5493 217 -750 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3618 2097 Zeroing lines in arrays Total # of output lines = 2 3617 3618 5714 0 2096 patch iptc,sj,dgj,dgi,id: 2 5714 -625 -625 2096 half line dmj dgc: 1 5493 217 -750 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5714 3618 Zeroing lines in arrays Total # of output lines = 2 5713 Processing block number 3 DEBUG -545 230.1754 -544.7016 0.0000000E+00 0.0000000E+00 5714 7190 80 1396 patch iptc,sj,dgj,dgi,id: 3 7190 -545 -625 1396 half line dmj dgc: 0 8985 230 -750 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 7190 5714 Zeroing lines in arrays Total # of output lines = 3 7189 7190 9286 0 2096 patch iptc,sj,dgj,dgi,id: 3 9286 -545 -545 2096 half line dmj dgc: 1 8985 230 -750 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9286 7190 Zeroing lines in arrays Total # of output lines = 3 9285 Processing block number 4 DEBUG -534 228.6009 -533.3262 0.0000000E+00 0.0000000E+00 9286 10693 11 1396 patch iptc,sj,dgj,dgi,id: 4 10693 -534 -545 1396 half line dmj dgc: 0 12477 228 -750 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10693 9286 Zeroing lines in arrays Total # of output lines = 4 10692 10693 12789 0 2096 patch iptc,sj,dgj,dgi,id: 4 501 -534 -534 2096 half line dmj dgc: 1 12477 228 -750 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10693 501 Zeroing lines in arrays Total # of output lines = 4 12788 Processing block number 5 DEBUG -583 216.2484 -582.4420 0.0000000E+00 0.0000000E+00 501 1848 -49 1396 patch iptc,sj,dgj,dgi,id: 5 1848 -583 -534 1396 half line dmj dgc: 0 15969 216 -750 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1848 501 Zeroing lines in arrays Total # of output lines = 5 14135 1848 3944 0 2096 patch iptc,sj,dgj,dgi,id: 5 3944 -583 -583 2096 half line dmj dgc: 1 15969 216 -750 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3944 1848 Zeroing lines in arrays Total # of output lines = 5 16231 Processing block number 6 DEBUG -647 205.7273 -646.4048 0.0000000E+00 0.0000000E+00 3944 5276 -64 1396 patch iptc,sj,dgj,dgi,id: 6 5276 -647 -583 1396 half line dmj dgc: 0 19461 205 -750 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5276 3944 Zeroing lines in arrays Total # of output lines = 6 17563 5276 7372 0 2096 patch iptc,sj,dgj,dgi,id: 6 7372 -647 -647 2096 half line dmj dgc: 1 19461 205 -750 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7372 5276 Zeroing lines in arrays Total # of output lines = 6 19659 Processing block number 7 DEBUG -650 209.1385 -649.4791 0.0000000E+00 0.0000000E+00 7372 8765 -3 1396 patch iptc,sj,dgj,dgi,id: 7 8765 -650 -647 1396 half line dmj dgc: 0 22953 209 -750 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8765 7372 Zeroing lines in arrays Total # of output lines = 7 21052 8765 10861 0 2096 patch iptc,sj,dgj,dgi,id: 7 10861 -650 -650 2096 half line dmj dgc: 1 22953 209 -750 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10861 8765 Zeroing lines in arrays Total # of output lines = 7 23148 Processing block number 8 DEBUG -558 222.2878 -557.3278 0.0000000E+00 0.0000000E+00 10861 12349 92 1396 patch iptc,sj,dgj,dgi,id: 8 61 -558 -650 1396 half line dmj dgc: 0 26445 222 -750 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 10861 61 Zeroing lines in arrays Total # of output lines = 8 24636 61 2157 0 2096 patch iptc,sj,dgj,dgi,id: 8 2157 -558 -558 2096 half line dmj dgc: 1 26445 222 -750 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 2157 61 Zeroing lines in arrays Total # of output lines = 8 26732 Processing block number 9 DEBUG -411 241.4796 -410.6643 0.0000000E+00 0.0000000E+00 2157 3700 147 1396 patch iptc,sj,dgj,dgi,id: 9 3700 -411 -558 1396 half line dmj dgc: 0 29937 241 -750 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 3700 2157 Zeroing lines in arrays Total # of output lines = 9 28275 3700 5796 0 2096 patch iptc,sj,dgj,dgi,id: 9 5796 -411 -411 2096 half line dmj dgc: 1 29937 241 -750 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 5796 3700 Zeroing lines in arrays Total # of output lines = 9 30371 Processing block number 10 DEBUG -300 259.3048 -299.6819 0.0000000E+00 0.0000000E+00 5796 7303 111 1396 patch iptc,sj,dgj,dgi,id: 10 7303 -300 -411 1396 half line dmj dgc: 0 33429 259 -750 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7303 5796 Zeroing lines in arrays Total # of output lines = 10 31878 7303 9399 0 2096 patch iptc,sj,dgj,dgi,id: 10 9399 -300 -300 2096 half line dmj dgc: 1 33429 259 -750 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9399 7303 Zeroing lines in arrays Total # of output lines = 10 33974 Processing block number 11 DEBUG -250 267.0614 -248.9380 0.0000000E+00 0.0000000E+00 9399 10845 50 1396 patch iptc,sj,dgj,dgi,id: 11 10845 -250 -300 1396 half line dmj dgc: 0 36921 266 -750 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10845 9399 Zeroing lines in arrays Total # of output lines = 11 35420 10845 12941 0 2096 patch iptc,sj,dgj,dgi,id: 11 653 -250 -250 2096 half line dmj dgc: 1 36921 266 -750 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10845 653 Zeroing lines in arrays Total # of output lines = 11 37516 Processing block number 12 DEBUG -227 272.7153 -226.8757 0.0000000E+00 0.0000000E+00 653 2072 23 1396 patch iptc,sj,dgj,dgi,id: 12 2072 -227 -250 1396 half line dmj dgc: 0 40413 272 -750 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2072 653 Zeroing lines in arrays Total # of output lines = 12 38935 2072 4168 0 2096 patch iptc,sj,dgj,dgi,id: 12 4168 -227 -227 2096 half line dmj dgc: 1 40413 272 -750 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 4168 2072 Zeroing lines in arrays Total # of output lines = 12 41031 Processing block number 13 DEBUG -214 285.7203 -213.1877 0.0000000E+00 0.0000000E+00 4168 5577 13 1396 patch iptc,sj,dgj,dgi,id: 13 5577 -214 -227 1396 half line dmj dgc: 0 43905 285 -750 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 5577 4168 Zeroing lines in arrays Total # of output lines = 13 42440 5577 7673 0 2096 patch iptc,sj,dgj,dgi,id: 13 7673 -214 -214 2096 half line dmj dgc: 1 43905 285 -750 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 7673 5577 Zeroing lines in arrays Total # of output lines = 13 44536 Processing block number 14 DEBUG -238 290.4590 -237.1681 0.0000000E+00 0.0000000E+00 7673 9045 -24 1396 patch iptc,sj,dgj,dgi,id: 14 9045 -238 -214 1396 half line dmj dgc: 0 47397 290 -750 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9045 7673 Zeroing lines in arrays Total # of output lines = 14 45908 9045 11141 0 2096 patch iptc,sj,dgj,dgi,id: 14 11141 -238 -238 2096 half line dmj dgc: 1 47397 290 -750 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 11141 9045 Zeroing lines in arrays Total # of output lines = 14 48004 Processing block number 15 DEBUG -264 278.7236 -263.4757 0.0000000E+00 0.0000000E+00 11141 12511 -26 1396 patch iptc,sj,dgj,dgi,id: 15 223 -264 -238 1396 half line dmj dgc: 0 50889 278 -750 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 11141 223 Zeroing lines in arrays Total # of output lines = 15 49374 223 2319 0 2096 patch iptc,sj,dgj,dgi,id: 15 2319 -264 -264 2096 half line dmj dgc: 1 50889 278 -750 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2319 223 Zeroing lines in arrays Total # of output lines = 15 51470 Processing block number 16 DEBUG -238 274.3046 -237.8308 0.0000000E+00 0.0000000E+00 2319 3168 26 823 patch iptc,sj,dgj,dgi,id: 16 3168 -238 -264 823 half line dmj dgc: 0 53808 274 -750 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 3168 2319 Zeroing lines in arrays Total # of output lines = 16 52319 3168 5264 0 2096 patch iptc,sj,dgj,dgi,id: 16 5264 -238 -238 2096 half line dmj dgc: 1 53808 274 -750 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 5264 3168 Zeroing lines in arrays Total # of output lines = 16 54415 ia dmi dgi: 5264 274 -238 Writing the last 2608 lines last half sj>s1 7872 5264 54415 WAYNE done patche 196.4545960426331 Total # of output lines = 57023 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 57023 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 197.5644340515137 ********************************************* ***** ***** ***** 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/1355/sensor.pp_2000 Please enter the name of the parameter file /mnt/air65/airops/1355/ts1355_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 60000 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) = 500.0000 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/1355/p_vv Name of the mocomp data file? /mnt/air65/airops/1355/ts1355_p.mocompv Output file name w/o ext? /mnt/air65/airops/1355/ts1355_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/1355/ output filename:/mnt/air62/airops/1355/ts1355_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/1355/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.5933000E-02 reading motion compensation data WAYNE read motion compen 1.404835 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 0.4774581 start range comp, time = 3.253 WAYNE PREV 1.914734 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 3.731 seconds. before reading done reading WAYNE load raw data , time = 53.64249300956726 ATTN ifrq ipol ln 0 4 57080 10.00000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1886000633239746E-02 WAYNE Motion comp. added to patch, time = 17.87628996372223 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8409957885742188E-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 = 370.0670030117035 Writing 4192 lines of data to file WAYNE write output data 3.016646027565002 ==w out 15 0 2001 0 WAYNE PROCESS 444.6194289922714 ==w out 16 4195 PROCESSING KID# 10 ..... WAYNE IS IN Processing 16 to 16 by # 9 Processing block number 16 WAYNE PATCHES: 51808 59999 patch# 16 reference line: 55903 3.745 seconds. before reading done reading WAYNE load raw data , time = 50.77382004261017 ATTN ifrq ipol ln 0 4 59999 10.00000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1860966682434082E-02 WAYNE Motion comp. added to patch, time = 17.35632801055908 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.7499198913574219E-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 = 373.4543490409851 Writing 4192 lines of data to file WAYNE write output data 3.017513036727905 ==w out 16 0 2001 0 WAYNE PROCESS 444.6191450357437 ==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 3.709 seconds. before reading done reading WAYNE load raw data , time = 52.58139395713806 ATTN ifrq ipol ln 0 4 50096 10.00000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1819958686828613E-02 WAYNE Motion comp. added to patch, time = 17.34715807437897 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.9820671081542969E-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 = 471.5527000427246 Writing 4192 lines of data to file WAYNE write output data 2.136395096778870 ==w out 13 0 2001 0 WAYNE PROCESS 543.6356850862503 ==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 3.721 seconds. before reading done reading WAYNE load raw data , time = 50.07556903362274 ATTN ifrq ipol ln 0 4 53588 10.00000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1865019798278809E-02 WAYNE Motion comp. added to patch, time = 17.45925700664520 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.0399560928344727E-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 = 474.7597739696503 Writing 4192 lines of data to file WAYNE write output data 2.114663958549500 ==w out 14 0 2001 0 WAYNE PROCESS 544.4261199235916 ==w out 15 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 3.671 seconds. before reading done reading WAYNE load raw data , time = 50.61335992813110 ATTN ifrq ipol ln 0 4 29144 10.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1855006217956543E-02 WAYNE Motion comp. added to patch, time = 17.59896099567413 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.1099319458007813E-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 = 320.2801699638367 Writing 4192 lines of data to file WAYNE write output data 2.539705991744995 ==w out 7 0 2001 0 WAYNE PROCESS 391.0492460727692 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 394.720 seconds. before reading done reading WAYNE load raw data , time = 46.57132196426392 ATTN ifrq ipol ln 0 4 32636 10.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1515974998474121E-02 WAYNE Motion comp. added to patch, time = 16.51495099067688 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.4879922866821289E-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 = 300.8856610059738 Writing 4192 lines of data to file WAYNE write output data 2.167703032493591 ==w out 8 4192 2001 85852160 WAYNE PROCESS 366.1877750158310 ==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 3.700 seconds. before reading done reading WAYNE load raw data , time = 50.39662694931030 ATTN ifrq ipol ln 0 4 43112 10.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1824011802673340E-02 WAYNE Motion comp. added to patch, time = 16.92955899238586 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7799606323242188E-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 = 424.8916240930557 Writing 4192 lines of data to file WAYNE write output data 2.152060985565186 ==w out 11 0 2001 0 WAYNE PROCESS 494.3863689899445 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 498.086 seconds. before reading done reading WAYNE load raw data , time = 46.02276098728180 ATTN ifrq ipol ln 0 4 46604 10.00000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1191010475158691E-02 WAYNE Motion comp. added to patch, time = 15.47239398956299 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 0.2435619831085205 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 = 278.5343910455704 Writing 4192 lines of data to file WAYNE write output data 1.962670087814331 ==w out 12 4192 2001 85852160 WAYNE PROCESS 342.2482560873032 ==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 3.651 seconds. before reading done reading WAYNE load raw data , time = 49.82940196990967 ATTN ifrq ipol ln 0 4 15176 10.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.2136101722717285E-02 WAYNE Motion comp. added to patch, time = 17.27430701255798 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7960538864135742E-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 = 421.7049189805984 Writing 4192 lines of data to file WAYNE write output data 2.133746027946472 ==w out 3 0 2001 0 WAYNE PROCESS 490.9591389894485 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 494.610 seconds. before reading done reading WAYNE load raw data , time = 46.34737002849579 ATTN ifrq ipol ln 0 4 18668 10.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1211991310119629E-02 WAYNE Motion comp. added to patch, time = 15.73591101169586 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 3.4507989883422852E-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 = 290.4890758991241 Writing 4192 lines of data to file WAYNE write output data 1.964825987815857 ==w out 4 4192 2001 85852160 WAYNE PROCESS 354.5842779874802 ==w out 5 8387 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -2.4259100E-02 2.9014500E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.633 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 50.83271098136902 ATTN ifrq ipol ln 0 4 8192 10.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1660099029541016E-02 TESTING 0.0000000E+00 -30.84983 0.1221689 WAYNE Motion comp. added to patch, time = 17.17592000961304 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8729438781738281E-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 -30.84983 0.1221689 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.4259100E-02 2.9014500E-02 WAYNE Azimuth compression done, time = 422.6333359479904 Writing 4192 lines of data to file WAYNE write output data 2.165220975875854 ==w out 1 0 2001 0 WAYNE PROCESS 492.8234980106354 Processing block number 2 TESTING WHY -2.1667600E-02 2.9171800E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 496.457 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 46.95970499515533 ATTN ifrq ipol ln 0 4 11684 10.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.2870907783508301E-02 TESTING 0.0000000E+00 -26.98060 0.5527185 WAYNE Motion comp. added to patch, time = 15.84643995761871 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 7.5940966606140137E-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 -26.98060 0.5527185 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -2.1667600E-02 2.9171800E-02 WAYNE Azimuth compression done, time = 290.8914799690247 Writing 4192 lines of data to file WAYNE write output data 1.976404905319214 ==w out 2 4192 2001 85852160 WAYNE PROCESS 355.7641119956970 ==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 3.660 seconds. before reading done reading WAYNE load raw data , time = 49.96574199199677 ATTN ifrq ipol ln 0 4 22160 10.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1644005775451660E-02 WAYNE Motion comp. added to patch, time = 17.05289101600647 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7730464935302734E-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 = 472.3793549537659 Writing 4192 lines of data to file WAYNE write output data 1.986955046653748 ==w out 5 0 2001 0 WAYNE PROCESS 541.4009760618210 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 545.061 seconds. before reading done reading WAYNE load raw data , time = 45.82397401332855 ATTN ifrq ipol ln 0 4 25652 10.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1667013168334961E-02 WAYNE Motion comp. added to patch, time = 15.92651998996735 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.0770907402038574E-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 = 282.7726529836655 Writing 4192 lines of data to file WAYNE write output data 1.945652008056641 ==w out 6 4192 2001 85852160 WAYNE PROCESS 346.5025980472565 ==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 3.685 seconds. before reading done reading WAYNE load raw data , time = 50.54316401481628 ATTN ifrq ipol ln 0 4 36128 10.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1817932128906250E-02 WAYNE Motion comp. added to patch, time = 16.92955005168915 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 = 473.4323909282684 Writing 4192 lines of data to file WAYNE write output data 2.113052964210510 ==w out 9 0 2001 0 WAYNE PROCESS 543.0345768928528 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 546.720 seconds. before reading done reading WAYNE load raw data , time = 46.26858389377594 ATTN ifrq ipol ln 0 4 39620 10.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1433959007263184E-02 WAYNE Motion comp. added to patch, time = 15.75048792362213 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.1649003028869629E-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 = 285.5134599208832 Writing 4192 lines of data to file WAYNE write output data 1.949861049652100 ==w out 10 4192 2001 85852160 WAYNE PROCESS 349.5172220468521 ==w out 11 8387 1 247748 0 2 247758 0 3 247663 0 4 247755 0 5 247745 0 6 247750 0 7 247509 0 8 247657 0 9 247703 0 10 247649 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: 0.3369250297546387 WAYNE LOOP TIME: 903.6503920555115 update sarfile,mocompfile,dopfile,glbfile,N_RA: /mnt/air62/airops/1355/ts1355_p.vv_j /mnt/air65/airops/1355/ts1355_p.mocompv /mnt/air65/airops/1355/ts1355_p.dop /mnt/air65/airops/1355/ts1355_p.glb 2560 67072 update intf hdr ha: 6988.200 UPDATE: 2560 67072 6.662100 0.5144000 mocompfile /mnt/air65/airops/1355/ts1355_p.mocompv dopfile /mnt/air65/airops/1355/ts1355_p.dop globalfile /mnt/air65/airops/1355/ts1355_p.glb /mnt/air65/airops/1355/ts1355_p.glb 35 deskew line ra ha trc: 99.70026 193 8180.270 6988.200 89.87302 after deskew line ra ha trc: 99.70026 193 8180.270 6988.200 89.87302 lat1 lon1: 193 64.00689 -147.2204 67072 last ra n_ns ns: 8180.270 0 1 67264 67072 lati loni: 67264 64.00695 -146.4853 67264 1 center ra n_ns ns: 16701.10 1279 1279 33728 67072 lati loni: 33728 64.08376 -146.8518 33728 2560 Updated paramater header in /mnt/air62/airops/1355/ts1355_p.vv_j WAYNE FINAL PROCESS 907.0850670337677 ********************************************* ***** ***** ***** 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/1355/ts1355_p.vv_j Name of the doppler parameter file? /mnt/air65/airops/1355/ts1355_p.dop Name of the deskew file? /mnt/air62/airops/1355/deskew.pv Line up to another frequency [y/n]? n Name of the output file? /mnt/air65/airops/1355/ts1355_p.vv Name of the line output file? /mnt/air65/airops/1355/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 2.660296916961670 Deskewing 16 patches Processing block number 1 DEBUG -750 193.8046 -748.9713 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -750 -750 0 half line dmj dgc: 0 2001 193 -750 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 -750 -750 2096 half line dmj dgc: 1 2001 193 -750 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 -625 217.4263 -624.6598 0.0000000E+00 0.0000000E+00 2097 3618 125 1396 patch iptc,sj,dgj,dgi,id: 2 3618 -625 -750 1396 half line dmj dgc: 0 5493 217 -750 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3618 2097 Zeroing lines in arrays Total # of output lines = 2 3617 3618 5714 0 2096 patch iptc,sj,dgj,dgi,id: 2 5714 -625 -625 2096 half line dmj dgc: 1 5493 217 -750 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5714 3618 Zeroing lines in arrays Total # of output lines = 2 5713 Processing block number 3 DEBUG -545 230.1754 -544.7016 0.0000000E+00 0.0000000E+00 5714 7190 80 1396 patch iptc,sj,dgj,dgi,id: 3 7190 -545 -625 1396 half line dmj dgc: 0 8985 230 -750 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 7190 5714 Zeroing lines in arrays Total # of output lines = 3 7189 7190 9286 0 2096 patch iptc,sj,dgj,dgi,id: 3 9286 -545 -545 2096 half line dmj dgc: 1 8985 230 -750 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9286 7190 Zeroing lines in arrays Total # of output lines = 3 9285 Processing block number 4 DEBUG -534 228.6009 -533.3262 0.0000000E+00 0.0000000E+00 9286 10693 11 1396 patch iptc,sj,dgj,dgi,id: 4 10693 -534 -545 1396 half line dmj dgc: 0 12477 228 -750 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10693 9286 Zeroing lines in arrays Total # of output lines = 4 10692 10693 12789 0 2096 patch iptc,sj,dgj,dgi,id: 4 501 -534 -534 2096 half line dmj dgc: 1 12477 228 -750 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10693 501 Zeroing lines in arrays Total # of output lines = 4 12788 Processing block number 5 DEBUG -583 216.2484 -582.4420 0.0000000E+00 0.0000000E+00 501 1848 -49 1396 patch iptc,sj,dgj,dgi,id: 5 1848 -583 -534 1396 half line dmj dgc: 0 15969 216 -750 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1848 501 Zeroing lines in arrays Total # of output lines = 5 14135 1848 3944 0 2096 patch iptc,sj,dgj,dgi,id: 5 3944 -583 -583 2096 half line dmj dgc: 1 15969 216 -750 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3944 1848 Zeroing lines in arrays Total # of output lines = 5 16231 Processing block number 6 DEBUG -647 205.7273 -646.4048 0.0000000E+00 0.0000000E+00 3944 5276 -64 1396 patch iptc,sj,dgj,dgi,id: 6 5276 -647 -583 1396 half line dmj dgc: 0 19461 205 -750 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5276 3944 Zeroing lines in arrays Total # of output lines = 6 17563 5276 7372 0 2096 patch iptc,sj,dgj,dgi,id: 6 7372 -647 -647 2096 half line dmj dgc: 1 19461 205 -750 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7372 5276 Zeroing lines in arrays Total # of output lines = 6 19659 Processing block number 7 DEBUG -650 209.1385 -649.4791 0.0000000E+00 0.0000000E+00 7372 8765 -3 1396 patch iptc,sj,dgj,dgi,id: 7 8765 -650 -647 1396 half line dmj dgc: 0 22953 209 -750 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8765 7372 Zeroing lines in arrays Total # of output lines = 7 21052 8765 10861 0 2096 patch iptc,sj,dgj,dgi,id: 7 10861 -650 -650 2096 half line dmj dgc: 1 22953 209 -750 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10861 8765 Zeroing lines in arrays Total # of output lines = 7 23148 Processing block number 8 DEBUG -558 222.2878 -557.3278 0.0000000E+00 0.0000000E+00 10861 12349 92 1396 patch iptc,sj,dgj,dgi,id: 8 61 -558 -650 1396 half line dmj dgc: 0 26445 222 -750 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 10861 61 Zeroing lines in arrays Total # of output lines = 8 24636 61 2157 0 2096 patch iptc,sj,dgj,dgi,id: 8 2157 -558 -558 2096 half line dmj dgc: 1 26445 222 -750 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 2157 61 Zeroing lines in arrays Total # of output lines = 8 26732 Processing block number 9 DEBUG -411 241.4796 -410.6643 0.0000000E+00 0.0000000E+00 2157 3700 147 1396 patch iptc,sj,dgj,dgi,id: 9 3700 -411 -558 1396 half line dmj dgc: 0 29937 241 -750 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 3700 2157 Zeroing lines in arrays Total # of output lines = 9 28275 3700 5796 0 2096 patch iptc,sj,dgj,dgi,id: 9 5796 -411 -411 2096 half line dmj dgc: 1 29937 241 -750 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 5796 3700 Zeroing lines in arrays Total # of output lines = 9 30371 Processing block number 10 DEBUG -300 259.3048 -299.6819 0.0000000E+00 0.0000000E+00 5796 7303 111 1396 patch iptc,sj,dgj,dgi,id: 10 7303 -300 -411 1396 half line dmj dgc: 0 33429 259 -750 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7303 5796 Zeroing lines in arrays Total # of output lines = 10 31878 7303 9399 0 2096 patch iptc,sj,dgj,dgi,id: 10 9399 -300 -300 2096 half line dmj dgc: 1 33429 259 -750 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9399 7303 Zeroing lines in arrays Total # of output lines = 10 33974 Processing block number 11 DEBUG -250 267.0614 -248.9380 0.0000000E+00 0.0000000E+00 9399 10845 50 1396 patch iptc,sj,dgj,dgi,id: 11 10845 -250 -300 1396 half line dmj dgc: 0 36921 266 -750 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10845 9399 Zeroing lines in arrays Total # of output lines = 11 35420 10845 12941 0 2096 patch iptc,sj,dgj,dgi,id: 11 653 -250 -250 2096 half line dmj dgc: 1 36921 266 -750 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10845 653 Zeroing lines in arrays Total # of output lines = 11 37516 Processing block number 12 DEBUG -227 272.7153 -226.8757 0.0000000E+00 0.0000000E+00 653 2072 23 1396 patch iptc,sj,dgj,dgi,id: 12 2072 -227 -250 1396 half line dmj dgc: 0 40413 272 -750 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 2072 653 Zeroing lines in arrays Total # of output lines = 12 38935 2072 4168 0 2096 patch iptc,sj,dgj,dgi,id: 12 4168 -227 -227 2096 half line dmj dgc: 1 40413 272 -750 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 4168 2072 Zeroing lines in arrays Total # of output lines = 12 41031 Processing block number 13 DEBUG -214 285.7203 -213.1877 0.0000000E+00 0.0000000E+00 4168 5577 13 1396 patch iptc,sj,dgj,dgi,id: 13 5577 -214 -227 1396 half line dmj dgc: 0 43905 285 -750 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 5577 4168 Zeroing lines in arrays Total # of output lines = 13 42440 5577 7673 0 2096 patch iptc,sj,dgj,dgi,id: 13 7673 -214 -214 2096 half line dmj dgc: 1 43905 285 -750 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 7673 5577 Zeroing lines in arrays Total # of output lines = 13 44536 Processing block number 14 DEBUG -238 290.4590 -237.1681 0.0000000E+00 0.0000000E+00 7673 9045 -24 1396 patch iptc,sj,dgj,dgi,id: 14 9045 -238 -214 1396 half line dmj dgc: 0 47397 290 -750 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 9045 7673 Zeroing lines in arrays Total # of output lines = 14 45908 9045 11141 0 2096 patch iptc,sj,dgj,dgi,id: 14 11141 -238 -238 2096 half line dmj dgc: 1 47397 290 -750 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 11141 9045 Zeroing lines in arrays Total # of output lines = 14 48004 Processing block number 15 DEBUG -264 278.7236 -263.4757 0.0000000E+00 0.0000000E+00 11141 12511 -26 1396 patch iptc,sj,dgj,dgi,id: 15 223 -264 -238 1396 half line dmj dgc: 0 50889 278 -750 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 11141 223 Zeroing lines in arrays Total # of output lines = 15 49374 223 2319 0 2096 patch iptc,sj,dgj,dgi,id: 15 2319 -264 -264 2096 half line dmj dgc: 1 50889 278 -750 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2319 223 Zeroing lines in arrays Total # of output lines = 15 51470 Processing block number 16 DEBUG -238 274.3046 -237.8308 0.0000000E+00 0.0000000E+00 2319 3168 26 823 patch iptc,sj,dgj,dgi,id: 16 3168 -238 -264 823 half line dmj dgc: 0 53808 274 -750 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 3168 2319 Zeroing lines in arrays Total # of output lines = 16 52319 3168 5264 0 2096 patch iptc,sj,dgj,dgi,id: 16 5264 -238 -238 2096 half line dmj dgc: 1 53808 274 -750 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 5264 3168 Zeroing lines in arrays Total # of output lines = 16 54415 ia dmi dgi: 5264 274 -238 Writing the last 2608 lines last half sj>s1 7872 5264 54415 WAYNE done patche 219.2739499807358 Total # of output lines = 57023 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 57023 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 220.0581119060516 Enter single look lines filename: Enter single look image filename: Enter output lines filename: Enter number of looks: ns np nlloks: 2560 57023 18 Multi-looking lines.dat file... Total number of lines written to output file: 3167 *************************************** ***** ***** ***** 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 : 5904 MIN window samp: 2728 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 54.78366 45.57425 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 = 0.9120828 33.30950 40/20 MHz: 2560 10240 40/20 MHz MHz complex: 2560 20480 57006 3167 18 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.1804109 7.218335 146 0.406 3046 1.500 7.21834 0.007385 0.391367 0.013004 r_peak,r_snr = 0.1462975 10.67235 246 -0.375 3046 5.813 10.67235 0.014049 3.582443 0.083548 r_peak,r_snr = 0.5618208 4.121585 346 -1.656 3046 -13.219 4.12158 0.003779 0.243419 -0.012287 r_peak,r_snr = 0.5645261 2.164409 446 0.000 3046 5.781 2.16441 0.026234 0.875834 -0.110862 r_peak,r_snr = 0.5401778 3.140721 546 0.250 3046 -9.188 3.14072 0.003646 0.217028 -0.006193 r_peak,r_snr = 0.5422761 1.632126 646 -0.469 3046 0.781 1.63213 0.377437 16.798845 2.441554 r_peak,r_snr = 0.5372761 4.094686 746 0.063 3046 -1.781 4.09469 0.002506 0.293441 0.006172 r_peak,r_snr = 0.3524899 3.697765 846 -0.469 3046 3.813 3.69776 0.222059 12.879699 1.651532 r_peak,r_snr = 0.1537086 4.587470 946 -0.594 3046 -7.188 4.58747 0.121002 1.579187 -0.328087 r_peak,r_snr = 0.1501520 5.828042 1046 13.031 3046 -5.719 5.82804 0.009623 0.494948 0.009116 r_peak,r_snr = 0.2200266 6.729102 1146 1.156 3046 -4.188 6.72910 0.076727 8.837432 0.763098 r_peak,r_snr = 0.1342847 6.051605 1246 1.969 3046 -8.938 6.05161 0.063797 1.917943 0.167757 r_peak,r_snr = 0.1536911 7.742144 1346 -1.000 3046 11.313 7.74214 0.023351 0.459400 -0.004581 r_peak,r_snr = 0.1878562 6.971004 1446 -2.906 3046 10.844 6.97100 0.009017 3.154796 0.093908 r_peak,r_snr = 0.1245069 5.788336 1546 0.406 3046 9.813 5.78834 0.043753 0.521528 -0.069312 r_peak,r_snr = 0.1401311 9.526993 1646 -0.188 3046 -2.188 9.52699 0.006969 4.121358 -0.000863 r_peak,r_snr = 0.1942495 8.008425 1746 2.063 3046 12.188 8.00842 0.017760 0.583316 0.043940 r_peak,r_snr = 0.1472511 7.699677 1846 -2.250 3046 -10.344 7.69968 0.012704 0.802287 0.027318 r_peak,r_snr = 0.2810125 4.576063 1946 0.531 3046 -0.188 4.57606 0.011801 1.648179 -0.009834 r_peak,r_snr = 0.3023481 4.607543 2046 -0.063 3046 1.406 4.60754 0.029872 3.661350 -0.214676 At line = 3400 Reading in data.... r_peak,r_snr = 0.1303906 5.884445 146 0.313 3446 -15.719 5.88444 0.018805 0.912978 -0.036185 r_peak,r_snr = 0.2688101 2.332883 246 -12.813 3446 7.594 2.33288 0.072665 1.628601 0.292069 r_peak,r_snr = 0.3223130 4.910047 346 -0.281 3446 8.188 4.91005 0.009411 0.711460 -0.006323 r_peak,r_snr = 0.3941103 2.335408 446 -0.219 3446 -5.188 2.33541 0.016956 0.234035 -0.020597 r_peak,r_snr = 0.4569125 5.525720 546 0.125 3446 -0.250 5.52572 0.006744 18.191463 -0.208175 r_peak,r_snr = 0.4774601 4.624511 746 0.156 3446 1.281 4.62451 0.004687 0.723372 -0.032136 r_peak,r_snr = 0.1465140 4.097925 846 -13.688 3446 9.156 4.09792 0.337003 9.007942 1.673869 r_peak,r_snr = 0.1547051 7.475080 946 -0.781 3446 6.781 7.47508 0.023114 1.859301 0.075802 r_peak,r_snr = 0.1792348 4.287326 1046 -8.281 3446 6.063 4.28733 0.030562 1.011538 -0.116186 r_peak,r_snr = 0.2104956 5.053142 1146 0.813 3446 -11.250 5.05314 0.030686 0.257246 -0.002804 r_peak,r_snr = 0.1531975 11.70272 1246 0.344 3446 -12.844 11.70272 0.010239 1.244455 0.065799 r_peak,r_snr = 0.1408435 4.704084 1346 -12.094 3446 13.938 4.70408 0.011136 0.665936 -0.022339 r_peak,r_snr = 0.1979420 8.224843 1446 0.406 3446 -1.813 8.22484 0.018453 1.174448 -0.007467 r_peak,r_snr = 0.1710634 3.945367 1646 -10.281 3446 0.125 3.94537 0.009799 1.237508 -0.009023 r_peak,r_snr = 0.1442741 7.664815 1746 0.156 3446 5.469 7.66482 0.135831 1.676121 -0.406428 r_peak,r_snr = 0.1156682 7.903132 1846 -3.750 3446 -1.594 7.90313 0.050758 2.333132 -0.087534 r_peak,r_snr = 0.1080701 3.970520 1946 16.313 3446 13.844 3.97052 0.101553 1.736853 -0.362168 r_peak,r_snr = 0.1951136 5.125833 2046 -0.563 3446 -8.188 5.12583 0.945898 41.461231 -5.929531 At line = 3800 Reading in data.... r_peak,r_snr = 0.2483955 7.591162 146 -0.375 3846 3.219 7.59116 0.026128 0.780917 0.005891 r_peak,r_snr = 0.1501802 7.073515 246 -0.250 3846 -1.625 7.07352 0.051213 0.713911 0.025902 r_peak,r_snr = 0.1156599 9.708123 346 3.906 3846 -0.781 9.70812 0.036379 1.090016 -0.161558 r_peak,r_snr = 0.3269751 5.087331 446 -0.688 3846 -3.750 5.08733 0.006111 1.917928 0.017480 r_peak,r_snr = 0.5458276 2.285568 546 -0.594 3846 14.750 2.28557 0.012204 0.377069 0.050290 r_peak,r_snr = 0.3944767 3.156732 646 -2.094 3846 -13.781 3.15673 0.028270 1.209143 -0.116062 r_peak,r_snr = 0.2755053 6.322988 746 1.813 3846 -9.844 6.32299 0.019739 1.474795 -0.072504 r_peak,r_snr = 0.1292239 8.014045 846 12.156 3846 12.125 8.01404 0.009680 0.858941 0.020518 r_peak,r_snr = 0.2389839 4.819880 1046 -0.469 3846 5.281 4.81988 0.105667 0.880872 0.035336 r_peak,r_snr = 0.1615706 3.906953 1146 -8.188 3846 1.250 3.90695 0.020729 1.712497 0.019766 r_peak,r_snr = 0.2963378 3.358794 1246 2.406 3846 -10.813 3.35879 0.026465 0.939781 0.120458 r_peak,r_snr = 0.1218773 4.256459 1346 1.625 3846 -6.219 4.25646 0.036692 2.652792 -0.087341 r_peak,r_snr = 0.1180481 5.770986 1446 -11.281 3846 -7.844 5.77099 0.024517 0.618764 0.080710 r_peak,r_snr = 0.3561743 3.305383 1646 -0.406 3846 1.750 3.30538 0.007863 2.127497 0.061920 r_peak,r_snr = 0.1379816 8.295337 1746 -2.563 3846 8.063 8.29534 0.024667 1.136476 -0.071547 r_peak,r_snr = 0.1105025 8.180863 1946 5.406 3846 -8.625 8.18086 0.051149 1.006213 0.181758 r_peak,r_snr = 0.2374424 11.38994 2046 -0.031 3846 2.781 11.38994 0.006378 0.367102 0.018538 At line = 4200 Reading in data.... r_peak,r_snr = 0.1173626 3.311539 246 -1.688 4246 -12.813 3.31154 0.067606 6.706641 -0.544629 r_peak,r_snr = 0.1892858 5.325237 346 1.406 4246 3.656 5.32524 0.015264 0.410866 0.001471 r_peak,r_snr = 0.1192724 5.909658 446 -1.469 4246 -6.500 5.90966 0.159065 0.889968 -0.303116 r_peak,r_snr = 0.6830263 3.678034 546 0.375 4246 -4.750 3.67803 0.004235 0.521821 0.038330 r_peak,r_snr = 0.2962026 2.955842 646 0.125 4246 -1.250 2.95584 0.055554 16.558128 0.855703 r_peak,r_snr = 0.4411319 5.565006 746 0.031 4246 6.813 5.56501 0.007097 0.795540 0.036795 r_peak,r_snr = 0.1095880 7.545711 846 2.156 4246 -4.219 7.54571 0.039132 3.842031 -0.261989 r_peak,r_snr = 0.1877925 6.627597 946 -6.000 4246 -14.250 6.62760 0.017689 2.075766 0.159837 r_peak,r_snr = 0.1704025 9.257695 1046 -0.531 4246 3.250 9.25770 0.022319 1.781848 -0.021675 r_peak,r_snr = 0.1577358 6.190074 1146 2.719 4246 -13.781 6.19007 0.022969 1.567713 0.080439 r_peak,r_snr = 0.1242445 9.869320 1246 6.156 4246 4.281 9.86932 0.008513 0.711406 0.009411 r_peak,r_snr = 0.1366954 5.610056 1346 7.750 4246 -10.531 5.61006 0.055648 0.436295 -0.044380 r_peak,r_snr = 0.1886217 9.119835 1446 -0.219 4246 -2.250 9.11983 0.012173 0.509217 0.025455 r_peak,r_snr = 0.1515316 6.728455 1546 -0.625 4246 -0.938 6.72845 0.106612 3.353899 -0.482650 r_peak,r_snr = 0.2655280 2.944140 1646 -11.688 4246 6.906 2.94414 0.042203 12.706067 -0.610453 r_peak,r_snr = 0.1468438 4.931328 1846 -2.906 4246 -11.813 4.93133 0.090928 0.952819 -0.236354 r_peak,r_snr = 9.6772835E-02 8.031707 1946 10.781 4246 -4.813 8.03171 0.015723 1.280503 0.016532 r_peak,r_snr = 0.2066643 3.424231 2046 -0.563 4246 -9.750 3.42423 0.170526 1.903604 0.491838 At line = 4600 Reading in data.... r_peak,r_snr = 0.3600730 2.957780 146 -0.219 4646 -0.781 2.95778 0.010377 1.001357 -0.025094 r_peak,r_snr = 0.1851010 4.546812 246 -0.625 4646 9.281 4.54681 0.065873 0.348519 -0.037411 r_peak,r_snr = 0.1197173 8.354136 346 -4.250 4646 -1.188 8.35414 0.019238 0.947513 -0.035603 r_peak,r_snr = 0.1345442 9.502743 446 -1.281 4646 6.063 9.50274 0.052790 21.588902 0.149119 r_peak,r_snr = 0.3793720 5.332864 546 -1.094 4646 9.531 5.33286 0.017954 17.365343 0.456560 r_peak,r_snr = 0.6123445 6.400608 646 0.063 4646 -3.188 6.40061 0.001601 0.271299 0.001333 r_peak,r_snr = 0.4772328 2.657076 746 -2.813 4646 -4.781 2.65708 0.009318 0.429103 -0.028630 r_peak,r_snr = 0.1407603 7.679369 846 -0.188 4646 -12.938 7.67937 0.045030 0.843974 0.104285 r_peak,r_snr = 0.1513903 8.743890 946 0.406 4646 -5.094 8.74389 0.024282 0.678929 0.007087 r_peak,r_snr = 0.1209872 10.07328 1046 -0.844 4646 0.094 10.07328 0.017379 0.731942 0.021194 r_peak,r_snr = 0.1241547 10.45915 1146 12.219 4646 -4.813 10.45915 0.017718 0.815615 0.045543 r_peak,r_snr = 0.3776332 2.306926 1246 2.813 4646 10.188 2.30693 0.058234 0.711755 -0.116249 r_peak,r_snr = 0.2134054 6.053552 1346 1.406 4646 -12.500 6.05355 0.142360 1.238932 -0.311582 r_peak,r_snr = 0.1720838 6.696567 1446 2.094 4646 -11.000 6.69657 0.010316 2.065146 0.055269 r_peak,r_snr = 0.2156187 6.008637 1546 1.250 4646 -10.813 6.00864 0.023410 1.342653 0.143614 r_peak,r_snr = 0.1238262 5.608315 1646 0.344 4646 -16.813 5.60831 0.017355 12.155459 -0.143348 r_peak,r_snr = 9.6297525E-02 7.432427 1746 3.469 4646 1.313 7.43243 0.017370 0.859923 0.038155 r_peak,r_snr = 0.1209270 7.430396 1846 -0.344 4646 -3.031 7.43040 0.011825 1.097296 -0.002885 r_peak,r_snr = 0.1160624 5.008873 1946 11.844 4646 7.188 5.00887 0.144394 2.057349 0.389023 r_peak,r_snr = 0.1303456 8.436301 2046 -4.875 4646 -14.844 8.43630 0.024840 0.577899 -0.058688 At line = 5000 Reading in data.... r_peak,r_snr = 0.1884035 7.022247 146 0.906 5046 -7.969 7.02225 0.011534 0.565872 0.029481 r_peak,r_snr = 0.2204774 2.399933 246 -11.188 5046 13.781 2.39993 0.045149 1.166483 0.050694 r_peak,r_snr = 0.1340063 5.874859 346 1.688 5046 -7.844 5.87486 0.030221 0.732837 -0.079318 r_peak,r_snr = 0.1839097 5.461145 446 -0.906 5046 -12.219 5.46115 0.483402 1.337332 0.539988 r_peak,r_snr = 0.3290347 4.621654 546 0.469 5046 -4.813 4.62165 0.021230 0.406924 -0.040071 r_peak,r_snr = 0.6092833 3.978874 646 0.094 5046 -1.750 3.97887 0.002076 0.173760 0.000676 r_peak,r_snr = 0.5854949 4.233970 746 -0.094 5046 4.750 4.23397 0.003064 1.027778 0.036052 r_peak,r_snr = 0.1477936 5.520638 846 -6.344 5046 7.156 5.52064 0.009088 0.731723 -0.028911 r_peak,r_snr = 0.1495995 9.495086 946 -0.500 5046 -2.188 9.49509 0.051814 2.428870 -0.289192 r_peak,r_snr = 0.1596160 6.140575 1046 -0.656 5046 -2.625 6.14058 0.053330 0.850476 0.001890 r_peak,r_snr = 0.2419616 6.386138 1146 -2.344 5046 -10.750 6.38614 0.013613 0.480259 -0.023189 r_peak,r_snr = 0.1844175 8.036003 1246 1.656 5046 -5.781 8.03600 0.010380 0.308214 0.003460 r_peak,r_snr = 0.1225033 7.975354 1346 14.531 5046 -0.188 7.97535 0.137077 1.399965 -0.104394 r_peak,r_snr = 0.4104410 4.956775 1446 0.125 5046 -2.781 4.95677 0.004263 0.865569 0.007915 r_peak,r_snr = 0.2792376 5.773423 1546 0.750 5046 -6.344 5.77342 0.060199 15.293298 0.888156 r_peak,r_snr = 0.1695517 11.93719 1646 -5.313 5046 -9.000 11.93719 0.008879 0.996599 0.046784 r_peak,r_snr = 0.3095167 5.529634 1746 0.031 5046 6.781 5.52963 0.037032 3.870157 -0.335675 r_peak,r_snr = 8.3541110E-02 4.675613 1946 -11.531 5046 6.031 4.67561 0.030437 1.723292 -0.082269 r_peak,r_snr = 0.2486018 8.312583 2046 0.219 5046 -9.531 8.31258 0.017295 0.911141 0.070897 At line = 5400 Reading in data.... r_peak,r_snr = 0.3159744 4.252721 146 -5.188 5446 10.219 4.25272 0.012105 0.413527 0.021804 r_peak,r_snr = 0.2003600 8.576952 246 1.406 5446 -12.531 8.57695 0.032374 1.503741 -0.155220 r_peak,r_snr = 0.2164756 7.973056 446 -1.219 5446 -3.531 7.97306 0.029587 1.441508 -0.167505 r_peak,r_snr = 0.4268631 5.073683 646 -0.156 5446 1.688 5.07368 0.003305 1.467303 0.026326 r_peak,r_snr = 0.6441000 5.669005 746 0.063 5446 1.813 5.66900 0.003812 0.422554 -0.032920 r_peak,r_snr = 0.2004686 3.257008 946 -5.188 5446 0.250 3.25701 0.014683 2.443543 -0.039712 r_peak,r_snr = 0.1891068 4.736824 1046 1.406 5446 -12.219 4.73682 0.038827 1.546744 -0.204297 r_peak,r_snr = 0.1272381 4.963616 1146 -1.844 5446 9.313 4.96362 0.801438 1.404204 -0.858643 r_peak,r_snr = 0.1533206 9.469818 1246 -5.938 5446 13.188 9.46982 0.012704 0.452959 0.021593 r_peak,r_snr = 0.1641870 6.880669 1346 0.594 5446 -13.656 6.88067 0.057043 1.746785 0.237281 r_peak,r_snr = 0.1197370 7.841993 1446 9.219 5446 -12.781 7.84199 0.027518 0.937720 0.062649 r_peak,r_snr = 0.1669602 6.606549 1546 0.625 5446 7.313 6.60655 0.018575 3.840820 -0.013976 r_peak,r_snr = 0.1402275 7.279701 1646 -4.750 5446 1.188 7.27970 0.070875 4.994557 0.484138 r_peak,r_snr = 0.2023476 3.906713 1846 0.156 5446 -7.188 3.90671 0.103788 0.753898 -0.073314 r_peak,r_snr = 0.1472873 5.649509 1946 -2.656 5446 4.344 5.64951 0.033202 0.474898 0.058988 r_peak,r_snr = 0.1419013 6.493127 2046 9.531 5446 9.594 6.49313 0.035321 0.235524 0.039171 At line = 5800 Reading in data.... r_peak,r_snr = 0.1431005 5.758780 146 13.781 5846 -5.094 5.75878 0.041457 1.249564 0.132759 r_peak,r_snr = 0.3155257 3.827746 246 -0.344 5846 -13.188 3.82775 0.017799 1.681184 -0.029104 r_peak,r_snr = 0.1692251 4.213347 346 0.688 5846 6.219 4.21335 0.036948 8.013449 -0.177158 r_peak,r_snr = 0.4423012 5.287747 446 0.094 5846 -2.188 5.28775 0.003829 0.492666 0.022272 r_peak,r_snr = 0.3795041 3.298975 546 -0.281 5846 -0.188 3.29897 0.107337 1.171126 -0.309739 r_peak,r_snr = 0.2875155 4.676789 646 -0.531 5846 -10.188 4.67679 0.009945 0.197787 -0.000063 r_peak,r_snr = 0.4349827 4.209261 746 -0.594 5846 -0.219 4.20926 0.009276 1.145011 0.005794 r_peak,r_snr = 0.2449675 4.870150 846 -0.094 5846 4.188 4.87015 0.009918 1.524933 -0.009929 r_peak,r_snr = 0.2141097 10.63169 946 0.656 5846 5.125 10.63169 0.013329 0.505502 -0.033633 r_peak,r_snr = 0.2051879 7.142858 1046 -0.063 5846 2.813 7.14286 0.062515 2.029323 0.318134 r_peak,r_snr = 0.1340181 7.131299 1146 0.375 5846 11.781 7.13130 0.026753 1.505605 0.009748 r_peak,r_snr = 0.2412315 9.599414 1246 0.094 5846 -11.281 9.59941 0.011128 0.375990 -0.028820 r_peak,r_snr = 0.1393983 4.789914 1346 -4.969 5846 8.781 4.78991 0.014789 0.590676 0.024153 r_peak,r_snr = 9.6326090E-02 6.793741 1446 2.938 5846 -7.875 6.79374 0.017620 1.485900 0.001684 r_peak,r_snr = 0.3243192 7.713218 1546 -0.406 5846 4.250 7.71322 0.006329 0.943287 0.010791 r_peak,r_snr = 0.2702880 5.732073 1646 -0.281 5846 3.750 5.73207 0.014742 2.070486 0.105507 r_peak,r_snr = 0.2093616 3.424463 1846 2.563 5846 1.250 3.42446 0.048360 1.736535 0.108749 r_peak,r_snr = 0.3948039 2.407803 1946 -2.344 5846 -4.688 2.40780 0.353434 23.997332 -2.775608 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.6250895 37.67741 146 0.063 3046 0.125 37.67741 0.000370 0.005136 0.000096 r_peak,r_snr = 0.5688862 37.45833 246 0.094 3046 -0.250 37.45833 0.000470 0.010412 -0.000316 r_peak,r_snr = 0.6732993 7.720218 346 -0.094 3046 -0.313 7.72022 0.000601 0.012971 -0.000215 r_peak,r_snr = 0.6369407 3.264164 446 -0.063 3046 0.750 3.26416 0.000918 0.088546 0.000101 r_peak,r_snr = 0.7774825 4.619004 546 0.094 3046 0.156 4.61900 0.000377 0.007297 -0.000203 r_peak,r_snr = 0.6153797 2.187681 646 0.063 3046 -0.094 2.18768 0.002461 0.122856 -0.004755 r_peak,r_snr = 0.5792226 4.702720 746 -0.125 3046 0.125 4.70272 0.001396 0.069759 -0.003321 r_peak,r_snr = 0.4358904 8.686979 846 0.094 3046 0.469 8.68698 0.001836 0.035866 -0.000365 r_peak,r_snr = 0.4384596 22.54001 946 -0.063 3046 -0.281 22.54001 0.000883 0.024581 0.000236 r_peak,r_snr = 0.3594598 35.52446 1046 0.000 3046 -0.094 35.52446 0.001001 0.028858 0.000158 r_peak,r_snr = 0.3825355 36.91901 1146 0.125 3046 -0.156 36.91901 0.001099 0.023747 0.000623 r_peak,r_snr = 0.1962124 10.97633 1246 0.094 3046 1.281 10.97633 0.005823 0.193431 0.009012 r_peak,r_snr = 0.2025588 21.45688 1346 -0.063 3046 -0.219 21.45688 0.002614 0.135593 0.001319 r_peak,r_snr = 0.1720047 6.879360 1446 1.781 3046 -3.813 6.87936 0.009424 1.341618 0.047432 r_peak,r_snr = 0.4177761 30.81361 1546 0.063 3046 -0.063 30.81361 0.001021 0.020653 -0.000218 r_peak,r_snr = 0.1312249 6.501338 1646 -1.813 3046 -2.063 6.50134 0.140205 1.065955 0.212843 r_peak,r_snr = 0.2213504 17.68135 1746 0.000 3046 -0.156 17.68135 0.005933 0.133871 0.006457 r_peak,r_snr = 0.1464665 13.27495 1846 -0.063 3046 0.000 13.27495 0.006697 0.524323 -0.020642 r_peak,r_snr = 0.2366477 6.476655 1946 0.094 3046 -4.781 6.47666 0.005315 0.777831 -0.013004 r_peak,r_snr = 0.2074693 4.173378 2046 -0.250 3046 -1.844 4.17338 0.048660 2.606753 -0.314038 At line = 3400 Reading in data.... r_peak,r_snr = 0.7294556 30.99359 146 0.063 3446 -0.094 30.99359 0.000234 0.003422 -0.000141 r_peak,r_snr = 0.7117193 14.12534 246 0.094 3446 -0.344 14.12534 0.000280 0.005269 0.000069 r_peak,r_snr = 0.7229502 14.03224 346 -0.031 3446 -0.219 14.03224 0.000321 0.005492 -0.000085 r_peak,r_snr = 0.7246445 7.604082 446 0.000 3446 -0.750 7.60408 0.000289 0.005906 -0.000021 r_peak,r_snr = 0.4574669 7.449956 546 -0.063 3446 -0.750 7.44996 0.001971 0.107884 -0.001364 r_peak,r_snr = 0.5615111 2.428327 646 0.156 3446 0.219 2.42833 0.003571 0.151829 0.007872 r_peak,r_snr = 0.4908439 4.426931 746 0.438 3446 -0.781 4.42693 0.004199 0.112414 0.002794 r_peak,r_snr = 0.3978763 34.48338 846 0.031 3446 -0.656 34.48338 0.001181 0.016630 -0.000474 r_peak,r_snr = 0.4689600 32.26726 946 -0.031 3446 0.000 32.26726 0.000848 0.017068 0.000089 r_peak,r_snr = 0.3289530 30.35823 1046 -0.031 3446 0.281 30.35823 0.001688 0.043101 -0.000611 r_peak,r_snr = 0.3691898 36.39986 1146 -0.219 3446 -0.094 36.39986 0.001297 0.023727 0.000103 r_peak,r_snr = 0.3279596 30.99925 1246 0.000 3446 0.313 30.99925 0.001442 0.063236 0.002134 r_peak,r_snr = 0.2472349 11.01767 1346 0.063 3446 0.781 11.01767 0.004685 0.444823 0.008703 r_peak,r_snr = 0.1167779 9.651305 1446 9.656 3446 -0.813 9.65131 0.043951 0.955316 0.128115 r_peak,r_snr = 0.1683308 15.85823 1546 -0.094 3446 -0.094 15.85823 0.006645 0.190328 -0.001143 r_peak,r_snr = 9.1072388E-02 4.044848 1646 13.563 3446 10.156 4.04485 0.018495 2.427834 0.113428 r_peak,r_snr = 0.1950285 10.29525 1746 0.063 3446 -0.094 10.29525 0.002855 0.083808 0.002206 r_peak,r_snr = 0.4650197 34.83191 1846 -0.063 3446 0.469 34.83191 0.000796 0.016487 0.000111 r_peak,r_snr = 0.3249696 31.96410 1946 0.094 3446 0.219 31.96410 0.001684 0.042588 0.000196 r_peak,r_snr = 0.3761177 9.084314 2046 -0.250 3446 -0.188 9.08431 0.002223 0.057862 -0.001843 At line = 3800 Reading in data.... r_peak,r_snr = 0.8252500 26.92886 146 0.063 3846 -0.031 26.92886 0.000151 0.001651 -0.000019 r_peak,r_snr = 0.5898308 37.80223 246 0.031 3846 -0.375 37.80223 0.000452 0.007807 -0.000097 r_peak,r_snr = 0.5837489 58.42134 346 -0.031 3846 -0.031 58.42134 0.000370 0.007174 -0.000058 r_peak,r_snr = 0.6771258 12.15709 446 -0.063 3846 0.000 12.15709 0.000377 0.007537 -0.000119 r_peak,r_snr = 0.6496306 3.540435 546 -0.156 3846 -1.031 3.54043 0.001560 0.069588 0.000562 r_peak,r_snr = 0.4810585 4.530657 646 -0.094 3846 -0.531 4.53066 0.002579 0.143273 0.000626 r_peak,r_snr = 0.3664899 11.19328 746 0.094 3846 0.625 11.19328 0.002906 0.127639 -0.000775 r_peak,r_snr = 0.3638250 38.35614 846 -0.031 3846 0.219 38.35614 0.000993 0.023641 -0.000502 r_peak,r_snr = 0.4525050 19.53618 946 0.063 3846 0.344 19.53618 0.000934 0.027427 0.000487 r_peak,r_snr = 0.2676668 9.524180 1046 0.031 3846 0.219 9.52418 0.003267 0.154308 0.000654 r_peak,r_snr = 0.4368073 31.39762 1146 0.125 3846 0.063 31.39762 0.000997 0.027477 -0.000069 r_peak,r_snr = 0.4307906 14.00836 1246 0.063 3846 0.188 14.00836 0.001139 0.035527 0.000197 r_peak,r_snr = 0.3529042 23.30743 1346 -0.063 3846 -0.344 23.30743 0.001728 0.051497 0.001838 r_peak,r_snr = 0.3062786 26.56907 1446 -0.156 3846 -0.250 26.56907 0.001462 0.033776 -0.000603 r_peak,r_snr = 0.1492181 8.776904 1546 -17.875 3846 15.750 8.77690 0.025050 0.696133 0.080133 r_peak,r_snr = 0.2971094 3.368750 1646 2.625 3846 2.813 3.36875 0.006513 1.557171 -0.013898 r_peak,r_snr = 0.3197770 23.92753 1746 0.031 3846 -0.188 23.92753 0.002396 0.050337 0.000788 r_peak,r_snr = 0.4873075 31.61392 1846 -0.031 3846 0.094 31.61392 0.000698 0.014398 -0.000058 r_peak,r_snr = 0.3110369 36.97868 1946 -0.094 3846 -0.125 36.97868 0.001499 0.046684 0.001076 r_peak,r_snr = 0.2540251 15.78253 2046 -0.156 3846 -0.031 15.78253 0.003660 0.133682 0.006481 At line = 4200 Reading in data.... r_peak,r_snr = 0.7755061 12.46557 146 0.063 4246 0.094 12.46557 0.000217 0.002091 -0.000044 r_peak,r_snr = 0.6618924 43.43439 246 0.063 4246 -0.188 43.43439 0.000291 0.004209 -0.000100 r_peak,r_snr = 0.6620218 19.95561 346 0.031 4246 -0.125 19.95561 0.000361 0.005346 -0.000040 r_peak,r_snr = 0.4683929 39.02610 446 -0.094 4246 -0.219 39.02610 0.000588 0.017168 0.000167 r_peak,r_snr = 0.7511832 4.616626 546 0.344 4246 1.344 4.61663 0.000781 0.021511 0.000506 r_peak,r_snr = 0.2678435 5.983690 646 0.000 4246 0.125 5.98369 0.008147 0.634545 -0.039686 r_peak,r_snr = 0.4714201 7.373281 746 0.438 4246 0.250 7.37328 0.003368 0.101792 0.004847 r_peak,r_snr = 0.3602510 30.50461 846 -0.063 4246 -0.281 30.50461 0.001138 0.046442 0.000089 r_peak,r_snr = 0.3646455 15.59674 946 0.063 4246 0.188 15.59674 0.001679 0.075712 0.002323 r_peak,r_snr = 0.4340397 30.14721 1046 -0.031 4246 -0.188 30.14721 0.001197 0.019419 0.000258 r_peak,r_snr = 0.4178559 27.36217 1146 -0.031 4246 -0.250 27.36217 0.001085 0.035147 0.000897 r_peak,r_snr = 0.3752033 43.16472 1246 0.031 4246 0.281 43.16472 0.001000 0.023338 -0.000285 r_peak,r_snr = 0.5610398 46.04907 1346 -0.031 4246 0.125 46.04907 0.000416 0.008299 0.000280 r_peak,r_snr = 0.1992522 6.232213 1446 -14.375 4246 13.781 6.23221 0.171417 10.321910 1.297045 r_peak,r_snr = 0.1478494 4.545223 1546 9.563 4246 14.781 4.54522 0.029502 1.410951 0.000133 r_peak,r_snr = 0.2349952 3.710439 1646 -10.594 4246 0.188 3.71044 0.038491 1.255825 0.066615 r_peak,r_snr = 0.3664855 31.90491 1746 0.094 4246 0.000 31.90491 0.001420 0.035195 0.000201 r_peak,r_snr = 0.3986239 35.83946 1846 0.031 4246 -0.125 35.83946 0.000951 0.021852 0.000078 r_peak,r_snr = 0.3144886 40.95566 1946 0.000 4246 -0.063 40.95566 0.001409 0.035167 0.000249 r_peak,r_snr = 0.2772684 11.18056 2046 0.125 4246 -1.031 11.18056 0.003209 0.088034 0.000937 At line = 4600 Reading in data.... r_peak,r_snr = 0.7910187 12.02586 146 0.063 4646 -0.156 12.02586 0.000188 0.003211 -0.000045 r_peak,r_snr = 0.6763171 37.47385 246 0.031 4646 -0.031 37.47385 0.000275 0.003557 -0.000026 r_peak,r_snr = 0.6267111 40.15077 346 0.000 4646 -0.281 40.15077 0.000350 0.005837 0.000152 r_peak,r_snr = 0.5466161 55.82330 446 0.031 4646 -0.531 55.82330 0.000441 0.008581 0.000005 r_peak,r_snr = 0.6787014 12.89587 546 0.000 4646 0.250 12.89587 0.000470 0.007457 -0.000157 r_peak,r_snr = 0.5884540 6.406482 646 0.250 4646 -1.813 6.40648 0.001532 0.298200 0.004416 r_peak,r_snr = 0.5249504 4.359078 746 -0.031 4646 0.156 4.35908 0.001321 0.031521 -0.000910 r_peak,r_snr = 0.3419251 35.67793 846 0.031 4646 0.031 35.67793 0.001318 0.035169 0.000130 r_peak,r_snr = 0.3834805 41.86600 946 0.125 4646 0.281 41.86600 0.000956 0.032934 0.000832 r_peak,r_snr = 0.3651072 25.78912 1046 0.063 4646 -0.375 25.78912 0.001223 0.024090 0.000267 r_peak,r_snr = 0.3709913 19.61616 1146 -0.031 4646 0.688 19.61616 0.001549 0.046019 -0.001624 r_peak,r_snr = 0.4074565 5.762696 1246 -0.188 4646 0.188 5.76270 0.003768 0.194991 0.014774 r_peak,r_snr = 0.4496387 22.33297 1346 0.000 4646 -0.281 22.33297 0.001155 0.027753 -0.000368 r_peak,r_snr = 0.1313147 6.931472 1446 -1.719 4646 -4.375 6.93147 0.022204 0.739153 0.106259 r_peak,r_snr = 0.1846679 10.54239 1546 13.563 4646 -4.938 10.54239 0.022332 0.852582 0.058030 r_peak,r_snr = 0.2063140 4.313991 1646 12.375 4646 10.250 4.31399 0.014579 0.604031 -0.035161 r_peak,r_snr = 0.2278984 22.47189 1746 0.094 4646 -0.125 22.47189 0.002280 0.099227 0.000208 r_peak,r_snr = 0.2535594 20.49404 1846 0.000 4646 1.500 20.49404 0.003054 0.119359 -0.001294 r_peak,r_snr = 0.2409185 25.09950 1946 0.125 4646 -0.375 25.09950 0.004514 0.119981 -0.003951 r_peak,r_snr = 0.3439624 24.04821 2046 -0.094 4646 0.313 24.04821 0.001614 0.031778 -0.000900 At line = 5000 Reading in data.... r_peak,r_snr = 0.7020916 40.66178 146 0.000 5046 0.000 40.66178 0.000227 0.003229 -0.000076 r_peak,r_snr = 0.6245546 18.88813 246 0.031 5046 -0.250 18.88813 0.000404 0.006899 0.000140 r_peak,r_snr = 0.6493665 33.38788 346 0.063 5046 -0.094 33.38788 0.000355 0.005284 0.000065 r_peak,r_snr = 0.6574575 43.50864 446 0.031 5046 -0.125 43.50864 0.000312 0.004306 0.000015 r_peak,r_snr = 0.4608756 12.05271 546 0.000 5046 -0.281 12.05271 0.001107 0.030745 0.000257 r_peak,r_snr = 0.5938401 4.993920 646 0.000 5046 1.719 4.99392 0.001793 0.062102 -0.001811 r_peak,r_snr = 0.5952607 4.580346 746 0.188 5046 0.719 4.58035 0.002554 0.129848 0.004140 r_peak,r_snr = 0.4227916 43.96587 846 0.094 5046 -0.219 43.96587 0.000812 0.018821 0.000049 r_peak,r_snr = 0.4070614 35.12597 946 0.125 5046 -0.438 35.12597 0.001094 0.025181 0.000064 r_peak,r_snr = 0.3435284 32.25953 1046 0.125 5046 -0.406 32.25953 0.001624 0.025445 0.001835 r_peak,r_snr = 0.4239314 17.41664 1146 0.000 5046 -0.250 17.41664 0.001298 0.036050 -0.001082 r_peak,r_snr = 0.2640386 17.47499 1246 0.250 5046 0.000 17.47499 0.002760 0.097377 0.004284 r_peak,r_snr = 0.3243057 50.96291 1346 -0.063 5046 -0.156 50.96291 0.001131 0.031974 -0.000105 r_peak,r_snr = 0.3371649 5.823387 1446 0.031 5046 1.375 5.82339 0.005545 0.759801 0.033014 r_peak,r_snr = 0.2508179 4.831890 1546 0.219 5046 -1.219 4.83189 0.007889 0.935524 -0.003437 r_peak,r_snr = 0.1420201 3.644291 1646 0.094 5046 -0.313 3.64429 0.003992 0.176712 -0.004083 r_peak,r_snr = 0.3609821 7.734570 1746 -0.063 5046 -1.781 7.73457 0.002723 0.597450 -0.002354 r_peak,r_snr = 0.2412370 15.16666 1846 -0.031 5046 -0.375 15.16666 0.004018 0.130022 0.001884 r_peak,r_snr = 0.1515466 12.94578 1946 -0.063 5046 -1.594 12.94578 0.004836 0.330705 -0.001714 r_peak,r_snr = 0.4898433 9.947873 2046 -0.031 5046 -0.719 9.94787 0.001331 0.073148 0.003906 At line = 5400 Reading in data.... r_peak,r_snr = 0.8083937 14.64526 146 0.031 5446 -0.219 14.64526 0.000195 0.002156 -0.000014 r_peak,r_snr = 0.6908903 35.12451 246 0.000 5446 0.031 35.12451 0.000268 0.004394 -0.000057 r_peak,r_snr = 0.4992601 34.29838 346 -0.031 5446 -0.063 34.29838 0.000637 0.013165 0.000015 r_peak,r_snr = 0.6991194 38.29297 446 0.031 5446 -0.094 38.29297 0.000285 0.003522 -0.000055 r_peak,r_snr = 0.5981317 27.72238 546 0.031 5446 0.063 27.72238 0.000506 0.009826 -0.000284 r_peak,r_snr = 0.4185926 7.767055 646 0.156 5446 -0.219 7.76706 0.003001 0.171715 -0.006691 r_peak,r_snr = 0.5476291 3.970789 746 -0.531 5446 10.750 3.97079 0.276674 20.050003 -2.332672 r_peak,r_snr = 0.4805418 13.67001 846 0.031 5446 -0.188 13.67001 0.001430 0.025837 0.000481 r_peak,r_snr = 0.3866134 14.21875 946 0.094 5446 -0.750 14.21875 0.001504 0.034483 -0.000361 r_peak,r_snr = 0.4237585 18.13427 1046 0.031 5446 -0.219 18.13427 0.001228 0.029537 -0.000665 r_peak,r_snr = 0.4804681 50.70738 1146 -0.063 5446 -0.094 50.70738 0.000618 0.010532 0.000042 r_peak,r_snr = 0.4060127 34.15456 1246 -0.156 5446 -0.156 34.15456 0.001057 0.027539 0.000646 r_peak,r_snr = 0.1452084 8.328385 1346 0.313 5446 -1.281 8.32839 0.004226 0.393030 0.015577 r_peak,r_snr = 0.4962736 45.79321 1446 0.094 5446 -0.156 45.79321 0.000605 0.011391 0.000129 r_peak,r_snr = 0.3047220 40.55936 1546 -0.031 5446 -0.281 40.55936 0.001517 0.039696 0.001040 r_peak,r_snr = 0.3910586 24.49519 1646 -0.094 5446 0.219 24.49519 0.001624 0.030471 0.000865 r_peak,r_snr = 0.1661822 4.394262 1746 1.563 5446 -7.219 4.39426 0.130791 8.054364 0.831817 r_peak,r_snr = 0.4139207 14.95483 1846 0.125 5446 0.000 14.95483 0.001646 0.082996 0.001928 r_peak,r_snr = 0.1763603 13.45615 1946 0.031 5446 2.156 13.45615 0.006672 0.951865 0.043601 r_peak,r_snr = 0.3155194 27.11232 2046 0.125 5446 -0.406 27.11232 0.001960 0.047516 0.001106 At line = 5800 Reading in data.... r_peak,r_snr = 0.6782786 39.68871 146 0.031 5846 -0.063 39.68871 0.000296 0.005311 0.000009 r_peak,r_snr = 0.7063203 16.24748 246 0.063 5846 -0.125 16.24748 0.000368 0.004367 0.000059 r_peak,r_snr = 0.6087475 35.97757 346 0.031 5846 -0.094 35.97757 0.000406 0.007554 -0.000166 r_peak,r_snr = 0.6697178 12.22199 446 0.000 5846 -0.250 12.22199 0.000513 0.008722 -0.000035 r_peak,r_snr = 0.7559470 7.785583 546 -0.031 5846 -0.094 7.78558 0.000300 0.003598 -0.000037 r_peak,r_snr = 0.5739080 17.64862 646 -0.031 5846 0.000 17.64862 0.000639 0.012579 0.000185 r_peak,r_snr = 0.5632252 5.454830 746 0.125 5846 -0.625 5.45483 0.002545 0.102714 -0.002168 r_peak,r_snr = 0.4268657 22.04667 846 0.063 5846 -0.188 22.04667 0.001126 0.030236 -0.000805 r_peak,r_snr = 0.3227419 18.66069 946 -0.031 5846 -0.250 18.66069 0.001838 0.086026 0.000852 r_peak,r_snr = 0.4014198 24.33834 1046 -0.063 5846 -0.250 24.33834 0.001094 0.054332 -0.000398 r_peak,r_snr = 0.3557275 29.41679 1146 0.156 5846 -0.094 29.41679 0.001636 0.045523 0.000854 r_peak,r_snr = 0.2375426 14.22721 1246 0.344 5846 0.000 14.22721 0.003428 0.759810 -0.012460 r_peak,r_snr = 0.1361033 9.130403 1346 -0.188 5846 0.094 9.13040 0.011925 0.463201 -0.003543 r_peak,r_snr = 0.4092196 43.30616 1446 0.094 5846 -0.219 43.30616 0.000987 0.019640 -0.000482 r_peak,r_snr = 0.3395059 9.997264 1546 -0.031 5846 0.656 9.99726 0.006659 0.479993 0.037560 r_peak,r_snr = 0.2117886 6.940931 1646 0.094 5846 -1.250 6.94093 0.007249 1.269876 0.035217 r_peak,r_snr = 0.2766586 3.575919 1846 -4.250 5846 -1.219 3.57592 0.029536 0.653432 0.020122 r_peak,r_snr = 0.2523974 5.367666 1946 0.281 5846 -3.875 5.36767 0.016105 0.750435 -0.025759 r_peak,r_snr = 0.3044292 20.18347 2046 0.000 5846 -0.094 20.18347 0.001986 0.080396 -0.004084 /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: 3167 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 6988.200 10.00000 $tphase,phasedat: 170.6000 33.30000 $rphase,phasevh,phasehv: 137.3000 63.60000 -73.70000 Reading data size. 3167 3167 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: 60000 Cross pol phase difference is: 33.30 deg Receiver phase difference is 137.30 deg Transmitter phase difference is 170.60 deg Cable phase difference is -161.78 deg $ghv,phasedat,phi: (0.8358073,0.5490228) 33.30000 33.30000 $phico aphase: -15.66002 -161.7800 $fhh,fhv,fvh: (0.9628804,0.2699286) (0.9881750,-0.1533306) (0.9101059,0.4143757) Input ground spacing ? cross-track ground spacing: 10.00000 Input file of Radiometric Correction Vectors: Radiometric Correction Vectors file: /mnt/air65/airops/1355/ts1355_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. 3167 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: (2.5362074E-02,2.7648106E-02) (-3.4267297E-03,-1.5108276E-02) 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. 3167 3167 Absolute gain AChu(linear) :. 8.6706031E-08 4.7918043E-08 4.7918149E-08 ahh hv vv chh hv vh vv: -235.1390 -239.4900 -235.0390 -239.8900 93.90000 93.10000 93.70000 93.50000 1 257 513 769 1025 1281 1537 1793 2049 2305 2561 2817 3073 ********************************************* ***** ***** ***** 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 3072 /mnt/air65/airops/1355/ts1355_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/1355/ts1355_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 3100 Thu Mar 14 18:35:57 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/1355;am_misreg *_c.vvvr *_l.vvvr 2>&1 | 0.141 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/1355/ts1355.log Mis-registration QA: No sensor file update required. The Mis-registration check is completed [1] 251854 251985 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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                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                   /u/argus0/airops/OPS/QA_Proc/qa_no_beep[2]: kill: bad argument count GEO_PEG_MOD original values( lat lon): 63.9723236 -146.9122814 GEO_PEG_MOD applied values( lat lon): .002225 .006075 GEO_PEG_MOD resulted values( lat lon): 63.9745486 -146.9062064