processor job /u/sardine0/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:/export/air31/airops/6395 Enter the C-band output disk name (def:/u/air16/airops) : C-band output data disk: /export/air35/airops/6395 Enter the L-band output disk name (def:/u/air16/airops) : L-band output data disk: /export/air35/airops/6395 Enter the P-band output disk name (def:/u/air16/airops) : P-band output data disk: /export/air35/airops/6395 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 #: 90 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 #:ts6395 What is the # of lines of download tape (def=40960)? # of lines for download: 42000 # of lines for download: 42000 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)? 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 #:cm6395 cm/ts #:cm6395 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 9 3 40 10 raw disk:/export/air31/airops/6395 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 #:cm6395 cm/ts #:cm6395 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 9 3 40 10 raw disk:/export/air31/airops/6395 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 #:cm6395 cm/ts #:cm6395 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 18 6 20 10 raw disk:/export/air31/airops/6395 creating p_hh.com creating p_hv.com creating p_vh.com creating p_vv.com ***** Please run "gencom_all" now! ****************************************************** * * * 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) Enter BW: Enter p_deskew: Enter ocean_flag: Enter pulse width: /u/sardine0/airops/OPS/AIPT_pfa/ xdelay 40 Mhz: -0.5025000 proc_mode 0 nbytes: 6144 line1: 1 nlines 236000 lgt_az 2586 sensor_out/export/air31/airops/6395/sensor.inu nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 2586 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2586 sensor_out/export/air31/airops/6395/sensor.cp_2000 nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 2586 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 sensor_out/export/air31/airops/6395/sensor.lp_2000 nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 4700 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 sensor_out/export/air31/airops/6395/sensor.pp_2000 nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 4700 Sensor 2000 hddt: 90 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. Write DESKEW_CVV.COM file. Wrote MLOOK_LINESC.COM file. Wrote MULTILOOK_C.COM file. Wrote RADIOMETRIC_C.COM file Wrote COMPRESS_C.COM file cctid:6395 Wrote C_PIC.COM file Wrote HD.COM file p_flag = 0 ****************************************************** * * * 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) Enter BW: Enter p_deskew: Enter ocean_flag: Enter pulse width: /u/sardine0/airops/OPS/AIPT_pfa/ xdelay 40 Mhz: -0.5025000 proc_mode 0 nbytes: 6144 line1: 1 nlines 236000 lgt_az 2586 sensor_out/export/air31/airops/6395/sensor.inu nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 2586 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2586 sensor_out/export/air31/airops/6395/sensor.cp_2000 nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 2586 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 sensor_out/export/air31/airops/6395/sensor.lp_2000 nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 4700 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 sensor_out/export/air31/airops/6395/sensor.pp_2000 nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 4700 Sensor 2000 hddt: 90 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. Write DESKEW_LVV.COM file. Wrote MLOOK_LINESL.COM file. Wrote MULTILOOK_L.COM file. Wrote RADIOMETRIC_L.COM file Wrote COMPRESS_L.COM file cctid:6395 Wrote L_PIC.COM file p_flag = 0 ****************************************************** * * * 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) Enter BW: Enter p_deskew: Enter ocean_flag: Enter pulse width: /u/sardine0/airops/OPS/AIPT_pfa/ xdelay 20 Mhz: -1.027807 proc_mode 0 nbytes: 6144 line1: 1 nlines 236000 lgt_az 2586 sensor_out/export/air31/airops/6395/sensor.inu nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 2586 nbytes: 6144 line1: 1 nlines 21000 lgt_az 2586 sensor_out/export/air31/airops/6395/sensor.cp_2000 nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 2586 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 sensor_out/export/air31/airops/6395/sensor.lp_2000 nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 4700 nbytes: 6144 line1: 1 nlines 21000 lgt_az 4700 sensor_out/export/air31/airops/6395/sensor.pp_2000 nbytes: update sensor 6144 line1: 1 nlines 21000 lgt_az 4700 Sensor 2000 hddt: 90 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 cctid:6395 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. * * * ***************************************************** Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -0.5025000 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: - - - - - - - - - - - - - - - - - - - - - Names: John Boyett McCluskey, William Richard Fiechter, Walter E dward Brown Jr., Walter Felix Skotnicki, Takeshi Sato, Yunjin Ki m, Yunling Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/export/air31/airops/6395/c.hdr Which frequency? (C,L or P) frq:C number of channels transferred: # channels: 4 number of bytes/chan: # bytes: 0 total # of lines transferred: total lines: 21000 window delay: window delay 0 enter the .par filename : par filename:/export/air35/airops/6395/cm6395_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: 90 enter HDDT TID <0> : Sony TID: 49069 enter the title of image: title image BARBERSPOINT90-1 enter the CCT (job) ID: cct: 6395 target:BarbersPoint90-1 prod ID(cctid):6395 chrp_delay from subcomm header tapeID: 32.45000 90 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: 0.0000000E+00 idelay,chrp_delay,xdelay 91 32.45000 -0.5025000 near range delr windelay: 8851.746 3.331027 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 f_cal 43.59375 Parameter header created .. IGI lat: 1 21.26979075372219 IGI lon: 1 -158.1447502411902 get_subcomm_aiptEGI year i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 91.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):91 91.00000000000000 startrng(m) elecdelay: 8851.748298972740 3.2450000000000003E-05 >> start range = 8851.7483 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 12 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 6 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 17 0 >> ratn_lhv = 0 11 0 >> ratn_lvh = 0 11 0 >> ratn_lvv = 0 17 0 >> ratn_chh = 0 12 10 >> ratn_chv = 0 6 10 >> ratn_cvh = 0 6 10 >> ratn_cvv = 0 12 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 41984 21.26979075372219 -158.1447502411902 21.27000000000000 -158.1500000000000 7927.543200000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 8308.543200000000 0.6000000000000000 1.700000000000000 88.80000000000000 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 21.26991653442383 -158.1461944580078 0.0000000000000000E+00 0.0000000000000000E+00 24686272.00000000 ****gps_frame**** 1844866 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8851.748298972740 1 328 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 1865756.250000000 12124.97880680823 gpsT doy: 287 10 13 gpsT: 24686272.38000000 2000 10 13 5 17 52 0.3800000000000000 week# 1 ED0 GPS week num: 59 GPS i_pass: -1 main header kk hwTIME: 1 451072.5066720000 EGI msg 1 msl alt(from eo17): 8353.674863818360 EGI msg 1 wander angle(from eo17): 88.67614746093750 EGI09 lat: 21.26979075372219 EGI09 lon: -158.1447502411902 EGI09 alt: 6849.000000000000 EGI09 Height_above_ellipsoid - height_msl: 4.876800000000000 EGI-09 word11 gps Vel East m/s: 214.6642180664062 EGI-09 word12 gps Vel North m/s: 2.844795252227784 EGI-09 word13 gps Vel Upper m/s: -12.16724191818237 EGI-09 GPS Position FOM : 2.000000000000000 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 1 118 C023 EO-9(17)nav FOM 1 8102 118 EO-16(30)Time FOM 1 300 118 EGI-09 w21-22geod_utctime: 19058.78247070313 EGI-09 Time Valid: 0.9699840000000000 EGI-18 dec32 Vel North m/s: 0.6066311597824097 EGI-18 dec32 Vel East m/s: 224.6314086914063 EGI-18 dec32 Vel Upper m/s: -0.1563717424869537 EGI-10 GPS week number: 59 EGI-13 GPS sigma Pos-x/y/z: 1.875000000000000 1.500000000000000 2.625000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 5.9814453125000000E-03 1.4038085937500000E-02 EGI-13 GPS sigma roll/pitch/az: 4.3713210688081606E-04 4.3713210688081606E-04 1.3113963206424482E-03 r_time_tag_17: 1.460032000000000 EGI-16 time fom;year doy: 3 0 287 EO17 vel-x/y/z: 1.354833581542969 -216.1329167907715 8.7416757202148448E-02 EO17 wrander az roll pitch az: 1.547690741177369 0.3680419921875000 1.571044921875000 88.60473632812500 EO17 r_cnexx/y/z: 0.9318813364952803 -1.2366678565740585E-03 0.3627611631527543 EO17 r_lon: -158.1437308341265 EO16 GPS FOM (acc): 3.000000000000000 EGI-18 w1-8: E000 49DC 3FDA F5E8 dec64: 985B 4794 E3AF 5E89 r_hwgpstime(1): 451070.8425181365 r_utctime_18: 19057.84251813832 EGI-18 dec32 lat: 21.26983403772876 EGI-18 dec32 lon: -158.1466508349605 EGI-18 dec32 sea level alt: 8353.429687500000 EGI-18 dec32 WGS84 alt: 8358.529296875000 WGS84_alt-msl_alt: 5.099609375000000 del time from EO18 word10: -1.0000000000000001E-09 del time EO18 word10: 1 FFFF 2 e22_msg(1) satellite 1: 1E e22_msg(3) satellite 2: 9 e22_msg(5) satellite 3: 4 e22_msg(7) satellite 4: 1A e22_msg(9) satellite 5: 1D EGI-22 Tdop: 3.031250000000000 2.671875000000000 1.359375000000000 2.296875000000000 1.437500000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 5 0.4900480000000000 geod_utctime time_tag_17 time_valid: 19058.78247070313 1.460032000000000 0.9699840000000000 r_utc_ttag r_del_time_18: 451072.2725187021 -1.0000000000000001E-09 J2000 r_hwtime = 24686272.50667200 GPS J2000 time = 24686272.27251870 Message 1 Time = 24686272.50667200 INS Time = 1.694336000000000 Roll angle = 0.3900146484375000 Pitch angle = 1.571044921875000 Heading angle = 88.60473632812500 Long. acc = 0.2200000000000000 Lat. acc = 5.9999999999999998E-02 Norm. acc = -9.750000000000000 East vel. = 216.1320000000000 North vel. = 1.620000000000000 Up vel. = 8.7000000000000008E-02 True Grnd Spd = 216.1250000000000 Altitude = 8359.000000000000 Latitude = 21.26986904069781 Longitude = -158.1432434264570 Message 6 Week = 59 GPS Time = 24686272.27251870 GDOP = 3.031250000000000 PDOP = 2.671875000000000 HDOP = 1.359375000000000 VDOP = 2.296875000000000 TDOP = 1.437500000000000 Spherical Acc = 2.000000000000000 Time Acc = 3.000000000000000 GPS Lat = 21.26983403772876 GPS Lon = -158.1466508349605 GPS Alt = 8358.529296875000 GPS East Vel = 224.6314086914063 GPS North Vel = 0.6066311597824097 GPS Up Vel = -0.1563717424869537 Message 4 Sigma Pos x = 1.875000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.625000000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 5.9814453125000000E-03 Sigma Vel z = 1.4038085937500000E-02 Message 7 Satellites used = 30 9 4 26 29 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 Honeywell EGI98Fall for gps-hgt 3187 20008 8358.808265179692 Done decoding data from header array... Data collected on ==> 13-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 24686272.3800 24686323.3260 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61538 88.54980 88.73108 0.0358182 0 trc 89.69191 89.56605 89.76349 0.0377229 0 tgs 216.28398 216.12500 216.37500 0.0745757 0 roll 0.09928 -0.10437 0.45044 0.1097652 0 pitch 1.55211 1.51062 1.60400 0.0278613 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14324 -158.13262 0.0030769 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09822 -158.15000 -158.04667 0.0299082 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.49627 8308.54320 8332.01280 5.3498007 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75976 88.70000 88.90000 0.0496568 0 dad 0.94726 0.70000 1.00000 0.0748480 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.80827 8359.13271 0.0881038 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14324 -158.03964 0.0299188 0 hwalt 8359.27250 8358.80827 8360.73460 0.4271337 0 hwev 216.28800 216.13200 216.37700 0.0744637 0 hwnv 1.16185 0.89300 1.62000 0.1400571 0 hwuv 0.07155 -0.05400 0.23500 0.0857045 0 hwroll 0.09847 -0.10437 0.45044 0.1088824 0 hwpitch 1.55205 1.51062 1.60400 0.0278846 0 hwhdg 88.61538 88.54980 88.73108 0.0358314 0 hwtrc 89.69224 89.57055 89.76349 0.0371919 0 hwtgs 216.28440 216.12500 216.37500 0.0742095 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... 24686273.00000000 i_yearind 20008 GPS time for first pulse = 24686272.38099190 24686272.38000000 New startrecT: 24686272.38099190 24686272.50667200 1 New start and number of records = 107 41843 New start and number of blocks = 1 328 +6+r_hwhead(10/200): 0.0000000000000000E+00 -3.8452148437500000E-02 88.59924316406250 GPS trend coefficients = -0.1421912406060422 0.2429450709556520 6.0768806167031453E-02 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61531 88.54980 88.73108 0.0357180 0 trc 89.69216 89.56605 89.76322 0.0372119 0 tgs 216.28434 216.12500 216.37500 0.0742596 0 roll 0.09845 -0.10437 0.45044 0.1089470 0 pitch 1.55205 1.51062 1.60400 0.0278892 0 delx 0.25730 0.00000 0.25736 0.0012582 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14321 -158.13265 0.0030766 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09827 -158.15000 -158.04667 0.0299732 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.50092 8308.54320 8332.01280 5.3511229 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75945 88.70000 88.80000 0.0490986 0 dad 0.94756 0.70000 1.00000 0.0748586 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.95014 8358.97538 0.0065941 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14321 -158.03967 0.0299187 0 hwalt 8359.27250 8358.80943 8360.73251 0.4271311 0 hwev 216.28800 216.13300 216.37700 0.0744630 0 hwnv 1.16185 0.89400 1.61700 0.1400535 0 hwuv 0.07155 -0.05400 0.23500 0.0857046 0 hwroll 0.09842 -0.10437 0.45044 0.1088939 0 hwpitch 1.55205 1.51062 1.60400 0.0279026 0 hwhdg 88.61534 88.54980 88.73108 0.0358222 0 hwtrc 89.69221 89.57135 89.76322 0.0371943 0 hwtgs 216.28427 216.12500 216.37500 0.0741944 0 Finished final analysis of data... Average Barometric Altitude = 7927.384295121976 Average Radar Altitude = 8321.500917073146 Average GPS Altitude = 8358.965703807255 >>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/sardine0/airops/OPS/QA_Proc/pbn_decode.pl /export/air31/airops/6395/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: 327 Number of valid data points = 327 Start time GPS data = 24686271.00000261 End time GPS data = 24686321.00000321 Positions and Distances Start position = 21.2700082 -158.1212684 8366.998 End position = 21.2702604 -158.0692353 8366.502 Loxodromic Heading (deg) = 89.7037919 Loxodromic Distance (km) = 5400.1823701 Geodesic Heading (deg) = 89.6943540 Geodesic Distance (km) = 5400.1822298 Peg latitude and longitude = 21.2701382 -158.0942164 Peg heading = 89.6964733 Rotation matrix First row = -0.864597350 0.374859208 0.334592284 Second row = -0.347667290 -0.927068608 0.140254240 Third row = 0.362765596 0.004936652 0.931867347 Translation vector Vector = -0.90613 -0.36437 -15495.69380 Local Radius of Curvature = 6380947.292532770 startrec dgps_pacrim2k: 107 41843 **i_ts: 107 24686272.50600000 24686271.00000261 1.505997393280268 Start and end pulse used = 107 40029 gmt sec s e = 24686272.50600000 24686320.00049095 dgps sec s = 24686271.00000261 24686320.00000321 r_tsv: -5526209.829357618 -2216344.480607412 2302298.257824737 r_tev: -5522237.873828896 -2226168.938793111 2302352.694968707 lat/lon r_geodis: 0.3712289775194217 -2.760172386273320 0.3712381081092658 -2.758392600989121 10583.26287225188 Ellipsoidal delta s (m) = 0.2650985139084185 DGPS... lat/lon r_geodis: -3.1648954223621963E-07 -8.4596004312578450E-04 -3.6028332996772156E-08 8.1261233825601770E-04 10583.26309779226 Delta s on reference surface = 0.2650985195579446 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/export/air35/airops/6395/cm6395_c.peg DGPS Peg latitude and longitude = 21.2701382 -158.0942164 DGPS Peg heading = 89.6964733 == dgps_egi == r_hwheadf: 88.59924316406250 -3.8452148437500000E-02 5.4931640625000000E-03 107 Making final angle restore...Honeywell 88.59924316406250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 2.2657465752277139E-04 Standard deviation of difference = 1.3515509025990833E-04 Making fits... Vertical fit coefficients = 8369.507111141511 -1.3961879573002989E-02 5.1040686610548391E-06 Cross track fit coefficients = -0.7376539925423439 5.0317555036837318E-02 -6.6105986553005721E-04 Along track fit coefficients = 0.2942850757127838 2.4693515377133962E-03 -1.6983115265207935E-04 avg alt (1): 8369.507111141511 alt r_avgrefh: 8369.624996553428 i_yearind p-hgt t-hgt: 20008 8369.507111141511 0.0000000E+00 avg_ralt tmp: 8369.506835937500 8369.507 enter proc_alt: -1.000000 yaw: -1.109508 88.60473632812500 89.71424466989063 107 tape #: 90 PRF at the start of the run: 840.0537748040234 840.0538 Miscellaneous Information Start range = 8851.748298972740 Start ground range = 2881.805557556278 Time orgin = 24686272.38099190 Pulse spacing = 0.2572996020473780 First frame = 1845292 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. * * * ***************************************************** Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -0.5025000 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: - - - - - - - - - - - - - - - - - - - - - Names: John Boyett McCluskey, William Richard Fiechter, Walter E dward Brown Jr., Walter Felix Skotnicki, Takeshi Sato, Yunjin Ki m, Yunling Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/export/air31/airops/6395/l.hdr Which frequency? (C,L or P) frq:L number of channels transferred: # channels: 4 number of bytes/chan: # bytes: 0 total # of lines transferred: total lines: 21000 window delay: window delay 0 enter the .par filename : par filename:/export/air35/airops/6395/cm6395_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: 90 enter HDDT TID <0> : Sony TID: 49069 enter the title of image: title image BARBERSPOINT90-1 enter the CCT (job) ID: cct: 6395 target:BarbersPoint90-1 prod ID(cctid):6395 chrp_delay from subcomm header tapeID: 32.45000 90 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: 0.0000000E+00 idelay,chrp_delay,xdelay 91 32.45000 -0.5025000 near range delr windelay: 8851.746 3.331027 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 f_cal 43.59375 Parameter header created .. IGI lat: 1 21.26979075372219 IGI lon: 1 -158.1447502411902 get_subcomm_aiptEGI year i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 91.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):91 91.00000000000000 startrng(m) elecdelay: 8851.748298972740 3.2450000000000003E-05 >> start range = 8851.7483 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 12 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 6 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 17 0 >> ratn_lhv = 0 11 0 >> ratn_lvh = 0 11 0 >> ratn_lvv = 0 17 0 >> ratn_chh = 0 12 10 >> ratn_chv = 0 6 10 >> ratn_cvh = 0 6 10 >> ratn_cvv = 0 12 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 41984 21.26979075372219 -158.1447502411902 21.27000000000000 -158.1500000000000 7927.543200000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 8308.543200000000 0.6000000000000000 1.700000000000000 88.80000000000000 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 21.26991653442383 -158.1461944580078 0.0000000000000000E+00 0.0000000000000000E+00 24686272.00000000 ****gps_frame**** 1844866 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8851.748298972740 1 328 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 1865756.250000000 12124.97880680823 gpsT doy: 287 10 13 gpsT: 24686272.38000000 2000 10 13 5 17 52 0.3800000000000000 week# 1 ED0 GPS week num: 59 GPS i_pass: -1 main header kk hwTIME: 1 451072.5066720000 EGI msg 1 msl alt(from eo17): 8353.674863818360 EGI msg 1 wander angle(from eo17): 88.67614746093750 EGI09 lat: 21.26979075372219 EGI09 lon: -158.1447502411902 EGI09 alt: 6849.000000000000 EGI09 Height_above_ellipsoid - height_msl: 4.876800000000000 EGI-09 word11 gps Vel East m/s: 214.6642180664062 EGI-09 word12 gps Vel North m/s: 2.844795252227784 EGI-09 word13 gps Vel Upper m/s: -12.16724191818237 EGI-09 GPS Position FOM : 2.000000000000000 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 1 118 C023 EO-9(17)nav FOM 1 8102 118 EO-16(30)Time FOM 1 300 118 EGI-09 w21-22geod_utctime: 19058.78247070313 EGI-09 Time Valid: 0.9699840000000000 EGI-18 dec32 Vel North m/s: 0.6066311597824097 EGI-18 dec32 Vel East m/s: 224.6314086914063 EGI-18 dec32 Vel Upper m/s: -0.1563717424869537 EGI-10 GPS week number: 59 EGI-13 GPS sigma Pos-x/y/z: 1.875000000000000 1.500000000000000 2.625000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 5.9814453125000000E-03 1.4038085937500000E-02 EGI-13 GPS sigma roll/pitch/az: 4.3713210688081606E-04 4.3713210688081606E-04 1.3113963206424482E-03 r_time_tag_17: 1.460032000000000 EGI-16 time fom;year doy: 3 0 287 EO17 vel-x/y/z: 1.354833581542969 -216.1329167907715 8.7416757202148448E-02 EO17 wrander az roll pitch az: 1.547690741177369 0.3680419921875000 1.571044921875000 88.60473632812500 EO17 r_cnexx/y/z: 0.9318813364952803 -1.2366678565740585E-03 0.3627611631527543 EO17 r_lon: -158.1437308341265 EO16 GPS FOM (acc): 3.000000000000000 EGI-18 w1-8: E000 49DC 3FDA F5E8 dec64: 985B 4794 E3AF 5E89 r_hwgpstime(1): 451070.8425181365 r_utctime_18: 19057.84251813832 EGI-18 dec32 lat: 21.26983403772876 EGI-18 dec32 lon: -158.1466508349605 EGI-18 dec32 sea level alt: 8353.429687500000 EGI-18 dec32 WGS84 alt: 8358.529296875000 WGS84_alt-msl_alt: 5.099609375000000 del time from EO18 word10: -1.0000000000000001E-09 del time EO18 word10: 1 FFFF 2 e22_msg(1) satellite 1: 1E e22_msg(3) satellite 2: 9 e22_msg(5) satellite 3: 4 e22_msg(7) satellite 4: 1A e22_msg(9) satellite 5: 1D EGI-22 Tdop: 3.031250000000000 2.671875000000000 1.359375000000000 2.296875000000000 1.437500000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 5 0.4900480000000000 geod_utctime time_tag_17 time_valid: 19058.78247070313 1.460032000000000 0.9699840000000000 r_utc_ttag r_del_time_18: 451072.2725187021 -1.0000000000000001E-09 J2000 r_hwtime = 24686272.50667200 GPS J2000 time = 24686272.27251870 Message 1 Time = 24686272.50667200 INS Time = 1.694336000000000 Roll angle = 0.3900146484375000 Pitch angle = 1.571044921875000 Heading angle = 88.60473632812500 Long. acc = 0.2200000000000000 Lat. acc = 5.9999999999999998E-02 Norm. acc = -9.750000000000000 East vel. = 216.1320000000000 North vel. = 1.620000000000000 Up vel. = 8.7000000000000008E-02 True Grnd Spd = 216.1250000000000 Altitude = 8359.000000000000 Latitude = 21.26986904069781 Longitude = -158.1432434264570 Message 6 Week = 59 GPS Time = 24686272.27251870 GDOP = 3.031250000000000 PDOP = 2.671875000000000 HDOP = 1.359375000000000 VDOP = 2.296875000000000 TDOP = 1.437500000000000 Spherical Acc = 2.000000000000000 Time Acc = 3.000000000000000 GPS Lat = 21.26983403772876 GPS Lon = -158.1466508349605 GPS Alt = 8358.529296875000 GPS East Vel = 224.6314086914063 GPS North Vel = 0.6066311597824097 GPS Up Vel = -0.1563717424869537 Message 4 Sigma Pos x = 1.875000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.625000000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 5.9814453125000000E-03 Sigma Vel z = 1.4038085937500000E-02 Message 7 Satellites used = 30 9 4 26 29 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 Honeywell EGI98Fall for gps-hgt 3187 20008 8358.808265179692 Done decoding data from header array... Data collected on ==> 13-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 24686272.3800 24686322.3260 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61538 88.54980 88.73108 0.0358182 0 trc 89.69191 89.56605 89.76349 0.0377229 0 tgs 216.28398 216.12500 216.37500 0.0745757 0 roll 0.09928 -0.10437 0.45044 0.1097652 0 pitch 1.55211 1.51062 1.60400 0.0278613 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14324 -158.13262 0.0030769 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09822 -158.15000 -158.04667 0.0299082 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.49627 8308.54320 8332.01280 5.3498007 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75976 88.70000 88.90000 0.0496568 0 dad 0.94726 0.70000 1.00000 0.0748480 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.80827 8359.13271 0.0881038 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14324 -158.03964 0.0299188 0 hwalt 8359.27250 8358.80827 8360.73460 0.4271337 0 hwev 216.28800 216.13200 216.37700 0.0744637 0 hwnv 1.16185 0.89300 1.62000 0.1400571 0 hwuv 0.07155 -0.05400 0.23500 0.0857045 0 hwroll 0.09847 -0.10437 0.45044 0.1088824 0 hwpitch 1.55205 1.51062 1.60400 0.0278846 0 hwhdg 88.61538 88.54980 88.73108 0.0358314 0 hwtrc 89.69224 89.57055 89.76349 0.0371919 0 hwtgs 216.28440 216.12500 216.37500 0.0742095 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... 24686273.00000000 i_yearind 20008 GPS time for first pulse = 24686272.38099190 24686272.38000000 New startrecT: 24686272.38099190 24686272.50667200 1 New start and number of records = 107 41843 New start and number of blocks = 1 328 +6+r_hwhead(10/200): 0.0000000000000000E+00 -3.8452148437500000E-02 88.59924316406250 GPS trend coefficients = -0.1421912406060422 0.2429450709556520 6.0768806167031453E-02 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61531 88.54980 88.73108 0.0357180 0 trc 89.69216 89.56605 89.76322 0.0372119 0 tgs 216.28434 216.12500 216.37500 0.0742596 0 roll 0.09845 -0.10437 0.45044 0.1089470 0 pitch 1.55205 1.51062 1.60400 0.0278892 0 delx 0.25730 0.00000 0.25736 0.0012582 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14321 -158.13265 0.0030766 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09827 -158.15000 -158.04667 0.0299732 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.50092 8308.54320 8332.01280 5.3511229 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75945 88.70000 88.80000 0.0490986 0 dad 0.94756 0.70000 1.00000 0.0748586 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.95014 8358.97538 0.0065941 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14321 -158.03967 0.0299187 0 hwalt 8359.27250 8358.80943 8360.73251 0.4271311 0 hwev 216.28800 216.13300 216.37700 0.0744630 0 hwnv 1.16185 0.89400 1.61700 0.1400535 0 hwuv 0.07155 -0.05400 0.23500 0.0857046 0 hwroll 0.09842 -0.10437 0.45044 0.1088939 0 hwpitch 1.55205 1.51062 1.60400 0.0279026 0 hwhdg 88.61534 88.54980 88.73108 0.0358222 0 hwtrc 89.69221 89.57135 89.76322 0.0371943 0 hwtgs 216.28427 216.12500 216.37500 0.0741944 0 Finished final analysis of data... Average Barometric Altitude = 7927.384295121976 Average Radar Altitude = 8321.500917073146 Average GPS Altitude = 8358.965703807255 >>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/sardine0/airops/OPS/QA_Proc/pbn_decode.pl /export/air31/airops/6395/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: 327 Number of valid data points = 327 Start time GPS data = 24686271.00000261 End time GPS data = 24686321.00000321 Positions and Distances Start position = 21.2700082 -158.1212684 8366.998 End position = 21.2702604 -158.0692353 8366.502 Loxodromic Heading (deg) = 89.7037919 Loxodromic Distance (km) = 5400.1823701 Geodesic Heading (deg) = 89.6943540 Geodesic Distance (km) = 5400.1822298 Peg latitude and longitude = 21.2701382 -158.0942164 Peg heading = 89.6964733 Rotation matrix First row = -0.864597350 0.374859208 0.334592284 Second row = -0.347667290 -0.927068608 0.140254240 Third row = 0.362765596 0.004936652 0.931867347 Translation vector Vector = -0.90613 -0.36437 -15495.69380 Local Radius of Curvature = 6380947.292532770 startrec dgps_pacrim2k: 107 41843 **i_ts: 107 24686272.50600000 24686271.00000261 1.505997393280268 Start and end pulse used = 107 40028 gmt sec s e = 24686272.50600000 24686320.00000000 dgps sec s = 24686271.00000261 24686320.00000321 r_tsv: -5526209.829357618 -2216344.480607412 2302298.257824737 r_tev: -5522237.873828896 -2226168.938793111 2302352.694968707 lat/lon r_geodis: 0.3712289775194217 -2.760172386273320 0.3712381081092658 -2.758392600989121 10583.26287225188 Ellipsoidal delta s (m) = 0.2651051544864078 DGPS... lat/lon r_geodis: -3.1648954223621963E-07 -8.4596004312578450E-04 -3.6028332996772156E-08 8.1261233825601770E-04 10583.26309779226 Delta s on reference surface = 0.2651051601360753 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/export/air35/airops/6395/cm6395_l.peg DGPS Peg latitude and longitude = 21.2701382 -158.0942164 DGPS Peg heading = 89.6964733 == dgps_egi == r_hwheadf: 88.59924316406250 -3.8452148437500000E-02 5.4931640625000000E-03 107 Making final angle restore...Honeywell 88.59924316406250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 4.6121871984147712E-04 Standard deviation of difference = 2.9067768421206318E-04 Making fits... Vertical fit coefficients = 8369.507111141511 -1.3961879573002989E-02 5.1040686610548391E-06 Cross track fit coefficients = -0.7376539925423439 5.0317555036837318E-02 -6.6105986553005721E-04 Along track fit coefficients = 0.2942850757127838 2.4693515377133962E-03 -1.6983115265207935E-04 avg alt (1): 8369.507111141511 alt r_avgrefh: 8369.624996553428 i_yearind p-hgt t-hgt: 20008 8369.507111141511 0.0000000E+00 avg_ralt tmp: 8369.506835937500 8369.507 enter proc_alt: -1.000000 yaw: -1.109508 88.60473632812500 89.71424466989063 107 tape #: 90 PRF at the start of the run: 840.0537748040234 840.0538 Miscellaneous Information Start range = 8851.748298972740 Start ground range = 2881.805557556278 Time orgin = 24686272.38099190 Pulse spacing = 0.2572996020473780 First frame = 1845292 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. * * * ***************************************************** Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -1.027807 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: - - - - - - - - - - - - - - - - - - - - - Names: John Boyett McCluskey, William Richard Fiechter, Walter E dward Brown Jr., Walter Felix Skotnicki, Takeshi Sato, Yunjin Ki m, Yunling Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/export/air31/airops/6395/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: 21000 window delay: window delay 0 enter the .par filename : par filename:/export/air35/airops/6395/cm6395_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: 90 enter HDDT TID <0> : Sony TID: 49069 enter the title of image: title image BARBERSPOINT90-1 enter the CCT (job) ID: cct: 6395 target:BarbersPoint90-1 prod ID(cctid):6395 chrp_delay from subcomm header tapeID: 32.45000 90 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: 0.0000000E+00 gen_par_aipt P-band fs ntapeid: 45.00000 90 idelay,chrp_delay,xdelay 91 32.45000 -1.027807 near range delr windelay: 8930.488 6.662055 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 f_cal 21.44530 Parameter header created .. IGI lat: 1 21.26979075372219 IGI lon: 1 -158.1447502411902 get_subcomm_aiptEGI year i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 91.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):91 91.00000000000000 startrng(m) elecdelay: 8930.489852849636 3.2450000000000003E-05 >> start range = 8930.4899 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 12 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 6 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 17 0 >> ratn_lhv = 0 11 0 >> ratn_lvh = 0 11 0 >> ratn_lvv = 0 17 0 >> ratn_chh = 0 12 10 >> ratn_chv = 0 6 10 >> ratn_cvh = 0 6 10 >> ratn_cvv = 0 12 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 41984 21.26979075372219 -158.1447502411902 21.27000000000000 -158.1500000000000 7927.543200000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 8308.543200000000 0.6000000000000000 1.700000000000000 88.80000000000000 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 21.26991653442383 -158.1461944580078 0.0000000000000000E+00 0.0000000000000000E+00 24686272.00000000 ****gps_frame**** 1844866 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8930.489852849636 1 328 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 1865756.250000000 12124.97880680823 gpsT doy: 287 10 13 gpsT: 24686272.38000000 2000 10 13 5 17 52 0.3800000000000000 week# 1 ED0 GPS week num: 59 GPS i_pass: -1 main header kk hwTIME: 1 451072.5066720000 EGI msg 1 msl alt(from eo17): 8353.674863818360 EGI msg 1 wander angle(from eo17): 88.67614746093750 EGI09 lat: 21.26979075372219 EGI09 lon: -158.1447502411902 EGI09 alt: 6849.000000000000 EGI09 Height_above_ellipsoid - height_msl: 4.876800000000000 EGI-09 word11 gps Vel East m/s: 214.6642180664062 EGI-09 word12 gps Vel North m/s: 2.844795252227784 EGI-09 word13 gps Vel Upper m/s: -12.16724191818237 EGI-09 GPS Position FOM : 2.000000000000000 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 1 118 C023 EO-9(17)nav FOM 1 8102 118 EO-16(30)Time FOM 1 300 118 EGI-09 w21-22geod_utctime: 19058.78247070313 EGI-09 Time Valid: 0.9699840000000000 EGI-18 dec32 Vel North m/s: 0.6066311597824097 EGI-18 dec32 Vel East m/s: 224.6314086914063 EGI-18 dec32 Vel Upper m/s: -0.1563717424869537 EGI-10 GPS week number: 59 EGI-13 GPS sigma Pos-x/y/z: 1.875000000000000 1.500000000000000 2.625000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 5.9814453125000000E-03 1.4038085937500000E-02 EGI-13 GPS sigma roll/pitch/az: 4.3713210688081606E-04 4.3713210688081606E-04 1.3113963206424482E-03 r_time_tag_17: 1.460032000000000 EGI-16 time fom;year doy: 3 0 287 EO17 vel-x/y/z: 1.354833581542969 -216.1329167907715 8.7416757202148448E-02 EO17 wrander az roll pitch az: 1.547690741177369 0.3680419921875000 1.571044921875000 88.60473632812500 EO17 r_cnexx/y/z: 0.9318813364952803 -1.2366678565740585E-03 0.3627611631527543 EO17 r_lon: -158.1437308341265 EO16 GPS FOM (acc): 3.000000000000000 EGI-18 w1-8: E000 49DC 3FDA F5E8 dec64: 985B 4794 E3AF 5E89 r_hwgpstime(1): 451070.8425181365 r_utctime_18: 19057.84251813832 EGI-18 dec32 lat: 21.26983403772876 EGI-18 dec32 lon: -158.1466508349605 EGI-18 dec32 sea level alt: 8353.429687500000 EGI-18 dec32 WGS84 alt: 8358.529296875000 WGS84_alt-msl_alt: 5.099609375000000 del time from EO18 word10: -1.0000000000000001E-09 del time EO18 word10: 1 FFFF 2 e22_msg(1) satellite 1: 1E e22_msg(3) satellite 2: 9 e22_msg(5) satellite 3: 4 e22_msg(7) satellite 4: 1A e22_msg(9) satellite 5: 1D EGI-22 Tdop: 3.031250000000000 2.671875000000000 1.359375000000000 2.296875000000000 1.437500000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 5 0.4900480000000000 geod_utctime time_tag_17 time_valid: 19058.78247070313 1.460032000000000 0.9699840000000000 r_utc_ttag r_del_time_18: 451072.2725187021 -1.0000000000000001E-09 J2000 r_hwtime = 24686272.50667200 GPS J2000 time = 24686272.27251870 Message 1 Time = 24686272.50667200 INS Time = 1.694336000000000 Roll angle = 0.3900146484375000 Pitch angle = 1.571044921875000 Heading angle = 88.60473632812500 Long. acc = 0.2200000000000000 Lat. acc = 5.9999999999999998E-02 Norm. acc = -9.750000000000000 East vel. = 216.1320000000000 North vel. = 1.620000000000000 Up vel. = 8.7000000000000008E-02 True Grnd Spd = 216.1250000000000 Altitude = 8359.000000000000 Latitude = 21.26986904069781 Longitude = -158.1432434264570 Message 6 Week = 59 GPS Time = 24686272.27251870 GDOP = 3.031250000000000 PDOP = 2.671875000000000 HDOP = 1.359375000000000 VDOP = 2.296875000000000 TDOP = 1.437500000000000 Spherical Acc = 2.000000000000000 Time Acc = 3.000000000000000 GPS Lat = 21.26983403772876 GPS Lon = -158.1466508349605 GPS Alt = 8358.529296875000 GPS East Vel = 224.6314086914063 GPS North Vel = 0.6066311597824097 GPS Up Vel = -0.1563717424869537 Message 4 Sigma Pos x = 1.875000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.625000000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 5.9814453125000000E-03 Sigma Vel z = 1.4038085937500000E-02 Message 7 Satellites used = 30 9 4 26 29 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 Honeywell EGI98Fall for gps-hgt 3187 20008 8358.808265179692 Done decoding data from header array... Data collected on ==> 13-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 24686272.3800 24686322.3260 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61538 88.54980 88.73108 0.0358182 0 trc 89.69191 89.56605 89.76349 0.0377229 0 tgs 216.28398 216.12500 216.37500 0.0745757 0 roll 0.09928 -0.10437 0.45044 0.1097652 0 pitch 1.55211 1.51062 1.60400 0.0278613 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14324 -158.13262 0.0030769 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09822 -158.15000 -158.04667 0.0299082 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.49627 8308.54320 8332.01280 5.3498007 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75976 88.70000 88.90000 0.0496568 0 dad 0.94726 0.70000 1.00000 0.0748480 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.80827 8359.13271 0.0881038 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14324 -158.03964 0.0299188 0 hwalt 8359.27250 8358.80827 8360.73460 0.4271337 0 hwev 216.28800 216.13200 216.37700 0.0744637 0 hwnv 1.16185 0.89300 1.62000 0.1400571 0 hwuv 0.07155 -0.05400 0.23500 0.0857045 0 hwroll 0.09847 -0.10437 0.45044 0.1088824 0 hwpitch 1.55205 1.51062 1.60400 0.0278846 0 hwhdg 88.61538 88.54980 88.73108 0.0358314 0 hwtrc 89.69224 89.57055 89.76349 0.0371919 0 hwtgs 216.28440 216.12500 216.37500 0.0742095 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... 24686273.00000000 i_yearind 20008 GPS time for first pulse = 24686272.38099190 24686272.38000000 New startrecT: 24686272.38099190 24686272.50667200 1 New start and number of records = 107 41843 New start and number of blocks = 1 328 +6+r_hwhead(10/200): 0.0000000000000000E+00 -3.8452148437500000E-02 88.59924316406250 GPS trend coefficients = -0.1421912406060422 0.2429450709556520 6.0768806167031453E-02 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61531 88.54980 88.73108 0.0357180 0 trc 89.69216 89.56605 89.76322 0.0372119 0 tgs 216.28434 216.12500 216.37500 0.0742596 0 roll 0.09845 -0.10437 0.45044 0.1089470 0 pitch 1.55205 1.51062 1.60400 0.0278892 0 delx 0.25730 0.00000 0.25736 0.0012582 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14321 -158.13265 0.0030766 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09827 -158.15000 -158.04667 0.0299732 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.50092 8308.54320 8332.01280 5.3511229 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75945 88.70000 88.80000 0.0490986 0 dad 0.94756 0.70000 1.00000 0.0748586 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.95014 8358.97538 0.0065941 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14321 -158.03967 0.0299187 0 hwalt 8359.27250 8358.80943 8360.73251 0.4271311 0 hwev 216.28800 216.13300 216.37700 0.0744630 0 hwnv 1.16185 0.89400 1.61700 0.1400535 0 hwuv 0.07155 -0.05400 0.23500 0.0857046 0 hwroll 0.09842 -0.10437 0.45044 0.1088939 0 hwpitch 1.55205 1.51062 1.60400 0.0279026 0 hwhdg 88.61534 88.54980 88.73108 0.0358222 0 hwtrc 89.69221 89.57135 89.76322 0.0371943 0 hwtgs 216.28427 216.12500 216.37500 0.0741944 0 Finished final analysis of data... Average Barometric Altitude = 7927.384295121976 Average Radar Altitude = 8321.500917073146 Average GPS Altitude = 8358.965703807255 >>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/sardine0/airops/OPS/QA_Proc/pbn_decode.pl /export/air31/airops/6395/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: 327 Number of valid data points = 327 Start time GPS data = 24686271.00000261 End time GPS data = 24686321.00000321 Positions and Distances Start position = 21.2700082 -158.1212684 8366.998 End position = 21.2702604 -158.0692353 8366.502 Loxodromic Heading (deg) = 89.7037919 Loxodromic Distance (km) = 5400.1823701 Geodesic Heading (deg) = 89.6943540 Geodesic Distance (km) = 5400.1822298 Peg latitude and longitude = 21.2701382 -158.0942164 Peg heading = 89.6964733 Rotation matrix First row = -0.864597350 0.374859208 0.334592284 Second row = -0.347667290 -0.927068608 0.140254240 Third row = 0.362765596 0.004936652 0.931867347 Translation vector Vector = -0.90613 -0.36437 -15495.69380 Local Radius of Curvature = 6380947.292532770 startrec dgps_pacrim2k: 107 41843 **i_ts: 107 24686272.50600000 24686271.00000261 1.505997393280268 Start and end pulse used = 107 40028 gmt sec s e = 24686272.50600000 24686320.00000000 dgps sec s = 24686271.00000261 24686320.00000321 r_tsv: -5526209.829357618 -2216344.480607412 2302298.257824737 r_tev: -5522237.873828896 -2226168.938793111 2302352.694968707 lat/lon r_geodis: 0.3712289775194217 -2.760172386273320 0.3712381081092658 -2.758392600989121 10583.26287225188 Ellipsoidal delta s (m) = 0.2651051544864078 DGPS... lat/lon r_geodis: -3.1648954223621963E-07 -8.4596004312578450E-04 -3.6028332996772156E-08 8.1261233825601770E-04 10583.26309779226 Delta s on reference surface = 0.2651051601360753 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/export/air35/airops/6395/cm6395_p.peg DGPS Peg latitude and longitude = 21.2701382 -158.0942164 DGPS Peg heading = 89.6964733 == dgps_egi == r_hwheadf: 88.59924316406250 -3.8452148437500000E-02 5.4931640625000000E-03 107 Making final angle restore...Honeywell 88.59924316406250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 4.6121871984147712E-04 Standard deviation of difference = 2.9067768421206318E-04 Making fits... Vertical fit coefficients = 8369.507111141511 -1.3961879573002989E-02 5.1040686610548391E-06 Cross track fit coefficients = -0.7376539925423439 5.0317555036837318E-02 -6.6105986553005721E-04 Along track fit coefficients = 0.2942850757127838 2.4693515377133962E-03 -1.6983115265207935E-04 avg alt (1): 8369.507111141511 alt r_avgrefh: 8369.624996553428 i_yearind p-hgt t-hgt: 20008 8369.507111141511 0.0000000E+00 avg_ralt tmp: 8369.506835937500 8369.507 enter proc_alt: -1.000000 yaw: -1.109508 88.60473632812500 89.71424466989063 107 tape #: 90 PRF at the start of the run: 840.0537748040234 840.0538 Miscellaneous Information Start range = 8930.489852849636 Start ground range = 3115.285594459322 Time orgin = 24686272.38099190 Pulse spacing = 0.2572996020473780 First frame = 1845292 Thank you for your patronage Fri Aug 3 16:47:57 PDT 2001 Fri Aug 3 16:47:57 PDT 2001 ***************************************************** * * * 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. * * * ***************************************************** Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -0.5025000 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: - - - - - - - - - - - - - - - - - - - - - Names: John Boyett McCluskey, William Richard Fiechter, Walter E dward Brown Jr., Walter Felix Skotnicki, Takeshi Sato, Yunjin Ki m, Yunling Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/export/air31/airops/6395/c.hdr Which frequency? (C,L or P) frq:C number of channels transferred: # channels: 4 number of bytes/chan: # bytes: 0 total # of lines transferred: total lines: 21000 window delay: window delay 0 enter the .par filename : par filename:/export/air35/airops/6395/cm6395_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: 90 enter HDDT TID <0> : Sony TID: 49069 enter the title of image: title image BARBERSPOINT90-1 enter the CCT (job) ID: cct: 6395 target:BarbersPoint90-1 prod ID(cctid):6395 chrp_delay from subcomm header tapeID: 32.45000 90 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: 0.0000000E+00 idelay,chrp_delay,xdelay 91 32.45000 -0.5025000 near range delr windelay: 8851.746 3.331027 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 f_cal 43.59375 Parameter header created .. IGI lat: 1 21.26979075372219 IGI lon: 1 -158.1447502411902 get_subcomm_aiptEGI year i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 91.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):91 91.00000000000000 startrng(m) elecdelay: 8851.748298972740 3.2450000000000003E-05 >> start range = 8851.7483 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 12 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 6 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 17 0 >> ratn_lhv = 0 11 0 >> ratn_lvh = 0 11 0 >> ratn_lvv = 0 17 0 >> ratn_chh = 0 12 10 >> ratn_chv = 0 6 10 >> ratn_cvh = 0 6 10 >> ratn_cvv = 0 12 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 41984 21.26979075372219 -158.1447502411902 21.27000000000000 -158.1500000000000 7927.543200000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 8308.543200000000 0.6000000000000000 1.700000000000000 88.80000000000000 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 21.26991653442383 -158.1461944580078 0.0000000000000000E+00 0.0000000000000000E+00 24686272.00000000 ****gps_frame**** 1844866 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8851.748298972740 1 328 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 1865756.250000000 12124.97880680823 gpsT doy: 287 10 13 gpsT: 24686272.38000000 2000 10 13 5 17 52 0.3800000000000000 week# 1 ED0 GPS week num: 59 GPS i_pass: -1 main header kk hwTIME: 1 451072.5066720000 EGI msg 1 msl alt(from eo17): 8353.674863818360 EGI msg 1 wander angle(from eo17): 88.67614746093750 EGI09 lat: 21.26979075372219 EGI09 lon: -158.1447502411902 EGI09 alt: 6849.000000000000 EGI09 Height_above_ellipsoid - height_msl: 4.876800000000000 EGI-09 word11 gps Vel East m/s: 214.6642180664062 EGI-09 word12 gps Vel North m/s: 2.844795252227784 EGI-09 word13 gps Vel Upper m/s: -12.16724191818237 EGI-09 GPS Position FOM : 2.000000000000000 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 1 118 C023 EO-9(17)nav FOM 1 8102 118 EO-16(30)Time FOM 1 300 118 EGI-09 w21-22geod_utctime: 19058.78247070313 EGI-09 Time Valid: 0.9699840000000000 EGI-18 dec32 Vel North m/s: 0.6066311597824097 EGI-18 dec32 Vel East m/s: 224.6314086914063 EGI-18 dec32 Vel Upper m/s: -0.1563717424869537 EGI-10 GPS week number: 59 EGI-13 GPS sigma Pos-x/y/z: 1.875000000000000 1.500000000000000 2.625000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 5.9814453125000000E-03 1.4038085937500000E-02 EGI-13 GPS sigma roll/pitch/az: 4.3713210688081606E-04 4.3713210688081606E-04 1.3113963206424482E-03 r_time_tag_17: 1.460032000000000 EGI-16 time fom;year doy: 3 0 287 EO17 vel-x/y/z: 1.354833581542969 -216.1329167907715 8.7416757202148448E-02 EO17 wrander az roll pitch az: 1.547690741177369 0.3680419921875000 1.571044921875000 88.60473632812500 EO17 r_cnexx/y/z: 0.9318813364952803 -1.2366678565740585E-03 0.3627611631527543 EO17 r_lon: -158.1437308341265 EO16 GPS FOM (acc): 3.000000000000000 EGI-18 w1-8: E000 49DC 3FDA F5E8 dec64: 985B 4794 E3AF 5E89 r_hwgpstime(1): 451070.8425181365 r_utctime_18: 19057.84251813832 EGI-18 dec32 lat: 21.26983403772876 EGI-18 dec32 lon: -158.1466508349605 EGI-18 dec32 sea level alt: 8353.429687500000 EGI-18 dec32 WGS84 alt: 8358.529296875000 WGS84_alt-msl_alt: 5.099609375000000 del time from EO18 word10: -1.0000000000000001E-09 del time EO18 word10: 1 FFFF 2 e22_msg(1) satellite 1: 1E e22_msg(3) satellite 2: 9 e22_msg(5) satellite 3: 4 e22_msg(7) satellite 4: 1A e22_msg(9) satellite 5: 1D EGI-22 Tdop: 3.031250000000000 2.671875000000000 1.359375000000000 2.296875000000000 1.437500000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 5 0.4900480000000000 geod_utctime time_tag_17 time_valid: 19058.78247070313 1.460032000000000 0.9699840000000000 r_utc_ttag r_del_time_18: 451072.2725187021 -1.0000000000000001E-09 J2000 r_hwtime = 24686272.50667200 GPS J2000 time = 24686272.27251870 Message 1 Time = 24686272.50667200 INS Time = 1.694336000000000 Roll angle = 0.3900146484375000 Pitch angle = 1.571044921875000 Heading angle = 88.60473632812500 Long. acc = 0.2200000000000000 Lat. acc = 5.9999999999999998E-02 Norm. acc = -9.750000000000000 East vel. = 216.1320000000000 North vel. = 1.620000000000000 Up vel. = 8.7000000000000008E-02 True Grnd Spd = 216.1250000000000 Altitude = 8359.000000000000 Latitude = 21.26986904069781 Longitude = -158.1432434264570 Message 6 Week = 59 GPS Time = 24686272.27251870 GDOP = 3.031250000000000 PDOP = 2.671875000000000 HDOP = 1.359375000000000 VDOP = 2.296875000000000 TDOP = 1.437500000000000 Spherical Acc = 2.000000000000000 Time Acc = 3.000000000000000 GPS Lat = 21.26983403772876 GPS Lon = -158.1466508349605 GPS Alt = 8358.529296875000 GPS East Vel = 224.6314086914063 GPS North Vel = 0.6066311597824097 GPS Up Vel = -0.1563717424869537 Message 4 Sigma Pos x = 1.875000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.625000000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 5.9814453125000000E-03 Sigma Vel z = 1.4038085937500000E-02 Message 7 Satellites used = 30 9 4 26 29 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 Honeywell EGI98Fall for gps-hgt 3187 20008 8358.808265179692 Done decoding data from header array... Data collected on ==> 13-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 24686272.3800 24686323.3260 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61538 88.54980 88.73108 0.0358182 0 trc 89.69191 89.56605 89.76349 0.0377229 0 tgs 216.28398 216.12500 216.37500 0.0745757 0 roll 0.09928 -0.10437 0.45044 0.1097652 0 pitch 1.55211 1.51062 1.60400 0.0278613 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14324 -158.13262 0.0030769 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09822 -158.15000 -158.04667 0.0299082 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.49627 8308.54320 8332.01280 5.3498007 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75976 88.70000 88.90000 0.0496568 0 dad 0.94726 0.70000 1.00000 0.0748480 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.80827 8359.13271 0.0881038 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14324 -158.03964 0.0299188 0 hwalt 8359.27250 8358.80827 8360.73460 0.4271337 0 hwev 216.28800 216.13200 216.37700 0.0744637 0 hwnv 1.16185 0.89300 1.62000 0.1400571 0 hwuv 0.07155 -0.05400 0.23500 0.0857045 0 hwroll 0.09847 -0.10437 0.45044 0.1088824 0 hwpitch 1.55205 1.51062 1.60400 0.0278846 0 hwhdg 88.61538 88.54980 88.73108 0.0358314 0 hwtrc 89.69224 89.57055 89.76349 0.0371919 0 hwtgs 216.28440 216.12500 216.37500 0.0742095 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... 24686273.00000000 i_yearind 20008 GPS time for first pulse = 24686272.38099190 24686272.38000000 New startrecT: 24686272.38099190 24686272.50667200 1 New start and number of records = 107 41843 New start and number of blocks = 1 328 +6+r_hwhead(10/200): 0.0000000000000000E+00 -3.8452148437500000E-02 88.59924316406250 GPS trend coefficients = -0.1421912406060422 0.2429450709556520 6.0768806167031453E-02 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61531 88.54980 88.73108 0.0357180 0 trc 89.69216 89.56605 89.76322 0.0372119 0 tgs 216.28434 216.12500 216.37500 0.0742596 0 roll 0.09845 -0.10437 0.45044 0.1089470 0 pitch 1.55205 1.51062 1.60400 0.0278892 0 delx 0.25730 0.00000 0.25736 0.0012582 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14321 -158.13265 0.0030766 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09827 -158.15000 -158.04667 0.0299732 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.50092 8308.54320 8332.01280 5.3511229 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75945 88.70000 88Reading from stdin .80000 0.0490986 0 dad 0.94756 0.70000 1.00000 0.0748586 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.95014 8358.97538 0.0065941 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14321 -158.03967 0.0299187 0 hwalt 8359.27250 8358.80943 8360.73251 0.4271311 0 hwev 216.28800 216.13300 216.37700 0.0744630 0 hwnv 1.16185 0.89400 1.61700 0.1400535 0 hwuv 0.07155 -0.05400 0.23500 0.0857046 0 hwroll 0.09842 -0.10437 0.45044 0.1088939 0 hwpitch 1.55205 1.51062 1.60400 0.0279026 0 hwhdg 88.61534 88.54980 88.73108 0.0358222 0 hwtrc 89.69221 89.57135 89.76322 0.0371943 0 hwtgs 216.28427 216.12500 216.37500 0.0741944 0 Finished final analysis of data... Average Barometric Altitude = 7927.384295121976 Average Radar Altitude = 8321.500917073146 Average GPS Altitude = 8358.965703807255 >>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/sardine0/airops/OPS/QA_Proc/pbn_decode.pl /export/air31/airops/6395/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: 327 Number of valid data points = 327 Start time GPS data = 24686271.00000261 End time GPS data = 24686321.00000321 Positions and Distances Start position = 21.2700082 -158.1212684 8366.998 End position = 21.2702604 -158.0692353 8366.502 Loxodromic Heading (deg) = 89.7037919 Loxodromic Distance (km) = 5400.1823701 Geodesic Heading (deg) = 89.6943540 Geodesic Distance (km) = 5400.1822298 Peg latitude and longitude = 21.2701382 -158.0942164 Peg heading = 89.6964733 Rotation matrix First row = -0.864597350 0.374859208 0.334592284 Second row = -0.347667290 -0.927068608 0.140254240 Third row = 0.362765596 0.004936652 0.931867347 Translation vector Vector = -0.90613 -0.36437 -15495.69380 Local Radius of Curvature = 6380947.292532770 startrec dgps_pacrim2k: 107 41843 **i_ts: 107 24686272.50600000 24686271.00000261 1.505997393280268 Start and end pulse used = 107 40029 gmt sec s e = 24686272.50600000 24686320.00049095 dgps sec s = 24686271.00000261 24686320.00000321 r_tsv: -5526209.829357618 -2216344.480607412 2302298.257824737 r_tev: -5522237.873828896 -2226168.938793111 2302352.694968707 lat/lon r_geodis: 0.3712289775194217 -2.760172386273320 0.3712381081092658 -2.758392600989121 10583.26287225188 Ellipsoidal delta s (m) = 0.2650985139084185 DGPS... lat/lon r_geodis: -3.1648954223621963E-07 -8.4596004312578450E-04 -3.6028332996772156E-08 8.1261233825601770E-04 10583.26309779226 Delta s on reference surface = 0.2650985195579446 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/export/air35/airops/6395/cm6395_c.peg DGPS Peg latitude and longitude = 21.2701382 -158.0942164 DGPS Peg heading = 89.6964733 == dgps_egi == r_hwheadf: 88.59924316406250 -3.8452148437500000E-02 5.4931640625000000E-03 107 Making final angle restore...Honeywell 88.59924316406250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 2.2657465752277139E-04 Standard deviation of difference = 1.3515509025990833E-04 Making fits... Vertical fit coefficients = 8369.507111141511 -1.3961879573002989E-02 5.1040686610548391E-06 Cross track fit coefficients = -0.7376539925423439 5.0317555036837318E-02 -6.6105986553005721E-04 Along track fit coefficients = 0.2942850757127838 2.4693515377133962E-03 -1.6983115265207935E-04 avg alt (1): 8369.507111141511 alt r_avgrefh: 8369.624996553428 i_yearind p-hgt t-hgt: 20008 8369.507111141511 0.0000000E+00 avg_ralt tmp: 8369.506835937500 8369.507 enter proc_alt: -1.000000 yaw: -1.109508 88.60473632812500 89.71424466989063 107 tape #: 90 PRF at the start of the run: 840.0537748040234 840.0538 Miscellaneous Information Start range = 8851.748298972740 Start ground range = 2881.805557556278 Time orgin = 24686272.38099190 Pulse spacing = 0.2572996020473780 First frame = 1845292 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. /export/air35/airops/6395/cm6395_c.mocomp Name of the H-pol motion compensation file? /export/air35/airops/6395/cm6395_c.mocomph Name of the V-pol motion compensation file? /export/air35/airops/6395/cm6395_c.mocompv How many lines per polarization? 21000 + 1 + 10001 + 20001 + 30001 + 40001 ********************************************* * * * 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. /export/air35/airops/6395/cm6395_c.par Enter the raw data file name. /export/air31/airops/6395/c_hh Enter the motion compensation file name. /export/air35/airops/6395/cm6395_c.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_c_hh.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_c_hh.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_c_hh.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_c_hh.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1057 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (25.17851,0.0000000E+00) (25.17851,0.0000000E+00) (214.0173,0.0000000E+00) attenuation (dB): 22.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.0119782E+09 plot_x: 327 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.00613 Power RMS: 6.9877125E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 70844.62 Amp. RMS: 110.8512 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -3.515898 Phase RMS: 0.1132855 Incoherent PH 1st: -3.500401 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.01274 CalTone Power Coherently dB : 97.00613 Incoherent PW - Coherent PW : 6.6070557E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 70895.63 CalTone Amplitude Coherently : 70844.62 Incoherent Amp.- Coherent Amp. : 51.01563 ------------ *** ------------ running time (sec): 11.49 ********** 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. /export/air35/airops/6395/cm6395_c.par Enter the raw data file name. /export/air31/airops/6395/c_hv Enter the motion compensation file name. /export/air35/airops/6395/cm6395_c.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_c_hv.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_c_hv.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_c_hv.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_c_hv.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1057 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (75.71488,0.0000000E+00) (-69.40531,0.0000000E+00) (126.1915,0.0000000E+00) attenuation (dB): 16.00000 no_loop: 64 Pulse#/no_loop: 1 1057 4.8504494E+09 plot_x: 327 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 96.86307 Power RMS: 6.9877125E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 69687.00 Amp. RMS: 59.86652 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -12.88199 Phase RMS: 0.1064767 Incoherent PH 1st: -12.92010 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 96.86140 CalTone Power Coherently dB : 96.86307 Incoherent PW - Coherent PW : -1.6632080E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 69889.25 CalTone Amplitude Coherently : 69687.00 Incoherent Amp.- Coherent Amp. : 202.2500 ------------ *** ------------ running time (sec): 10.53 ********** 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. /export/air35/airops/6395/cm6395_c.par Enter the raw data file name. /export/air31/airops/6395/c_vh Enter the motion compensation file name. /export/air35/airops/6395/cm6395_c.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_c_vh.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_c_vh.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_c_vh.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_c_vh.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1057 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (56.78616,0.0000000E+00) (37.85744,0.0000000E+00) (138.8106,0.0000000E+00) attenuation (dB): 16.00000 no_loop: 64 Pulse#/no_loop: 1 1057 4.7315999E+09 plot_x: 327 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 96.75598 Power RMS: 0.1250000 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 68832.92 Amp. RMS: 45.25483 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -4.351665 Phase RMS: 9.1547199E-02 Incoherent PH 1st: -4.352141 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 96.74930 CalTone Power Coherently dB : 96.75598 Incoherent PW - Coherent PW : -6.6833496E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 68992.78 CalTone Amplitude Coherently : 68832.92 Incoherent Amp.- Coherent Amp. : 159.8594 ------------ *** ------------ running time (sec): 10.53 ********** 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. /export/air35/airops/6395/cm6395_c.par Enter the raw data file name. /export/air31/airops/6395/c_vv Enter the motion compensation file name. /export/air35/airops/6395/cm6395_c.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_c_vv.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_c_vv.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_c_vv.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_c_vv.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1057 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (100.7140,0.0000000E+00) (-176.2496,0.0000000E+00) (50.35702,0.0000000E+00) attenuation (dB): 22.00000 no_loop: 64 Pulse#/no_loop: 1 1057 5.2014746E+09 plot_x: 327 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 97.13724 Power RMS: 6.9877125E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 71921.77 Amp. RMS: 101.1929 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -12.67560 Phase RMS: 0.1198907 Incoherent PH 1st: -12.65912 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 97.14421 CalTone Power Coherently dB : 97.13724 Incoherent PW - Coherent PW : 6.9732666E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 72187.76 CalTone Amplitude Coherently : 71921.77 Incoherent Amp.- Coherent Amp. : 265.9922 ------------ *** ------------ running time (sec): 10.48 ********** 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: -1.527199 4.0054161E-05 z fit: constant and linear terms: 7.6946154E-02 4.9350488E-06 y and z standard deviations (meters) 0.4663816 0.1291082 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 = 9 Step size = 1888 PATCH NUMER 1 First line = 1 Averages = 0.2082303 0.2050447 0.2005270 0.2074306 Differences = 2.9222071E-03 -2.6339293E-04 -4.7810376E-03 2.1225661E-03 PATCH NUMER 2 First line = 1889 Averages = 0.2006889 0.2067396 0.2094773 0.2159065 Differences = -7.5141788E-03 -1.4634728E-03 1.2742430E-03 7.7033788E-03 PATCH NUMER 3 First line = 3777 Averages = 0.2086166 0.2151776 0.2175893 0.2183110 Differences = -6.3070506E-03 2.5394559E-04 2.6656240E-03 3.3873022E-03 PATCH NUMER 4 First line = 5665 Averages = 0.2173627 0.2179824 0.2175463 0.2124528 Differences = 1.0266453E-03 1.6464144E-03 1.2103319E-03 -3.8831830E-03 PATCH NUMER 5 First line = 7553 Averages = 0.2181913 0.2129682 0.2089400 0.2047325 Differences = 6.9832802E-03 1.7601848E-03 -2.2681057E-03 -6.4755678E-03 PATCH NUMER 6 First line = 9441 Averages = 0.2096923 0.2049861 0.2038509 0.2061679 Differences = 3.5180300E-03 -1.1882186E-03 -2.3233742E-03 -6.3776970E-06 PATCH NUMER 7 First line = 11329 Averages = 0.2038028 0.2052912 0.2108062 0.2136526 Differences = -4.5852512E-03 -3.0968338E-03 2.4181455E-03 5.2645653E-03 PATCH NUMER 8 First line = 13217 Averages = 0.2100393 0.2128427 0.2200217 0.2202425 Differences = -5.7471395E-03 -2.9436797E-03 4.2352676E-03 4.4560879E-03 PATCH NUMER 9 First line = 15105 Averages = 0.2192354 0.2202239 0.2243563 0.2261269 Differences = -3.2503009E-03 -2.2618175E-03 1.8706620E-03 3.6412030E-03 PATCH NUMER 10 First line = 16993 last black mod_64: 62 21000 16993 4096 Averages = 0.2232479 0.2259021 0.2303176 0.2362147 Differences = -5.6726635E-03 -3.0184984E-03 1.3970286E-03 7.2941184E-03 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.cp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_c.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 2208 data points per patch Near range (m) = 8851.750 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) = 0.0000000E+00 Transmit leverarm x,y,z = -4.3000001E-02 1.217000 0.3090000 Receive leverarm x,y,z = -4.3000001E-02 1.217000 0.3090000 Name of raw data file? /export/air31/airops/6395/c_hh Name of the mocomp data file? /export/air35/airops/6395/cm6395_c.mocomph Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.ch WAYNE init fft, calc slant range, load unpack, interpo 1.3638999E-02 reading motion compensation data WAYNE read motion compen 0.4877210 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1522870 start range comp, time = 0.738 WAYNE PREV 0.6696890 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 4 ..... WAYNE IS IN Processing 6 to 6 by # 3 Processing block number 6 WAYNE PATCHES: 9441 13536 patch# 6 reference line: 11488 0.953 seconds. before reading done reading WAYNE load raw data , time = 23.42832303047180 ATTN ifrq ipol ln 8 1 13536 22.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4997394 shift in azimuth *fractional pixel= -0.4997394 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2890052795410156E-03 WAYNE Motion comp. added to patch, time = 8.294589996337891 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5130510330200195E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 156.6480669975281 Writing 2208 lines of data to file WAYNE write output data 0.7856290340423584 ==w out 6 0 945 0 WAYNE PROCESS 189.1669299602509 ==w out 7 2211 PROCESSING KID# 8 ..... WAYNE IS IN Processing 10 to 10 by # 7 Processing block number 10 WAYNE PATCHES: 16904 20999 patch# 10 reference line: 18951 1.021 seconds. before reading done reading WAYNE load raw data , time = 23.20376110076904 ATTN ifrq ipol ln 8 1 20999 22.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4997223 shift in azimuth *fractional pixel= -0.4997223 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.6250562667846680E-03 WAYNE Motion comp. added to patch, time = 8.236069917678833 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3950338363647461E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.2332860231400 Writing 2208 lines of data to file WAYNE write output data 1.025541901588440 ==w out 10 0 945 0 WAYNE PROCESS 189.7091279029846 ==w out 11 2211 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 5 by # 2 Processing block number 5 WAYNE PATCHES: 7553 11648 patch# 5 reference line: 9600 0.941 seconds. before reading done reading WAYNE load raw data , time = 23.45684194564819 ATTN ifrq ipol ln 8 1 11648 22.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4997409 shift in azimuth *fractional pixel= -0.4997409 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.7429542541503906E-03 WAYNE Motion comp. added to patch, time = 8.094350934028625 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4219751358032227E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.5621470212936 Writing 2208 lines of data to file WAYNE write output data 1.026409983634949 ==w out 5 0 945 0 WAYNE PROCESS 190.1505229473114 ==w out 6 2211 PROCESSING KID# 7 ..... WAYNE IS IN Processing 9 to 9 by # 6 Processing block number 9 WAYNE PATCHES: 15105 19200 patch# 9 reference line: 17152 0.987 seconds. before reading done reading WAYNE load raw data , time = 23.65873908996582 ATTN ifrq ipol ln 8 1 19200 22.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4997155 shift in azimuth *fractional pixel= -0.4997155 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3630342483520508E-03 WAYNE Motion comp. added to patch, time = 8.028398036956787 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4030208587646484E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.6083450317383 Writing 2208 lines of data to file WAYNE write output data 1.071671962738037 ==w out 9 0 945 0 WAYNE PROCESS 190.3776619434357 ==w out 10 2211 PROCESSING KID# 6 ..... WAYNE IS IN Processing 8 to 8 by # 5 Processing block number 8 WAYNE PATCHES: 13217 17312 patch# 8 reference line: 15264 0.978 seconds. before reading done reading WAYNE load raw data , time = 23.46115493774414 ATTN ifrq ipol ln 8 1 17312 22.00000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4997140 shift in azimuth *fractional pixel= -0.4997140 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4269304275512695E-03 WAYNE Motion comp. added to patch, time = 8.072376012802124 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3759603500366211E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 158.0156339406967 Writing 2208 lines of data to file WAYNE write output data 0.9723581075668335 ==w out 8 0 945 0 WAYNE PROCESS 190.5319750308990 ==w out 9 2211 PROCESSING KID# 5 ..... WAYNE IS IN Processing 7 to 7 by # 4 Processing block number 7 WAYNE PATCHES: 11329 15424 patch# 7 reference line: 13376 0.965 seconds. before reading done reading WAYNE load raw data , time = 24.22763204574585 ATTN ifrq ipol ln 8 1 15424 22.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4997334 shift in azimuth *fractional pixel= -0.4997334 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3570737838745117E-03 WAYNE Motion comp. added to patch, time = 8.036062955856323 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4319887161254883E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 158.1322040557861 Writing 2208 lines of data to file WAYNE write output data 0.7526758909225464 ==w out 7 0 945 0 WAYNE PROCESS 191.1589969396591 ==w out 8 2211 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 3777 7872 patch# 3 reference line: 5824 0.934 seconds. before reading done reading WAYNE load raw data , time = 23.52322900295258 ATTN ifrq ipol ln 8 1 7872 22.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4997337 shift in azimuth *fractional pixel= -0.4997337 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5319538116455078E-03 WAYNE Motion comp. added to patch, time = 7.895185947418213 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.4949312210083008E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.3698140382767 Writing 2208 lines of data to file WAYNE write output data 1.026625990867615 ==w out 3 0 945 0 WAYNE PROCESS 189.8254480361938 Processing block number 4 WAYNE PATCHES: 5665 9760 patch# 4 reference line: 7712 190.760 seconds. before reading done reading WAYNE load raw data , time = 22.41922998428345 ATTN ifrq ipol ln 8 1 9760 22.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4997376 shift in azimuth *fractional pixel= -0.4997376 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.4640769958496094E-03 WAYNE Motion comp. added to patch, time = 7.387249112129211 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 0.7928429841995239 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 118.6228239536285 Writing 2208 lines of data to file WAYNE write output data 0.7841639518737793 ==w out 4 2208 945 45219840 WAYNE PROCESS 150.0129209756851 ==w out 5 4419 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -1.9613300E-02 2.6794501E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 0.921 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 24.17802202701569 ATTN ifrq ipol ln 8 1 4096 22.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4997244 shift in azimuth *fractional pixel= -0.4997244 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5909624099731445E-03 TESTING 0.0000000E+00 -0.2751523 0.4807042 WAYNE Motion comp. added to patch, time = 8.219915032386780 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5479793548583984E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -0.2751523 0.4807042 HEY,dt,fract,ye,pe -0.4997244 1.000000 -1.9613300E-02 2.6794501E-02 WAYNE Azimuth compression done, time = 156.8219919204712 Writing 2208 lines of data to file WAYNE write output data 1.103170037269592 ==w out 1 0 945 0 WAYNE PROCESS 190.3340009450912 Processing block number 2 TESTING WHY -1.9001899E-02 2.6592299E-02 1888 2 WAYNE PATCHES: 1889 5984 patch# 2 reference line: 3936 191.255 seconds. TESTING 1889 before reading done reading WAYNE load raw data , time = 22.63216900825500 ATTN ifrq ipol ln 8 1 5984 22.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4997383 shift in azimuth *fractional pixel= -0.4997383 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.4780244827270508E-03 TESTING 0.0000000E+00 0.3961308 0.4166911 WAYNE Motion comp. added to patch, time = 7.387639999389648 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 9.2130064964294434E-02 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 0.3961308 0.4166911 HEY,dt,fract,ye,pe -0.4997383 1.000000 -1.9001899E-02 2.6592299E-02 WAYNE Azimuth compression done, time = 118.7219369411469 Writing 2208 lines of data to file WAYNE write output data 0.8022669553756714 ==w out 2 2208 945 45219840 WAYNE PROCESS 149.6427439451218 ==w out 3 4419 1 3417681 0 2 3418939 0 3 3422210 0 4 3421949 0 5 3422698 0 6 3422742 0 7 3404991 0 8 3416837 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 22080kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 8.4839940071105957E-02 WAYNE LOOP TIME: 348.5200029611588 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_c.hh_j /export/air35/airops/6395/cm6395_c.mocomph /export/air35/airops/6395/cm6395_c.dop /export/air35/airops/6395/cm6395_c.glb 2560 22080 update intf hdr ha: 8369.500 UPDATE: 2560 22080 3.331000 0.5144000 mocompfile /export/air35/airops/6395/cm6395_c.mocomph dopfile /export/air35/airops/6395/cm6395_c.dop globalfile /export/air35/airops/6395/cm6395_c.glb /export/air35/airops/6395/cm6395_c.glb 38 deskew line ra ha trc: 167.9502 326 8852.195 8369.500 89.71424 after deskew line ra ha trc: 167.9502 326 8852.195 8369.500 89.71424 lat1 lon1: 326 21.29592 -158.1417 22080 last ra n_ns ns: 8852.195 0 1 22405 22080 lati loni: 22405 21.29595 -158.0193 22405 1 center ra n_ns ns: 13112.54 1279 1279 11365 22080 lati loni: 11365 21.33414 -158.0796 11365 2560 Updated paramater header in /export/air31/airops/6395/cm6395_c.hh_j WAYNE FINAL PROCESS 349.2904460430145 ********************************************* ***** ***** ***** 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 = 8 4416 2 4416 2 2208 1 2208 1 2208 1 2208 1 2208 1 2208 1 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_c.hh_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_c.dop Name of the deskew file? /export/air31/airops/6395/deskew.ch Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_c.hh Name of the line output file? /export/air35/airops/6395/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.103411078453064 Deskewing 10 patches Processing block number 1 DEBUG -145 325.9995 -144.9946 -0.4997244 -0.4997244 patch iptc,sj,dgj,dgi,id: 1 1 -145 -145 0 half line dmj dgc: 0 945 326 -145 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 -145 -145 1104 half line dmj dgc: 1 945 326 -145 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 -130 326.1120 -130.1940 -0.4997383 -0.4997383 1105 1904 15 784 patch iptc,sj,dgj,dgi,id: 2 1904 -130 -145 784 half line dmj dgc: 0 2833 326 -145 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1904 1105 Zeroing lines in arrays Total # of output lines = 2 1903 1904 3008 0 1104 patch iptc,sj,dgj,dgi,id: 2 3008 -130 -130 1104 half line dmj dgc: 1 2833 326 -145 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 3008 1904 Zeroing lines in arrays Total # of output lines = 2 3007 Processing block number 3 DEBUG -115 331.4160 -114.7418 -0.4997337 -0.4997337 3008 3807 15 784 patch iptc,sj,dgj,dgi,id: 3 3807 -115 -130 784 half line dmj dgc: 0 4721 331 -145 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3807 3008 Zeroing lines in arrays Total # of output lines = 3 3806 3807 4911 0 1104 patch iptc,sj,dgj,dgi,id: 3 4911 -115 -115 1104 half line dmj dgc: 1 4721 331 -145 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4911 3807 Zeroing lines in arrays Total # of output lines = 3 4910 Processing block number 4 DEBUG -109 331.9723 -109.3045 -0.4997376 -0.4997376 4911 5701 6 784 patch iptc,sj,dgj,dgi,id: 4 5701 -109 -115 784 half line dmj dgc: 0 6609 332 -145 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 5701 4911 Zeroing lines in arrays Total # of output lines = 4 5700 5701 6805 0 1104 patch iptc,sj,dgj,dgi,id: 4 6805 -109 -109 1104 half line dmj dgc: 1 6609 332 -145 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 6805 5701 Zeroing lines in arrays Total # of output lines = 4 6804 Processing block number 5 DEBUG -117 326.8395 -116.9962 -0.4997409 -0.4997409 6805 7581 -8 784 patch iptc,sj,dgj,dgi,id: 5 7581 -117 -109 784 half line dmj dgc: 0 8497 327 -145 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 7581 6805 Zeroing lines in arrays Total # of output lines = 5 7580 7581 8685 0 1104 patch iptc,sj,dgj,dgi,id: 5 8685 -117 -117 1104 half line dmj dgc: 1 8497 327 -145 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 8685 7581 Zeroing lines in arrays Total # of output lines = 5 8684 Processing block number 6 DEBUG -129 322.8987 -128.8183 -0.4997394 -0.4997394 8685 9457 -12 784 patch iptc,sj,dgj,dgi,id: 6 9457 -129 -117 784 half line dmj dgc: 0 10385 323 -145 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 9457 8685 Zeroing lines in arrays Total # of output lines = 6 9456 9457 10561 0 1104 patch iptc,sj,dgj,dgi,id: 6 10561 -129 -129 1104 half line dmj dgc: 1 10385 323 -145 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 10561 9457 Zeroing lines in arrays Total # of output lines = 6 10560 Processing block number 7 DEBUG -132 326.8320 -132.1159 -0.4997334 -0.4997334 10561 11342 -3 784 patch iptc,sj,dgj,dgi,id: 7 11342 -132 -129 784 half line dmj dgc: 0 12273 327 -145 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 11342 10561 Zeroing lines in arrays Total # of output lines = 7 11341 11342 12446 0 1104 patch iptc,sj,dgj,dgi,id: 7 158 -132 -132 1104 half line dmj dgc: 1 12273 327 -145 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 s1>sj: 11342 158 Zeroing lines in arrays Total # of output lines = 7 12445 Processing block number 8 DEBUG -128 336.0079 -127.6503 -0.4997140 -0.4997140 158 946 4 784 patch iptc,sj,dgj,dgi,id: 8 946 -128 -132 784 half line dmj dgc: 0 14161 336 -145 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 946 158 Zeroing lines in arrays Total # of output lines = 8 13233 946 2050 0 1104 patch iptc,sj,dgj,dgi,id: 8 2050 -128 -128 1104 half line dmj dgc: 1 14161 336 -145 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 2050 946 Zeroing lines in arrays Total # of output lines = 8 14337 Processing block number 9 DEBUG -117 342.4968 -116.4978 -0.4997155 -0.4997155 2050 2845 11 784 patch iptc,sj,dgj,dgi,id: 9 2845 -117 -128 784 half line dmj dgc: 0 16049 342 -145 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 2845 2050 Zeroing lines in arrays Total # of output lines = 9 15132 2845 3949 0 1104 patch iptc,sj,dgj,dgi,id: 9 3949 -117 -117 1104 half line dmj dgc: 1 16049 342 -145 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 3949 2845 Zeroing lines in arrays Total # of output lines = 9 16236 Processing block number 10 DEBUG -93 345.4442 -93.26255 -0.4997223 -0.4997223 3949 4668 24 695 patch iptc,sj,dgj,dgi,id: 10 4668 -93 -117 695 half line dmj dgc: 0 17848 345 -145 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 4668 3949 Zeroing lines in arrays Total # of output lines = 10 16955 4668 5772 0 1104 patch iptc,sj,dgj,dgi,id: 10 5772 -93 -93 1104 half line dmj dgc: 1 17848 345 -145 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 5772 4668 Zeroing lines in arrays Total # of output lines = 10 18059 ia dmi dgi: 5772 345 -93 Writing the last 1542 lines last half sj>s1 7314 5772 18059 WAYNE done patche 55.54930305480957 Total # of output lines = 19601 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 19601 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 55.94355499744415 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.cp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_c.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 2208 data points per patch Near range (m) = 8851.750 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) = 0.0000000E+00 Transmit leverarm x,y,z = -4.3000001E-02 1.217000 0.3090000 Receive leverarm x,y,z = -4.3000001E-02 1.217000 0.3090000 Name of raw data file? /export/air31/airops/6395/c_hv Name of the mocomp data file? /export/air35/airops/6395/cm6395_c.mocomph Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.ch WAYNE init fft, calc slant range, load unpack, interpo 1.2782000E-02 reading motion compensation data WAYNE read motion compen 0.4864460 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1489420 start range comp, time = 0.654 WAYNE PREV 0.6630370 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 4 ..... WAYNE IS IN Processing 6 to 6 by # 3 Processing block number 6 WAYNE PATCHES: 9441 13536 patch# 6 reference line: 11488 0.877 seconds. before reading done reading WAYNE load raw data , time = 23.60733103752136 ATTN ifrq ipol ln 8 2 13536 16.00000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4997394 shift in azimuth *fractional pixel= -0.4997394 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3689947128295898E-03 WAYNE Motion comp. added to patch, time = 8.468641042709351 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3900270462036133E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.0789330005646 Writing 2208 lines of data to file WAYNE write output data 0.9519579410552979 ==w out 6 0 945 0 WAYNE PROCESS 190.1172590255737 ==w out 7 2211 PROCESSING KID# 6 ..... WAYNE IS IN Processing 8 to 8 by # 5 Processing block number 8 WAYNE PATCHES: 13217 17312 patch# 8 reference line: 15264 0.893 seconds. before reading done reading WAYNE load raw data , time = 23.56022596359253 ATTN ifrq ipol ln 8 2 17312 16.00000 IPOL, ITOP nblock 2 0 8 ****shift in azimuth (fractional pixel)= -0.4997140 shift in azimuth *fractional pixel= -0.4997140 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2819719314575195E-03 WAYNE Motion comp. added to patch, time = 8.085393905639648 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3919343948364258E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.5130970478058 Writing 2208 lines of data to file WAYNE write output data 0.9674760103225708 ==w out 8 0 945 0 WAYNE PROCESS 190.1363220214844 ==w out 9 2211 PROCESSING KID# 7 ..... WAYNE IS IN Processing 9 to 9 by # 6 Processing block number 9 WAYNE PATCHES: 15105 19200 patch# 9 reference line: 17152 0.907 seconds. before reading done reading WAYNE load raw data , time = 24.40962791442871 ATTN ifrq ipol ln 8 2 19200 16.00000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4997155 shift in azimuth *fractional pixel= -0.4997155 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3270330429077148E-03 WAYNE Motion comp. added to patch, time = 8.056202054023743 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3880004882812500E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.0143979787827 Writing 2208 lines of data to file WAYNE write output data 1.107226014137268 ==w out 9 0 945 0 WAYNE PROCESS 190.5978260040283 ==w out 10 2211 PROCESSING KID# 8 ..... WAYNE IS IN Processing 10 to 10 by # 7 Processing block number 10 WAYNE PATCHES: 16904 20999 patch# 10 reference line: 18951 0.920 seconds. before reading done reading WAYNE load raw data , time = 23.78450906276703 ATTN ifrq ipol ln 8 2 20999 16.00000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4997223 shift in azimuth *fractional pixel= -0.4997223 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3199996948242188E-03 WAYNE Motion comp. added to patch, time = 7.984399080276489 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3239850997924805E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.7078679800034 Writing 2208 lines of data to file WAYNE write output data 1.109397053718567 ==w out 10 0 945 0 WAYNE PROCESS 190.5963530540466 ==w out 11 2211 PROCESSING KID# 5 ..... WAYNE IS IN Processing 7 to 7 by # 4 Processing block number 7 WAYNE PATCHES: 11329 15424 patch# 7 reference line: 13376 0.886 seconds. before reading done reading WAYNE load raw data , time = 24.21899008750916 ATTN ifrq ipol ln 8 2 15424 16.00000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4997334 shift in azimuth *fractional pixel= -0.4997334 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.2609910964965820E-03 WAYNE Motion comp. added to patch, time = 8.077324032783508 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.4229288101196289E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.2281389236450 Writing 2208 lines of data to file WAYNE write output data 1.107595920562744 ==w out 7 0 945 0 WAYNE PROCESS 190.6425089836121 ==w out 8 2211 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 5 by # 2 Processing block number 5 WAYNE PATCHES: 7553 11648 patch# 5 reference line: 9600 0.869 seconds. before reading done reading WAYNE load raw data , time = 24.14291608333588 ATTN ifrq ipol ln 8 2 11648 16.00000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4997409 shift in azimuth *fractional pixel= -0.4997409 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.1969757080078125E-03 WAYNE Motion comp. added to patch, time = 7.975063085556030 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.4409294128417969E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 158.2912710905075 Writing 2208 lines of data to file WAYNE write output data 0.9080280065536499 ==w out 5 0 945 0 WAYNE PROCESS 191.3275419473648 ==w out 6 2211 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 3777 7872 patch# 3 reference line: 5824 0.856 seconds. before reading done reading WAYNE load raw data , time = 23.26081597805023 ATTN ifrq ipol ln 8 2 7872 16.00000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4997337 shift in azimuth *fractional pixel= -0.4997337 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4209699630737305E-03 WAYNE Motion comp. added to patch, time = 7.893656015396118 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3549795150756836E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.7657370567322 Writing 2208 lines of data to file WAYNE write output data 0.8763720989227295 ==w out 3 0 945 0 WAYNE PROCESS 189.8069370985031 Processing block number 4 WAYNE PATCHES: 5665 9760 patch# 4 reference line: 7712 190.663 seconds. before reading done reading WAYNE load raw data , time = 22.50324606895447 ATTN ifrq ipol ln 8 2 9760 16.00000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4997376 shift in azimuth *fractional pixel= -0.4997376 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.5090188980102539E-03 WAYNE Motion comp. added to patch, time = 7.396288990974426 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 0.5112719535827637 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 118.7561380863190 Writing 2208 lines of data to file WAYNE write output data 0.6961429119110107 ==w out 4 2208 945 45219840 WAYNE PROCESS 149.8697979450226 ==w out 5 4419 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -1.9613300E-02 2.6794501E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 0.840 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 23.93168091773987 ATTN ifrq ipol ln 8 2 4096 16.00000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4997244 shift in azimuth *fractional pixel= -0.4997244 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.3160657882690430E-03 TESTING 0.0000000E+00 -0.2751523 0.4807042 WAYNE Motion comp. added to patch, time = 8.083542943000793 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3850202560424805E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -0.2751523 0.4807042 HEY,dt,fract,ye,pe -0.4997244 1.000000 -1.9613300E-02 2.6794501E-02 WAYNE Azimuth compression done, time = 158.1147279739380 Writing 2208 lines of data to file WAYNE write output data 0.9961839914321899 ==w out 1 0 945 0 WAYNE PROCESS 191.1362459659576 Processing block number 2 TESTING WHY -1.9001899E-02 2.6592299E-02 1888 2 WAYNE PATCHES: 1889 5984 patch# 2 reference line: 3936 191.977 seconds. TESTING 1889 before reading done reading WAYNE load raw data , time = 22.91174197196960 ATTN ifrq ipol ln 8 2 5984 16.00000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4997383 shift in azimuth *fractional pixel= -0.4997383 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.5940151214599609E-03 TESTING 0.0000000E+00 0.3961308 0.4166911 WAYNE Motion comp. added to patch, time = 7.409592032432556 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 0.1401250362396240 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 0.3961308 0.4166911 HEY,dt,fract,ye,pe -0.4997383 1.000000 -1.9001899E-02 2.6592299E-02 WAYNE Azimuth compression done, time = 119.3621339797974 Writing 2208 lines of data to file WAYNE write output data 0.6990590095520020 ==w out 2 2208 945 45219840 WAYNE PROCESS 150.5293090343475 ==w out 3 4419 1 3421938 0 2 3422468 0 3 3422280 0 4 3416904 0 5 3419351 0 6 3421876 0 7 3422284 0 8 3422213 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 22080kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 8.582405924797058 WAYNE LOOP TIME: 358.7059719562531 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_c.hv_j /export/air35/airops/6395/cm6395_c.mocomph /export/air35/airops/6395/cm6395_c.dop /export/air35/airops/6395/cm6395_c.glb 2560 22080 update intf hdr ha: 8369.500 UPDATE: 2560 22080 3.331000 0.5144000 mocompfile /export/air35/airops/6395/cm6395_c.mocomph dopfile /export/air35/airops/6395/cm6395_c.dop globalfile /export/air35/airops/6395/cm6395_c.glb /export/air35/airops/6395/cm6395_c.glb 38 deskew line ra ha trc: 167.9502 326 8852.195 8369.500 89.71424 after deskew line ra ha trc: 167.9502 326 8852.195 8369.500 89.71424 lat1 lon1: 326 21.29592 -158.1417 22080 last ra n_ns ns: 8852.195 0 1 22405 22080 lati loni: 22405 21.29595 -158.0193 22405 1 center ra n_ns ns: 13112.54 1279 1279 11365 22080 lati loni: 11365 21.33414 -158.0796 11365 2560 Updated paramater header in /export/air31/airops/6395/cm6395_c.hv_j WAYNE FINAL PROCESS 359.7430920600891 ********************************************* ***** ***** ***** 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 = 8 4416 2 4416 2 2208 1 2208 1 2208 1 2208 1 2208 1 2208 1 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_c.hv_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_c.dop Name of the deskew file? /export/air31/airops/6395/deskew.ch Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_c.hv Name of the line output file? /export/air35/airops/6395/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.272329092025757 Deskewing 10 patches Processing block number 1 DEBUG -145 325.9995 -144.9946 -0.4997244 -0.4997244 patch iptc,sj,dgj,dgi,id: 1 1 -145 -145 0 half line dmj dgc: 0 945 326 -145 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 -145 -145 1104 half line dmj dgc: 1 945 326 -145 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 -130 326.1120 -130.1940 -0.4997383 -0.4997383 1105 1904 15 784 patch iptc,sj,dgj,dgi,id: 2 1904 -130 -145 784 half line dmj dgc: 0 2833 326 -145 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1904 1105 Zeroing lines in arrays Total # of output lines = 2 1903 1904 3008 0 1104 patch iptc,sj,dgj,dgi,id: 2 3008 -130 -130 1104 half line dmj dgc: 1 2833 326 -145 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 3008 1904 Zeroing lines in arrays Total # of output lines = 2 3007 Processing block number 3 DEBUG -115 331.4160 -114.7418 -0.4997337 -0.4997337 3008 3807 15 784 patch iptc,sj,dgj,dgi,id: 3 3807 -115 -130 784 half line dmj dgc: 0 4721 331 -145 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3807 3008 Zeroing lines in arrays Total # of output lines = 3 3806 3807 4911 0 1104 patch iptc,sj,dgj,dgi,id: 3 4911 -115 -115 1104 half line dmj dgc: 1 4721 331 -145 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4911 3807 Zeroing lines in arrays Total # of output lines = 3 4910 Processing block number 4 DEBUG -109 331.9723 -109.3045 -0.4997376 -0.4997376 4911 5701 6 784 patch iptc,sj,dgj,dgi,id: 4 5701 -109 -115 784 half line dmj dgc: 0 6609 332 -145 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 5701 4911 Zeroing lines in arrays Total # of output lines = 4 5700 5701 6805 0 1104 patch iptc,sj,dgj,dgi,id: 4 6805 -109 -109 1104 half line dmj dgc: 1 6609 332 -145 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 6805 5701 Zeroing lines in arrays Total # of output lines = 4 6804 Processing block number 5 DEBUG -117 326.8395 -116.9962 -0.4997409 -0.4997409 6805 7581 -8 784 patch iptc,sj,dgj,dgi,id: 5 7581 -117 -109 784 half line dmj dgc: 0 8497 327 -145 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 7581 6805 Zeroing lines in arrays Total # of output lines = 5 7580 7581 8685 0 1104 patch iptc,sj,dgj,dgi,id: 5 8685 -117 -117 1104 half line dmj dgc: 1 8497 327 -145 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 8685 7581 Zeroing lines in arrays Total # of output lines = 5 8684 Processing block number 6 DEBUG -129 322.8987 -128.8183 -0.4997394 -0.4997394 8685 9457 -12 784 patch iptc,sj,dgj,dgi,id: 6 9457 -129 -117 784 half line dmj dgc: 0 10385 323 -145 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 9457 8685 Zeroing lines in arrays Total # of output lines = 6 9456 9457 10561 0 1104 patch iptc,sj,dgj,dgi,id: 6 10561 -129 -129 1104 half line dmj dgc: 1 10385 323 -145 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 10561 9457 Zeroing lines in arrays Total # of output lines = 6 10560 Processing block number 7 DEBUG -132 326.8320 -132.1159 -0.4997334 -0.4997334 10561 11342 -3 784 patch iptc,sj,dgj,dgi,id: 7 11342 -132 -129 784 half line dmj dgc: 0 12273 327 -145 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 11342 10561 Zeroing lines in arrays Total # of output lines = 7 11341 11342 12446 0 1104 patch iptc,sj,dgj,dgi,id: 7 158 -132 -132 1104 half line dmj dgc: 1 12273 327 -145 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 s1>sj: 11342 158 Zeroing lines in arrays Total # of output lines = 7 12445 Processing block number 8 DEBUG -128 336.0079 -127.6503 -0.4997140 -0.4997140 158 946 4 784 patch iptc,sj,dgj,dgi,id: 8 946 -128 -132 784 half line dmj dgc: 0 14161 336 -145 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 946 158 Zeroing lines in arrays Total # of output lines = 8 13233 946 2050 0 1104 patch iptc,sj,dgj,dgi,id: 8 2050 -128 -128 1104 half line dmj dgc: 1 14161 336 -145 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 2050 946 Zeroing lines in arrays Total # of output lines = 8 14337 Processing block number 9 DEBUG -117 342.4968 -116.4978 -0.4997155 -0.4997155 2050 2845 11 784 patch iptc,sj,dgj,dgi,id: 9 2845 -117 -128 784 half line dmj dgc: 0 16049 342 -145 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 2845 2050 Zeroing lines in arrays Total # of output lines = 9 15132 2845 3949 0 1104 patch iptc,sj,dgj,dgi,id: 9 3949 -117 -117 1104 half line dmj dgc: 1 16049 342 -145 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 3949 2845 Zeroing lines in arrays Total # of output lines = 9 16236 Processing block number 10 DEBUG -93 345.4442 -93.26255 -0.4997223 -0.4997223 3949 4668 24 695 patch iptc,sj,dgj,dgi,id: 10 4668 -93 -117 695 half line dmj dgc: 0 17848 345 -145 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 4668 3949 Zeroing lines in arrays Total # of output lines = 10 16955 4668 5772 0 1104 patch iptc,sj,dgj,dgi,id: 10 5772 -93 -93 1104 half line dmj dgc: 1 17848 345 -145 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 5772 4668 Zeroing lines in arrays Total # of output lines = 10 18059 ia dmi dgi: 5772 345 -93 Writing the last 1542 lines last half sj>s1 7314 5772 18059 WAYNE done patche 49.19881701469421 Total # of output lines = 19601 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 19601 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 49.61858510971069 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.cp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_c.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 2208 data points per patch Near range (m) = 8851.750 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) = 0.0000000E+00 Transmit leverarm x,y,z = -4.3000001E-02 1.217000 0.3090000 Receive leverarm x,y,z = -4.3000001E-02 1.217000 0.3090000 Name of raw data file? /export/air31/airops/6395/c_vh Name of the mocomp data file? /export/air35/airops/6395/cm6395_c.mocompv Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.cv WAYNE init fft, calc slant range, load unpack, interpo 1.4192998E-02 reading motion compensation data WAYNE read motion compen 0.4940070 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1489100 start range comp, time = 2.529 WAYNE PREV 0.6721850 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 5 by # 2 Processing block number 5 WAYNE PATCHES: 7553 11648 patch# 5 reference line: 9600 2.677 seconds. before reading done reading WAYNE load raw data , time = 23.97364604473114 ATTN ifrq ipol ln 8 3 11648 16.00000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 6.3199996948242188E-03 WAYNE Motion comp. added to patch, time = 7.993405938148499 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4330615997314453E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 156.2195529937744 Writing 2208 lines of data to file WAYNE write output data 0.9044129848480225 ==w out 5 0 945 0 WAYNE PROCESS 189.1013809442520 ==w out 6 2211 PROCESSING KID# 5 ..... WAYNE IS IN Processing 7 to 7 by # 4 Processing block number 7 WAYNE PATCHES: 11329 15424 patch# 7 reference line: 13376 2.710 seconds. before reading done reading WAYNE load raw data , time = 23.59475398063660 ATTN ifrq ipol ln 8 3 15424 16.00000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 6.3769817352294922E-03 WAYNE Motion comp. added to patch, time = 8.335236907005310 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4449825286865234E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 156.2576209306717 Writing 2208 lines of data to file WAYNE write output data 0.9613739252090454 ==w out 7 0 945 0 WAYNE PROCESS 189.1594519615173 ==w out 8 2211 PROCESSING KID# 7 ..... WAYNE IS IN Processing 9 to 9 by # 6 Processing block number 9 WAYNE PATCHES: 15105 19200 patch# 9 reference line: 17152 2.719 seconds. before reading done reading WAYNE load raw data , time = 23.92109799385071 ATTN ifrq ipol ln 8 3 19200 16.00000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 6.2530040740966797E-03 WAYNE Motion comp. added to patch, time = 8.088572025299072 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7689933776855469E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 156.4822170734406 Writing 2208 lines of data to file WAYNE write output data 0.9345909357070923 ==w out 9 0 945 0 WAYNE PROCESS 189.4372099637985 ==w out 10 2211 PROCESSING KID# 4 ..... WAYNE IS IN Processing 6 to 6 by # 3 Processing block number 6 WAYNE PATCHES: 9441 13536 patch# 6 reference line: 11488 2.688 seconds. before reading done reading WAYNE load raw data , time = 23.80104494094849 ATTN ifrq ipol ln 8 3 13536 16.00000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 6.1330795288085938E-03 WAYNE Motion comp. added to patch, time = 7.952687978744507 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.3679733276367188E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.5724591016769 Writing 2208 lines of data to file WAYNE write output data 0.7522120475769043 ==w out 6 0 945 0 WAYNE PROCESS 190.0883790254593 ==w out 7 2211 PROCESSING KID# 8 ..... WAYNE IS IN Processing 10 to 10 by # 7 Processing block number 10 WAYNE PATCHES: 16904 20999 patch# 10 reference line: 18951 2.730 seconds. before reading done reading WAYNE load raw data , time = 24.23761308193207 ATTN ifrq ipol ln 8 3 20999 16.00000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 6.3140392303466797E-03 WAYNE Motion comp. added to patch, time = 7.956015944480896 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4369955062866211E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.9313919544220 Writing 2208 lines of data to file WAYNE write output data 0.7149820327758789 ==w out 10 0 945 0 WAYNE PROCESS 190.8504580259323 ==w out 11 2211 PROCESSING KID# 6 ..... WAYNE IS IN Processing 8 to 8 by # 5 Processing block number 8 WAYNE PATCHES: 13217 17312 patch# 8 reference line: 15264 2.711 seconds. before reading done reading WAYNE load raw data , time = 23.57972800731659 ATTN ifrq ipol ln 8 3 17312 16.00000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 6.2839984893798828E-03 WAYNE Motion comp. added to patch, time = 8.088631033897400 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.5639533996582031E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 159.0491269826889 Writing 2208 lines of data to file WAYNE write output data 0.7254449129104614 ==w out 8 0 945 0 WAYNE PROCESS 191.4533739089966 ==w out 9 2211 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 3777 7872 patch# 3 reference line: 5824 2.667 seconds. before reading done reading WAYNE load raw data , time = 23.29199695587158 ATTN ifrq ipol ln 8 3 7872 16.00000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 6.2800645828247070E-03 WAYNE Motion comp. added to patch, time = 7.946255922317505 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4240016937255859E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 156.7266540527344 Writing 2208 lines of data to file WAYNE write output data 0.8444839715957642 ==w out 3 0 945 0 WAYNE PROCESS 188.8196480274200 Processing block number 4 WAYNE PATCHES: 5665 9760 patch# 4 reference line: 7712 191.487 seconds. before reading done reading WAYNE load raw data , time = 22.48638796806335 ATTN ifrq ipol ln 8 3 9760 16.00000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 5.5299997329711914E-03 WAYNE Motion comp. added to patch, time = 7.391833066940308 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 0.2991020679473877 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 120.1740629673004 Writing 2208 lines of data to file WAYNE write output data 0.6730580329895020 ==w out 4 2208 945 45219840 WAYNE PROCESS 151.0311490297318 ==w out 5 4419 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -1.9613300E-02 2.6794501E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 2.657 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 24.03529000282288 ATTN ifrq ipol ln 8 3 4096 16.00000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 6.2359571456909180E-03 TESTING 0.0000000E+00 -0.2749092 0.4807182 WAYNE Motion comp. added to patch, time = 8.087996006011963 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4909973144531250E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -0.2749092 0.4807182 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.9613300E-02 2.6794501E-02 WAYNE Azimuth compression done, time = 156.4398010969162 Writing 2208 lines of data to file WAYNE write output data 0.9562010765075684 ==w out 1 0 945 0 WAYNE PROCESS 189.5296170711517 Processing block number 2 TESTING WHY -1.9001899E-02 2.6592299E-02 1888 2 WAYNE PATCHES: 1889 5984 patch# 2 reference line: 3936 192.187 seconds. TESTING 1889 before reading done reading WAYNE load raw data , time = 22.90968298912048 ATTN ifrq ipol ln 8 3 5984 16.00000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 5.4450035095214844E-03 TESTING 0.0000000E+00 0.3962414 0.4166524 WAYNE Motion comp. added to patch, time = 7.392395019531250 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 1.524958014488220 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 0.3962414 0.4166524 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.9001899E-02 2.6592299E-02 WAYNE Azimuth compression done, time = 120.7993180751801 Writing 2208 lines of data to file WAYNE write output data 0.6555799245834351 ==w out 2 2208 945 45219840 WAYNE PROCESS 153.2885090112686 ==w out 3 4419 1 3422297 0 2 3422290 0 3 3422592 0 4 3422542 0 5 3422691 0 6 3421887 0 7 3422494 0 8 3422401 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 22080kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 6.767523050308228 WAYNE LOOP TIME: 357.9728770256042 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_c.vh_j /export/air35/airops/6395/cm6395_c.mocompv /export/air35/airops/6395/cm6395_c.dop /export/air35/airops/6395/cm6395_c.glb 2560 22080 update intf hdr ha: 8369.500 UPDATE: 2560 22080 3.331000 0.5144000 mocompfile /export/air35/airops/6395/cm6395_c.mocompv dopfile /export/air35/airops/6395/cm6395_c.dop globalfile /export/air35/airops/6395/cm6395_c.glb /export/air35/airops/6395/cm6395_c.glb 38 deskew line ra ha trc: 167.9502 326 8852.195 8369.500 89.71424 after deskew line ra ha trc: 167.9502 326 8852.195 8369.500 89.71424 lat1 lon1: 326 21.29592 -158.1417 22080 last ra n_ns ns: 8852.195 0 1 22405 22080 lati loni: 22405 21.29595 -158.0193 22405 1 center ra n_ns ns: 13112.54 1279 1279 11365 22080 lati loni: 11365 21.33414 -158.0796 11365 2560 Updated paramater header in /export/air31/airops/6395/cm6395_c.vh_j WAYNE FINAL PROCESS 360.7828450202942 ********************************************* ***** ***** ***** 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 = 8 4416 2 4416 2 2208 1 2208 1 2208 1 2208 1 2208 1 2208 1 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_c.vh_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_c.dop Name of the deskew file? /export/air31/airops/6395/deskew.cv Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_c.vh Name of the line output file? /export/air35/airops/6395/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.278175950050354 Deskewing 10 patches Processing block number 1 DEBUG -145 326.4992 -144.4949 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -145 -145 0 half line dmj dgc: 0 945 326 -145 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 -145 -145 1104 half line dmj dgc: 1 945 326 -145 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 -130 326.6117 -129.6943 0.0000000E+00 0.0000000E+00 1105 1904 15 784 patch iptc,sj,dgj,dgi,id: 2 1904 -130 -145 784 half line dmj dgc: 0 2833 326 -145 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1904 1105 Zeroing lines in arrays Total # of output lines = 2 1903 1904 3008 0 1104 patch iptc,sj,dgj,dgi,id: 2 3008 -130 -130 1104 half line dmj dgc: 1 2833 326 -145 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 3008 1904 Zeroing lines in arrays Total # of output lines = 2 3007 Processing block number 3 DEBUG -115 331.9157 -114.2421 0.0000000E+00 0.0000000E+00 3008 3807 15 784 patch iptc,sj,dgj,dgi,id: 3 3807 -115 -130 784 half line dmj dgc: 0 4721 331 -145 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3807 3008 Zeroing lines in arrays Total # of output lines = 3 3806 3807 4911 0 1104 patch iptc,sj,dgj,dgi,id: 3 4911 -115 -115 1104 half line dmj dgc: 1 4721 331 -145 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4911 3807 Zeroing lines in arrays Total # of output lines = 3 4910 Processing block number 4 DEBUG -109 332.4720 -108.8048 0.0000000E+00 0.0000000E+00 4911 5701 6 784 patch iptc,sj,dgj,dgi,id: 4 5701 -109 -115 784 half line dmj dgc: 0 6609 332 -145 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 5701 4911 Zeroing lines in arrays Total # of output lines = 4 5700 5701 6805 0 1104 patch iptc,sj,dgj,dgi,id: 4 6805 -109 -109 1104 half line dmj dgc: 1 6609 332 -145 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 6805 5701 Zeroing lines in arrays Total # of output lines = 4 6804 Processing block number 5 DEBUG -117 327.3393 -116.4965 0.0000000E+00 0.0000000E+00 6805 7581 -8 784 patch iptc,sj,dgj,dgi,id: 5 7581 -117 -109 784 half line dmj dgc: 0 8497 327 -145 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 7581 6805 Zeroing lines in arrays Total # of output lines = 5 7580 7581 8685 0 1104 patch iptc,sj,dgj,dgi,id: 5 8685 -117 -117 1104 half line dmj dgc: 1 8497 327 -145 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 8685 7581 Zeroing lines in arrays Total # of output lines = 5 8684 Processing block number 6 DEBUG -129 323.3984 -128.3186 0.0000000E+00 0.0000000E+00 8685 9457 -12 784 patch iptc,sj,dgj,dgi,id: 6 9457 -129 -117 784 half line dmj dgc: 0 10385 323 -145 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 9457 8685 Zeroing lines in arrays Total # of output lines = 6 9456 9457 10561 0 1104 patch iptc,sj,dgj,dgi,id: 6 10561 -129 -129 1104 half line dmj dgc: 1 10385 323 -145 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 10561 9457 Zeroing lines in arrays Total # of output lines = 6 10560 Processing block number 7 DEBUG -132 327.3315 -131.6163 0.0000000E+00 0.0000000E+00 10561 11342 -3 784 patch iptc,sj,dgj,dgi,id: 7 11342 -132 -129 784 half line dmj dgc: 0 12273 327 -145 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 11342 10561 Zeroing lines in arrays Total # of output lines = 7 11341 11342 12446 0 1104 patch iptc,sj,dgj,dgi,id: 7 158 -132 -132 1104 half line dmj dgc: 1 12273 327 -145 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 s1>sj: 11342 158 Zeroing lines in arrays Total # of output lines = 7 12445 Processing block number 8 DEBUG -128 336.5076 -127.1506 0.0000000E+00 0.0000000E+00 158 946 4 784 patch iptc,sj,dgj,dgi,id: 8 946 -128 -132 784 half line dmj dgc: 0 14161 336 -145 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 946 158 Zeroing lines in arrays Total # of output lines = 8 13233 946 2050 0 1104 patch iptc,sj,dgj,dgi,id: 8 2050 -128 -128 1104 half line dmj dgc: 1 14161 336 -145 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 2050 946 Zeroing lines in arrays Total # of output lines = 8 14337 Processing block number 9 DEBUG -117 342.9965 -115.9981 0.0000000E+00 0.0000000E+00 2050 2845 11 784 patch iptc,sj,dgj,dgi,id: 9 2845 -117 -128 784 half line dmj dgc: 0 16049 342 -145 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 2845 2050 Zeroing lines in arrays Total # of output lines = 9 15132 2845 3949 0 1104 patch iptc,sj,dgj,dgi,id: 9 3949 -117 -117 1104 half line dmj dgc: 1 16049 342 -145 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 3949 2845 Zeroing lines in arrays Total # of output lines = 9 16236 Processing block number 10 DEBUG -93 345.9440 -92.76283 0.0000000E+00 0.0000000E+00 3949 4668 24 695 patch iptc,sj,dgj,dgi,id: 10 4668 -93 -117 695 half line dmj dgc: 0 17848 345 -145 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 4668 3949 Zeroing lines in arrays Total # of output lines = 10 16955 4668 5772 0 1104 patch iptc,sj,dgj,dgi,id: 10 5772 -93 -93 1104 half line dmj dgc: 1 17848 345 -145 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 5772 4668 Zeroing lines in arrays Total # of output lines = 10 18059 ia dmi dgi: 5772 345 -93 Writing the last 1542 lines last half sj>s1 7314 5772 18059 WAYNE done patche 57.19094502925873 Total # of output lines = 19601 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 19601 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 57.51823496818542 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.cp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_c.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 2208 data points per patch Near range (m) = 8851.750 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) = 0.0000000E+00 Transmit leverarm x,y,z = -4.3000001E-02 1.217000 0.3090000 Receive leverarm x,y,z = -4.3000001E-02 1.217000 0.3090000 Name of raw data file? /export/air31/airops/6395/c_vv Name of the mocomp data file? /export/air35/airops/6395/cm6395_c.mocompv Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.cv WAYNE init fft, calc slant range, load unpack, interpo 1.2839004E-02 reading motion compensation data WAYNE read motion compen 0.4912210 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1491370 start range comp, time = 1.111 WAYNE PREV 0.6681430 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 5 by # 2 Processing block number 5 WAYNE PATCHES: 7553 11648 patch# 5 reference line: 9600 1.332 seconds. before reading done reading WAYNE load raw data , time = 23.58234393596649 ATTN ifrq ipol ln 8 4 11648 22.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 6.2559843063354492E-03 WAYNE Motion comp. added to patch, time = 8.035588026046753 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4089813232421875E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.2581139802933 Writing 2208 lines of data to file WAYNE write output data 0.8960289955139160 ==w out 5 0 945 0 WAYNE PROCESS 189.7824430465698 ==w out 6 2211 PROCESSING KID# 6 ..... WAYNE IS IN Processing 8 to 8 by # 5 Processing block number 8 WAYNE PATCHES: 13217 17312 patch# 8 reference line: 15264 1.357 seconds. before reading done reading WAYNE load raw data , time = 23.72903203964233 ATTN ifrq ipol ln 8 4 17312 22.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 6.3610076904296875E-03 WAYNE Motion comp. added to patch, time = 7.960260987281799 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3640394210815430E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.5721930265427 Writing 2208 lines of data to file WAYNE write output data 1.046414017677307 ==w out 8 0 945 0 WAYNE PROCESS 190.3180919885635 ==w out 9 2211 PROCESSING KID# 4 ..... WAYNE IS IN Processing 6 to 6 by # 3 Processing block number 6 WAYNE PATCHES: 9441 13536 patch# 6 reference line: 11488 1.341 seconds. before reading done reading WAYNE load raw data , time = 24.45422506332397 ATTN ifrq ipol ln 8 4 13536 22.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 6.2500238418579102E-03 WAYNE Motion comp. added to patch, time = 7.957456946372986 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4269819259643555E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 156.9548869132996 Writing 2208 lines of data to file WAYNE write output data 1.019643068313599 ==w out 6 0 945 0 WAYNE PROCESS 190.3965780735016 ==w out 7 2211 PROCESSING KID# 5 ..... WAYNE IS IN Processing 7 to 7 by # 4 Processing block number 7 WAYNE PATCHES: 11329 15424 patch# 7 reference line: 13376 1.349 seconds. before reading done reading WAYNE load raw data , time = 24.71587502956390 ATTN ifrq ipol ln 8 4 15424 22.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 6.3309669494628906E-03 WAYNE Motion comp. added to patch, time = 8.044461965560913 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.5479793548583984E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 156.9279690980911 Writing 2208 lines of data to file WAYNE write output data 0.9436099529266357 ==w out 7 0 945 0 WAYNE PROCESS 190.6424570083618 ==w out 8 2211 PROCESSING KID# 7 ..... WAYNE IS IN Processing 9 to 9 by # 6 Processing block number 9 WAYNE PATCHES: 15105 19200 patch# 9 reference line: 17152 1.365 seconds. before reading done reading WAYNE load raw data , time = 24.38330900669098 ATTN ifrq ipol ln 8 4 19200 22.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 6.2060356140136719E-03 WAYNE Motion comp. added to patch, time = 8.005262970924377 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3849010467529297E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.5198029279709 Writing 2208 lines of data to file WAYNE write output data 0.9398130178451538 ==w out 9 0 945 0 WAYNE PROCESS 190.8585230112076 ==w out 10 2211 PROCESSING KID# 8 ..... WAYNE IS IN Processing 10 to 10 by # 7 Processing block number 10 WAYNE PATCHES: 16904 20999 patch# 10 reference line: 18951 1.373 seconds. before reading done reading WAYNE load raw data , time = 24.39252495765686 ATTN ifrq ipol ln 8 4 20999 22.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 6.5079927444458008E-03 WAYNE Motion comp. added to patch, time = 8.546440005302429 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4670362472534180E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.5917760133743 Writing 2208 lines of data to file WAYNE write output data 0.8114550113677979 ==w out 10 0 945 0 WAYNE PROCESS 191.3528560400009 ==w out 11 2211 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 3777 7872 patch# 3 reference line: 5824 1.319 seconds. before reading done reading WAYNE load raw data , time = 23.78696906566620 ATTN ifrq ipol ln 8 4 7872 22.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 6.2750577926635742E-03 WAYNE Motion comp. added to patch, time = 7.908350944519043 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5810003280639648E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 157.3469679355621 Writing 2208 lines of data to file WAYNE write output data 1.024746060371399 ==w out 3 0 945 0 WAYNE PROCESS 190.0775350332260 Processing block number 4 WAYNE PATCHES: 5665 9760 patch# 4 reference line: 7712 191.397 seconds. before reading done reading WAYNE load raw data , time = 22.43566203117371 ATTN ifrq ipol ln 8 4 9760 22.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 5.3559541702270508E-03 WAYNE Motion comp. added to patch, time = 7.391627073287964 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 0.6829299926757813 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 118.9850430488586 Writing 2208 lines of data to file WAYNE write output data 0.7615900039672852 ==w out 4 2208 945 45219840 WAYNE PROCESS 150.2633759975433 ==w out 5 4419 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -1.9613300E-02 2.6794501E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 1.308 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 23.82743000984192 ATTN ifrq ipol ln 8 4 4096 22.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 6.4109563827514648E-03 TESTING 0.0000000E+00 -0.2749092 0.4807182 WAYNE Motion comp. added to patch, time = 8.350432038307190 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.2889375686645508E-03 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -0.2749092 0.4807182 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.9613300E-02 2.6794501E-02 WAYNE Azimuth compression done, time = 156.7236120700836 Writing 2208 lines of data to file WAYNE write output data 0.8470950126647949 ==w out 1 0 945 0 WAYNE PROCESS 189.7587729692459 Processing block number 2 TESTING WHY -1.9001899E-02 2.6592299E-02 1888 2 WAYNE PATCHES: 1889 5984 patch# 2 reference line: 3936 191.067 seconds. TESTING 1889 before reading done reading WAYNE load raw data , time = 22.62543702125549 ATTN ifrq ipol ln 8 4 5984 22.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 5.3949356079101563E-03 TESTING 0.0000000E+00 0.3962414 0.4166524 WAYNE Motion comp. added to patch, time = 7.417430996894836 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 0.8949120044708252 PacRimII:C-wavl Br hddt: 5.6699999E-02 40.00000 90 4.5923717E-02 AZ Wavl Br: 5.6699999E-02 40.00000 4.5923717E-02 406.5053 797.9635 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 0.3962414 0.4166524 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.9001899E-02 2.6592299E-02 WAYNE Azimuth compression done, time = 118.9059621095657 Writing 2208 lines of data to file WAYNE write output data 0.7686419486999512 ==w out 2 2208 945 45219840 WAYNE PROCESS 150.6189409494400 ==w out 3 4419 1 3423025 0 2 3422152 0 3 3423070 0 4 3418093 0 5 3422148 0 6 3421338 0 7 3422056 0 8 3422912 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 22080kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 7.1009993553161621E-02 WAYNE LOOP TIME: 349.1579300165176 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_c.vv_j /export/air35/airops/6395/cm6395_c.mocompv /export/air35/airops/6395/cm6395_c.dop /export/air35/airops/6395/cm6395_c.glb 2560 22080 update intf hdr ha: 8369.500 UPDATE: 2560 22080 3.331000 0.5144000 mocompfile /export/air35/airops/6395/cm6395_c.mocompv dopfile /export/air35/airops/6395/cm6395_c.dop globalfile /export/air35/airops/6395/cm6395_c.glb /export/air35/airops/6395/cm6395_c.glb 38 deskew line ra ha trc: 167.9502 326 8852.195 8369.500 89.71424 after deskew line ra ha trc: 167.9502 326 8852.195 8369.500 89.71424 lat1 lon1: 326 21.29592 -158.1417 22080 last ra n_ns ns: 8852.195 0 1 22405 22080 lati loni: 22405 21.29595 -158.0193 22405 1 center ra n_ns ns: 13112.54 1279 1279 11365 22080 lati loni: 11365 21.33414 -158.0796 11365 2560 Updated paramater header in /export/air31/airops/6395/cm6395_c.vv_j WAYNE FINAL PROCESS 350.2898600101471 ********************************************* ***** ***** ***** 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 = 8 4416 2 4416 2 2208 1 2208 1 2208 1 2208 1 2208 1 2208 1 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_c.vv_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_c.dop Name of the deskew file? /export/air31/airops/6395/deskew.cv Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_c.vv Name of the line output file? /export/air35/airops/6395/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.271603107452393 Deskewing 10 patches Processing block number 1 DEBUG -145 326.4992 -144.4949 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -145 -145 0 half line dmj dgc: 0 945 326 -145 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 -145 -145 1104 half line dmj dgc: 1 945 326 -145 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 -130 326.6117 -129.6943 0.0000000E+00 0.0000000E+00 1105 1904 15 784 patch iptc,sj,dgj,dgi,id: 2 1904 -130 -145 784 half line dmj dgc: 0 2833 326 -145 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1904 1105 Zeroing lines in arrays Total # of output lines = 2 1903 1904 3008 0 1104 patch iptc,sj,dgj,dgi,id: 2 3008 -130 -130 1104 half line dmj dgc: 1 2833 326 -145 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 3008 1904 Zeroing lines in arrays Total # of output lines = 2 3007 Processing block number 3 DEBUG -115 331.9157 -114.2421 0.0000000E+00 0.0000000E+00 3008 3807 15 784 patch iptc,sj,dgj,dgi,id: 3 3807 -115 -130 784 half line dmj dgc: 0 4721 331 -145 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3807 3008 Zeroing lines in arrays Total # of output lines = 3 3806 3807 4911 0 1104 patch iptc,sj,dgj,dgi,id: 3 4911 -115 -115 1104 half line dmj dgc: 1 4721 331 -145 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4911 3807 Zeroing lines in arrays Total # of output lines = 3 4910 Processing block number 4 DEBUG -109 332.4720 -108.8048 0.0000000E+00 0.0000000E+00 4911 5701 6 784 patch iptc,sj,dgj,dgi,id: 4 5701 -109 -115 784 half line dmj dgc: 0 6609 332 -145 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 5701 4911 Zeroing lines in arrays Total # of output lines = 4 5700 5701 6805 0 1104 patch iptc,sj,dgj,dgi,id: 4 6805 -109 -109 1104 half line dmj dgc: 1 6609 332 -145 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 6805 5701 Zeroing lines in arrays Total # of output lines = 4 6804 Processing block number 5 DEBUG -117 327.3393 -116.4965 0.0000000E+00 0.0000000E+00 6805 7581 -8 784 patch iptc,sj,dgj,dgi,id: 5 7581 -117 -109 784 half line dmj dgc: 0 8497 327 -145 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 7581 6805 Zeroing lines in arrays Total # of output lines = 5 7580 7581 8685 0 1104 patch iptc,sj,dgj,dgi,id: 5 8685 -117 -117 1104 half line dmj dgc: 1 8497 327 -145 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 8685 7581 Zeroing lines in arrays Total # of output lines = 5 8684 Processing block number 6 DEBUG -129 323.3984 -128.3186 0.0000000E+00 0.0000000E+00 8685 9457 -12 784 patch iptc,sj,dgj,dgi,id: 6 9457 -129 -117 784 half line dmj dgc: 0 10385 323 -145 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 9457 8685 Zeroing lines in arrays Total # of output lines = 6 9456 9457 10561 0 1104 patch iptc,sj,dgj,dgi,id: 6 10561 -129 -129 1104 half line dmj dgc: 1 10385 323 -145 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 10561 9457 Zeroing lines in arrays Total # of output lines = 6 10560 Processing block number 7 DEBUG -132 327.3315 -131.6163 0.0000000E+00 0.0000000E+00 10561 11342 -3 784 patch iptc,sj,dgj,dgi,id: 7 11342 -132 -129 784 half line dmj dgc: 0 12273 327 -145 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 11342 10561 Zeroing lines in arrays Total # of output lines = 7 11341 11342 12446 0 1104 patch iptc,sj,dgj,dgi,id: 7 158 -132 -132 1104 half line dmj dgc: 1 12273 327 -145 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 s1>sj: 11342 158 Zeroing lines in arrays Total # of output lines = 7 12445 Processing block number 8 DEBUG -128 336.5076 -127.1506 0.0000000E+00 0.0000000E+00 158 946 4 784 patch iptc,sj,dgj,dgi,id: 8 946 -128 -132 784 half line dmj dgc: 0 14161 336 -145 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 946 158 Zeroing lines in arrays Total # of output lines = 8 13233 946 2050 0 1104 patch iptc,sj,dgj,dgi,id: 8 2050 -128 -128 1104 half line dmj dgc: 1 14161 336 -145 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 2050 946 Zeroing lines in arrays Total # of output lines = 8 14337 Processing block number 9 DEBUG -117 342.9965 -115.9981 0.0000000E+00 0.0000000E+00 2050 2845 11 784 patch iptc,sj,dgj,dgi,id: 9 2845 -117 -128 784 half line dmj dgc: 0 16049 342 -145 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 2845 2050 Zeroing lines in arrays Total # of output lines = 9 15132 2845 3949 0 1104 patch iptc,sj,dgj,dgi,id: 9 3949 -117 -117 1104 half line dmj dgc: 1 16049 342 -145 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 3949 2845 Zeroing lines in arrays Total # of output lines = 9 16236 Processing block number 10 DEBUG -93 345.9440 -92.76283 0.0000000E+00 0.0000000E+00 3949 4668 24 695 patch iptc,sj,dgj,dgi,id: 10 4668 -93 -117 695 half line dmj dgc: 0 17848 345 -145 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 4668 3949 Zeroing lines in arrays Total # of output lines = 10 16955 4668 5772 0 1104 patch iptc,sj,dgj,dgi,id: 10 5772 -93 -93 1104 half line dmj dgc: 1 17848 345 -145 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 5772 4668 Zeroing lines in arrays Total # of output lines = 10 18059 ia dmi dgi: 5772 345 -93 Writing the last 1542 lines last half sj>s1 7314 5772 18059 WAYNE done patche 51.84205603599548 Total # of output lines = 19601 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 19601 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 52.20961499214172 Enter single look lines filename: Enter single look image filename: Enter output lines filename: Enter number of looks: ns np nlloks: 2560 19601 9 Multi-looking lines.dat file... Total number of lines written to output file: 2177 *************************************** ***** ***** ***** 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: 0 min. window size : 5947 MIN window samp: 2524 90.00000 10.00000 900 2560 MIN window samp: 2524 90.00000 10.00000 900 2560 Calculating the ratio of HV and VH.... amvh,amhv 553.3497 578.8552 Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the number of looks in azimuth. amplitude ratio and phase = 1.022787 36.08901 ns min window: 2524 10096 ns complex: 2524 20192 19593 2177 9 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.1663214 35.05590 146 -0.188 3046 -0.063 35.05590 0.006206 0.003562 -0.000248 r_peak,r_snr = 0.1338803 39.16370 246 -0.063 3046 0.031 39.16370 0.009246 0.007649 -0.000066 r_peak,r_snr = 0.2659215 6.414368 346 -0.281 3046 -0.219 6.41437 0.007462 0.060429 -0.001435 r_peak,r_snr = 0.1060921 8.554424 446 0.781 3046 -4.281 8.55442 0.021783 0.017792 0.002072 r_peak,r_snr = 0.2377085 9.525531 546 -0.250 3046 0.656 9.52553 0.010604 0.053719 0.010487 r_peak,r_snr = 0.4766495 2.368193 646 0.156 3046 -0.500 2.36819 0.007599 0.963008 -0.003968 r_peak,r_snr = 0.4418515 8.033380 746 0.000 3046 -0.281 8.03338 0.003702 0.010752 -0.000248 r_peak,r_snr = 0.2968372 8.484545 846 0.063 3046 0.344 8.48454 0.006169 0.021661 0.002991 r_peak,r_snr = 0.4827298 15.67497 946 -0.094 3046 -0.156 15.67497 0.001539 0.011052 -0.000571 r_peak,r_snr = 0.3910038 8.077604 1046 -0.375 3046 1.188 8.07760 0.003492 0.053707 -0.000902 r_peak,r_snr = 0.2695866 19.23924 1146 0.063 3046 -0.313 19.23924 0.004071 0.031860 0.001162 r_peak,r_snr = 0.1903884 8.576603 1246 -0.063 3046 -0.125 8.57660 0.008624 0.016936 0.000891 r_peak,r_snr = 0.2730399 5.797934 1346 0.125 3046 0.031 5.79793 0.007870 0.008625 0.001184 r_peak,r_snr = 0.2789387 3.272833 1446 -0.344 3046 0.000 3.27283 0.017262 0.015337 -0.001562 r_peak,r_snr = 0.3050199 3.238907 1546 0.031 3046 -0.125 3.23891 0.007105 0.008761 0.000184 r_peak,r_snr = 0.2167535 7.383525 1646 -0.188 3046 -0.031 7.38352 0.007210 0.004838 0.001030 r_peak,r_snr = 0.5242344 2.671737 1746 -1.156 3046 7.750 2.67174 0.084732 0.063239 -0.043727 r_peak,r_snr = 0.3412859 9.542525 1846 -0.125 3046 0.000 9.54253 0.003956 0.016988 0.000169 r_peak,r_snr = 0.1369426 19.45972 1946 -0.031 3046 -0.125 19.45972 0.009860 0.021971 0.001906 r_peak,r_snr = 9.9328771E-02 10.08135 2046 10.969 3046 3.406 10.08135 0.050781 0.031420 -0.014458 At line = 3400 Reading in data.... r_peak,r_snr = 0.1753351 50.00613 146 -0.188 3446 0.094 50.00613 0.006560 0.003396 -0.000135 r_peak,r_snr = 0.1018165 13.31481 246 -0.406 3446 0.031 13.31481 0.018843 0.013036 0.001076 r_peak,r_snr = 0.1117452 4.554262 346 -3.125 3446 1.906 4.55426 0.080592 0.037788 -0.011338 r_peak,r_snr = 0.2345149 6.131275 446 -0.188 3446 -0.094 6.13127 0.069997 0.086758 -0.017989 r_peak,r_snr = 0.4204443 3.117241 546 0.375 3446 1.281 3.11724 0.008536 0.105156 -0.010200 r_peak,r_snr = 0.5790774 4.732620 646 -0.063 3446 2.313 4.73262 0.003947 0.044637 0.004045 r_peak,r_snr = 0.5616281 2.752283 746 -0.281 3446 0.844 2.75228 0.008989 0.096384 -0.005953 r_peak,r_snr = 0.2680300 13.77732 846 -0.031 3446 0.438 13.77732 0.005699 0.112141 -0.008314 r_peak,r_snr = 0.4971627 16.08329 946 -0.219 3446 -0.500 16.08329 0.001228 0.005065 -0.000166 r_peak,r_snr = 0.4950500 4.725863 1046 -0.219 3446 -0.031 4.72586 0.003723 0.005285 -0.000034 r_peak,r_snr = 0.1387006 8.183705 1146 0.031 3446 0.094 8.18371 0.026692 0.020759 -0.009341 r_peak,r_snr = 8.5364752E-02 12.45459 1246 -0.094 3446 -0.063 12.45459 0.019204 0.069104 -0.004119 r_peak,r_snr = 9.6706077E-02 12.63383 1346 -0.094 3446 0.188 12.63383 0.035109 0.075592 0.004931 r_peak,r_snr = 0.2894621 2.632296 1446 -0.250 3446 -0.156 2.63230 0.015961 0.015977 0.003433 r_peak,r_snr = 0.2353661 5.995716 1546 0.000 3446 0.125 5.99572 0.008959 0.016116 -0.002615 r_peak,r_snr = 0.1975600 4.538148 1646 0.063 3446 -0.063 4.53815 0.016301 0.027951 -0.000843 r_peak,r_snr = 0.4209044 2.292861 1746 -1.125 3446 6.813 2.29286 0.027066 0.012810 -0.004632 r_peak,r_snr = 0.5492381 2.414212 1846 0.219 3446 -1.813 2.41421 0.013498 0.027908 0.008678 r_peak,r_snr = 0.2106571 8.684893 1946 0.063 3446 0.719 8.68489 0.014065 0.047747 -0.007946 r_peak,r_snr = 9.6890613E-02 14.64638 2046 0.031 3446 0.375 14.64638 0.022345 0.028259 0.001915 At line = 3800 Reading in data.... r_peak,r_snr = 0.1663513 52.97025 146 -0.219 3846 0.000 52.97025 0.006245 0.002692 -0.000301 r_peak,r_snr = 9.2236981E-02 21.21127 246 -0.281 3846 -0.063 21.21127 0.021314 0.014317 -0.000447 r_peak,r_snr = 0.4253854 2.184606 346 -0.125 3846 -0.094 2.18461 0.006055 0.017285 -0.000538 r_peak,r_snr = 0.7046803 8.366571 446 -0.094 3846 -0.031 8.36657 0.000705 0.000872 0.000000 r_peak,r_snr = 0.5881950 21.31816 546 -0.063 3846 0.063 21.31816 0.000717 0.001036 0.000001 r_peak,r_snr = 0.4637576 10.22945 646 -0.031 3846 0.188 10.22945 0.001984 0.007627 -0.000318 r_peak,r_snr = 0.4268861 7.853396 746 -0.250 3846 -0.750 7.85340 0.003945 0.013269 0.000982 r_peak,r_snr = 0.4745038 9.552411 846 -0.094 3846 2.219 9.55241 0.001911 0.024605 -0.000770 r_peak,r_snr = 0.2269794 37.03365 946 0.219 3846 -0.375 37.03365 0.003795 0.017127 0.000672 r_peak,r_snr = 0.2881879 8.479441 1046 0.125 3846 0.000 8.47944 0.007780 0.037430 -0.001349 r_peak,r_snr = 0.1629397 13.60473 1146 -0.500 3846 0.531 13.60473 0.023783 0.034348 -0.008415 r_peak,r_snr = 7.6720260E-02 10.70205 1246 -0.063 3846 10.156 10.70205 0.057199 0.066137 -0.027434 r_peak,r_snr = 0.2614874 6.051430 1346 0.125 3846 0.125 6.05143 0.012216 0.013439 -0.000478 r_peak,r_snr = 0.2707483 3.949257 1446 -0.438 3846 -0.125 3.94926 0.064886 0.094964 -0.026153 r_peak,r_snr = 0.3330361 5.545264 1546 -0.031 3846 -0.219 5.54526 0.006713 0.021707 -0.000168 r_peak,r_snr = 0.3734803 2.989676 1646 -0.313 3846 8.906 2.98968 0.024882 0.031110 0.000875 r_peak,r_snr = 0.5390133 2.180820 1746 -0.094 3846 -0.188 2.18082 0.008210 0.013382 0.001518 r_peak,r_snr = 0.5154859 1.883899 1846 -3.781 3846 -3.813 1.88390 0.006414 0.016168 0.000397 r_peak,r_snr = 0.2630206 12.47859 1946 -0.031 3846 -0.063 12.47859 0.007615 0.028406 -0.001811 r_peak,r_snr = 0.1017358 13.47289 2046 -0.094 3846 -1.625 13.47289 0.016363 0.166302 -0.007294 At line = 4200 Reading in data.... r_peak,r_snr = 0.1977697 14.21039 146 -0.219 4246 -0.156 14.21039 0.008417 0.006809 -0.000202 r_peak,r_snr = 0.4824499 3.015292 246 -0.281 4246 -0.156 3.01529 0.008720 0.079253 0.008767 r_peak,r_snr = 0.5263446 4.934730 346 0.250 4246 0.063 4.93473 0.001976 0.007633 -0.000784 r_peak,r_snr = 9.0632364E-02 4.676339 446 11.906 4246 0.875 4.67634 0.050001 0.023634 0.002234 r_peak,r_snr = 0.5323139 13.73757 546 -0.156 4246 -0.625 13.73757 0.000999 0.008220 -0.000003 r_peak,r_snr = 0.4976408 5.757925 646 0.219 4246 0.063 5.75793 0.004206 0.020033 -0.002582 r_peak,r_snr = 0.3612694 8.405413 746 -0.063 4246 0.406 8.40541 0.004510 0.029910 -0.001361 r_peak,r_snr = 0.2477674 10.56025 846 -0.031 4246 0.250 10.56025 0.006620 0.065916 -0.002351 r_peak,r_snr = 0.2465943 14.03897 946 -0.031 4246 0.250 14.03897 0.006801 0.031358 -0.000915 r_peak,r_snr = 0.1800810 9.151027 1046 -0.344 4246 0.063 9.15103 0.061863 0.152325 0.050714 r_peak,r_snr = 0.5047590 4.312303 1146 -0.031 4246 3.781 4.31230 0.002464 0.017705 -0.001201 r_peak,r_snr = 0.2487374 2.336099 1246 0.094 4246 0.094 2.33610 0.021821 0.016639 -0.001410 r_peak,r_snr = 0.2742407 2.739144 1346 0.188 4246 0.031 2.73914 0.011096 0.011983 0.000700 r_peak,r_snr = 0.1657013 2.708133 1446 -0.031 4246 -0.156 2.70813 0.108829 1.708710 -0.372089 r_peak,r_snr = 0.1634614 21.61077 1546 0.000 4246 -0.063 21.61077 0.015318 0.015455 0.004118 r_peak,r_snr = 0.3395381 2.872070 1646 0.063 4246 -0.250 2.87207 0.008028 0.016545 0.002134 r_peak,r_snr = 0.3920645 2.077018 1746 -0.250 4246 0.125 2.07702 0.015306 0.008164 0.000203 r_peak,r_snr = 0.2892660 3.789336 1846 -0.594 4246 -1.469 3.78934 0.012025 0.153470 0.004606 r_peak,r_snr = 0.2491732 11.77288 1946 -0.031 4246 0.156 11.77288 0.005493 0.031654 0.001464 r_peak,r_snr = 0.1560394 20.65987 2046 -0.063 4246 0.875 20.65987 0.015079 0.058769 0.006710 At line = 4600 Reading in data.... r_peak,r_snr = 0.3875665 3.532377 146 0.969 4646 -3.375 3.53238 0.007385 0.034191 0.004935 r_peak,r_snr = 0.5303912 24.93036 246 -0.094 4646 0.094 24.93036 0.000990 0.002214 -0.000091 r_peak,r_snr = 0.4788937 6.671097 346 -0.219 4646 0.406 6.67110 0.002450 0.039144 0.001240 r_peak,r_snr = 0.1688049 12.20704 446 -0.281 4646 0.000 12.20704 0.013190 0.015049 0.000789 r_peak,r_snr = 0.3612118 18.45488 546 -0.156 4646 -0.031 18.45488 0.002567 0.008870 0.000032 r_peak,r_snr = 0.3798526 8.930122 646 -0.156 4646 0.844 8.93012 0.003556 0.050824 0.000729 r_peak,r_snr = 0.3450410 11.38963 746 -0.125 4646 -0.156 11.38963 0.003538 0.036726 0.002096 r_peak,r_snr = 0.2623364 4.900477 846 0.063 4646 -4.719 4.90048 0.004778 0.073594 0.002755 r_peak,r_snr = 0.2315253 16.58696 946 -0.063 4646 0.063 16.58696 0.004726 0.006678 -0.000511 r_peak,r_snr = 0.1313230 11.38301 1046 -0.063 4646 -0.438 11.38301 0.018949 0.048909 -0.002959 r_peak,r_snr = 0.1777329 11.96962 1146 -0.156 4646 0.781 11.96962 0.012310 0.059043 0.007914 r_peak,r_snr = 0.2104605 6.633749 1246 -0.031 4646 0.125 6.63375 0.009747 0.011969 0.000475 r_peak,r_snr = 0.3355365 5.052464 1346 -0.031 4646 -0.031 5.05246 0.004204 0.004184 -0.000353 r_peak,r_snr = 0.2390400 4.052656 1446 -0.031 4646 -0.094 4.05266 0.013163 0.008722 -0.000577 r_peak,r_snr = 0.1829553 7.506939 1546 0.688 4646 1.750 7.50694 0.028380 0.027282 -0.008453 r_peak,r_snr = 0.3746243 2.820434 1646 -0.125 4646 0.375 2.82043 0.009102 0.019942 -0.001911 r_peak,r_snr = 0.4729387 3.727457 1746 0.531 4646 2.719 3.72746 0.004578 0.009309 -0.000135 r_peak,r_snr = 0.2156093 6.615896 1846 0.344 4646 0.219 6.61590 0.012050 0.013033 -0.001070 r_peak,r_snr = 0.2142130 14.38551 1946 -0.156 4646 -0.688 14.38551 0.008230 0.111902 -0.005064 r_peak,r_snr = 0.1979055 17.15260 2046 -0.156 4646 2.594 17.15260 0.008182 0.013678 0.002083 At line = 5000 Reading in data.... r_peak,r_snr = 0.2748184 10.83090 146 0.063 5046 -2.156 10.83090 0.004585 0.108839 0.008695 r_peak,r_snr = 0.5949197 6.324014 246 0.125 5046 -0.094 6.32401 0.001453 0.005286 0.000039 r_peak,r_snr = 0.4938464 12.21306 346 -0.219 5046 -0.031 12.21306 0.001239 0.002132 -0.000046 r_peak,r_snr = 6.6583022E-02 12.10180 446 -0.063 5046 0.000 12.10180 0.026735 0.026721 0.000397 r_peak,r_snr = 0.2537576 8.489808 546 -0.094 5046 1.219 8.48981 0.006942 2.821061 -0.055998 r_peak,r_snr = 0.4259309 9.704464 646 0.063 5046 0.094 9.70446 0.002509 0.016656 -0.000508 r_peak,r_snr = 0.3000887 9.409724 746 -0.063 5046 0.469 9.40972 0.005465 0.052219 -0.001910 r_peak,r_snr = 0.4056669 11.02892 846 -0.031 5046 0.094 11.02892 0.002202 0.003803 0.000198 r_peak,r_snr = 0.1939606 15.24165 946 -0.063 5046 0.875 15.24165 0.007484 0.058618 0.003025 r_peak,r_snr = 0.1564507 18.21533 1046 -0.125 5046 -1.250 18.21533 0.016516 0.156595 0.025820 r_peak,r_snr = 0.1862648 2.885598 1146 -9.094 5046 -4.188 2.88560 0.060325 0.030303 -0.005149 r_peak,r_snr = 0.2770394 3.841144 1246 -0.250 5046 -0.094 3.84114 0.016811 0.028288 0.004970 r_peak,r_snr = 0.3644986 3.045524 1346 -0.094 5046 0.219 3.04552 0.006511 0.010578 -0.000374 r_peak,r_snr = 0.2663956 7.104903 1446 0.156 5046 0.219 7.10490 0.007008 0.005835 0.000194 r_peak,r_snr = 0.3378671 15.39039 1546 0.094 5046 -0.094 15.39039 0.003360 0.022127 -0.001962 r_peak,r_snr = 0.2716305 7.805077 1646 -0.125 5046 0.063 7.80508 0.005053 0.007652 0.000324 r_peak,r_snr = 0.4425671 2.792377 1746 -0.156 5046 -0.063 2.79238 0.008349 0.014874 -0.001228 r_peak,r_snr = 0.4282574 2.922925 1846 0.219 5046 0.750 2.92292 0.005360 0.034540 0.000878 r_peak,r_snr = 0.2291309 21.20766 1946 0.000 5046 0.313 21.20766 0.005200 0.012917 0.000458 r_peak,r_snr = 0.1545506 10.50189 2046 -0.188 5046 0.156 10.50189 0.024600 0.040366 0.007535 At line = 5400 Reading in data.... r_peak,r_snr = 0.5527303 5.355973 146 -0.031 5446 0.156 5.35597 0.002144 0.004258 -0.000162 r_peak,r_snr = 0.1959747 6.188989 246 -11.875 5446 16.813 6.18899 0.012146 0.259506 -0.034082 r_peak,r_snr = 0.5788752 4.997835 346 -0.094 5446 -0.063 4.99783 0.001720 0.004462 0.000239 r_peak,r_snr = 0.4456638 13.24817 446 -0.156 5446 0.406 13.24817 0.001599 0.011669 0.000287 r_peak,r_snr = 0.2920356 10.15850 546 -0.031 5446 0.625 10.15850 0.004082 2.239975 0.000079 r_peak,r_snr = 0.6522176 11.30295 646 0.031 5446 0.031 11.30295 0.000756 0.002533 -0.000115 r_peak,r_snr = 0.2672108 5.895334 746 -0.125 5446 -1.313 5.89533 0.016809 0.205503 -0.041481 r_peak,r_snr = 0.4299052 8.928124 846 0.031 5446 0.406 8.92812 0.002173 0.005633 -0.000344 r_peak,r_snr = 0.2202808 22.11151 946 0.031 5446 0.000 22.11151 0.005166 0.010336 -0.001651 r_peak,r_snr = 0.1012061 10.57787 1046 -0.250 5446 -0.094 10.57787 0.013847 0.112433 0.001465 r_peak,r_snr = 0.1625217 4.425692 1146 0.656 5446 -4.781 4.42569 0.027780 0.017571 0.004917 r_peak,r_snr = 0.1791319 20.95645 1246 0.000 5446 0.000 20.95645 0.010552 0.029030 0.007535 r_peak,r_snr = 0.2948518 15.66424 1346 -0.094 5446 -0.156 15.66424 0.003468 0.010106 -0.000047 r_peak,r_snr = 0.4146731 1.954526 1446 0.938 5446 10.969 1.95453 0.016488 0.022056 -0.006260 r_peak,r_snr = 0.2181747 4.974141 1546 0.063 5446 -0.438 4.97414 0.011768 0.025401 -0.000894 r_peak,r_snr = 0.2143660 11.80866 1646 0.219 5446 1.844 11.80866 0.016394 0.019245 0.001349 r_peak,r_snr = 0.4169019 2.333624 1746 0.063 5446 -5.000 2.33362 0.019461 0.012905 -0.001858 r_peak,r_snr = 0.5269932 1.873603 1846 -0.281 5446 1.844 1.87360 0.022996 0.013120 0.000609 r_peak,r_snr = 0.2659684 23.60261 1946 0.000 5446 -0.156 23.60261 0.003607 0.012246 -0.000317 r_peak,r_snr = 0.2623631 2.260255 2046 -0.188 5446 -0.125 2.26026 0.015106 0.018823 -0.004302 At line = 5800 Reading in data.... r_peak,r_snr = 0.5571523 7.025140 146 0.156 5846 0.281 7.02514 0.001804 0.010888 0.000854 r_peak,r_snr = 0.4039976 15.95684 246 -0.156 5846 -0.781 15.95684 0.001727 0.008929 -0.000668 r_peak,r_snr = 0.2456486 11.10915 346 -0.031 5846 -1.375 11.10915 0.006484 0.052263 -0.004282 r_peak,r_snr = 0.6491708 4.585783 446 -0.469 5846 4.844 4.58578 0.002266 0.003361 -0.000492 r_peak,r_snr = 0.3151367 8.461573 546 -0.219 5846 1.250 8.46157 0.013263 0.496036 0.061100 r_peak,r_snr = 0.5597374 11.07774 646 -0.063 5846 0.563 11.07774 0.000951 0.008396 -0.000316 r_peak,r_snr = 0.4756224 8.428857 746 0.125 5846 -1.656 8.42886 0.002042 0.015372 0.001193 r_peak,r_snr = 0.3142932 7.458333 846 -0.281 5846 0.219 7.45833 0.007812 0.017222 -0.000031 r_peak,r_snr = 0.1548043 21.35145 946 -0.125 5846 -0.500 21.35145 0.011197 0.054069 0.002786 r_peak,r_snr = 0.1938146 17.65649 1046 0.031 5846 0.000 17.65649 0.011535 0.042416 -0.008168 r_peak,r_snr = 0.2679075 2.845007 1146 0.063 5846 0.094 2.84501 0.009968 0.007428 0.001875 r_peak,r_snr = 0.2487601 9.442992 1246 -0.125 5846 0.031 9.44299 0.007022 0.009260 0.000080 r_peak,r_snr = 0.3460464 25.05849 1346 -0.094 5846 0.031 25.05849 0.002717 0.008458 -0.000785 r_peak,r_snr = 0.4715520 1.742685 1446 -0.063 5846 0.375 1.74268 0.030137 0.018270 0.009958 r_peak,r_snr = 0.2470230 8.991183 1546 -0.156 5846 0.031 8.99118 0.009059 0.019283 0.000641 r_peak,r_snr = 0.5521598 72.85513 1646 -0.094 5846 -0.031 72.85513 0.000705 0.000988 -0.000014 r_peak,r_snr = 0.2586702 3.295001 1746 0.031 5846 -0.094 3.29500 0.010930 0.024390 -0.002101 r_peak,r_snr = 0.5761867 3.807209 1846 0.094 5846 0.250 3.80721 0.002841 0.023147 0.001389 r_peak,r_snr = 0.3252340 12.29330 1946 -0.063 5846 -0.250 12.29330 0.003528 0.036688 -0.000545 r_peak,r_snr = 0.3044981 2.907187 2046 -0.344 5846 -0.156 2.90719 0.023194 0.017039 -0.007410 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.8718423 272.3914 146 -0.188 3046 0.000 272.39139 0.000075 0.000056 -0.000002 r_peak,r_snr = 0.8287091 405.8883 246 -0.188 3046 0.000 405.88831 0.000098 0.000072 -0.000002 r_peak,r_snr = 0.5668995 55.44514 346 -0.188 3046 0.000 55.44514 0.000523 0.000402 -0.000012 r_peak,r_snr = 0.5606316 79.63151 446 -0.188 3046 0.000 79.63151 0.000534 0.000408 -0.000019 r_peak,r_snr = 0.4071728 56.34807 546 -0.188 3046 0.094 56.34807 0.001237 0.000901 0.000040 r_peak,r_snr = 0.7063044 5.297528 646 -0.219 3046 -0.063 5.29753 0.000635 0.000580 0.000001 r_peak,r_snr = 0.5311128 15.84169 746 -0.313 3046 0.000 15.84169 0.001293 0.001337 0.000034 r_peak,r_snr = 0.4958579 40.16567 846 -0.156 3046 -0.031 40.16567 0.000932 0.000766 0.000008 r_peak,r_snr = 0.5755807 17.90390 946 -0.250 3046 0.000 17.90390 0.000876 0.002245 -0.000090 r_peak,r_snr = 0.7906461 17.62490 1046 -0.219 3046 0.031 17.62490 0.000266 0.000303 -0.000002 r_peak,r_snr = 0.5087888 64.19498 1146 -0.219 3046 0.063 64.19498 0.000730 0.000735 0.000024 r_peak,r_snr = 0.5855039 69.46056 1246 -0.125 3046 0.000 69.46056 0.000500 0.000357 -0.000009 r_peak,r_snr = 0.6552292 27.33026 1346 -0.125 3046 0.031 27.33026 0.000412 0.000299 -0.000004 r_peak,r_snr = 0.6008196 10.27912 1446 -0.156 3046 0.031 10.27912 0.000660 0.000586 0.000004 r_peak,r_snr = 0.6329085 10.63726 1546 -0.156 3046 0.031 10.63726 0.000515 0.000396 0.000003 r_peak,r_snr = 0.5698264 29.54601 1646 -0.156 3046 -0.031 29.54601 0.000545 0.000363 -0.000002 r_peak,r_snr = 0.7403925 3.953575 1746 -0.063 3046 0.000 3.95358 0.001039 0.000965 -0.000013 r_peak,r_snr = 0.5404072 16.26414 1846 -0.219 3046 -0.063 16.26414 0.000901 0.001091 -0.000002 r_peak,r_snr = 0.3570724 90.57760 1946 -0.250 3046 0.000 90.57760 0.001415 0.001299 -0.000020 r_peak,r_snr = 0.3613720 139.3365 2046 -0.125 3046 0.063 139.33650 0.001264 0.001086 -0.000033 At line = 3400 Reading in data.... r_peak,r_snr = 0.8690258 307.9409 146 -0.188 3446 -0.031 307.94092 0.000077 0.000052 -0.000001 r_peak,r_snr = 0.7554082 280.0072 246 -0.188 3446 0.000 280.00723 0.000155 0.000124 -0.000005 r_peak,r_snr = 0.5164135 175.3593 346 -0.219 3446 0.031 175.35927 0.000649 0.000408 -0.000009 r_peak,r_snr = 0.5834134 36.44592 446 -0.188 3446 0.031 36.44592 0.000623 0.000448 -0.000005 r_peak,r_snr = 0.6415076 5.961756 546 -0.219 3446 0.031 5.96176 0.000793 0.000856 -0.000024 r_peak,r_snr = 0.6004758 6.982197 646 -0.094 3446 -0.031 6.98220 0.001263 0.001680 -0.000161 r_peak,r_snr = 0.5752186 3.902199 746 -0.250 3446 -0.031 3.90220 0.002210 0.002867 -0.000201 r_peak,r_snr = 0.5340769 47.24743 846 -0.188 3446 0.031 47.24743 0.000704 0.000655 -0.000002 r_peak,r_snr = 0.7220331 28.61795 946 -0.219 3446 0.063 28.61795 0.000315 0.000391 0.000001 r_peak,r_snr = 0.7294604 8.092178 1046 -0.156 3446 0.000 8.09218 0.000497 0.000445 -0.000006 r_peak,r_snr = 0.5123764 79.24489 1146 -0.156 3446 0.000 79.24489 0.000677 0.000480 -0.000025 r_peak,r_snr = 0.5532612 215.6323 1246 -0.156 3446 0.000 215.63232 0.000482 0.000325 -0.000007 r_peak,r_snr = 0.5215224 275.5877 1346 -0.156 3446 0.000 275.58771 0.000516 0.000386 -0.000010 r_peak,r_snr = 0.6099073 6.788764 1446 -0.250 3446 0.063 6.78876 0.000731 0.000547 0.000010 r_peak,r_snr = 0.6178876 28.92474 1546 -0.125 3446 0.031 28.92474 0.000461 0.000363 -0.000003 r_peak,r_snr = 0.5788340 25.73895 1646 -0.156 3446 0.000 25.73895 0.000603 0.000495 0.000000 r_peak,r_snr = 0.6473025 2.975393 1746 -0.156 3446 0.031 2.97539 0.001751 0.001413 0.000137 r_peak,r_snr = 0.6704360 2.760821 1846 -0.219 3446 -0.031 2.76082 0.002383 0.002216 0.000347 r_peak,r_snr = 0.4208721 22.28601 1946 -0.156 3446 0.063 22.28601 0.001615 0.001612 -0.000093 r_peak,r_snr = 0.3027773 136.7159 2046 -0.156 3446 0.000 136.71588 0.001820 0.001506 -0.000023 At line = 3800 Reading in data.... r_peak,r_snr = 0.8532053 276.9450 146 -0.188 3846 0.000 276.94501 0.000088 0.000064 -0.000002 r_peak,r_snr = 0.7192413 283.4925 246 -0.188 3846 -0.031 283.49246 0.000211 0.000151 -0.000007 r_peak,r_snr = 0.7150283 5.439795 346 -0.188 3846 -0.031 5.43980 0.000442 0.000359 0.000000 r_peak,r_snr = 0.7799526 13.86632 446 -0.156 3846 0.000 13.86632 0.000361 0.000358 -0.000004 r_peak,r_snr = 0.7043719 29.58664 546 -0.156 3846 0.063 29.58664 0.000395 0.000377 -0.000009 r_peak,r_snr = 0.6455514 25.74205 646 -0.125 3846 -0.063 25.74205 0.000594 0.000607 -0.000031 r_peak,r_snr = 0.4878861 11.25226 746 -0.250 3846 -0.031 11.25226 0.001749 0.003203 0.000105 r_peak,r_snr = 0.5806201 12.43208 846 -0.156 3846 0.250 12.43208 0.000832 0.002630 0.000146 r_peak,r_snr = 0.5834004 153.7168 946 -0.156 3846 0.000 153.71684 0.000416 0.000422 -0.000014 r_peak,r_snr = 0.6694773 23.37512 1046 -0.188 3846 0.000 23.37512 0.000370 0.000312 -0.000012 r_peak,r_snr = 0.5462297 121.8760 1146 -0.156 3846 0.000 121.87604 0.000564 0.000404 0.000005 r_peak,r_snr = 0.5548321 286.8160 1246 -0.156 3846 0.031 286.81604 0.000448 0.000316 -0.000003 r_peak,r_snr = 0.5622229 19.44312 1346 -0.156 3846 -0.031 19.44312 0.000704 0.000541 -0.000019 r_peak,r_snr = 0.6556756 13.98338 1446 -0.250 3846 0.031 13.98338 0.000507 0.000384 -0.000007 r_peak,r_snr = 0.7085948 15.39855 1546 -0.156 3846 -0.031 15.39855 0.000426 0.000370 0.000001 r_peak,r_snr = 0.7201509 6.747857 1646 -0.219 3846 0.000 6.74786 0.000445 0.000355 0.000006 r_peak,r_snr = 0.7482991 2.677097 1746 -0.125 3846 -0.063 2.67710 0.000838 0.000708 -0.000020 r_peak,r_snr = 0.6272139 1.856786 1846 -0.156 3846 0.031 1.85679 0.003735 0.001589 0.000239 r_peak,r_snr = 0.4398877 25.97813 1946 -0.156 3846 0.000 25.97813 0.001339 0.001703 -0.000061 r_peak,r_snr = 0.3095660 120.0949 2046 -0.156 3846 -0.094 120.09487 0.001763 0.001589 -0.000022 At line = 4200 Reading in data.... r_peak,r_snr = 0.8193431 61.40989 146 -0.188 4246 -0.031 61.40989 0.000141 0.000091 -0.000002 r_peak,r_snr = 0.7059332 6.306774 246 -0.281 4246 -0.031 6.30677 0.000554 0.000404 0.000009 r_peak,r_snr = 0.6773431 9.508622 346 -0.188 4246 0.063 9.50862 0.000639 0.001265 -0.000019 r_peak,r_snr = 0.6540195 274.9286 446 -0.188 4246 0.000 274.92865 0.000301 0.000182 -0.000007 r_peak,r_snr = 0.6479394 15.55811 546 -0.156 4246 -0.031 15.55811 0.000540 0.001166 -0.000037 r_peak,r_snr = 0.5466567 10.43311 646 -0.250 4246 0.000 10.43311 0.001233 0.001801 -0.000156 r_peak,r_snr = 0.4299138 13.09675 746 -0.188 4246 0.031 13.09675 0.001543 0.003741 0.000147 r_peak,r_snr = 0.5908546 11.31504 846 -0.188 4246 0.063 11.31504 0.000633 0.000591 0.000003 r_peak,r_snr = 0.6463071 81.12962 946 -0.188 4246 0.000 81.12962 0.000383 0.000289 -0.000005 r_peak,r_snr = 0.6377066 81.18906 1046 -0.188 4246 0.031 81.18906 0.000391 0.000290 -0.000011 r_peak,r_snr = 0.7330385 10.52448 1146 -0.125 4246 -0.094 10.52448 0.000423 0.000419 -0.000014 r_peak,r_snr = 0.6238446 12.63047 1246 -0.219 4246 -0.031 12.63047 0.000512 0.000377 -0.000005 r_peak,r_snr = 0.5834935 8.296890 1346 -0.188 4246 0.000 8.29689 0.000748 0.000530 -0.000022 r_peak,r_snr = 0.4223118 9.695700 1446 -0.031 4246 0.000 9.69570 0.001577 0.001263 -0.000096 r_peak,r_snr = 0.4707459 77.84848 1546 -0.188 4246 0.000 77.84848 0.000804 0.000734 -0.000012 r_peak,r_snr = 0.7221604 7.097425 1646 -0.188 4246 0.031 7.09742 0.000391 0.000275 0.000004 r_peak,r_snr = 0.6697274 3.498764 1746 -0.188 4246 -0.063 3.49876 0.000905 0.000734 0.000019 r_peak,r_snr = 0.5074197 5.705471 1846 -0.219 4246 0.094 5.70547 0.001755 0.004686 0.000089 r_peak,r_snr = 0.4008974 35.78733 1946 -0.125 4246 0.031 35.78733 0.001408 0.001446 -0.000005 r_peak,r_snr = 0.3500930 78.63484 2046 -0.188 4246 0.000 78.63484 0.001542 0.001451 -0.000029 At line = 4600 Reading in data.... r_peak,r_snr = 0.8125691 19.52743 146 -0.188 4646 0.000 19.52743 0.000169 0.000140 -0.000004 r_peak,r_snr = 0.8156088 64.05770 246 -0.156 4646 0.000 64.05770 0.000192 0.000246 -0.000011 r_peak,r_snr = 0.7269941 21.04779 346 -0.250 4646 -0.094 21.04779 0.000386 0.000426 -0.000011 r_peak,r_snr = 0.6135346 137.3199 446 -0.156 4646 0.000 137.31995 0.000362 0.000277 -0.000009 r_peak,r_snr = 0.7346230 34.55151 546 -0.156 4646 0.000 34.55151 0.000311 0.000391 0.000011 r_peak,r_snr = 0.6259676 36.84895 646 -0.250 4646 0.000 36.84895 0.000545 0.000592 -0.000025 r_peak,r_snr = 0.4292390 20.89692 746 -0.250 4646 0.094 20.89692 0.001298 0.002143 -0.000043 r_peak,r_snr = 0.6549129 10.83388 846 -0.188 4646 0.000 10.83388 0.000453 0.000601 -0.000010 r_peak,r_snr = 0.6296964 111.3556 946 -0.188 4646 0.000 111.35564 0.000385 0.000266 -0.000006 r_peak,r_snr = 0.5650730 166.6328 1046 -0.188 4646 0.031 166.63280 0.000493 0.000351 -0.000006 r_peak,r_snr = 0.5775185 69.19141 1146 -0.125 4646 0.031 69.19141 0.000566 0.000451 -0.000006 r_peak,r_snr = 0.6061171 26.22978 1246 -0.188 4646 0.031 26.22978 0.000514 0.000370 -0.000001 r_peak,r_snr = 0.6357712 10.04816 1346 -0.188 4646 0.031 10.04816 0.000511 0.000374 -0.000008 r_peak,r_snr = 0.5614188 15.20519 1446 -0.156 4646 -0.031 15.20519 0.000676 0.000472 -0.000013 r_peak,r_snr = 0.4377010 21.18364 1546 -0.094 4646 0.000 21.18364 0.001525 0.001246 -0.000009 r_peak,r_snr = 0.7305861 6.374501 1646 -0.125 4646 0.031 6.37450 0.000466 0.000340 -0.000008 r_peak,r_snr = 0.5681542 4.804595 1746 -0.156 4646 0.031 4.80459 0.001580 0.002066 -0.000066 r_peak,r_snr = 0.3414539 6.281383 1846 -0.219 4646 0.094 6.28138 0.006356 0.010526 0.000573 r_peak,r_snr = 0.3806657 32.49250 1946 -0.219 4646 0.031 32.49250 0.001678 0.001918 -0.000071 r_peak,r_snr = 0.3585263 61.72004 2046 -0.156 4646 0.000 61.72004 0.001728 0.001454 -0.000039 At line = 5000 Reading in data.... r_peak,r_snr = 0.5651712 30.61341 146 -0.250 5046 -0.031 30.61341 0.000595 0.000596 0.000010 r_peak,r_snr = 0.7456020 10.28524 246 -0.125 5046 -0.031 10.28524 0.000520 0.000722 -0.000053 r_peak,r_snr = 0.6982046 21.39062 346 -0.219 5046 -0.094 21.39062 0.000402 0.000605 -0.000016 r_peak,r_snr = 0.5213141 276.8766 446 -0.188 5046 0.000 276.87659 0.000537 0.000384 -0.000008 r_peak,r_snr = 0.5427843 22.26859 546 -0.219 5046 -0.031 22.26859 0.000767 0.000772 0.000001 r_peak,r_snr = 0.4767424 14.47226 646 -0.063 5046 0.063 14.47226 0.001485 0.002811 -0.000029 r_peak,r_snr = 0.4870399 18.99957 746 -0.219 5046 0.031 18.99957 0.001051 0.001503 -0.000023 r_peak,r_snr = 0.6185790 20.07993 846 -0.219 5046 -0.188 20.07993 0.000640 0.001294 -0.000001 r_peak,r_snr = 0.5795841 152.2231 946 -0.156 5046 0.031 152.22305 0.000431 0.000345 -0.000006 r_peak,r_snr = 0.5573032 180.1907 1046 -0.219 5046 0.031 180.19073 0.000459 0.000369 0.000003 r_peak,r_snr = 0.4715150 14.89471 1146 -0.219 5046 0.000 14.89471 0.001067 0.000733 -0.000024 r_peak,r_snr = 0.6530264 12.77802 1246 -0.219 5046 0.000 12.77802 0.000459 0.000333 0.000004 r_peak,r_snr = 0.7079462 8.249066 1346 -0.156 5046 -0.031 8.24907 0.000409 0.000307 -0.000013 r_peak,r_snr = 0.6430674 30.11860 1446 -0.188 5046 -0.031 30.11860 0.000439 0.000299 -0.000007 r_peak,r_snr = 0.4164601 26.06905 1546 -0.094 5046 0.031 26.06905 0.001623 0.003950 -0.000142 r_peak,r_snr = 0.5408538 10.03689 1646 -0.188 5046 -0.031 10.03689 0.000962 0.000862 -0.000007 r_peak,r_snr = 0.5107373 3.181862 1746 -0.156 5046 -0.031 3.18186 0.004175 0.013210 -0.000266 r_peak,r_snr = 0.5380234 2.570366 1846 -0.188 5046 0.875 2.57037 0.002739 0.016126 0.000625 r_peak,r_snr = 0.3730013 47.76199 1946 -0.188 5046 0.000 47.76199 0.001573 0.001510 0.000042 r_peak,r_snr = 0.2731021 27.30778 2046 -0.250 5046 0.063 27.30778 0.003067 0.002428 0.000024 At line = 5400 Reading in data.... r_peak,r_snr = 0.7281594 14.13644 146 -0.219 5446 -0.031 14.13644 0.000502 0.000565 -0.000013 r_peak,r_snr = 0.6605060 45.13490 246 -0.188 5446 0.031 45.13490 0.000367 0.000350 -0.000008 r_peak,r_snr = 0.7571490 6.849560 346 -0.188 5446 -0.031 6.84956 0.000394 0.000524 -0.000011 r_peak,r_snr = 0.6694327 22.15611 446 -0.156 5446 -0.031 22.15611 0.000414 0.000443 -0.000008 r_peak,r_snr = 0.4986084 30.53138 546 -0.156 5446 0.063 30.53138 0.000875 0.001006 -0.000048 r_peak,r_snr = 0.6971729 10.92126 646 0.031 5446 -0.031 10.92126 0.000574 0.001066 -0.000079 r_peak,r_snr = 0.5571080 26.26937 746 -0.188 5446 0.000 26.26937 0.000645 0.000558 0.000011 r_peak,r_snr = 0.6276500 11.36932 846 -0.188 5446 -0.031 11.36932 0.000777 0.000917 -0.000014 r_peak,r_snr = 0.5904498 113.3315 946 -0.156 5446 0.063 113.33147 0.000395 0.000375 -0.000003 r_peak,r_snr = 0.5303559 185.1612 1046 -0.188 5446 0.031 185.16122 0.000521 0.000406 -0.000015 r_peak,r_snr = 0.5170812 34.24941 1146 -0.188 5446 0.031 34.24941 0.000665 0.000510 0.000012 r_peak,r_snr = 0.4364473 82.17779 1246 -0.156 5446 -0.031 82.17779 0.000886 0.000756 0.000008 r_peak,r_snr = 0.5202304 45.76984 1346 -0.188 5446 -0.031 45.76984 0.000783 0.000671 -0.000016 r_peak,r_snr = 0.7431776 4.926796 1446 -0.125 5446 0.031 4.92680 0.000378 0.000290 -0.000007 r_peak,r_snr = 0.5264262 16.85263 1546 -0.250 5446 0.000 16.85263 0.000766 0.000740 -0.000035 r_peak,r_snr = 0.3046663 19.44370 1646 -0.188 5446 0.125 19.44370 0.006870 0.003894 -0.000668 r_peak,r_snr = 0.5028973 2.655829 1746 -0.219 5446 -0.063 2.65583 0.004348 0.004379 -0.000136 r_peak,r_snr = 0.6681053 2.363716 1846 -0.125 5446 0.000 2.36372 0.001704 0.001944 0.000186 r_peak,r_snr = 0.3041030 34.37775 1946 -0.281 5446 0.125 34.37775 0.002488 0.003722 -0.000179 r_peak,r_snr = 0.4959722 4.455266 2046 -0.125 5446 0.000 4.45527 0.001647 0.001276 0.000086 At line = 5800 Reading in data.... r_peak,r_snr = 0.6991294 6.752363 146 -0.250 5846 -0.156 6.75236 0.000685 0.001863 -0.000025 r_peak,r_snr = 0.7220422 43.65714 246 -0.188 5846 0.031 43.65714 0.000280 0.000296 -0.000008 r_peak,r_snr = 0.5694627 35.37839 346 -0.188 5846 -0.031 35.37839 0.000613 0.000500 -0.000036 r_peak,r_snr = 0.8295932 8.529525 446 -0.344 5846 0.000 8.52952 0.000349 0.000394 -0.000014 r_peak,r_snr = 0.5387946 25.49212 546 -0.219 5846 -0.031 25.49212 0.000742 0.000868 -0.000019 r_peak,r_snr = 0.6775184 14.50901 646 -0.281 5846 0.125 14.50901 0.000523 0.002212 0.000013 r_peak,r_snr = 0.5451825 17.99323 746 -0.188 5846 -0.063 17.99323 0.000778 0.001350 -0.000042 r_peak,r_snr = 0.6490952 19.24555 846 -0.188 5846 0.000 19.24555 0.000443 0.000337 -0.000002 r_peak,r_snr = 0.5967555 177.7708 946 -0.188 5846 0.031 177.77084 0.000419 0.000362 -0.000007 r_peak,r_snr = 0.5882719 112.5458 1046 -0.188 5846 0.031 112.54581 0.000430 0.000357 -0.000009 r_peak,r_snr = 0.5948646 10.99804 1146 -0.219 5846 0.000 10.99804 0.000612 0.000406 -0.000007 r_peak,r_snr = 0.5914761 35.56483 1246 -0.188 5846 0.000 35.56483 0.000558 0.000379 0.000014 r_peak,r_snr = 0.5312755 40.48029 1346 -0.156 5846 0.031 40.48029 0.000782 0.000942 -0.000043 r_peak,r_snr = 0.7917250 3.329418 1446 -0.125 5846 0.031 3.32942 0.000378 0.000278 -0.000013 r_peak,r_snr = 0.4026393 21.32196 1546 -0.219 5846 0.094 21.32196 0.001709 0.002455 0.000046 r_peak,r_snr = 0.6413563 86.15273 1646 -0.156 5846 0.156 86.15273 0.000489 0.000652 0.000009 r_peak,r_snr = 0.3947002 7.032998 1746 -0.156 5846 -0.031 7.03300 0.002234 0.002908 0.000128 r_peak,r_snr = 0.7116845 4.587673 1846 -0.250 5846 0.031 4.58767 0.000927 0.002370 0.000039 r_peak,r_snr = 0.4208124 17.30132 1946 -0.219 5846 0.000 17.30132 0.001847 0.003423 0.000109 r_peak,r_snr = 0.4401761 4.572552 2046 -0.156 5846 -0.063 4.57255 0.003081 0.002516 -0.000018 /u/sardine0/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: 2177 2524 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/sardine0/airops/OPS/data_proc/recal0.dat 40.00000 abs gain: 85.15800 86.39300 85.15800 86.39300 caltone: 96.80000 96.50000 96.70000 96.70000 ifreq 0-p 1-L 2-c: 2 1 cable phase P/L/C: -137.3000 176.8700 -50.90000 sigma zero: 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 hddt bw ha T : 90 40.00000 8369.500 10.00000 $tphase,phasedat: 44.60000 36.10000 $rphase,phasevh,phasehv: 8.500000 -4.400000 -12.90000 Reading data size. 2177 2177 2524 2524 Enter H Ant pattern file: POLSAR H-ANT:/u/sardine0/airops/OPS/data_proc/AIRSAR.CH Enter V Ant pattern file: POLSAR V-ANT:/u/sardine0/airops/OPS/data_proc/AIRSAR.CV Enter the name of the motion compensation file. motion lun: 15 How many lines of raw data? How many lines of raw data: 21000 Cross pol phase difference is: 36.10 deg Receiver phase difference is 8.50 deg Transmitter phase difference is 44.60 deg Cable phase difference is -50.90 deg $ghv,phasedat,phi: (0.8079899,0.5891963) 36.10000 36.10000 $phico aphase: -48.70000 -50.90000 $fhh,fhv,fvh: (0.6600016,0.7512642) (0.9939610,0.1097344) (0.7384554,0.6743024) Input ground spacing ? cross-track ground spacing: 3.000000 Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 0 NSAMP vec_len nbytes: 2524 20192 Reading data to estimate cross-talk. 2177 2524 256 512 768 1024 in cross-talk estimation Estimating the cross-talk parameters. 256 512 768 1024 1280 1536 1792 2048 2304 cross(1,100) 0=-100 dB: (9.6330652E-03,2.2970790E-02) (4.9576972E-02,-2.0330759E-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. 2177 2177 Absolute gain AChu(linear) :. 1.4441083E-05 1.4136751E-05 1.4136783E-05 ahh hv vv chh hv vh vv: -193.8080 -193.8930 -193.7080 -194.0930 97.00000 96.90000 96.80000 97.10000 1 257 513 769 1025 1281 1537 1793 2049 ********************************************* ***** ***** ***** 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. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of output file. Please choose the type of compression: (1) Stokes matrix (AIRSAR standard) (2) Cross-products (SIR-C standard) hddt: 90 Finished writing headers. 256 512 768 1024 1280 1536 1792 2048 Enter number of set to convert: Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 min. window size : 5947 new found samp 2524 151440 20192 25240 25240 *** 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. ibytesdata= 151440 do line: 51 done line: 51 do line: 101 done line: 101 do line: 151 done line: 151 do line: 201 done line: 201 do line: 251 done line: 251 do line: 301 done line: 301 do line: 351 done line: 351 do line: 401 done line: 401 do line: 451 done line: 451 do line: 501 done line: 501 do line: 551 done line: 551 do line: 601 done line: 601 do line: 651 done line: 651 do line: 701 done line: 701 do line: 751 done line: 751 do line: 801 done line: 801 do line: 851 done line: 851 do line: 901 done line: 901 do line: 951 done line: 951 do line: 1001 done line: 1001 do line: 1051 done line: 1051 do line: 1101 done line: 1101 do line: 1151 done line: 1151 do line: 1201 done line: 1201 do line: 1251 done line: 1251 do line: 1301 done line: 1301 do line: 1351 done line: 1351 do line: 1401 done line: 1401 do line: 1451 done line: 1451 do line: 1501 done line: 1501 do line: 1551 done line: 1551 do line: 1601 done line: 1601 do line: 1651 done line: 1651 do line: 1701 done line: 1701 do line: 1751 done line: 1751 do line: 1801 done line: 1801 do line: 1851 done line: 1851 do line: 1901 done line: 1901 do line: 1951 done line: 1951 do line: 2001 done line: 2001 do line: 2051 done line: 2051 do line: 2101 done line: 2101 do line: 2151 done line: 2151 100 200 300 400 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 Fri Aug 3 17:20:21 PDT 2001 Fri Aug 3 17:20:21 PDT 2001 Fri Aug 3 17:20:21 PDT 2001 ***************************************************** * * * 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. * * * ***************************************************** Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -0.5025000 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: - - - - - - - - - - - - - - - - - - - - - Names: John Boyett McCluskey, William Richard Fiechter, Walter E dward Brown Jr., Walter Felix Skotnicki, Takeshi Sato, Yunjin Ki m, Yunling Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/export/air31/airops/6395/l.hdr Which frequency? (C,L or P) frq:L number of channels transferred: # channels: 4 number of bytes/chan: # bytes: 0 total # of lines transferred: total lines: 21000 window delay: window delay 0 enter the .par filename : par filename:/export/air35/airops/6395/cm6395_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: 90 enter HDDT TID <0> : Sony TID: 49069 enter the title of image: title image BARBERSPOINT90-1 enter the CCT (job) ID: cct: 6395 target:BarbersPoint90-1 prod ID(cctid):6395 chrp_delay from subcomm header tapeID: 32.45000 90 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: 0.0000000E+00 idelay,chrp_delay,xdelay 91 32.45000 -0.5025000 near range delr windelay: 8851.746 3.331027 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 f_cal 43.59375 Parameter header created .. IGI lat: 1 21.26979075372219 IGI lon: 1 -158.1447502411902 get_subcomm_aiptEGI year i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 91.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):91 91.00000000000000 startrng(m) elecdelay: 8851.748298972740 3.2450000000000003E-05 >> start range = 8851.7483 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 12 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 6 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 17 0 >> ratn_lhv = 0 11 0 >> ratn_lvh = 0 11 0 >> ratn_lvv = 0 17 0 >> ratn_chh = 0 12 10 >> ratn_chv = 0 6 10 >> ratn_cvh = 0 6 10 >> ratn_cvv = 0 12 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 41984 21.26979075372219 -158.1447502411902 21.27000000000000 -158.1500000000000 7927.543200000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 8308.543200000000 0.6000000000000000 1.700000000000000 88.80000000000000 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 21.26991653442383 -158.1461944580078 0.0000000000000000E+00 0.0000000000000000E+00 24686272.00000000 ****gps_frame**** 1844866 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8851.748298972740 1 328 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 1865756.250000000 12124.97880680823 gpsT doy: 287 10 13 gpsT: 24686272.38000000 2000 10 13 5 17 52 0.3800000000000000 week# 1 ED0 GPS week num: 59 GPS i_pass: -1 main header kk hwTIME: 1 451072.5066720000 EGI msg 1 msl alt(from eo17): 8353.674863818360 EGI msg 1 wander angle(from eo17): 88.67614746093750 EGI09 lat: 21.26979075372219 EGI09 lon: -158.1447502411902 EGI09 alt: 6849.000000000000 EGI09 Height_above_ellipsoid - height_msl: 4.876800000000000 EGI-09 word11 gps Vel East m/s: 214.6642180664062 EGI-09 word12 gps Vel North m/s: 2.844795252227784 EGI-09 word13 gps Vel Upper m/s: -12.16724191818237 EGI-09 GPS Position FOM : 2.000000000000000 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 1 118 C023 EO-9(17)nav FOM 1 8102 118 EO-16(30)Time FOM 1 300 118 EGI-09 w21-22geod_utctime: 19058.78247070313 EGI-09 Time Valid: 0.9699840000000000 EGI-18 dec32 Vel North m/s: 0.6066311597824097 EGI-18 dec32 Vel East m/s: 224.6314086914063 EGI-18 dec32 Vel Upper m/s: -0.1563717424869537 EGI-10 GPS week number: 59 EGI-13 GPS sigma Pos-x/y/z: 1.875000000000000 1.500000000000000 2.625000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 5.9814453125000000E-03 1.4038085937500000E-02 EGI-13 GPS sigma roll/pitch/az: 4.3713210688081606E-04 4.3713210688081606E-04 1.3113963206424482E-03 r_time_tag_17: 1.460032000000000 EGI-16 time fom;year doy: 3 0 287 EO17 vel-x/y/z: 1.354833581542969 -216.1329167907715 8.7416757202148448E-02 EO17 wrander az roll pitch az: 1.547690741177369 0.3680419921875000 1.571044921875000 88.60473632812500 EO17 r_cnexx/y/z: 0.9318813364952803 -1.2366678565740585E-03 0.3627611631527543 EO17 r_lon: -158.1437308341265 EO16 GPS FOM (acc): 3.000000000000000 EGI-18 w1-8: E000 49DC 3FDA F5E8 dec64: 985B 4794 E3AF 5E89 r_hwgpstime(1): 451070.8425181365 r_utctime_18: 19057.84251813832 EGI-18 dec32 lat: 21.26983403772876 EGI-18 dec32 lon: -158.1466508349605 EGI-18 dec32 sea level alt: 8353.429687500000 EGI-18 dec32 WGS84 alt: 8358.529296875000 WGS84_alt-msl_alt: 5.099609375000000 del time from EO18 word10: -1.0000000000000001E-09 del time EO18 word10: 1 FFFF 2 e22_msg(1) satellite 1: 1E e22_msg(3) satellite 2: 9 e22_msg(5) satellite 3: 4 e22_msg(7) satellite 4: 1A e22_msg(9) satellite 5: 1D EGI-22 Tdop: 3.031250000000000 2.671875000000000 1.359375000000000 2.296875000000000 1.437500000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 5 0.4900480000000000 geod_utctime time_tag_17 time_valid: 19058.78247070313 1.460032000000000 0.9699840000000000 r_utc_ttag r_del_time_18: 451072.2725187021 -1.0000000000000001E-09 J2000 r_hwtime = 24686272.50667200 GPS J2000 time = 24686272.27251870 Message 1 Time = 24686272.50667200 INS Time = 1.694336000000000 Roll angle = 0.3900146484375000 Pitch angle = 1.571044921875000 Heading angle = 88.60473632812500 Long. acc = 0.2200000000000000 Lat. acc = 5.9999999999999998E-02 Norm. acc = -9.750000000000000 East vel. = 216.1320000000000 North vel. = 1.620000000000000 Up vel. = 8.7000000000000008E-02 True Grnd Spd = 216.1250000000000 Altitude = 8359.000000000000 Latitude = 21.26986904069781 Longitude = -158.1432434264570 Message 6 Week = 59 GPS Time = 24686272.27251870 GDOP = 3.031250000000000 PDOP = 2.671875000000000 HDOP = 1.359375000000000 VDOP = 2.296875000000000 TDOP = 1.437500000000000 Spherical Acc = 2.000000000000000 Time Acc = 3.000000000000000 GPS Lat = 21.26983403772876 GPS Lon = -158.1466508349605 GPS Alt = 8358.529296875000 GPS East Vel = 224.6314086914063 GPS North Vel = 0.6066311597824097 GPS Up Vel = -0.1563717424869537 Message 4 Sigma Pos x = 1.875000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.625000000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 5.9814453125000000E-03 Sigma Vel z = 1.4038085937500000E-02 Message 7 Satellites used = 30 9 4 26 29 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 Honeywell EGI98Fall for gps-hgt 3187 20008 8358.808265179692 Done decoding data from header array... Data collected on ==> 13-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 24686272.3800 24686322.3260 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61538 88.54980 88.73108 0.0358182 0 trc 89.69191 89.56605 89.76349 0.0377229 0 tgs 216.28398 216.12500 216.37500 0.0745757 0 roll 0.09928 -0.10437 0.45044 0.1097652 0 pitch 1.55211 1.51062 1.60400 0.0278613 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14324 -158.13262 0.0030769 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09822 -158.15000 -158.04667 0.0299082 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.49627 8308.54320 8332.01280 5.3498007 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75976 88.70000 88.90000 0.0496568 0 dad 0.94726 0.70000 1.00000 0.0748480 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.80827 8359.13271 0.0881038 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14324 -158.03964 0.0299188 0 hwalt 8359.27250 8358.80827 8360.73460 0.4271337 0 hwev 216.28800 216.13200 216.37700 0.0744637 0 hwnv 1.16185 0.89300 1.62000 0.1400571 0 hwuv 0.07155 -0.05400 0.23500 0.0857045 0 hwroll 0.09847 -0.10437 0.45044 0.1088824 0 hwpitch 1.55205 1.51062 1.60400 0.0278846 0 hwhdg 88.61538 88.54980 88.73108 0.0358314 0 hwtrc 89.69224 89.57055 89.76349 0.0371919 0 hwtgs 216.28440 216.12500 216.37500 0.0742095 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... 24686273.00000000 i_yearind 20008 GPS time for first pulse = 24686272.38099190 24686272.38000000 New startrecT: 24686272.38099190 24686272.50667200 1 New start and number of records = 107 41843 New start and number of blocks = 1 328 +6+r_hwhead(10/200): 0.0000000000000000E+00 -3.8452148437500000E-02 88.59924316406250 GPS trend coefficients = -0.1421912406060422 0.2429450709556520 6.0768806167031453E-02 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61531 88.54980 88.73108 0.0357180 0 trc 89.69216 89.56605 89.76322 0.0372119 0 tgs 216.28434 216.12500 216.37500 0.0742596 0 roll 0.09845 -0.10437 0.45044 0.1089470 0 pitch 1.55205 1.51062 1.60400 0.0278892 0 delx 0.25730 0.00000 0.25736 0.0012582 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14321 -158.13265 0.0030766 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09827 -158.15000 -158.04667 0.0299732 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.50092 8308.54320 8332.01280 5.3511229 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75945 88.70000 88Reading from stdin .80000 0.0490986 0 dad 0.94756 0.70000 1.00000 0.0748586 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.95014 8358.97538 0.0065941 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14321 -158.03967 0.0299187 0 hwalt 8359.27250 8358.80943 8360.73251 0.4271311 0 hwev 216.28800 216.13300 216.37700 0.0744630 0 hwnv 1.16185 0.89400 1.61700 0.1400535 0 hwuv 0.07155 -0.05400 0.23500 0.0857046 0 hwroll 0.09842 -0.10437 0.45044 0.1088939 0 hwpitch 1.55205 1.51062 1.60400 0.0279026 0 hwhdg 88.61534 88.54980 88.73108 0.0358222 0 hwtrc 89.69221 89.57135 89.76322 0.0371943 0 hwtgs 216.28427 216.12500 216.37500 0.0741944 0 Finished final analysis of data... Average Barometric Altitude = 7927.384295121976 Average Radar Altitude = 8321.500917073146 Average GPS Altitude = 8358.965703807255 >>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/sardine0/airops/OPS/QA_Proc/pbn_decode.pl /export/air31/airops/6395/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: 327 Number of valid data points = 327 Start time GPS data = 24686271.00000261 End time GPS data = 24686321.00000321 Positions and Distances Start position = 21.2700082 -158.1212684 8366.998 End position = 21.2702604 -158.0692353 8366.502 Loxodromic Heading (deg) = 89.7037919 Loxodromic Distance (km) = 5400.1823701 Geodesic Heading (deg) = 89.6943540 Geodesic Distance (km) = 5400.1822298 Peg latitude and longitude = 21.2701382 -158.0942164 Peg heading = 89.6964733 Rotation matrix First row = -0.864597350 0.374859208 0.334592284 Second row = -0.347667290 -0.927068608 0.140254240 Third row = 0.362765596 0.004936652 0.931867347 Translation vector Vector = -0.90613 -0.36437 -15495.69380 Local Radius of Curvature = 6380947.292532770 startrec dgps_pacrim2k: 107 41843 **i_ts: 107 24686272.50600000 24686271.00000261 1.505997393280268 Start and end pulse used = 107 40028 gmt sec s e = 24686272.50600000 24686320.00000000 dgps sec s = 24686271.00000261 24686320.00000321 r_tsv: -5526209.829357618 -2216344.480607412 2302298.257824737 r_tev: -5522237.873828896 -2226168.938793111 2302352.694968707 lat/lon r_geodis: 0.3712289775194217 -2.760172386273320 0.3712381081092658 -2.758392600989121 10583.26287225188 Ellipsoidal delta s (m) = 0.2651051544864078 DGPS... lat/lon r_geodis: -3.1648954223621963E-07 -8.4596004312578450E-04 -3.6028332996772156E-08 8.1261233825601770E-04 10583.26309779226 Delta s on reference surface = 0.2651051601360753 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/export/air35/airops/6395/cm6395_l.peg DGPS Peg latitude and longitude = 21.2701382 -158.0942164 DGPS Peg heading = 89.6964733 == dgps_egi == r_hwheadf: 88.59924316406250 -3.8452148437500000E-02 5.4931640625000000E-03 107 Making final angle restore...Honeywell 88.59924316406250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 4.6121871984147712E-04 Standard deviation of difference = 2.9067768421206318E-04 Making fits... Vertical fit coefficients = 8369.507111141511 -1.3961879573002989E-02 5.1040686610548391E-06 Cross track fit coefficients = -0.7376539925423439 5.0317555036837318E-02 -6.6105986553005721E-04 Along track fit coefficients = 0.2942850757127838 2.4693515377133962E-03 -1.6983115265207935E-04 avg alt (1): 8369.507111141511 alt r_avgrefh: 8369.624996553428 i_yearind p-hgt t-hgt: 20008 8369.507111141511 0.0000000E+00 avg_ralt tmp: 8369.506835937500 8369.507 enter proc_alt: -1.000000 yaw: -1.109508 88.60473632812500 89.71424466989063 107 tape #: 90 PRF at the start of the run: 840.0537748040234 840.0538 Miscellaneous Information Start range = 8851.748298972740 Start ground range = 2881.805557556278 Time orgin = 24686272.38099190 Pulse spacing = 0.2572996020473780 First frame = 1845292 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. /export/air35/airops/6395/cm6395_l.mocomp Name of the H-pol motion compensation file? /export/air35/airops/6395/cm6395_l.mocomph Name of the V-pol motion compensation file? /export/air35/airops/6395/cm6395_l.mocompv How many lines per polarization? 21000 + 1 + 10001 + 20001 + 30001 + 40001 ********************************************* * * * 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. /export/air35/airops/6395/cm6395_l.par Enter the raw data file name. /export/air31/airops/6395/l_hh Enter the motion compensation file name. /export/air35/airops/6395/cm6395_l.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_l_hh.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_l_hh.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_l_hh.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_l_hh.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1057 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (-21.23837,0.0000000E+00) (70.79459,0.0000000E+00) (127.4303,0.0000000E+00) attenuation (dB): 17.00000 no_loop: 64 Pulse#/no_loop: 1 1057 4.9441555E+08 plot_x: 327 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 86.92064 Power RMS: 6.2500000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 22183.66 Amp. RMS: 53.96295 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -5.818325 Phase RMS: 0.1233565 Incoherent PH 1st: -5.821790 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 86.92122 CalTone Power Coherently dB : 86.92064 Incoherent PW - Coherent PW : 5.7983398E-04 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 22184.07 CalTone Amplitude Coherently : 22183.66 Incoherent Amp.- Coherent Amp. : 0.4023438 ------------ *** ------------ running time (sec): 11.40 ********** 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. /export/air35/airops/6395/cm6395_l.par Enter the raw data file name. /export/air31/airops/6395/l_hv Enter the motion compensation file name. /export/air35/airops/6395/cm6395_l.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_l_hv.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_l_hv.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_l_hv.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_l_hv.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1057 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (28.38507,0.0000000E+00) (-35.48134,0.0000000E+00) (-42.57761,0.0000000E+00) attenuation (dB): 11.00000 no_loop: 64 Pulse#/no_loop: 1 1057 7.3876000E+08 plot_x: 327 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 88.67236 Power RMS: 4.4194173E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 27140.45 Amp. RMS: 27.71281 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -94.06971 Phase RMS: 0.1325825 Incoherent PH 1st: -94.09969 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 88.67573 CalTone Power Coherently dB : 88.67236 Incoherent PW - Coherent PW : 3.3721924E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 27218.49 CalTone Amplitude Coherently : 27140.45 Incoherent Amp.- Coherent Amp. : 78.03906 ------------ *** ------------ running time (sec): 10.31 ********** 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. /export/air35/airops/6395/cm6395_l.par Enter the raw data file name. /export/air31/airops/6395/l_vh Enter the motion compensation file name. /export/air35/airops/6395/cm6395_l.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_l_vh.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_l_vh.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_l_vh.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_l_vh.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1057 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (63.86641,0.0000000E+00) (21.28881,0.0000000E+00) (7.096268,0.0000000E+00) attenuation (dB): 11.00000 no_loop: 64 Pulse#/no_loop: 1 1057 4.5208902E+08 plot_x: 327 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 86.53611 Power RMS: 2.2097087E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 21222.98 Amp. RMS: 34.87119 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -5.928630 Phase RMS: 9.8743945E-02 Incoherent PH 1st: -5.961388 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 86.53966 CalTone Power Coherently dB : 86.53611 Incoherent PW - Coherent PW : 3.5476685E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 21314.45 CalTone Amplitude Coherently : 21222.98 Incoherent Amp.- Coherent Amp. : 91.46875 ------------ *** ------------ running time (sec): 10.63 ********** 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. /export/air35/airops/6395/cm6395_l.par Enter the raw data file name. /export/air31/airops/6395/l_vv Enter the motion compensation file name. /export/air35/airops/6395/cm6395_l.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_l_vv.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_l_vv.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_l_vv.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_l_vv.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1057 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (113.2713,0.0000000E+00) (42.47675,0.0000000E+00) (-99.11241,0.0000000E+00) attenuation (dB): 17.00000 no_loop: 64 Pulse#/no_loop: 1 1057 7.9647450E+08 plot_x: 327 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 89.00368 Power RMS: 0.1059739 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 28195.70 Amp. RMS: 66.45299 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -93.85446 Phase RMS: 0.1653595 Incoherent PH 1st: -93.89228 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 89.02113 CalTone Power Coherently dB : 89.00368 Incoherent PW - Coherent PW : 1.7448425E-02 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 28314.93 CalTone Amplitude Coherently : 28195.70 Incoherent Amp.- Coherent Amp. : 119.2266 ------------ *** ------------ running time (sec): 10.32 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: -1.527199 4.0054183E-05 z fit: constant and linear terms: 7.6946177E-02 4.9350460E-06 y and z standard deviations (meters) 0.4663816 0.1291082 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 = 4 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 4.9112026E-02 4.8394315E-02 5.0651867E-02 5.1819500E-02 Differences = -8.8238716E-04 -1.6000979E-03 6.5745413E-04 1.8250868E-03 PATCH NUMER 2 First line = 3493 Averages = 5.0052773E-02 5.1653527E-02 5.1179659E-02 4.9121082E-02 Differences = -4.4896454E-04 1.1517890E-03 6.7792088E-04 -1.3806559E-03 PATCH NUMER 3 First line = 6985 Averages = 5.1600371E-02 4.9705558E-02 4.8489742E-02 5.0092518E-02 Differences = 1.6283393E-03 -2.6647374E-04 -1.4822893E-03 1.2048706E-04 PATCH NUMER 4 First line = 10477 Averages = 4.8556738E-02 4.9578588E-02 5.1703781E-02 5.3078528E-02 Differences = -2.1726117E-03 -1.1507608E-03 9.7443163E-04 2.3491792E-03 PATCH NUMER 5 First line = 13969 last black mod_64: 54 21000 13969 8192 Averages = 5.1050566E-02 5.2684732E-02 5.4163348E-02 5.4558467E-02 Differences = -2.0637400E-03 -4.2957440E-04 1.0490417E-03 1.4441609E-03 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.lp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_l.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8851.750 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.500000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.700000 Range weighting coefficient = 0.1000000 Map height (m) = 0.0000000E+00 Transmit leverarm x,y,z = -5.2999999E-02 1.027000 7.9000004E-02 Receive leverarm x,y,z = -5.2999999E-02 1.027000 7.9000004E-02 Name of raw data file? /export/air31/airops/6395/l_hh Name of the mocomp data file? /export/air35/airops/6395/cm6395_l.mocomph Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.lh WAYNE init fft, calc slant range, load unpack, interpo 1.3377000E-02 reading motion compensation data WAYNE read motion compen 0.4868610 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1516700 start range comp, time = 0.731 WAYNE PREV 0.6674740 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 0.935 seconds. before reading done reading WAYNE load raw data , time = 46.08882892131805 ATTN ifrq ipol ln 4 1 11684 17.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4997367 shift in azimuth *fractional pixel= -0.4997367 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1427998542785645E-02 WAYNE Motion comp. added to patch, time = 15.82546997070313 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5780200958251953E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 261.8882379531860 Writing 4192 lines of data to file WAYNE write output data 1.382338047027588 ==w out 2 0 2001 0 WAYNE PROCESS 325.2007269859314 ==w out 3 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 0.954 seconds. before reading done reading WAYNE load raw data , time = 46.67219400405884 ATTN ifrq ipol ln 4 1 18668 17.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4997202 shift in azimuth *fractional pixel= -0.4997202 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1476039886474609E-02 WAYNE Motion comp. added to patch, time = 15.85456788539886 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.5249719619750977E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.3319519758224 Writing 4192 lines of data to file WAYNE write output data 1.373819947242737 ==w out 4 0 2001 0 WAYNE PROCESS 331.2481729984283 ==w out 5 4195 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 0.946 seconds. before reading done reading WAYNE load raw data , time = 45.98878192901611 ATTN ifrq ipol ln 4 1 15176 17.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4997382 shift in azimuth *fractional pixel= -0.4997382 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1458992958068848E-02 WAYNE Motion comp. added to patch, time = 15.84805893898010 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3739337921142578E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.6954919099808 Writing 4192 lines of data to file WAYNE write output data 1.481508016586304 ==w out 3 0 2001 0 WAYNE PROCESS 332.0292890071869 ==w out 4 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.927 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 46.71311593055725 ATTN ifrq ipol ln 4 1 8192 17.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4997405 shift in azimuth *fractional pixel= -0.4997405 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1258006095886230E-02 TESTING 0.0000000E+00 -5.3058192E-02 0.1697143 WAYNE Motion comp. added to patch, time = 15.92351102828979 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4189949035644531E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -5.3058192E-02 0.1697143 HEY,dt,fract,ye,pe -0.4997405 1.000000 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 268.5779240131378 Writing 4192 lines of data to file WAYNE write output data 1.507284998893738 ==w out 1 0 2001 0 WAYNE PROCESS 332.7372050285339 ==w out 2 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 0.971 seconds. before reading done reading WAYNE load raw data , time = 47.78674507141113 ATTN ifrq ipol ln 4 1 20999 17.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4997168 shift in azimuth *fractional pixel= -0.4997168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1321067810058594E-02 WAYNE Motion comp. added to patch, time = 15.87519896030426 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.5680065155029297E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.1682720184326 Writing 4192 lines of data to file WAYNE write output data 1.458392977714539 ==w out 5 0 2001 0 WAYNE PROCESS 333.3042459487915 ==w out 6 4195 1 3421708 0 2 3417949 0 3 3422561 0 4 3418802 0 5 3422406 0 6 3350248 0 7 3396574 0 8 3421942 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 9.699550986289978 WAYNE LOOP TIME: 352.8354439735413 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_l.hh_j /export/air35/airops/6395/cm6395_l.mocomph /export/air35/airops/6395/cm6395_l.dop /export/air35/airops/6395/cm6395_l.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 3.331000 0.5144000 mocompfile /export/air35/airops/6395/cm6395_l.mocomph dopfile /export/air35/airops/6395/cm6395_l.dop globalfile /export/air35/airops/6395/cm6395_l.glb /export/air35/airops/6395/cm6395_l.glb 38 deskew line ra ha trc: 169.5143 329 8852.195 8369.500 89.71424 after deskew line ra ha trc: 169.5143 329 8852.195 8369.500 89.71424 lat1 lon1: 329 21.29592 -158.1417 20960 last ra n_ns ns: 8852.195 0 1 21288 20960 lati loni: 21288 21.29595 -158.0254 21288 1 center ra n_ns ns: 13112.54 1279 1279 10808 20960 lati loni: 10808 21.33414 -158.0827 10808 2560 Updated paramater header in /export/air31/airops/6395/cm6395_l.hh_j WAYNE FINAL PROCESS 354.5612480640411 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_l.hh_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_l.dop Name of the deskew file? /export/air31/airops/6395/deskew.lh Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air31/airops/6395/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? /export/air35/airops/6395/cm6395_l.hh Name of the line output file? /export/air35/airops/6395/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.913385987281799 Deskewing 5 patches Processing block number 1 DEBUG -129 329.0269 -129.0213 -0.4997405 -0.4997405 patch iptc,sj,dgj,dgi,id: 1 1073 -129 -129 0 half line dmj dgc: 0 2001 329 -145 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1073 1 Zeroing lines in arrays Total # of output lines = 1 1072 1073 3169 0 2096 patch iptc,sj,dgj,dgi,id: 1 3169 -129 -129 2096 half line dmj dgc: 1 2001 329 -145 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3169 1073 Zeroing lines in arrays Total # of output lines = 1 3168 Processing block number 2 DEBUG -117 328.7641 -116.7508 -0.4997367 -0.4997367 3169 4577 12 1396 patch iptc,sj,dgj,dgi,id: 2 4577 -117 -129 1396 half line dmj dgc: 0 5493 329 -145 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4577 3169 Zeroing lines in arrays Total # of output lines = 2 4576 4577 6673 0 2096 patch iptc,sj,dgj,dgi,id: 2 6673 -117 -117 2096 half line dmj dgc: 1 5493 329 -145 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6673 4577 Zeroing lines in arrays Total # of output lines = 2 6672 Processing block number 3 DEBUG -123 327.2456 -122.8610 -0.4997382 -0.4997382 6673 8063 -6 1396 patch iptc,sj,dgj,dgi,id: 3 8063 -123 -117 1396 half line dmj dgc: 0 8985 327 -145 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8063 6673 Zeroing lines in arrays Total # of output lines = 3 8062 8063 10159 0 2096 patch iptc,sj,dgj,dgi,id: 3 10159 -123 -123 2096 half line dmj dgc: 1 8985 327 -145 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10159 8063 Zeroing lines in arrays Total # of output lines = 3 10158 Processing block number 4 DEBUG -126 332.5964 -126.2387 -0.4997202 -0.4997202 10159 11552 -3 1396 patch iptc,sj,dgj,dgi,id: 4 11552 -126 -123 1396 half line dmj dgc: 0 12477 332 -145 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11552 10159 Zeroing lines in arrays Total # of output lines = 4 11551 11552 13648 0 2096 patch iptc,sj,dgj,dgi,id: 4 1360 -126 -126 2096 half line dmj dgc: 1 12477 332 -145 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11552 1360 Zeroing lines in arrays Total # of output lines = 4 13647 Processing block number 5 DEBUG -110 342.2704 -109.4767 -0.4997168 -0.4997168 1360 1611 16 235 patch iptc,sj,dgj,dgi,id: 5 1611 -110 -126 235 half line dmj dgc: 0 14808 342 -145 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1611 1360 Zeroing lines in arrays Total # of output lines = 5 13898 1611 3707 0 2096 patch iptc,sj,dgj,dgi,id: 5 3707 -110 -110 2096 half line dmj dgc: 1 14808 342 -145 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3707 1611 Zeroing lines in arrays Total # of output lines = 5 15994 ia dmi dgi: 3707 342 -110 Writing the last 2548 lines last half sj>s1 6255 3707 15994 WAYNE done patche 68.94870400428772 Total # of output lines = 18542 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 18542 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 69.24372398853302 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.lp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_l.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8851.750 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.500000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.700000 Range weighting coefficient = 0.1000000 Map height (m) = 0.0000000E+00 Transmit leverarm x,y,z = -5.2999999E-02 1.027000 7.9000004E-02 Receive leverarm x,y,z = -5.2999999E-02 1.027000 7.9000004E-02 Name of raw data file? /export/air31/airops/6395/l_hv Name of the mocomp data file? /export/air35/airops/6395/cm6395_l.mocomph Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.lh WAYNE init fft, calc slant range, load unpack, interpo 1.2855001E-02 reading motion compensation data WAYNE read motion compen 0.4891240 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1490510 start range comp, time = 0.703 WAYNE PREV 0.6663200 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 0.870 seconds. before reading done reading WAYNE load raw data , time = 46.96119201183319 ATTN ifrq ipol ln 4 2 18668 11.00000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4997202 shift in azimuth *fractional pixel= -0.4997202 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1289000511169434E-02 WAYNE Motion comp. added to patch, time = 15.76300394535065 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.4319887161254883E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 258.6628780364990 Writing 4192 lines of data to file WAYNE write output data 1.345206975936890 ==w out 4 0 2001 0 WAYNE PROCESS 322.7477269172668 ==w out 5 4195 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 0.848 seconds. before reading done reading WAYNE load raw data , time = 46.08414590358734 ATTN ifrq ipol ln 4 2 11684 11.00000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4997367 shift in azimuth *fractional pixel= -0.4997367 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1229991912841797E-02 WAYNE Motion comp. added to patch, time = 15.79075694084167 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 2.3789405822753906E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.0188530683517 Writing 4192 lines of data to file WAYNE write output data 1.290388941764832 ==w out 2 0 2001 0 WAYNE PROCESS 330.1994169950485 ==w out 3 4195 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 0.859 seconds. before reading done reading WAYNE load raw data , time = 46.50851595401764 ATTN ifrq ipol ln 4 2 15176 11.00000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4997382 shift in azimuth *fractional pixel= -0.4997382 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1368989944458008E-02 WAYNE Motion comp. added to patch, time = 16.31591999530792 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4859905242919922E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.7407569885254 Writing 4192 lines of data to file WAYNE write output data 1.419665098190308 ==w out 3 0 2001 0 WAYNE PROCESS 332.0008120536804 ==w out 4 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.838 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 47.10961306095123 ATTN ifrq ipol ln 4 2 8192 11.00000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4997405 shift in azimuth *fractional pixel= -0.4997405 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1150002479553223E-02 TESTING 0.0000000E+00 -5.3058192E-02 0.1697143 WAYNE Motion comp. added to patch, time = 16.16356003284454 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3878812789916992E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -5.3058192E-02 0.1697143 HEY,dt,fract,ye,pe -0.4997405 1.000000 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 267.3577070236206 Writing 4192 lines of data to file WAYNE write output data 1.420791983604431 ==w out 1 0 2001 0 WAYNE PROCESS 332.0669189691544 ==w out 2 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 0.879 seconds. before reading done reading WAYNE load raw data , time = 48.65717303752899 ATTN ifrq ipol ln 4 2 20999 11.00000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4997168 shift in azimuth *fractional pixel= -0.4997168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1418938636779785E-02 WAYNE Motion comp. added to patch, time = 15.97333192825317 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3669004440307617E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.5710129737854 Writing 4192 lines of data to file WAYNE write output data 1.330149888992310 ==w out 5 0 2001 0 WAYNE PROCESS 334.5472579002380 ==w out 6 4195 1 3417643 0 2 3422473 0 3 3421615 0 4 3412849 0 5 3405512 0 6 3422413 0 7 3419587 0 8 3422880 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 10.34275305271149 WAYNE LOOP TIME: 353.4711400270462 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_l.hv_j /export/air35/airops/6395/cm6395_l.mocomph /export/air35/airops/6395/cm6395_l.dop /export/air35/airops/6395/cm6395_l.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 3.331000 0.5144000 mocompfile /export/air35/airops/6395/cm6395_l.mocomph dopfile /export/air35/airops/6395/cm6395_l.dop globalfile /export/air35/airops/6395/cm6395_l.glb /export/air35/airops/6395/cm6395_l.glb 38 deskew line ra ha trc: 169.5143 329 8852.195 8369.500 89.71424 after deskew line ra ha trc: 169.5143 329 8852.195 8369.500 89.71424 lat1 lon1: 329 21.29592 -158.1417 20960 last ra n_ns ns: 8852.195 0 1 21288 20960 lati loni: 21288 21.29595 -158.0254 21288 1 center ra n_ns ns: 13112.54 1279 1279 10808 20960 lati loni: 10808 21.33414 -158.0827 10808 2560 Updated paramater header in /export/air31/airops/6395/cm6395_l.hv_j WAYNE FINAL PROCESS 354.6289849281311 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_l.hv_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_l.dop Name of the deskew file? /export/air31/airops/6395/deskew.lh Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air31/airops/6395/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? /export/air35/airops/6395/cm6395_l.hv Name of the line output file? /export/air35/airops/6395/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.345392942428589 Deskewing 5 patches Processing block number 1 DEBUG -129 329.0269 -129.0213 -0.4997405 -0.4997405 patch iptc,sj,dgj,dgi,id: 1 1073 -129 -129 0 half line dmj dgc: 0 2001 329 -145 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1073 1 Zeroing lines in arrays Total # of output lines = 1 1072 1073 3169 0 2096 patch iptc,sj,dgj,dgi,id: 1 3169 -129 -129 2096 half line dmj dgc: 1 2001 329 -145 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3169 1073 Zeroing lines in arrays Total # of output lines = 1 3168 Processing block number 2 DEBUG -117 328.7641 -116.7508 -0.4997367 -0.4997367 3169 4577 12 1396 patch iptc,sj,dgj,dgi,id: 2 4577 -117 -129 1396 half line dmj dgc: 0 5493 329 -145 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4577 3169 Zeroing lines in arrays Total # of output lines = 2 4576 4577 6673 0 2096 patch iptc,sj,dgj,dgi,id: 2 6673 -117 -117 2096 half line dmj dgc: 1 5493 329 -145 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6673 4577 Zeroing lines in arrays Total # of output lines = 2 6672 Processing block number 3 DEBUG -123 327.2456 -122.8610 -0.4997382 -0.4997382 6673 8063 -6 1396 patch iptc,sj,dgj,dgi,id: 3 8063 -123 -117 1396 half line dmj dgc: 0 8985 327 -145 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8063 6673 Zeroing lines in arrays Total # of output lines = 3 8062 8063 10159 0 2096 patch iptc,sj,dgj,dgi,id: 3 10159 -123 -123 2096 half line dmj dgc: 1 8985 327 -145 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10159 8063 Zeroing lines in arrays Total # of output lines = 3 10158 Processing block number 4 DEBUG -126 332.5964 -126.2387 -0.4997202 -0.4997202 10159 11552 -3 1396 patch iptc,sj,dgj,dgi,id: 4 11552 -126 -123 1396 half line dmj dgc: 0 12477 332 -145 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11552 10159 Zeroing lines in arrays Total # of output lines = 4 11551 11552 13648 0 2096 patch iptc,sj,dgj,dgi,id: 4 1360 -126 -126 2096 half line dmj dgc: 1 12477 332 -145 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11552 1360 Zeroing lines in arrays Total # of output lines = 4 13647 Processing block number 5 DEBUG -110 342.2704 -109.4767 -0.4997168 -0.4997168 1360 1611 16 235 patch iptc,sj,dgj,dgi,id: 5 1611 -110 -126 235 half line dmj dgc: 0 14808 342 -145 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1611 1360 Zeroing lines in arrays Total # of output lines = 5 13898 1611 3707 0 2096 patch iptc,sj,dgj,dgi,id: 5 3707 -110 -110 2096 half line dmj dgc: 1 14808 342 -145 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3707 1611 Zeroing lines in arrays Total # of output lines = 5 15994 ia dmi dgi: 3707 342 -110 Writing the last 2548 lines last half sj>s1 6255 3707 15994 WAYNE done patche 73.98183596134186 Total # of output lines = 18542 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 18542 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 74.28075492382050 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.lp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_l.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8851.750 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.500000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.700000 Range weighting coefficient = 0.1000000 Map height (m) = 0.0000000E+00 Transmit leverarm x,y,z = -5.2999999E-02 1.027000 7.9000004E-02 Receive leverarm x,y,z = -5.2999999E-02 1.027000 7.9000004E-02 Name of raw data file? /export/air31/airops/6395/l_vh Name of the mocomp data file? /export/air35/airops/6395/cm6395_l.mocompv Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.lv WAYNE init fft, calc slant range, load unpack, interpo 1.2878999E-02 reading motion compensation data WAYNE read motion compen 0.4906660 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1489390 start range comp, time = 0.658 WAYNE PREV 0.6668600 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.843 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 46.69959902763367 ATTN ifrq ipol ln 4 3 8192 11.00000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1032938957214355E-02 TESTING 0.0000000E+00 -5.2953083E-02 0.1697290 WAYNE Motion comp. added to patch, time = 15.95274996757507 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5390386581420898E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -5.2953083E-02 0.1697290 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 260.9706660509109 Writing 4192 lines of data to file WAYNE write output data 1.375630974769592 ==w out 1 0 2001 0 WAYNE PROCESS 325.0138649940491 ==w out 2 4195 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 0.868 seconds. before reading done reading WAYNE load raw data , time = 46.30527102947235 ATTN ifrq ipol ln 4 3 15176 11.00000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1110901832580566E-02 WAYNE Motion comp. added to patch, time = 15.85506904125214 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5379657745361328E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.1545870304108 Writing 4192 lines of data to file WAYNE write output data 1.406256079673767 ==w out 3 0 2001 0 WAYNE PROCESS 330.7365930080414 ==w out 4 4195 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 0.861 seconds. before reading done reading WAYNE load raw data , time = 46.16910398006439 ATTN ifrq ipol ln 4 3 11684 11.00000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1156082153320313E-02 WAYNE Motion comp. added to patch, time = 15.81382298469543 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4530887603759766E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.5126299858093 Writing 4192 lines of data to file WAYNE write output data 1.466415047645569 ==w out 2 0 2001 0 WAYNE PROCESS 330.9773980379105 ==w out 3 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 0.879 seconds. before reading done reading WAYNE load raw data , time = 46.76380300521851 ATTN ifrq ipol ln 4 3 18668 11.00000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1110067367553711E-02 WAYNE Motion comp. added to patch, time = 15.82277095317841 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6700496673583984E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.9428340196609 Writing 4192 lines of data to file WAYNE write output data 1.394441008567810 ==w out 4 0 2001 0 WAYNE PROCESS 331.9392780065536 ==w out 5 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 0.889 seconds. before reading done reading WAYNE load raw data , time = 49.00909996032715 ATTN ifrq ipol ln 4 3 20999 11.00000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1121034622192383E-02 WAYNE Motion comp. added to patch, time = 15.90440106391907 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4430751800537109E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 266.8523080348969 Writing 4192 lines of data to file WAYNE write output data 1.309454083442688 ==w out 5 0 2001 0 WAYNE PROCESS 333.0905190706253 ==w out 6 4195 1 3405550 0 2 3422381 0 3 3422229 0 4 3422223 0 5 3422394 0 6 3410322 0 7 3422712 0 8 3421428 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 10.55528497695923 WAYNE LOOP TIME: 352.2845920324326 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_l.vh_j /export/air35/airops/6395/cm6395_l.mocompv /export/air35/airops/6395/cm6395_l.dop /export/air35/airops/6395/cm6395_l.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 3.331000 0.5144000 mocompfile /export/air35/airops/6395/cm6395_l.mocompv dopfile /export/air35/airops/6395/cm6395_l.dop globalfile /export/air35/airops/6395/cm6395_l.glb /export/air35/airops/6395/cm6395_l.glb 38 deskew line ra ha trc: 169.5143 329 8852.195 8369.500 89.71424 after deskew line ra ha trc: 169.5143 329 8852.195 8369.500 89.71424 lat1 lon1: 329 21.29592 -158.1417 20960 last ra n_ns ns: 8852.195 0 1 21288 20960 lati loni: 21288 21.29595 -158.0254 21288 1 center ra n_ns ns: 13112.54 1279 1279 10808 20960 lati loni: 10808 21.33414 -158.0827 10808 2560 Updated paramater header in /export/air31/airops/6395/cm6395_l.vh_j WAYNE FINAL PROCESS 353.2645050287247 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_l.vh_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_l.dop Name of the deskew file? /export/air31/airops/6395/deskew.lv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air31/airops/6395/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? /export/air35/airops/6395/cm6395_l.vh Name of the line output file? /export/air35/airops/6395/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.409281015396118 Deskewing 5 patches Processing block number 1 DEBUG -129 329.5266 -128.5216 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1073 -129 -129 0 half line dmj dgc: 0 2001 329 -145 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1073 1 Zeroing lines in arrays Total # of output lines = 1 1072 1073 3169 0 2096 patch iptc,sj,dgj,dgi,id: 1 3169 -129 -129 2096 half line dmj dgc: 1 2001 329 -145 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3169 1073 Zeroing lines in arrays Total # of output lines = 1 3168 Processing block number 2 DEBUG -117 329.2638 -116.2511 0.0000000E+00 0.0000000E+00 3169 4577 12 1396 patch iptc,sj,dgj,dgi,id: 2 4577 -117 -129 1396 half line dmj dgc: 0 5493 329 -145 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4577 3169 Zeroing lines in arrays Total # of output lines = 2 4576 4577 6673 0 2096 patch iptc,sj,dgj,dgi,id: 2 6673 -117 -117 2096 half line dmj dgc: 1 5493 329 -145 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6673 4577 Zeroing lines in arrays Total # of output lines = 2 6672 Processing block number 3 DEBUG -123 327.7454 -122.3613 0.0000000E+00 0.0000000E+00 6673 8063 -6 1396 patch iptc,sj,dgj,dgi,id: 3 8063 -123 -117 1396 half line dmj dgc: 0 8985 327 -145 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8063 6673 Zeroing lines in arrays Total # of output lines = 3 8062 8063 10159 0 2096 patch iptc,sj,dgj,dgi,id: 3 10159 -123 -123 2096 half line dmj dgc: 1 8985 327 -145 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10159 8063 Zeroing lines in arrays Total # of output lines = 3 10158 Processing block number 4 DEBUG -126 333.0961 -125.7390 0.0000000E+00 0.0000000E+00 10159 11552 -3 1396 patch iptc,sj,dgj,dgi,id: 4 11552 -126 -123 1396 half line dmj dgc: 0 12477 332 -145 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11552 10159 Zeroing lines in arrays Total # of output lines = 4 11551 11552 13648 0 2096 patch iptc,sj,dgj,dgi,id: 4 1360 -126 -126 2096 half line dmj dgc: 1 12477 332 -145 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11552 1360 Zeroing lines in arrays Total # of output lines = 4 13647 Processing block number 5 DEBUG -110 342.7701 -108.9770 0.0000000E+00 0.0000000E+00 1360 1611 16 235 patch iptc,sj,dgj,dgi,id: 5 1611 -110 -126 235 half line dmj dgc: 0 14808 342 -145 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1611 1360 Zeroing lines in arrays Total # of output lines = 5 13898 1611 3707 0 2096 patch iptc,sj,dgj,dgi,id: 5 3707 -110 -110 2096 half line dmj dgc: 1 14808 342 -145 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3707 1611 Zeroing lines in arrays Total # of output lines = 5 15994 ia dmi dgi: 3707 342 -110 Writing the last 2548 lines last half sj>s1 6255 3707 15994 WAYNE done patche 64.86409795284271 Total # of output lines = 18542 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 18542 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 65.06802892684937 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.lp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_l.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8851.750 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.500000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.700000 Range weighting coefficient = 0.1000000 Map height (m) = 0.0000000E+00 Transmit leverarm x,y,z = -5.2999999E-02 1.027000 7.9000004E-02 Receive leverarm x,y,z = -5.2999999E-02 1.027000 7.9000004E-02 Name of raw data file? /export/air31/airops/6395/l_vv Name of the mocomp data file? /export/air35/airops/6395/cm6395_l.mocompv Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.lv WAYNE init fft, calc slant range, load unpack, interpo 1.3555001E-02 reading motion compensation data WAYNE read motion compen 0.4894370 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1491410 start range comp, time = 0.703 WAYNE PREV 0.6687790 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 0.879 seconds. before reading done reading WAYNE load raw data , time = 46.21065199375153 ATTN ifrq ipol ln 4 4 11684 17.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1580944061279297E-02 WAYNE Motion comp. added to patch, time = 15.80785405635834 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3800134658813477E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 262.2953020334244 Writing 4192 lines of data to file WAYNE write output data 1.301962018013000 ==w out 2 0 2001 0 WAYNE PROCESS 325.6315040588379 ==w out 3 4195 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 0.890 seconds. before reading done reading WAYNE load raw data , time = 46.41198098659515 ATTN ifrq ipol ln 4 4 15176 17.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1082053184509277E-02 WAYNE Motion comp. added to patch, time = 15.89328408241272 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5019645690917969E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 263.2073640823364 Writing 4192 lines of data to file WAYNE write output data 1.280771017074585 ==w out 3 0 2001 0 WAYNE PROCESS 326.8087410926819 ==w out 4 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 0.901 seconds. before reading done reading WAYNE load raw data , time = 47.25675809383392 ATTN ifrq ipol ln 4 4 18668 17.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1268973350524902E-02 WAYNE Motion comp. added to patch, time = 15.77191197872162 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5230646133422852E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 266.0568290948868 Writing 4192 lines of data to file WAYNE write output data 1.329325079917908 ==w out 4 0 2001 0 WAYNE PROCESS 330.4303719997406 ==w out 5 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.867 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 47.03414905071259 ATTN ifrq ipol ln 4 4 8192 17.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1072993278503418E-02 TESTING 0.0000000E+00 -5.2953083E-02 0.1697290 WAYNE Motion comp. added to patch, time = 15.94088697433472 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3670196533203125E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -5.2953083E-02 0.1697290 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 266.7039179801941 Writing 4192 lines of data to file WAYNE write output data 1.342503905296326 ==w out 1 0 2001 0 WAYNE PROCESS 331.0365560054779 ==w out 2 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 0.911 seconds. before reading done reading WAYNE load raw data , time = 49.75913298130035 ATTN ifrq ipol ln 4 4 20999 17.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1280894279479980E-02 WAYNE Motion comp. added to patch, time = 15.98453307151794 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4110078811645508E-03 AZ Wavl Br: 0.2422600 40.00000 7.8486644E-02 694.7441 1363.772 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 266.1971819400787 Writing 4192 lines of data to file WAYNE write output data 1.214046001434326 ==w out 5 0 2001 0 WAYNE PROCESS 333.1703929901123 ==w out 6 4195 1 3422300 0 2 3413571 0 3 3418018 0 4 3423159 0 5 3413644 0 6 3413490 0 7 3423000 0 8 3414392 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 18.39663708209991 WAYNE LOOP TIME: 363.9005939960480 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_l.vv_j /export/air35/airops/6395/cm6395_l.mocompv /export/air35/airops/6395/cm6395_l.dop /export/air35/airops/6395/cm6395_l.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 3.331000 0.5144000 mocompfile /export/air35/airops/6395/cm6395_l.mocompv dopfile /export/air35/airops/6395/cm6395_l.dop globalfile /export/air35/airops/6395/cm6395_l.glb /export/air35/airops/6395/cm6395_l.glb 38 deskew line ra ha trc: 169.5143 329 8852.195 8369.500 89.71424 after deskew line ra ha trc: 169.5143 329 8852.195 8369.500 89.71424 lat1 lon1: 329 21.29592 -158.1417 20960 last ra n_ns ns: 8852.195 0 1 21288 20960 lati loni: 21288 21.29595 -158.0254 21288 1 center ra n_ns ns: 13112.54 1279 1279 10808 20960 lati loni: 10808 21.33414 -158.0827 10808 2560 Updated paramater header in /export/air31/airops/6395/cm6395_l.vv_j WAYNE FINAL PROCESS 365.8397579193115 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_l.vv_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_l.dop Name of the deskew file? /export/air31/airops/6395/deskew.lv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air31/airops/6395/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? /export/air35/airops/6395/cm6395_l.vv Name of the line output file? /export/air35/airops/6395/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.346544027328491 Deskewing 5 patches Processing block number 1 DEBUG -129 329.5266 -128.5216 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1073 -129 -129 0 half line dmj dgc: 0 2001 329 -145 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1073 1 Zeroing lines in arrays Total # of output lines = 1 1072 1073 3169 0 2096 patch iptc,sj,dgj,dgi,id: 1 3169 -129 -129 2096 half line dmj dgc: 1 2001 329 -145 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3169 1073 Zeroing lines in arrays Total # of output lines = 1 3168 Processing block number 2 DEBUG -117 329.2638 -116.2511 0.0000000E+00 0.0000000E+00 3169 4577 12 1396 patch iptc,sj,dgj,dgi,id: 2 4577 -117 -129 1396 half line dmj dgc: 0 5493 329 -145 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4577 3169 Zeroing lines in arrays Total # of output lines = 2 4576 4577 6673 0 2096 patch iptc,sj,dgj,dgi,id: 2 6673 -117 -117 2096 half line dmj dgc: 1 5493 329 -145 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6673 4577 Zeroing lines in arrays Total # of output lines = 2 6672 Processing block number 3 DEBUG -123 327.7454 -122.3613 0.0000000E+00 0.0000000E+00 6673 8063 -6 1396 patch iptc,sj,dgj,dgi,id: 3 8063 -123 -117 1396 half line dmj dgc: 0 8985 327 -145 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8063 6673 Zeroing lines in arrays Total # of output lines = 3 8062 8063 10159 0 2096 patch iptc,sj,dgj,dgi,id: 3 10159 -123 -123 2096 half line dmj dgc: 1 8985 327 -145 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10159 8063 Zeroing lines in arrays Total # of output lines = 3 10158 Processing block number 4 DEBUG -126 333.0961 -125.7390 0.0000000E+00 0.0000000E+00 10159 11552 -3 1396 patch iptc,sj,dgj,dgi,id: 4 11552 -126 -123 1396 half line dmj dgc: 0 12477 332 -145 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11552 10159 Zeroing lines in arrays Total # of output lines = 4 11551 11552 13648 0 2096 patch iptc,sj,dgj,dgi,id: 4 1360 -126 -126 2096 half line dmj dgc: 1 12477 332 -145 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11552 1360 Zeroing lines in arrays Total # of output lines = 4 13647 Processing block number 5 DEBUG -110 342.7701 -108.9770 0.0000000E+00 0.0000000E+00 1360 1611 16 235 patch iptc,sj,dgj,dgi,id: 5 1611 -110 -126 235 half line dmj dgc: 0 14808 342 -145 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1611 1360 Zeroing lines in arrays Total # of output lines = 5 13898 1611 3707 0 2096 patch iptc,sj,dgj,dgi,id: 5 3707 -110 -110 2096 half line dmj dgc: 1 14808 342 -145 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3707 1611 Zeroing lines in arrays Total # of output lines = 5 15994 ia dmi dgi: 3707 342 -110 Writing the last 2548 lines last half sj>s1 6255 3707 15994 WAYNE done patche 54.95589303970337 Total # of output lines = 18542 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 18542 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 55.23417198657990 Enter single look lines filename: Enter single look image filename: Enter output lines filename: Enter number of looks: ns np nlloks: 2560 18542 9 Multi-looking lines.dat file... Total number of lines written to output file: 2060 *************************************** ***** ***** ***** 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: 0 min. window size : 5947 MIN window samp: 2524 90.00000 10.00000 900 2560 MIN window samp: 2524 90.00000 10.00000 900 2560 Calculating the ratio of HV and VH.... amvh,amhv 141.2428 116.7852 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 = 0.9093077 -55.81316 ns min window: 2524 10096 ns complex: 2524 20192 18540 2060 9 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.7077186 112.7047 146 -0.063 3046 0.375 112.70467 0.000240 0.000492 -0.000010 r_peak,r_snr = 0.6710324 152.0854 246 0.031 3046 0.313 152.08545 0.000262 0.000497 0.000003 r_peak,r_snr = 0.5518818 76.51942 346 -0.094 3046 0.438 76.51942 0.000508 0.001443 -0.000032 r_peak,r_snr = 0.5089220 54.71351 446 0.031 3046 0.250 54.71351 0.000667 0.001311 -0.000042 r_peak,r_snr = 0.4924494 69.59977 546 0.031 3046 0.094 69.59977 0.000746 0.001388 -0.000097 r_peak,r_snr = 0.5416191 2.755751 646 0.125 3046 -0.063 2.75575 0.002490 0.012696 0.000093 r_peak,r_snr = 0.4589084 5.861923 746 -0.375 3046 -0.094 5.86192 0.005278 0.159059 0.003887 r_peak,r_snr = 0.5122198 8.774776 846 -0.031 3046 -0.188 8.77478 0.001727 0.010464 -0.000461 r_peak,r_snr = 0.5037391 11.84123 946 0.094 3046 0.188 11.84123 0.001832 0.023132 -0.000850 r_peak,r_snr = 0.5417067 9.502646 1046 0.063 3046 0.063 9.50265 0.001342 0.009257 0.000048 r_peak,r_snr = 0.5676031 9.627228 1146 0.063 3046 -0.250 9.62723 0.001053 0.009960 0.000117 r_peak,r_snr = 0.2798759 10.30414 1246 0.031 3046 -0.688 10.30414 0.004475 0.036780 -0.001440 r_peak,r_snr = 0.2874042 5.930523 1346 0.031 3046 -0.219 5.93052 0.006226 0.035111 0.001492 r_peak,r_snr = 0.4073215 5.215041 1446 0.094 3046 -0.156 5.21504 0.003632 0.010928 -0.000272 r_peak,r_snr = 0.3894277 3.550468 1546 -0.031 3046 -0.625 3.55047 0.005611 0.040826 -0.007179 r_peak,r_snr = 0.6796250 3.090475 1746 -0.219 3046 -0.031 3.09048 0.004340 0.030161 0.000181 r_peak,r_snr = 0.4384808 9.917755 1846 0.000 3046 -0.750 9.91776 0.002173 0.023563 0.000141 r_peak,r_snr = 0.2166512 27.09538 1946 0.000 3046 -1.063 27.09538 0.004939 0.059550 -0.000133 r_peak,r_snr = 0.2360557 9.834598 2046 0.344 3046 -0.219 9.83460 0.008855 0.100376 0.006529 At line = 3400 Reading in data.... r_peak,r_snr = 0.6293091 146.4177 146 -0.031 3446 0.313 146.41768 0.000333 0.000567 -0.000030 r_peak,r_snr = 0.6104119 110.9504 246 0.031 3446 0.250 110.95042 0.000388 0.000717 -0.000035 r_peak,r_snr = 0.4784102 105.0364 346 -0.094 3446 0.313 105.03638 0.000657 0.001321 0.000010 r_peak,r_snr = 0.4309936 9.847072 446 0.313 3446 0.219 9.84707 0.003145 0.008666 0.000694 r_peak,r_snr = 0.5185937 5.290247 546 0.094 3446 0.031 5.29025 0.002131 0.025470 0.000930 r_peak,r_snr = 0.6678591 3.591838 646 0.188 3446 -4.188 3.59184 0.003849 0.038524 0.000870 r_peak,r_snr = 0.6924399 2.603559 746 -0.250 3446 0.438 2.60356 0.005396 0.037096 -0.005211 r_peak,r_snr = 0.6456310 20.74902 846 0.125 3446 0.125 20.74902 0.000550 0.002976 -0.000137 r_peak,r_snr = 0.6344788 27.50268 946 0.063 3446 -0.219 27.50268 0.000673 0.002825 -0.000008 r_peak,r_snr = 0.7832345 14.46269 1046 0.031 3446 0.125 14.46269 0.000363 0.001512 -0.000056 r_peak,r_snr = 0.3037023 5.519084 1146 0.094 3446 0.031 5.51908 0.005762 0.013530 0.001097 r_peak,r_snr = 0.1371086 19.96988 1246 0.094 3446 -0.125 19.96988 0.010855 0.018046 0.000569 r_peak,r_snr = 0.1753142 16.74397 1346 -0.281 3446 0.375 16.74397 0.008988 0.106457 0.005153 r_peak,r_snr = 0.4000974 3.408157 1446 0.000 3446 0.063 3.40816 0.005484 0.022139 0.001575 r_peak,r_snr = 0.3444955 5.744036 1546 -0.031 3446 -1.031 5.74404 0.004778 0.020906 -0.000916 r_peak,r_snr = 0.3522943 4.044206 1646 0.094 3446 -0.625 4.04421 0.006669 0.017433 0.000039 r_peak,r_snr = 0.6748753 2.688273 1746 -0.063 3446 -0.031 2.68827 0.002366 0.023929 0.000359 r_peak,r_snr = 0.6611198 2.342963 1846 -0.625 3446 -1.219 2.34296 0.008549 0.061084 0.005902 r_peak,r_snr = 0.2923013 10.35152 1946 0.000 3446 0.281 10.35152 0.006342 0.038963 -0.002815 r_peak,r_snr = 0.1465945 22.59321 2046 0.156 3446 -0.656 22.59321 0.007640 0.049718 0.005670 At line = 3800 Reading in data.... r_peak,r_snr = 0.6853824 119.4031 146 -0.063 3846 0.281 119.40311 0.000274 0.000500 -0.000026 r_peak,r_snr = 0.5661557 95.02451 246 0.000 3846 0.313 95.02451 0.000498 0.000921 0.000024 r_peak,r_snr = 0.5744107 5.867013 346 -0.063 3846 0.219 5.86701 0.001234 0.005388 -0.000069 r_peak,r_snr = 0.6689885 6.638214 446 0.000 3846 0.000 6.63821 0.001330 0.014446 0.000572 r_peak,r_snr = 0.5694760 3.259098 546 -0.094 3846 0.438 3.25910 0.002520 0.065945 -0.003874 r_peak,r_snr = 0.5479237 7.612288 646 -0.344 3846 1.000 7.61229 0.002143 0.024391 -0.000587 r_peak,r_snr = 0.5413142 5.011596 746 -0.719 3846 4.781 5.01160 0.005939 0.102314 0.008632 r_peak,r_snr = 0.6743001 9.329792 846 0.031 3846 0.250 9.32979 0.000931 0.063548 0.002899 r_peak,r_snr = 0.3551778 32.82154 946 -0.031 3846 -0.125 32.82154 0.001732 0.015290 0.000575 r_peak,r_snr = 0.4753368 20.20467 1046 0.125 3846 0.000 20.20467 0.001493 0.004621 -0.000195 r_peak,r_snr = 0.2506319 27.61591 1146 0.094 3846 -0.406 27.61591 0.004383 0.021434 0.001068 r_peak,r_snr = 0.1788304 28.36454 1246 -0.063 3846 -0.500 28.36454 0.007026 0.018611 -0.001341 r_peak,r_snr = 0.3383702 3.573706 1346 1.219 3846 7.563 3.57371 7.724795 76.865074 -24.331497 r_peak,r_snr = 0.4335437 5.373913 1446 -0.063 3846 -0.281 5.37391 0.003712 0.033070 -0.000393 r_peak,r_snr = 0.5262460 6.153380 1546 -0.031 3846 -0.219 6.15338 0.002842 0.052938 0.005394 r_peak,r_snr = 0.5107525 3.796134 1646 0.063 3846 -0.844 3.79613 0.004623 0.018444 0.002751 r_peak,r_snr = 0.6381001 1.706371 1746 -1.000 3846 1.875 1.70637 0.017705 0.075349 0.016033 r_peak,r_snr = 0.6867782 1.431229 1846 -0.156 3846 0.313 1.43123 0.010552 0.023041 0.001101 r_peak,r_snr = 0.3289486 17.16996 1946 -0.125 3846 0.344 17.16996 0.004054 0.085487 0.000707 r_peak,r_snr = 0.2303222 19.57295 2046 0.125 3846 -0.656 19.57295 0.008132 0.051576 0.002986 At line = 4200 Reading in data.... r_peak,r_snr = 0.5876841 89.41487 146 -0.063 4246 0.375 89.41487 0.000460 0.000824 -0.000029 r_peak,r_snr = 0.6021433 3.137698 246 -0.063 4246 0.500 3.13770 0.002384 0.007636 0.000723 r_peak,r_snr = 0.6624220 4.393932 346 0.031 4246 0.094 4.39393 0.001265 0.013832 -0.000672 r_peak,r_snr = 0.5056077 157.0361 446 -0.031 4246 0.156 157.03606 0.000533 0.001020 0.000000 r_peak,r_snr = 0.6383343 4.515943 546 -0.156 4246 0.813 4.51594 0.001445 0.104534 0.005854 r_peak,r_snr = 0.5496481 4.620754 646 -0.156 4246 0.656 4.62075 0.002211 0.026538 0.001098 r_peak,r_snr = 0.6249767 9.645561 746 -0.094 4246 0.500 9.64556 0.001444 0.009853 0.000284 r_peak,r_snr = 0.5234841 6.041343 846 0.000 4246 0.156 6.04134 0.001863 0.018584 -0.000556 r_peak,r_snr = 0.4301290 17.04705 946 0.156 4246 -0.156 17.04705 0.001880 0.009672 0.000755 r_peak,r_snr = 0.3654664 6.318625 1046 -0.125 4246 -0.281 6.31863 0.004649 0.050956 0.000117 r_peak,r_snr = 0.5587140 3.338766 1146 -0.094 4246 0.219 3.33877 0.003407 0.025129 0.000062 r_peak,r_snr = 0.3792072 2.219024 1246 0.219 4246 -0.219 2.21902 0.009021 0.021581 -0.004540 r_peak,r_snr = 0.4276613 3.232440 1346 0.219 4246 -0.938 3.23244 0.007730 0.047908 0.003869 r_peak,r_snr = 0.3511049 3.124926 1446 0.375 4246 0.125 3.12493 0.007860 0.046938 0.004269 r_peak,r_snr = 0.2856326 20.51425 1546 -0.219 4246 0.000 20.51425 0.003700 0.027294 0.000247 r_peak,r_snr = 0.4860843 2.777307 1646 0.156 4246 -0.094 2.77731 0.003092 0.007501 -0.000046 r_peak,r_snr = 0.5235010 2.195440 1746 -0.125 4246 -1.250 2.19544 0.005496 0.027634 0.000379 r_peak,r_snr = 0.6251755 3.554255 1846 0.063 4246 -0.781 3.55426 0.002758 0.027451 0.002328 r_peak,r_snr = 0.1914431 12.50711 1946 -0.125 4246 -1.750 12.50711 0.029890 1.447676 0.176060 r_peak,r_snr = 0.2023875 18.40154 2046 0.094 4246 -0.344 18.40154 0.006534 0.049427 0.003001 At line = 4600 Reading in data.... r_peak,r_snr = 0.6214202 7.969361 146 -0.031 4646 0.219 7.96936 0.000713 0.001562 0.000009 r_peak,r_snr = 0.6164922 11.25201 246 -0.063 4646 0.500 11.25201 0.000836 0.007166 0.000001 r_peak,r_snr = 0.6329452 6.839675 346 0.156 4646 -0.219 6.83968 0.001730 0.010996 0.001177 r_peak,r_snr = 0.5069069 67.62288 446 0.031 4646 0.156 67.62288 0.000653 0.001300 -0.000009 r_peak,r_snr = 0.4780535 11.38163 546 0.063 4646 -0.750 11.38163 0.001892 0.105911 -0.000436 r_peak,r_snr = 0.5823523 6.997359 646 -0.531 4646 0.219 6.99736 0.002104 0.017544 -0.000192 r_peak,r_snr = 0.6035329 8.274231 746 -0.250 4646 0.000 8.27423 0.001317 0.017640 0.001182 r_peak,r_snr = 0.6749415 6.575011 846 0.094 4646 0.313 6.57501 0.000600 0.008916 0.000004 r_peak,r_snr = 0.3915501 17.65112 946 0.094 4646 0.063 17.65112 0.002136 0.011067 0.000359 r_peak,r_snr = 0.2626882 21.07864 1046 0.063 4646 -0.031 21.07864 0.004552 0.013646 0.000233 r_peak,r_snr = 0.7373649 8.527999 1146 0.000 4646 -0.188 8.52800 0.000471 0.008409 0.000052 r_peak,r_snr = 0.1636033 7.338897 1246 -1.156 4646 -14.313 7.33890 0.042838 0.127260 0.034308 r_peak,r_snr = 0.4190112 7.143955 1346 -0.063 4646 -0.156 7.14396 0.003109 0.012927 -0.000295 r_peak,r_snr = 0.2698615 2.122564 1446 -5.844 4646 -8.531 2.12256 0.067621 0.241016 -0.099190 r_peak,r_snr = 0.3994214 10.66063 1546 0.125 4646 0.188 10.66063 0.003024 0.024908 -0.000557 r_peak,r_snr = 0.5161166 3.511937 1646 -0.094 4646 -0.156 3.51194 0.004459 0.009915 -0.001339 r_peak,r_snr = 0.5147897 2.754639 1746 -0.063 4646 -0.781 2.75464 0.008805 0.441200 0.009465 r_peak,r_snr = 0.4796054 5.027291 1846 -0.063 4646 -0.781 5.02729 0.005188 0.071025 0.008489 r_peak,r_snr = 0.2714005 12.22304 1946 -0.219 4646 0.750 12.22304 0.003472 0.126424 0.000076 r_peak,r_snr = 0.1663213 12.18249 2046 -0.094 4646 0.219 12.18249 0.015782 0.087264 0.012904 At line = 5000 Reading in data.... r_peak,r_snr = 0.4569387 10.35128 146 -0.063 5046 0.281 10.35128 0.001830 0.013996 -0.000177 r_peak,r_snr = 0.6015646 4.571559 246 0.031 5046 -0.594 4.57156 0.001435 0.011689 0.000506 r_peak,r_snr = 0.6145928 10.79901 346 -0.031 5046 -1.063 10.79901 0.000821 0.032281 0.000209 r_peak,r_snr = 0.5244813 111.4712 446 0.000 5046 0.156 111.47118 0.000583 0.000990 -0.000068 r_peak,r_snr = 0.5019587 12.16370 546 0.000 5046 -0.688 12.16370 0.001670 0.019537 -0.000581 r_peak,r_snr = 0.5474340 8.297335 646 -0.063 5046 0.750 8.29733 0.001852 0.021531 -0.000488 r_peak,r_snr = 0.4340066 5.746773 746 -0.375 5046 2.750 5.74677 0.010647 0.504637 0.039251 r_peak,r_snr = 0.4230851 3.455816 846 0.219 5046 0.188 3.45582 0.003478 0.042084 0.001431 r_peak,r_snr = 0.3535725 20.71772 946 0.031 5046 0.219 20.71772 0.002497 0.012687 0.000090 r_peak,r_snr = 0.2123720 13.51211 1046 0.156 5046 -0.813 13.51211 0.010636 0.132639 0.010354 r_peak,r_snr = 0.3852867 3.892504 1146 0.000 5046 -0.250 3.89250 0.003340 0.016528 0.000664 r_peak,r_snr = 0.3894997 3.428329 1246 -0.125 5046 -0.156 3.42833 0.005427 0.080436 0.002102 r_peak,r_snr = 0.4040117 2.770238 1346 -0.063 5046 0.344 2.77024 0.007556 0.035593 -0.003802 r_peak,r_snr = 0.2720925 3.951710 1446 -0.531 5046 -10.000 3.95171 0.021258 0.050205 -0.000526 r_peak,r_snr = 0.4940554 11.75684 1546 -0.063 5046 -0.125 11.75684 0.001694 0.022492 0.000026 r_peak,r_snr = 0.2421750 7.752079 1646 0.281 5046 1.406 7.75208 0.010664 0.297811 -0.003445 r_peak,r_snr = 0.6056388 2.388013 1746 -0.156 5046 0.250 2.38801 0.003856 0.058254 -0.002156 r_peak,r_snr = 0.6066151 2.214586 1846 -0.250 5046 2.594 2.21459 0.005559 0.120772 0.001112 r_peak,r_snr = 0.1686046 11.20555 1946 -0.375 5046 -0.188 11.20555 0.011942 0.706191 -0.026819 r_peak,r_snr = 0.1543747 9.229311 2046 0.781 5046 3.813 9.22931 0.023847 0.235413 -0.027226 At line = 5400 Reading in data.... r_peak,r_snr = 0.4708816 4.852254 146 -0.063 5446 0.750 4.85225 0.004335 0.100434 0.001535 r_peak,r_snr = 0.4784066 8.279407 246 0.063 5446 0.125 8.27941 0.000906 0.021782 -0.000503 r_peak,r_snr = 0.5606663 7.767474 346 0.125 5446 -1.063 7.76747 0.001628 0.032545 0.000745 r_peak,r_snr = 0.6414548 18.55462 446 0.000 5446 0.094 18.55462 0.000447 0.002698 -0.000032 r_peak,r_snr = 0.4574697 14.23620 546 0.031 5446 0.219 14.23620 0.002040 0.021356 -0.001069 r_peak,r_snr = 0.6589876 5.979446 646 0.125 5446 -0.219 5.97945 0.000968 0.035368 0.000324 r_peak,r_snr = 0.5360998 9.788875 746 0.063 5446 -0.313 9.78887 0.001197 0.007374 -0.000176 r_peak,r_snr = 0.5379288 4.895501 846 0.156 5446 0.250 4.89550 0.001950 0.016154 0.000599 r_peak,r_snr = 0.4159360 23.43455 946 0.063 5446 0.031 23.43455 0.001629 0.005641 -0.000186 r_peak,r_snr = 0.2089586 26.43595 1046 0.000 5446 -0.125 26.43595 0.005500 0.019927 -0.000296 r_peak,r_snr = 0.3266919 7.254680 1146 -0.031 5446 -0.094 7.25468 0.004318 0.014279 -0.000917 r_peak,r_snr = 0.2626653 27.86742 1246 0.094 5446 -0.281 27.86742 0.003426 0.026780 -0.000358 r_peak,r_snr = 0.4707167 10.28366 1346 0.219 5446 0.250 10.28366 0.001815 0.012888 0.000183 r_peak,r_snr = 0.5166706 1.898941 1446 0.000 5446 3.781 1.89894 0.008435 0.077382 -0.003708 r_peak,r_snr = 0.4308425 9.526011 1546 -0.063 5446 0.250 9.52601 0.002534 0.036337 0.000653 r_peak,r_snr = 0.2087053 13.25668 1646 3.031 5446 12.031 13.25668 0.018589 0.061727 0.010543 r_peak,r_snr = 0.5159957 2.167183 1746 -0.344 5446 -1.719 2.16718 0.009844 0.130961 0.003358 r_peak,r_snr = 0.6806647 1.638846 1846 -0.281 5446 1.781 1.63885 0.007695 0.087162 0.019225 r_peak,r_snr = 0.2817023 13.32733 1946 -0.313 5446 1.750 13.32733 0.004427 0.855404 -0.000891 r_peak,r_snr = 0.3828524 3.539018 2046 0.281 5446 -0.594 3.53902 0.009228 0.036870 -0.003943 At line = 5800 Reading in data.... r_peak,r_snr = 0.6421022 4.311866 146 0.188 5846 0.156 4.31187 0.002008 0.014730 -0.001069 r_peak,r_snr = 0.5463045 12.73580 246 0.250 5846 0.344 12.73580 0.001022 0.006758 0.000095 r_peak,r_snr = 0.4105914 17.57216 346 0.219 5846 0.188 17.57216 0.001786 0.012150 -0.000405 r_peak,r_snr = 0.7335336 4.647342 446 0.531 5846 0.844 4.64734 0.000897 0.022419 -0.000920 r_peak,r_snr = 0.4375257 7.115286 546 -0.031 5846 0.281 7.11529 0.003346 0.032162 0.002143 r_peak,r_snr = 0.6515134 8.358934 646 0.313 5846 0.500 8.35893 0.000858 0.011876 -0.000706 r_peak,r_snr = 0.5738745 4.851323 746 0.125 5846 0.813 4.85132 0.002386 0.048649 0.001334 r_peak,r_snr = 0.3984281 7.873836 846 0.063 5846 -0.188 7.87384 0.003258 0.021663 0.001474 r_peak,r_snr = 0.2780688 26.92552 946 0.063 5846 -0.125 26.92552 0.003227 0.015224 -0.000781 r_peak,r_snr = 0.2459352 13.10034 1046 -0.656 5846 1.500 13.10034 0.012953 0.050921 0.005865 r_peak,r_snr = 0.4016698 2.729281 1146 -0.313 5846 -0.656 2.72928 0.004054 0.015423 -0.001135 r_peak,r_snr = 0.2439386 3.634595 1246 0.156 5846 -2.781 3.63459 0.018016 0.269475 -0.030321 r_peak,r_snr = 0.4564165 14.30138 1346 0.219 5846 -0.031 14.30138 0.001713 0.019069 0.000084 r_peak,r_snr = 0.6119418 1.650378 1446 0.219 5846 -0.031 1.65038 0.004316 0.024217 0.001166 r_peak,r_snr = 0.4442407 4.582430 1546 -0.031 5846 -0.219 4.58243 0.004620 0.065060 0.004430 r_peak,r_snr = 0.3376638 13.73875 1646 -0.219 5846 0.469 13.73875 0.003595 0.034778 0.002413 r_peak,r_snr = 0.3438620 4.453884 1746 0.000 5846 0.438 4.45388 0.005965 0.028719 0.000699 r_peak,r_snr = 0.6345910 2.957863 1846 0.219 5846 1.500 2.95786 0.002270 0.083694 0.000500 r_peak,r_snr = 0.4521080 11.69688 1946 0.219 5846 -0.094 11.69688 0.002088 0.069822 0.001649 r_peak,r_snr = 0.3555044 3.144479 2046 -0.250 5846 0.781 3.14448 0.013111 0.113750 -0.012986 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9282515 146.9567 146 0.000 3046 0.031 146.95674 0.000039 0.000069 -0.000001 r_peak,r_snr = 0.8950306 209.8124 246 0.031 3046 0.031 209.81238 0.000054 0.000089 -0.000001 r_peak,r_snr = 0.8341291 139.3663 346 0.031 3046 0.000 139.36633 0.000101 0.000197 -0.000005 r_peak,r_snr = 0.8256431 75.21979 446 0.000 3046 0.063 75.21979 0.000118 0.000190 -0.000002 r_peak,r_snr = 0.8143021 133.3655 546 0.000 3046 -0.031 133.36549 0.000122 0.000215 -0.000007 r_peak,r_snr = 0.6571398 7.013992 646 -0.031 3046 0.094 7.01399 0.000576 0.002344 0.000090 r_peak,r_snr = 0.6161312 16.17758 746 -0.031 3046 0.000 16.17758 0.000834 0.003543 -0.000083 r_peak,r_snr = 0.5403764 17.50795 846 -0.063 3046 0.094 17.50795 0.000892 0.002806 -0.000093 r_peak,r_snr = 0.6055792 14.56084 946 -0.031 3046 -0.250 14.56084 0.000817 0.006257 -0.000069 r_peak,r_snr = 0.7389416 13.15895 1046 0.031 3046 0.156 13.15895 0.000334 0.001040 -0.000033 r_peak,r_snr = 0.4181607 15.60471 1146 -0.188 3046 0.719 15.60471 0.002119 0.021957 -0.000116 r_peak,r_snr = 0.6037534 40.54205 1246 0.063 3046 -0.031 40.54205 0.000538 0.001113 0.000022 r_peak,r_snr = 0.6323978 25.95967 1346 0.000 3046 0.063 25.95967 0.000459 0.000864 -0.000019 r_peak,r_snr = 0.6216258 6.418533 1446 0.031 3046 0.094 6.41853 0.000723 0.001528 -0.000005 r_peak,r_snr = 0.7096916 8.207026 1546 -0.063 3046 -0.031 8.20703 0.000403 0.000786 -0.000036 r_peak,r_snr = 0.5539847 17.32331 1646 0.000 3046 0.031 17.32331 0.000700 0.001282 -0.000055 r_peak,r_snr = 0.7698604 3.630199 1746 -0.125 3046 0.000 3.63020 0.000798 0.003048 0.000164 r_peak,r_snr = 0.5110870 11.49661 1846 0.031 3046 0.250 11.49661 0.001091 0.014098 0.000101 r_peak,r_snr = 0.3294824 53.94862 1946 -0.063 3046 0.031 53.94862 0.001667 0.008064 0.000045 r_peak,r_snr = 0.3499894 39.65408 2046 0.031 3046 0.125 39.65408 0.001506 0.004015 0.000265 At line = 3400 Reading in data.... r_peak,r_snr = 0.8939493 185.3716 146 0.000 3446 0.031 185.37155 0.000059 0.000092 -0.000003 r_peak,r_snr = 0.8865536 162.9412 246 0.000 3446 0.000 162.94116 0.000066 0.000110 -0.000006 r_peak,r_snr = 0.8381909 159.3970 346 0.000 3446 0.031 159.39696 0.000095 0.000157 -0.000001 r_peak,r_snr = 0.6298009 22.40624 446 0.063 3446 -0.031 22.40624 0.000596 0.001041 0.000014 r_peak,r_snr = 0.6486205 9.195270 546 0.000 3446 0.188 9.19527 0.000634 0.002444 0.000002 r_peak,r_snr = 0.6331390 3.728477 646 0.125 3446 -0.750 3.72848 0.005659 0.214841 -0.006911 r_peak,r_snr = 0.6658593 2.954586 746 -0.313 3446 0.156 2.95459 0.003042 0.027845 -0.000027 r_peak,r_snr = 0.8075797 31.72954 846 0.031 3446 0.063 31.72954 0.000192 0.000621 -0.000012 r_peak,r_snr = 0.7316933 24.83844 946 0.031 3446 -0.281 24.83844 0.000393 0.001383 -0.000012 r_peak,r_snr = 0.6892585 8.386003 1046 -0.063 3446 0.156 8.38600 0.000714 0.002368 -0.000127 r_peak,r_snr = 0.4876013 21.55907 1146 0.000 3446 0.000 21.55907 0.001105 0.001784 0.000039 r_peak,r_snr = 0.5244679 98.63393 1246 0.000 3446 0.000 98.63393 0.000600 0.001201 -0.000036 r_peak,r_snr = 0.5265880 92.90093 1346 0.000 3446 0.094 92.90093 0.000627 0.001338 0.000034 r_peak,r_snr = 0.6590306 6.320696 1446 -0.063 3446 0.063 6.32070 0.000554 0.001375 -0.000032 r_peak,r_snr = 0.6366211 15.65111 1546 -0.031 3446 -0.094 15.65111 0.000431 0.001048 -0.000028 r_peak,r_snr = 0.6694623 10.05177 1646 0.000 3446 0.031 10.05177 0.000496 0.000935 -0.000010 r_peak,r_snr = 0.6566105 2.421802 1746 0.031 3446 0.063 2.42180 0.001906 0.017722 -0.000091 r_peak,r_snr = 0.6832923 2.565184 1846 -0.125 3446 -0.219 2.56518 0.002352 0.008150 0.000208 r_peak,r_snr = 0.3584553 11.38946 1946 -0.094 3446 -0.094 11.38946 0.003659 0.008549 0.000081 r_peak,r_snr = 0.2880411 62.18809 2046 0.031 3446 -0.250 62.18809 0.001959 0.005626 0.000151 At line = 3800 Reading in data.... r_peak,r_snr = 0.9132078 149.3989 146 0.000 3846 0.031 149.39894 0.000049 0.000083 -0.000003 r_peak,r_snr = 0.8465733 140.4268 246 0.031 3846 0.000 140.42677 0.000094 0.000157 -0.000002 r_peak,r_snr = 0.7607499 14.18925 346 -0.031 3846 0.063 14.18925 0.000297 0.000758 -0.000021 r_peak,r_snr = 0.7393969 15.03953 446 0.000 3846 0.125 15.03953 0.000421 0.001462 -0.000047 r_peak,r_snr = 0.7084091 6.464670 546 -0.063 3846 -0.156 6.46467 0.000603 0.002498 -0.000135 r_peak,r_snr = 0.6763011 15.32334 646 -0.156 3846 0.063 15.32334 0.000617 0.003210 -0.000071 r_peak,r_snr = 0.6402735 7.732738 746 -0.250 3846 0.094 7.73274 0.001215 0.014005 0.000229 r_peak,r_snr = 0.7183788 10.11015 846 -0.125 3846 -0.156 10.11015 0.000513 0.002215 0.000152 r_peak,r_snr = 0.6824979 81.04145 946 0.000 3846 0.000 81.04145 0.000291 0.000678 0.000010 r_peak,r_snr = 0.8049126 16.50289 1046 0.031 3846 -0.031 16.50289 0.000205 0.000430 -0.000004 r_peak,r_snr = 0.5817011 74.65065 1146 0.000 3846 -0.031 74.65065 0.000490 0.001053 -0.000050 r_peak,r_snr = 0.6216968 92.39824 1246 -0.063 3846 0.031 92.39824 0.000394 0.000828 0.000017 r_peak,r_snr = 0.5786545 10.59543 1346 0.000 3846 0.031 10.59543 0.000899 0.001757 -0.000021 r_peak,r_snr = 0.6270207 11.68383 1446 -0.031 3846 -0.031 11.68383 0.000615 0.001487 -0.000059 r_peak,r_snr = 0.7699222 10.86703 1546 -0.031 3846 -0.031 10.86703 0.000331 0.000918 0.000047 r_peak,r_snr = 0.8067270 5.950718 1646 0.031 3846 -0.094 5.95072 0.000300 0.000648 0.000021 r_peak,r_snr = 0.8091765 2.538259 1746 0.000 3846 -0.188 2.53826 0.000593 0.001447 0.000014 r_peak,r_snr = 0.7264521 1.770574 1846 -0.125 3846 -0.250 1.77057 0.001811 0.006936 -0.000063 r_peak,r_snr = 0.4372982 21.45174 1946 0.063 3846 -0.219 21.45174 0.001631 0.010049 0.000249 r_peak,r_snr = 0.3015864 30.69925 2046 -0.125 3846 -0.125 30.69925 0.002464 0.007078 0.000642 At line = 4200 Reading in data.... r_peak,r_snr = 0.8659941 141.5131 146 0.031 4246 0.031 141.51308 0.000081 0.000130 -0.000003 r_peak,r_snr = 0.7396147 5.172571 246 0.063 4246 0.094 5.17257 0.000460 0.000849 -0.000042 r_peak,r_snr = 0.6429762 4.315146 346 0.094 4246 -0.219 4.31515 0.001311 0.055652 -0.003132 r_peak,r_snr = 0.8498418 205.2187 446 0.000 4246 0.063 205.21867 0.000082 0.000145 0.000000 r_peak,r_snr = 0.7401713 7.382048 546 0.000 4246 -0.250 7.38205 0.000484 0.006037 0.000532 r_peak,r_snr = 0.6104094 8.172987 646 -0.031 4246 -0.031 8.17299 0.000969 0.003469 -0.000169 r_peak,r_snr = 0.6505457 16.09480 746 -0.094 4246 0.031 16.09480 0.000816 0.004047 -0.000040 r_peak,r_snr = 0.6821756 8.664676 846 -0.031 4246 -0.250 8.66468 0.000491 0.002262 -0.000039 r_peak,r_snr = 0.6648367 39.03762 946 0.000 4246 0.000 39.03762 0.000372 0.000795 0.000030 r_peak,r_snr = 0.6645812 21.40916 1046 -0.031 4246 -0.094 21.40916 0.000421 0.001008 -0.000017 r_peak,r_snr = 0.6661671 4.083591 1146 0.063 4246 0.250 4.08359 0.000975 0.003554 -0.000051 r_peak,r_snr = 0.6726696 7.089139 1246 0.031 4246 -0.125 7.08914 0.000496 0.000899 0.000041 r_peak,r_snr = 0.6443178 5.393374 1346 0.031 4246 -0.156 5.39337 0.000715 0.002390 -0.000028 r_peak,r_snr = 0.4955423 4.845286 1446 0.000 4246 -0.188 4.84529 0.001494 0.006062 -0.000144 r_peak,r_snr = 0.5919735 31.67518 1546 -0.063 4246 0.031 31.67518 0.000557 0.001420 0.000002 r_peak,r_snr = 0.7535145 4.547479 1646 -0.031 4246 0.125 4.54748 0.000363 0.000769 0.000005 r_peak,r_snr = 0.6496641 2.518695 1746 0.000 4246 -0.125 2.51870 0.001345 0.003990 0.000160 r_peak,r_snr = 0.6021413 2.957839 1846 -0.313 4246 0.844 2.95784 0.002983 0.033639 0.001786 r_peak,r_snr = 0.3537337 29.67839 1946 -0.063 4246 -0.156 29.67839 0.002084 0.007722 -0.000018 r_peak,r_snr = 0.2688223 21.78872 2046 -0.063 4246 -0.031 21.78872 0.003653 0.055374 -0.004221 At line = 4600 Reading in data.... r_peak,r_snr = 0.8693723 18.66514 146 0.000 4646 0.063 18.66514 0.000108 0.000201 -0.000005 r_peak,r_snr = 0.8218512 19.05900 246 -0.094 4646 0.000 19.05900 0.000227 0.000995 -0.000024 r_peak,r_snr = 0.6253607 7.476057 346 0.188 4646 0.000 7.47606 0.001389 0.010942 0.000310 r_peak,r_snr = 0.8467755 140.0223 446 0.031 4646 0.031 140.02232 0.000088 0.000150 -0.000002 r_peak,r_snr = 0.7007220 16.24813 546 0.063 4646 -0.125 16.24813 0.000543 0.002532 -0.000047 r_peak,r_snr = 0.6575530 14.57553 646 -0.156 4646 0.094 14.57553 0.000741 0.003196 -0.000037 r_peak,r_snr = 0.6046476 9.958946 746 -0.188 4646 0.219 9.95895 0.000992 0.007306 0.000419 r_peak,r_snr = 0.7482097 6.701999 846 0.031 4646 0.000 6.70200 0.000375 0.005602 -0.000043 r_peak,r_snr = 0.6570694 47.59129 946 0.000 4646 0.031 47.59129 0.000357 0.000813 0.000021 r_peak,r_snr = 0.5697556 91.10506 1046 -0.031 4646 0.031 91.10506 0.000484 0.001074 -0.000001 r_peak,r_snr = 0.5086225 23.60460 1146 0.063 4646 0.094 23.60460 0.000916 0.002656 -0.000055 r_peak,r_snr = 0.5512102 41.92324 1246 0.000 4646 0.094 41.92324 0.000634 0.001228 -0.000009 r_peak,r_snr = 0.6792558 10.58138 1346 0.000 4646 -0.063 10.58138 0.000505 0.000996 0.000036 r_peak,r_snr = 0.5163248 7.007276 1446 -0.031 4646 0.000 7.00728 0.001155 0.002737 -0.000110 r_peak,r_snr = 0.4867363 15.82597 1546 0.125 4646 -0.125 15.82597 0.001249 0.004397 -0.000025 r_peak,r_snr = 0.7823724 6.235795 1646 -0.063 4646 0.031 6.23579 0.000390 0.000727 -0.000007 r_peak,r_snr = 0.5808738 3.742523 1746 -0.250 4646 0.094 3.74252 0.002156 0.024628 0.000401 r_peak,r_snr = 0.5250635 4.865494 1846 0.375 4646 -0.250 4.86549 0.002315 0.028479 0.000943 r_peak,r_snr = 0.3536634 17.24977 1946 -0.250 4646 -0.094 17.24977 0.002237 0.011173 -0.000088 r_peak,r_snr = 0.3026435 26.94068 2046 -0.219 4646 -0.156 26.94068 0.002819 0.010608 0.000050 At line = 5000 Reading in data.... r_peak,r_snr = 0.6671890 16.43897 146 -0.031 5046 0.125 16.43897 0.000498 0.001485 -0.000013 r_peak,r_snr = 0.6372079 6.315526 246 -0.094 5046 -0.750 6.31553 0.000906 0.008469 0.000338 r_peak,r_snr = 0.7427835 14.97821 346 0.094 5046 -0.250 14.97821 0.000363 0.001789 0.000024 r_peak,r_snr = 0.8189979 134.6567 446 0.031 5046 0.063 134.65668 0.000115 0.000185 -0.000008 r_peak,r_snr = 0.6722464 13.51252 546 -0.063 5046 -0.125 13.51252 0.000538 0.001987 -0.000034 r_peak,r_snr = 0.5278826 7.972517 646 -0.094 5046 -0.156 7.97252 0.001954 0.038656 -0.001754 r_peak,r_snr = 0.6649402 14.34943 746 0.094 5046 -0.688 14.34943 0.000570 0.005033 0.000100 r_peak,r_snr = 0.5395040 7.573793 846 0.156 5046 -0.031 7.57379 0.001292 0.016850 0.000129 r_peak,r_snr = 0.7201894 52.08967 946 0.000 5046 0.000 52.08967 0.000278 0.000633 -0.000004 r_peak,r_snr = 0.5676701 61.89047 1046 -0.031 5046 -0.094 61.89047 0.000522 0.001093 0.000039 r_peak,r_snr = 0.6569534 11.75116 1146 -0.031 5046 -0.094 11.75116 0.000450 0.000854 -0.000002 r_peak,r_snr = 0.7057201 10.89257 1246 -0.031 5046 -0.063 10.89257 0.000405 0.000779 -0.000041 r_peak,r_snr = 0.6620039 7.445598 1346 -0.031 5046 -0.031 7.44560 0.000634 0.001089 -0.000074 r_peak,r_snr = 0.7023060 32.92457 1446 -0.063 5046 0.063 32.92457 0.000293 0.000508 0.000004 r_peak,r_snr = 0.5760208 11.61417 1546 -0.188 5046 0.500 11.61417 0.001044 0.023831 -0.000183 r_peak,r_snr = 0.4911302 10.13261 1646 0.000 5046 0.000 10.13261 0.001107 0.003316 0.000068 r_peak,r_snr = 0.6353397 2.855097 1746 0.063 5046 0.125 2.85510 0.002631 0.011870 -0.000245 r_peak,r_snr = 0.6131877 2.124263 1846 -0.156 5046 0.063 2.12426 0.002358 0.037234 0.000973 r_peak,r_snr = 0.3661393 36.56713 1946 0.094 5046 0.125 36.56713 0.002053 0.007770 0.000183 r_peak,r_snr = 0.2759661 27.12665 2046 -0.156 5046 -0.156 27.12665 0.003474 0.010170 -0.000121 At line = 5400 Reading in data.... r_peak,r_snr = 0.7370506 13.95774 146 0.000 5446 0.188 13.95774 0.000505 0.002337 -0.000039 r_peak,r_snr = 0.6419478 11.50613 246 -0.031 5446 0.063 11.50613 0.000462 0.003327 -0.000172 r_peak,r_snr = 0.8778424 15.07833 346 0.188 5446 0.031 15.07833 0.000154 0.000662 0.000007 r_peak,r_snr = 0.7509049 38.97159 446 0.031 5446 0.000 38.97159 0.000220 0.000560 -0.000008 r_peak,r_snr = 0.6347193 33.87261 546 0.000 5446 0.188 33.87261 0.000432 0.001335 -0.000037 r_peak,r_snr = 0.7188210 8.276154 646 -0.094 5446 -0.125 8.27615 0.000586 0.002805 -0.000003 r_peak,r_snr = 0.7404703 16.03386 746 -0.031 5446 -0.125 16.03386 0.000289 0.001134 -0.000014 r_peak,r_snr = 0.7232172 6.133828 846 0.031 5446 -0.094 6.13383 0.000515 0.004305 0.000158 r_peak,r_snr = 0.6755344 53.52505 946 -0.031 5446 0.000 53.52505 0.000335 0.000685 -0.000005 r_peak,r_snr = 0.6053376 83.17990 1046 0.000 5446 0.000 83.17990 0.000420 0.000850 0.000008 r_peak,r_snr = 0.5981061 27.49375 1146 0.031 5446 0.094 27.49375 0.000497 0.000935 -0.000004 r_peak,r_snr = 0.4905601 56.26091 1246 0.063 5446 -0.031 56.26091 0.000754 0.002356 0.000000 r_peak,r_snr = 0.6407018 20.10678 1346 0.094 5446 -0.094 20.10678 0.000522 0.002183 0.000115 r_peak,r_snr = 0.8094953 4.121056 1446 0.031 5446 -0.063 4.12106 0.000317 0.000593 -0.000015 r_peak,r_snr = 0.5394861 11.45058 1546 -0.156 5446 -0.125 11.45058 0.001124 0.003445 -0.000047 r_peak,r_snr = 0.4194815 17.85612 1646 0.063 5446 -0.094 17.85612 0.002059 0.017816 0.000268 r_peak,r_snr = 0.5192270 2.146783 1746 0.031 5446 0.188 2.14678 0.006149 0.026243 0.000684 r_peak,r_snr = 0.6527405 1.455144 1846 4.906 5446 -14.219 1.45514 0.011263 0.136521 -0.022434 r_peak,r_snr = 0.4073640 27.08937 1946 -0.188 5446 -0.219 27.08937 0.001411 0.017423 0.000522 r_peak,r_snr = 0.5745707 3.823171 2046 0.094 5446 -0.063 3.82317 0.001224 0.002307 -0.000022 At line = 5800 Reading in data.... r_peak,r_snr = 0.6231194 4.163861 146 0.375 5846 -1.750 4.16386 0.002119 0.071657 0.005675 r_peak,r_snr = 0.7457832 18.95874 246 -0.031 5846 0.031 18.95874 0.000284 0.001131 0.000008 r_peak,r_snr = 0.7414935 34.69691 346 0.031 5846 0.094 34.69691 0.000262 0.000720 -0.000024 r_peak,r_snr = 0.6808218 6.990193 446 -0.313 5846 -0.250 6.99019 0.001155 0.006775 0.000169 r_peak,r_snr = 0.6580995 14.97059 546 0.000 5846 0.031 14.97059 0.000557 0.001666 0.000043 r_peak,r_snr = 0.6263811 8.928396 646 0.031 5846 -0.281 8.92840 0.001025 0.010839 0.000194 r_peak,r_snr = 0.6069142 7.467520 746 -0.125 5846 0.031 7.46752 0.001275 0.008883 0.000133 r_peak,r_snr = 0.6669111 15.14306 846 -0.031 5846 -0.156 15.14306 0.000423 0.001069 -0.000037 r_peak,r_snr = 0.6126668 74.73405 946 0.000 5846 0.000 74.73405 0.000419 0.000991 0.000034 r_peak,r_snr = 0.5465334 41.44117 1046 -0.031 5846 0.063 41.44117 0.000669 0.001314 -0.000018 r_peak,r_snr = 0.6552352 6.162980 1146 -0.031 5846 -0.094 6.16298 0.000597 0.001176 0.000009 r_peak,r_snr = 0.4794259 14.79588 1246 -0.094 5846 -0.031 14.79588 0.001182 0.003186 -0.000096 r_peak,r_snr = 0.5659676 19.52583 1346 0.125 5846 -0.094 19.52583 0.000930 0.005743 0.000063 r_peak,r_snr = 0.8495709 2.889915 1446 0.063 5846 0.156 2.88992 0.000290 0.000593 0.000011 r_peak,r_snr = 0.4931870 8.450625 1546 0.000 5846 0.219 8.45063 0.001566 0.009537 -0.000156 r_peak,r_snr = 0.3211737 15.68050 1646 -0.125 5846 -1.813 15.68050 0.002810 0.328930 0.006616 r_peak,r_snr = 0.3003596 3.810162 1746 -0.125 5846 0.344 3.81016 0.010507 0.178290 -0.008987 r_peak,r_snr = 0.7260218 3.739086 1846 0.125 5846 -0.031 3.73909 0.000992 0.007036 0.000114 r_peak,r_snr = 0.4543467 13.54015 1946 -0.063 5846 0.719 13.54015 0.001880 0.049976 -0.000226 r_peak,r_snr = 0.4595543 4.342970 2046 0.031 5846 0.094 4.34297 0.003001 0.007330 -0.000025 /u/sardine0/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: 2060 2524 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/sardine0/airops/OPS/data_proc/recal0.dat 40.00000 abs gain: 137.3010 137.9000 137.3010 137.9000 caltone: 87.30000 89.70000 86.90000 90.00000 *** ifreq 0-p 1-L 2-c: 1 1 ifreq 0-p 1-L 2-c: 1 2 cable phase P/L/C: -137.3000 176.8700 -50.90000 sigma zero: 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 hddt bw ha T : 90 40.00000 8369.500 10.00000 $tphase,phasedat: 32.40000 -55.80000 $rphase,phasevh,phasehv: 88.20000 -5.900000 -94.10000 Reading data size. 2060 2060 2524 2524 Enter H Ant pattern file: POLSAR H-ANT:/u/sardine0/airops/OPS/data_proc/AIRSAR.LH98 Enter V Ant pattern file: POLSAR V-ANT:/u/sardine0/airops/OPS/data_proc/AIRSAR.LV98 Enter the name of the motion compensation file. motion lun: 15 How many lines of raw data? How many lines of raw data: 21000 Cross pol phase difference is: -55.80 deg Receiver phase difference is 88.20 deg Transmitter phase difference is 32.40 deg Cable phase difference is 176.87 deg $ghv,phasedat,phi: (0.5620834,-0.8270805) -55.80000 -55.80000 $phico aphase: 474.3400 176.8700 $fhh,fhv,fvh: (-0.4121499,-0.9111161) (-0.8723255,0.4889256) (-8.5939117E-02,0.9963004) Input ground spacing ? cross-track ground spacing: 3.000000 Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 0 NSAMP vec_len nbytes: 2524 20192 Reading data to estimate cross-talk. 2060 2524 256 512 768 1024 in cross-talk estimation Estimating the cross-talk parameters. 256 512 768 1024 1280 1536 1792 2048 2304 cross(1,100) 0=-100 dB: (9.3546599E-02,6.7798324E-02) (-0.1071107,0.1302028) 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. 2060 2060 Absolute gain AChu(linear) :. 5.6944298E-08 5.6885309E-08 5.6885309E-08 ahh hv vv chh hv vh vv: -231.7910 -233.6000 -231.3910 -233.9000 86.90000 88.70000 86.50000 89.00000 1 257 513 769 1025 1281 1537 1793 2049 ********************************************* ***** ***** ***** 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. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of output file. Please choose the type of compression: (1) Stokes matrix (AIRSAR standard) (2) Cross-products (SIR-C standard) hddt: 90 Finished writing headers. 256 512 768 1024 1280 1536 1792 2048 Enter number of set to convert: Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 min. window size : 5947 new found samp 2524 151440 20192 25240 25240 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 dumping the rest 110 dumping the rest 111 dumping the rest 112 dumping the rest 113 dumping the rest 114 dumping the rest 115 dumping the rest 116 dumping the rest 117 *** 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. ibytesdata= 151440 do line: 51 done line: 51 do line: 101 done line: 101 do line: 151 done line: 151 do line: 201 done line: 201 do line: 251 done line: 251 do line: 301 done line: 301 do line: 351 done line: 351 do line: 401 done line: 401 do line: 451 done line: 451 do line: 501 done line: 501 do line: 551 done line: 551 do line: 601 done line: 601 do line: 651 done line: 651 do line: 701 done line: 701 do line: 751 done line: 751 do line: 801 done line: 801 do line: 851 done line: 851 do line: 901 done line: 901 do line: 951 done line: 951 do line: 1001 done line: 1001 do line: 1051 done line: 1051 do line: 1101 done line: 1101 do line: 1151 done line: 1151 do line: 1201 done line: 1201 do line: 1251 done line: 1251 do line: 1301 done line: 1301 do line: 1351 done line: 1351 do line: 1401 done line: 1401 do line: 1451 done line: 1451 do line: 1501 done line: 1501 do line: 1551 done line: 1551 do line: 1601 done line: 1601 do line: 1651 done line: 1651 do line: 1701 done line: 1701 do line: 1751 done line: 1751 do line: 1801 done line: 1801 do line: 1851 done line: 1851 do line: 1901 done line: 1901 do line: 1951 done line: 1951 do line: 2001 done line: 2001 do line: 2051 done line: 2051 do line: 2101 done line: 2101 do line: 2151 done line: 2151 100 200 300 400 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 Fri Aug 3 17:54:08 PDT 2001 Fri Aug 3 17:54:08 PDT 2001 Fri Aug 3 17:54:08 PDT 2001 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. * * * ***************************************************** Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -1.027807 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: - - - - - - - - - - - - - - - - - - - - - Names: John Boyett McCluskey, William Richard Fiechter, Walter E dward Brown Jr., Walter Felix Skotnicki, Takeshi Sato, Yunjin Ki m, Yunling Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/export/air31/airops/6395/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: 21000 window delay: window delay 0 enter the .par filename : par filename:/export/air35/airops/6395/cm6395_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: 90 enter HDDT TID <0> : Sony TID: 49069 enter the title of image: title image BARBERSPOINT90-1 enter the CCT (job) ID: cct: 6395 target:BarbersPoint90-1 prod ID(cctid):6395 chrp_delay from subcomm header tapeID: 32.45000 90 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: 0.0000000E+00 gen_par_aipt P-band fs ntapeid: 45.00000 90 idelay,chrp_delay,xdelay 91 32.45000 -1.027807 near range delr windelay: 8930.488 6.662055 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 f_cal 21.44530 Parameter header created .. IGI lat: 1 21.26979075372219 IGI lon: 1 -158.1447502411902 get_subcomm_aiptEGI year i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 91.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):91 91.00000000000000 startrng(m) elecdelay: 8930.489852849636 3.2450000000000003E-05 >> start range = 8930.4899 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 12 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 6 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 17 0 >> ratn_lhv = 0 11 0 >> ratn_lvh = 0 11 0 >> ratn_lvv = 0 17 0 >> ratn_chh = 0 12 10 >> ratn_chv = 0 6 10 >> ratn_cvh = 0 6 10 >> ratn_cvv = 0 12 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 41984 21.26979075372219 -158.1447502411902 21.27000000000000 -158.1500000000000 7927.543200000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 8308.543200000000 0.6000000000000000 1.700000000000000 88.80000000000000 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 21.26991653442383 -158.1461944580078 0.0000000000000000E+00 0.0000000000000000E+00 24686272.00000000 ****gps_frame**** 1844866 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8930.489852849636 1 328 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 1865756.250000000 12124.97880680823 gpsT doy: 287 10 13 gpsT: 24686272.38000000 2000 10 13 5 17 52 0.3800000000000000 week# 1 ED0 GPS week num: 59 GPS i_pass: -1 main header kk hwTIME: 1 451072.5066720000 EGI msg 1 msl alt(from eo17): 8353.674863818360 EGI msg 1 wander angle(from eo17): 88.67614746093750 EGI09 lat: 21.26979075372219 EGI09 lon: -158.1447502411902 EGI09 alt: 6849.000000000000 EGI09 Height_above_ellipsoid - height_msl: 4.876800000000000 EGI-09 word11 gps Vel East m/s: 214.6642180664062 EGI-09 word12 gps Vel North m/s: 2.844795252227784 EGI-09 word13 gps Vel Upper m/s: -12.16724191818237 EGI-09 GPS Position FOM : 2.000000000000000 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 1 118 C023 EO-9(17)nav FOM 1 8102 118 EO-16(30)Time FOM 1 300 118 EGI-09 w21-22geod_utctime: 19058.78247070313 EGI-09 Time Valid: 0.9699840000000000 EGI-18 dec32 Vel North m/s: 0.6066311597824097 EGI-18 dec32 Vel East m/s: 224.6314086914063 EGI-18 dec32 Vel Upper m/s: -0.1563717424869537 EGI-10 GPS week number: 59 EGI-13 GPS sigma Pos-x/y/z: 1.875000000000000 1.500000000000000 2.625000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 5.9814453125000000E-03 1.4038085937500000E-02 EGI-13 GPS sigma roll/pitch/az: 4.3713210688081606E-04 4.3713210688081606E-04 1.3113963206424482E-03 r_time_tag_17: 1.460032000000000 EGI-16 time fom;year doy: 3 0 287 EO17 vel-x/y/z: 1.354833581542969 -216.1329167907715 8.7416757202148448E-02 EO17 wrander az roll pitch az: 1.547690741177369 0.3680419921875000 1.571044921875000 88.60473632812500 EO17 r_cnexx/y/z: 0.9318813364952803 -1.2366678565740585E-03 0.3627611631527543 EO17 r_lon: -158.1437308341265 EO16 GPS FOM (acc): 3.000000000000000 EGI-18 w1-8: E000 49DC 3FDA F5E8 dec64: 985B 4794 E3AF 5E89 r_hwgpstime(1): 451070.8425181365 r_utctime_18: 19057.84251813832 EGI-18 dec32 lat: 21.26983403772876 EGI-18 dec32 lon: -158.1466508349605 EGI-18 dec32 sea level alt: 8353.429687500000 EGI-18 dec32 WGS84 alt: 8358.529296875000 WGS84_alt-msl_alt: 5.099609375000000 del time from EO18 word10: -1.0000000000000001E-09 del time EO18 word10: 1 FFFF 2 e22_msg(1) satellite 1: 1E e22_msg(3) satellite 2: 9 e22_msg(5) satellite 3: 4 e22_msg(7) satellite 4: 1A e22_msg(9) satellite 5: 1D EGI-22 Tdop: 3.031250000000000 2.671875000000000 1.359375000000000 2.296875000000000 1.437500000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 5 0.4900480000000000 geod_utctime time_tag_17 time_valid: 19058.78247070313 1.460032000000000 0.9699840000000000 r_utc_ttag r_del_time_18: 451072.2725187021 -1.0000000000000001E-09 J2000 r_hwtime = 24686272.50667200 GPS J2000 time = 24686272.27251870 Message 1 Time = 24686272.50667200 INS Time = 1.694336000000000 Roll angle = 0.3900146484375000 Pitch angle = 1.571044921875000 Heading angle = 88.60473632812500 Long. acc = 0.2200000000000000 Lat. acc = 5.9999999999999998E-02 Norm. acc = -9.750000000000000 East vel. = 216.1320000000000 North vel. = 1.620000000000000 Up vel. = 8.7000000000000008E-02 True Grnd Spd = 216.1250000000000 Altitude = 8359.000000000000 Latitude = 21.26986904069781 Longitude = -158.1432434264570 Message 6 Week = 59 GPS Time = 24686272.27251870 GDOP = 3.031250000000000 PDOP = 2.671875000000000 HDOP = 1.359375000000000 VDOP = 2.296875000000000 TDOP = 1.437500000000000 Spherical Acc = 2.000000000000000 Time Acc = 3.000000000000000 GPS Lat = 21.26983403772876 GPS Lon = -158.1466508349605 GPS Alt = 8358.529296875000 GPS East Vel = 224.6314086914063 GPS North Vel = 0.6066311597824097 GPS Up Vel = -0.1563717424869537 Message 4 Sigma Pos x = 1.875000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.625000000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 5.9814453125000000E-03 Sigma Vel z = 1.4038085937500000E-02 Message 7 Satellites used = 30 9 4 26 29 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 Honeywell EGI98Fall for gps-hgt 3187 20008 8358.808265179692 Done decoding data from header array... Data collected on ==> 13-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 24686272.3800 24686322.3260 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61538 88.54980 88.73108 0.0358182 0 trc 89.69191 89.56605 89.76349 0.0377229 0 tgs 216.28398 216.12500 216.37500 0.0745757 0 roll 0.09928 -0.10437 0.45044 0.1097652 0 pitch 1.55211 1.51062 1.60400 0.0278613 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14324 -158.13262 0.0030769 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09822 -158.15000 -158.04667 0.0299082 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.49627 8308.54320 8332.01280 5.3498007 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75976 88.70000 88.90000 0.0496568 0 dad 0.94726 0.70000 1.00000 0.0748480 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.80827 8359.13271 0.0881038 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14324 -158.03964 0.0299188 0 hwalt 8359.27250 8358.80827 8360.73460 0.4271337 0 hwev 216.28800 216.13200 216.37700 0.0744637 0 hwnv 1.16185 0.89300 1.62000 0.1400571 0 hwuv 0.07155 -0.05400 0.23500 0.0857045 0 hwroll 0.09847 -0.10437 0.45044 0.1088824 0 hwpitch 1.55205 1.51062 1.60400 0.0278846 0 hwhdg 88.61538 88.54980 88.73108 0.0358314 0 hwtrc 89.69224 89.57055 89.76349 0.0371919 0 hwtgs 216.28440 216.12500 216.37500 0.0742095 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... 24686273.00000000 i_yearind 20008 GPS time for first pulse = 24686272.38099190 24686272.38000000 New startrecT: 24686272.38099190 24686272.50667200 1 New start and number of records = 107 41843 New start and number of blocks = 1 328 +6+r_hwhead(10/200): 0.0000000000000000E+00 -3.8452148437500000E-02 88.59924316406250 GPS trend coefficients = -0.1421912406060422 0.2429450709556520 6.0768806167031453E-02 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61531 88.54980 88.73108 0.0357180 0 trc 89.69216 89.56605 89.76322 0.0372119 0 tgs 216.28434 216.12500 216.37500 0.0742596 0 roll 0.09845 -0.10437 0.45044 0.1089470 0 pitch 1.55205 1.51062 1.60400 0.0278892 0 delx 0.25730 0.00000 0.25736 0.0012582 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14321 -158.13265 0.0030766 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09827 -158.15000 -158.04667 0.0299732 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.50092 8308.54320 8332.01280 5.3511229 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.117Reading from stdin 6209 0 thd 88.75945 88.70000 88.80000 0.0490986 0 dad 0.94756 0.70000 1.00000 0.0748586 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.95014 8358.97538 0.0065941 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14321 -158.03967 0.0299187 0 hwalt 8359.27250 8358.80943 8360.73251 0.4271311 0 hwev 216.28800 216.13300 216.37700 0.0744630 0 hwnv 1.16185 0.89400 1.61700 0.1400535 0 hwuv 0.07155 -0.05400 0.23500 0.0857046 0 hwroll 0.09842 -0.10437 0.45044 0.1088939 0 hwpitch 1.55205 1.51062 1.60400 0.0279026 0 hwhdg 88.61534 88.54980 88.73108 0.0358222 0 hwtrc 89.69221 89.57135 89.76322 0.0371943 0 hwtgs 216.28427 216.12500 216.37500 0.0741944 0 Finished final analysis of data... Average Barometric Altitude = 7927.384295121976 Average Radar Altitude = 8321.500917073146 Average GPS Altitude = 8358.965703807255 >>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/sardine0/airops/OPS/QA_Proc/pbn_decode.pl /export/air31/airops/6395/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: 327 Number of valid data points = 327 Start time GPS data = 24686271.00000261 End time GPS data = 24686321.00000321 Positions and Distances Start position = 21.2700082 -158.1212684 8366.998 End position = 21.2702604 -158.0692353 8366.502 Loxodromic Heading (deg) = 89.7037919 Loxodromic Distance (km) = 5400.1823701 Geodesic Heading (deg) = 89.6943540 Geodesic Distance (km) = 5400.1822298 Peg latitude and longitude = 21.2701382 -158.0942164 Peg heading = 89.6964733 Rotation matrix First row = -0.864597350 0.374859208 0.334592284 Second row = -0.347667290 -0.927068608 0.140254240 Third row = 0.362765596 0.004936652 0.931867347 Translation vector Vector = -0.90613 -0.36437 -15495.69380 Local Radius of Curvature = 6380947.292532770 startrec dgps_pacrim2k: 107 41843 **i_ts: 107 24686272.50600000 24686271.00000261 1.505997393280268 Start and end pulse used = 107 40028 gmt sec s e = 24686272.50600000 24686320.00000000 dgps sec s = 24686271.00000261 24686320.00000321 r_tsv: -5526209.829357618 -2216344.480607412 2302298.257824737 r_tev: -5522237.873828896 -2226168.938793111 2302352.694968707 lat/lon r_geodis: 0.3712289775194217 -2.760172386273320 0.3712381081092658 -2.758392600989121 10583.26287225188 Ellipsoidal delta s (m) = 0.2651051544864078 DGPS... lat/lon r_geodis: -3.1648954223621963E-07 -8.4596004312578450E-04 -3.6028332996772156E-08 8.1261233825601770E-04 10583.26309779226 Delta s on reference surface = 0.2651051601360753 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/export/air35/airops/6395/cm6395_p.peg DGPS Peg latitude and longitude = 21.2701382 -158.0942164 DGPS Peg heading = 89.6964733 == dgps_egi == r_hwheadf: 88.59924316406250 -3.8452148437500000E-02 5.4931640625000000E-03 107 Making final angle restore...Honeywell 88.59924316406250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 4.6121871984147712E-04 Standard deviation of difference = 2.9067768421206318E-04 Making fits... Vertical fit coefficients = 8369.507111141511 -1.3961879573002989E-02 5.1040686610548391E-06 Cross track fit coefficients = -0.7376539925423439 5.0317555036837318E-02 -6.6105986553005721E-04 Along track fit coefficients = 0.2942850757127838 2.4693515377133962E-03 -1.6983115265207935E-04 avg alt (1): 8369.507111141511 alt r_avgrefh: 8369.624996553428 i_yearind p-hgt t-hgt: 20008 8369.507111141511 0.0000000E+00 avg_ralt tmp: 8369.506835937500 8369.507 enter proc_alt: -1.000000 yaw: -1.109508 88.60473632812500 89.71424466989063 107 tape #: 90 PRF at the start of the run: 840.0537748040234 840.0538 Miscellaneous Information Start range = 8930.489852849636 Start ground range = 3115.285594459322 Time orgin = 24686272.38099190 Pulse spacing = 0.2572996020473780 First frame = 1845292 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. /export/air35/airops/6395/cm6395_p.mocomp Name of the H-pol motion compensation file? /export/air35/airops/6395/cm6395_p.mocomph Name of the V-pol motion compensation file? /export/air35/airops/6395/cm6395_p.mocompv How many lines per polarization? 21000 + 1 + 10001 + 20001 + 30001 + 40001 ********************************************* * * * 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. /export/air35/airops/6395/cm6395_p.par Enter the raw data file name. /export/air31/airops/6395/p_hh Enter the motion compensation file name. /export/air35/airops/6395/cm6395_p.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_p_hh.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_p_hh.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_p_hh.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_p_hh.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1073 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (91.56465,0.0000000E+00) (-47.77287,0.0000000E+00) (-35.82965,0.0000000E+00) attenuation (dB): 12.00000 no_loop: 64 Pulse#/no_loop: 1 1073 2.4344100E+09 plot_x: 327 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 93.85576 Power RMS: 3.1250000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 49293.66 Amp. RMS: 234.0598 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 48.60012 Phase RMS: 0.1440554 Incoherent PH 1st: 48.61254 max_bin with Incoherent averaging: 1846 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 95.73832 CalTone Power Coherently dB : 93.85576 Incoherent PW - Coherent PW : 1.882561 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 49309.68 CalTone Amplitude Coherently : 49293.66 Incoherent Amp.- Coherent Amp. : 16.01563 ------------ *** ------------ running time (sec): 11.11 ********** 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. /export/air35/airops/6395/cm6395_p.par Enter the raw data file name. /export/air31/airops/6395/p_hv Enter the motion compensation file name. /export/air35/airops/6395/cm6395_p.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_p_hv.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_p_hv.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_p_hv.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_p_hv.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1073 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (-105.4992,0.0000000E+00) (-241.1411,0.0000000E+00) (-223.5579,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1073 2.8522568E+09 plot_x: 327 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 94.27916 Power RMS: 1.378901 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 52329.61 Amp. RMS: 6849.215 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -92.33932 Phase RMS: 0.7661031 Incoherent PH 1st: -92.36249 max_bin with Incoherent averaging: 1846 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 101.5491 CalTone Power Coherently dB : 94.27916 WARNING!!! CalTone freq is drifting!!! Using Incoherently pw ph ph_sd: 101.5491 -92.36249 1.309893 Incoherent PW - Coherent PW : 7.269905 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 74331.27 CalTone Amplitude Coherently : 52329.61 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 22001.67 ------------ *** ------------ running time (sec): 10.44 ********** 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. /export/air35/airops/6395/cm6395_p.par Enter the raw data file name. /export/air31/airops/6395/p_vh Enter the motion compensation file name. /export/air35/airops/6395/cm6395_p.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_p_vh.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_p_vh.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_p_vh.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_p_vh.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1073 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (13.96684,0.0000000E+00) (-57.86261,0.0000000E+00) (0.0000000E+00,0.0000000E+00) attenuation (dB): 6.000001 no_loop: 64 Pulse#/no_loop: 1 1073 2.4269478E+09 plot_x: 327 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 93.81660 Power RMS: 8.8388346E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 49071.84 Amp. RMS: 236.7784 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 48.70252 Phase RMS: 0.1423505 Incoherent PH 1st: 48.73122 max_bin with Incoherent averaging: 1846 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 95.37283 CalTone Power Coherently dB : 93.81660 Incoherent PW - Coherent PW : 1.556229 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 49233.80 CalTone Amplitude Coherently : 49071.84 Incoherent Amp.- Coherent Amp. : 161.9609 ------------ *** ------------ running time (sec): 10.35 ********** 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. /export/air35/airops/6395/cm6395_p.par Enter the raw data file name. /export/air31/airops/6395/p_vv Enter the motion compensation file name. /export/air35/airops/6395/cm6395_p.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_p_vv.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_p_vv.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_p_vv.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_p_vv.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1073 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (-225.5343,0.0000000E+00) (-305.7242,0.0000000E+00) (-245.5817,0.0000000E+00) attenuation (dB): 14.00000 no_loop: 64 Pulse#/no_loop: 1 1073 3.3321096E+09 plot_x: 327 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 95.26096 Power RMS: 5.4126587E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 57950.23 Amp. RMS: 375.9149 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -92.89934 Phase RMS: 1.154560 Incoherent PH 1st: -92.88961 max_bin with Incoherent averaging: 1846 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 102.7909 CalTone Power Coherently dB : 95.26096 WARNING!!! CalTone freq is drifting!!! Using Incoherently pw ph ph_sd: 102.7909 -92.88961 1.564998 Incoherent PW - Coherent PW : 7.529907 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 84924.88 CalTone Amplitude Coherently : 57950.23 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 26974.65 ------------ *** ------------ running time (sec): 10.76 ********** 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: -1.527198 4.0054118E-05 z fit: constant and linear terms: 7.6946214E-02 4.9350460E-06 y and z standard deviations (meters) 0.4663816 0.1291082 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 = 4 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 1.7333655E-02 1.7080346E-02 1.7877128E-02 1.8289234E-02 Differences = -3.1143241E-04 -5.6474097E-04 2.3204088E-04 6.4414740E-04 PATCH NUMER 2 First line = 3493 Averages = 1.7665684E-02 1.8230656E-02 1.8063407E-02 1.7336851E-02 Differences = -1.5845709E-04 4.0651485E-04 2.3926608E-04 -4.8729032E-04 PATCH NUMER 3 First line = 6985 Averages = 1.8211896E-02 1.7543137E-02 1.7114026E-02 1.7679712E-02 Differences = 5.7470798E-04 -9.4050542E-05 -5.2316114E-04 4.2524189E-05 PATCH NUMER 4 First line = 10477 Averages = 1.7137673E-02 1.7498326E-02 1.8248394E-02 1.8733596E-02 Differences = -7.6680258E-04 -4.0614977E-04 3.4391880E-04 8.2912110E-04 PATCH NUMER 5 First line = 13969 last black mod_64: 54 21000 13969 8192 Averages = 1.8017845E-02 1.8594611E-02 1.9116474E-02 1.9255929E-02 Differences = -7.2837994E-04 -1.5161373E-04 3.7024915E-04 5.0970353E-04 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.pp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_p.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8930.490 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) = 0.0000000E+00 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? /export/air31/airops/6395/p_hh Name of the mocomp data file? /export/air35/airops/6395/cm6395_p.mocomph Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.3430003E-02 reading motion compensation data WAYNE read motion compen 0.4871200 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1520730 start range comp, time = 0.743 WAYNE PREV 0.6682660 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 0.923 seconds. before reading done reading WAYNE load raw data , time = 46.27620291709900 ATTN ifrq ipol ln 0 1 15176 12.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4997382 shift in azimuth *fractional pixel= -0.4997382 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1499047279357910E-02 WAYNE Motion comp. added to patch, time = 15.79725003242493 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4400949478149414E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 260.7993119955063 Writing 4192 lines of data to file WAYNE write output data 1.374725937843323 ==w out 3 0 2001 0 WAYNE PROCESS 324.2630679607391 ==w out 4 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 0.934 seconds. before reading done reading WAYNE load raw data , time = 46.72098600864410 ATTN ifrq ipol ln 0 1 18668 12.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4997202 shift in azimuth *fractional pixel= -0.4997202 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1301994323730469E-02 WAYNE Motion comp. added to patch, time = 15.69600594043732 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.4909973144531250E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 266.7795089483261 Writing 4192 lines of data to file WAYNE write output data 1.395467996597290 ==w out 4 0 2001 0 WAYNE PROCESS 330.6074709892273 ==w out 5 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.905 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 47.09754896163940 ATTN ifrq ipol ln 0 1 8192 12.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4997405 shift in azimuth *fractional pixel= -0.4997405 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1168003082275391E-02 TESTING 0.0000000E+00 -1.5103954E-02 0.2196686 WAYNE Motion comp. added to patch, time = 15.73915505409241 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.5340318679809570E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -1.5103954E-02 0.2196686 HEY,dt,fract,ye,pe -0.4997405 1.000000 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 266.6742680072784 Writing 4192 lines of data to file WAYNE write output data 1.444125890731812 ==w out 1 0 2001 0 WAYNE PROCESS 330.9704879522324 ==w out 2 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 0.942 seconds. before reading done reading WAYNE load raw data , time = 47.93073999881744 ATTN ifrq ipol ln 0 1 20999 12.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4997168 shift in azimuth *fractional pixel= -0.4997168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1366009712219238E-02 WAYNE Motion comp. added to patch, time = 15.81605005264282 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5839805603027344E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.0019860267639 Writing 4192 lines of data to file WAYNE write output data 1.429643034934998 ==w out 5 0 2001 0 WAYNE PROCESS 332.1942249536514 ==w out 6 4195 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 0.915 seconds. before reading done reading WAYNE load raw data , time = 46.39989697933197 ATTN ifrq ipol ln 0 1 11684 12.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4997367 shift in azimuth *fractional pixel= -0.4997367 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1358022689819336E-02 WAYNE Motion comp. added to patch, time = 15.75326895713806 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4430751800537109E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.8490409851074 Writing 4192 lines of data to file WAYNE write output data 1.417816996574402 ==w out 2 0 2001 0 WAYNE PROCESS 332.4355380535126 ==w out 3 4195 1 3422886 0 2 3420993 0 3 3422605 0 4 3416516 0 5 3422976 0 6 3417916 0 7 3129474 0 8 3422578 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 12.33685195446014 WAYNE LOOP TIME: 353.4608670473099 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_p.hh_j /export/air35/airops/6395/cm6395_p.mocomph /export/air35/airops/6395/cm6395_p.dop /export/air35/airops/6395/cm6395_p.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 6.662100 0.5144000 mocompfile /export/air35/airops/6395/cm6395_p.mocomph dopfile /export/air35/airops/6395/cm6395_p.dop globalfile /export/air35/airops/6395/cm6395_p.glb /export/air35/airops/6395/cm6395_p.glb 38 deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 after deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 lat1 lon1: 320 21.29803 -158.1418 20960 last ra n_ns ns: 8930.963 0 1 21279 20960 lati loni: 21279 21.29809 -158.0255 21279 1 center ra n_ns ns: 17451.79 1279 1279 10799 20960 lati loni: 10799 21.37468 -158.0828 10799 2560 Updated paramater header in /export/air31/airops/6395/cm6395_p.hh_j WAYNE FINAL PROCESS 355.9341890811920 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_p.hh_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_p.dop Name of the deskew file? /export/air31/airops/6395/deskew.ph Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_p.hh Name of the line output file? /export/air35/airops/6395/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.573678970336914 Deskewing 5 patches Processing block number 1 DEBUG -476 320.3400 -476.3240 -0.4997405 -0.4997405 patch iptc,sj,dgj,dgi,id: 1 1 -476 -476 0 half line dmj dgc: 0 2001 320 -476 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 -476 -476 2096 half line dmj dgc: 1 2001 320 -476 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 -455 320.3149 -454.5481 -0.4997367 -0.4997367 2097 3514 21 1396 patch iptc,sj,dgj,dgi,id: 2 3514 -455 -476 1396 half line dmj dgc: 0 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3514 2097 Zeroing lines in arrays Total # of output lines = 2 3513 3514 5610 0 2096 patch iptc,sj,dgj,dgi,id: 2 5610 -455 -455 2096 half line dmj dgc: 1 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5610 3514 Zeroing lines in arrays Total # of output lines = 2 5609 Processing block number 3 DEBUG -464 318.7099 -464.1468 -0.4997382 -0.4997382 5610 6997 -9 1396 patch iptc,sj,dgj,dgi,id: 3 6997 -464 -455 1396 half line dmj dgc: 0 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6997 5610 Zeroing lines in arrays Total # of output lines = 3 6996 6997 9093 0 2096 patch iptc,sj,dgj,dgi,id: 3 9093 -464 -464 2096 half line dmj dgc: 1 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9093 6997 Zeroing lines in arrays Total # of output lines = 3 9092 Processing block number 4 DEBUG -474 323.8953 -474.1446 -0.4997202 -0.4997202 9093 10479 -10 1396 patch iptc,sj,dgj,dgi,id: 4 10479 -474 -464 1396 half line dmj dgc: 0 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10479 9093 Zeroing lines in arrays Total # of output lines = 4 10478 10479 12575 0 2096 patch iptc,sj,dgj,dgi,id: 4 287 -474 -474 2096 half line dmj dgc: 1 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10479 287 Zeroing lines in arrays Total # of output lines = 4 12574 Processing block number 5 DEBUG -452 333.7014 -451.9829 -0.4997168 -0.4997168 287 544 22 235 patch iptc,sj,dgj,dgi,id: 5 544 -452 -474 235 half line dmj dgc: 0 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 544 287 Zeroing lines in arrays Total # of output lines = 5 12831 544 2640 0 2096 patch iptc,sj,dgj,dgi,id: 5 2640 -452 -452 2096 half line dmj dgc: 1 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 2640 544 Zeroing lines in arrays Total # of output lines = 5 14927 ia dmi dgi: 2640 334 -452 Writing the last 2882 lines last half sj>s1 5522 2640 14927 WAYNE done patche 73.60098397731781 Total # of output lines = 17809 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 17809 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 73.91254997253418 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.pp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_p.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8930.490 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) = 0.0000000E+00 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? /export/air31/airops/6395/p_hv Name of the mocomp data file? /export/air35/airops/6395/cm6395_p.mocomph Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.2823001E-02 reading motion compensation data WAYNE read motion compen 0.4886160 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1489760 start range comp, time = 0.656 WAYNE PREV 0.6658230 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 0.873 seconds. before reading done reading WAYNE load raw data , time = 46.93750095367432 ATTN ifrq ipol ln 0 2 18668 8.000000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4997202 shift in azimuth *fractional pixel= -0.4997202 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1277079582214355E-02 WAYNE Motion comp. added to patch, time = 15.76666796207428 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4290084838867188E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 263.5526300668716 Writing 4192 lines of data to file WAYNE write output data 1.353796005249023 ==w out 4 0 2001 0 WAYNE PROCESS 327.6260129213333 ==w out 5 4195 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 0.864 seconds. before reading done reading WAYNE load raw data , time = 46.83980703353882 ATTN ifrq ipol ln 0 2 15176 8.000000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4997382 shift in azimuth *fractional pixel= -0.4997382 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1204004287719727E-02 WAYNE Motion comp. added to patch, time = 15.89175093173981 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4219751358032227E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 264.8470369577408 Writing 4192 lines of data to file WAYNE write output data 1.338345050811768 ==w out 3 0 2001 0 WAYNE PROCESS 328.9323620796204 ==w out 4 4195 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 0.853 seconds. before reading done reading WAYNE load raw data , time = 46.19369697570801 ATTN ifrq ipol ln 0 2 11684 8.000000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4997367 shift in azimuth *fractional pixel= -0.4997367 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1171936988830566E-02 WAYNE Motion comp. added to patch, time = 15.71125996112823 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4629831314086914E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.4830189943314 Writing 4192 lines of data to file WAYNE write output data 1.289607048034668 ==w out 2 0 2001 0 WAYNE PROCESS 330.6928189992905 ==w out 3 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.842 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 47.50565493106842 ATTN ifrq ipol ln 0 2 8192 8.000000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4997405 shift in azimuth *fractional pixel= -0.4997405 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1234045028686523E-02 TESTING 0.0000000E+00 -1.5103954E-02 0.2196686 WAYNE Motion comp. added to patch, time = 15.77365493774414 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4009943008422852E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -1.5103954E-02 0.2196686 HEY,dt,fract,ye,pe -0.4997405 1.000000 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 267.1680349111557 Writing 4192 lines of data to file WAYNE write output data 1.332036972045898 ==w out 1 0 2001 0 WAYNE PROCESS 331.7948000431061 ==w out 2 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 0.885 seconds. before reading done reading WAYNE load raw data , time = 48.01115489006042 ATTN ifrq ipol ln 0 2 20999 8.000000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4997168 shift in azimuth *fractional pixel= -0.4997168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1289000511169434E-02 WAYNE Motion comp. added to patch, time = 15.87085294723511 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3829936981201172E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.7692390680313 Writing 4192 lines of data to file WAYNE write output data 1.361184000968933 ==w out 5 0 2001 0 WAYNE PROCESS 333.0279780626297 ==w out 6 4195 1 3422643 0 2 3421685 0 3 3422203 0 4 3415095 0 5 3422933 0 6 3422607 0 7 3417538 0 8 3421425 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 16.62687909603119 WAYNE LOOP TIME: 358.2875870466232 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_p.hv_j /export/air35/airops/6395/cm6395_p.mocomph /export/air35/airops/6395/cm6395_p.dop /export/air35/airops/6395/cm6395_p.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 6.662100 0.5144000 mocompfile /export/air35/airops/6395/cm6395_p.mocomph dopfile /export/air35/airops/6395/cm6395_p.dop globalfile /export/air35/airops/6395/cm6395_p.glb /export/air35/airops/6395/cm6395_p.glb 38 deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 after deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 lat1 lon1: 320 21.29803 -158.1418 20960 last ra n_ns ns: 8930.963 0 1 21279 20960 lati loni: 21279 21.29809 -158.0255 21279 1 center ra n_ns ns: 17451.79 1279 1279 10799 20960 lati loni: 10799 21.37468 -158.0828 10799 2560 Updated paramater header in /export/air31/airops/6395/cm6395_p.hv_j WAYNE FINAL PROCESS 359.6748780012131 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_p.hv_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_p.dop Name of the deskew file? /export/air31/airops/6395/deskew.ph Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_p.hv Name of the line output file? /export/air35/airops/6395/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 4.059581995010376 Deskewing 5 patches Processing block number 1 DEBUG -476 320.3400 -476.3240 -0.4997405 -0.4997405 patch iptc,sj,dgj,dgi,id: 1 1 -476 -476 0 half line dmj dgc: 0 2001 320 -476 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 -476 -476 2096 half line dmj dgc: 1 2001 320 -476 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 -455 320.3149 -454.5481 -0.4997367 -0.4997367 2097 3514 21 1396 patch iptc,sj,dgj,dgi,id: 2 3514 -455 -476 1396 half line dmj dgc: 0 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3514 2097 Zeroing lines in arrays Total # of output lines = 2 3513 3514 5610 0 2096 patch iptc,sj,dgj,dgi,id: 2 5610 -455 -455 2096 half line dmj dgc: 1 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5610 3514 Zeroing lines in arrays Total # of output lines = 2 5609 Processing block number 3 DEBUG -464 318.7099 -464.1468 -0.4997382 -0.4997382 5610 6997 -9 1396 patch iptc,sj,dgj,dgi,id: 3 6997 -464 -455 1396 half line dmj dgc: 0 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6997 5610 Zeroing lines in arrays Total # of output lines = 3 6996 6997 9093 0 2096 patch iptc,sj,dgj,dgi,id: 3 9093 -464 -464 2096 half line dmj dgc: 1 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9093 6997 Zeroing lines in arrays Total # of output lines = 3 9092 Processing block number 4 DEBUG -474 323.8953 -474.1446 -0.4997202 -0.4997202 9093 10479 -10 1396 patch iptc,sj,dgj,dgi,id: 4 10479 -474 -464 1396 half line dmj dgc: 0 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10479 9093 Zeroing lines in arrays Total # of output lines = 4 10478 10479 12575 0 2096 patch iptc,sj,dgj,dgi,id: 4 287 -474 -474 2096 half line dmj dgc: 1 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10479 287 Zeroing lines in arrays Total # of output lines = 4 12574 Processing block number 5 DEBUG -452 333.7014 -451.9829 -0.4997168 -0.4997168 287 544 22 235 patch iptc,sj,dgj,dgi,id: 5 544 -452 -474 235 half line dmj dgc: 0 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 544 287 Zeroing lines in arrays Total # of output lines = 5 12831 544 2640 0 2096 patch iptc,sj,dgj,dgi,id: 5 2640 -452 -452 2096 half line dmj dgc: 1 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 2640 544 Zeroing lines in arrays Total # of output lines = 5 14927 ia dmi dgi: 2640 334 -452 Writing the last 2882 lines last half sj>s1 5522 2640 14927 WAYNE done patche 61.87655198574066 Total # of output lines = 17809 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 17809 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 62.16969394683838 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.pp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_p.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8930.490 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) = 0.0000000E+00 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? /export/air31/airops/6395/p_vh Name of the mocomp data file? /export/air35/airops/6395/cm6395_p.mocompv Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.3000004E-02 reading motion compensation data WAYNE read motion compen 0.4907300 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1489420 start range comp, time = 1.813 WAYNE PREV 0.6673900 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 2.002 seconds. before reading done reading WAYNE load raw data , time = 46.17257106304169 ATTN ifrq ipol ln 0 3 11684 6.000000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1110067367553711E-02 WAYNE Motion comp. added to patch, time = 15.69337308406830 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4400949478149414E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 264.8783000707626 Writing 4192 lines of data to file WAYNE write output data 1.357136011123657 ==w out 2 0 2001 0 WAYNE PROCESS 328.1166599988937 ==w out 3 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 2.023 seconds. before reading done reading WAYNE load raw data , time = 46.41007494926453 ATTN ifrq ipol ln 0 3 18668 6.000000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1183023452758789E-02 WAYNE Motion comp. added to patch, time = 15.68610894680023 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4039745330810547E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.1611169576645 Writing 4192 lines of data to file WAYNE write output data 1.609020948410034 ==w out 4 0 2001 0 WAYNE PROCESS 330.8814599514008 ==w out 5 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 2.037 seconds. before reading done reading WAYNE load raw data , time = 48.03763997554779 ATTN ifrq ipol ln 0 3 20999 6.000000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1229038238525391E-02 WAYNE Motion comp. added to patch, time = 15.86331200599670 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5099515914916992E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 265.4968270063400 Writing 4192 lines of data to file WAYNE write output data 1.592314004898071 ==w out 5 0 2001 0 WAYNE PROCESS 331.0056649446487 ==w out 6 4195 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 2.013 seconds. before reading done reading WAYNE load raw data , time = 46.29476404190063 ATTN ifrq ipol ln 0 3 15176 6.000000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.0995984077453613E-02 WAYNE Motion comp. added to patch, time = 15.82540595531464 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5889873504638672E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.5701218843460 Writing 4192 lines of data to file WAYNE write output data 1.705623984336853 ==w out 3 0 2001 0 WAYNE PROCESS 331.4112060070038 ==w out 4 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 1.994 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 46.66741704940796 ATTN ifrq ipol ln 0 3 8192 6.000000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1083006858825684E-02 TESTING 0.0000000E+00 -1.4999102E-02 0.2196834 WAYNE Motion comp. added to patch, time = 15.73528397083282 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5089979171752930E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -1.4999102E-02 0.2196834 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 267.5706940889359 Writing 4192 lines of data to file WAYNE write output data 1.668827056884766 ==w out 1 0 2001 0 WAYNE PROCESS 331.6576180458069 ==w out 2 4195 1 3420938 0 2 3422311 0 3 3422378 0 4 3423229 0 5 3422755 0 6 3423068 0 7 3422690 0 8 3422518 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 14.00144004821777 WAYNE LOOP TIME: 354.9611721038818 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_p.vh_j /export/air35/airops/6395/cm6395_p.mocompv /export/air35/airops/6395/cm6395_p.dop /export/air35/airops/6395/cm6395_p.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 6.662100 0.5144000 mocompfile /export/air35/airops/6395/cm6395_p.mocompv dopfile /export/air35/airops/6395/cm6395_p.dop globalfile /export/air35/airops/6395/cm6395_p.glb /export/air35/airops/6395/cm6395_p.glb 38 deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 after deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 lat1 lon1: 320 21.29803 -158.1418 20960 last ra n_ns ns: 8930.963 0 1 21279 20960 lati loni: 21279 21.29809 -158.0255 21279 1 center ra n_ns ns: 17451.79 1279 1279 10799 20960 lati loni: 10799 21.37468 -158.0828 10799 2560 Updated paramater header in /export/air31/airops/6395/cm6395_p.vh_j WAYNE FINAL PROCESS 360.2010309696198 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_p.vh_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_p.dop Name of the deskew file? /export/air31/airops/6395/deskew.pv Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_p.vh Name of the line output file? /export/air35/airops/6395/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.569182991981506 Deskewing 5 patches Processing block number 1 DEBUG -476 320.8398 -475.8243 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -476 -476 0 half line dmj dgc: 0 2001 320 -476 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 -476 -476 2096 half line dmj dgc: 1 2001 320 -476 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 -455 320.8147 -454.0484 0.0000000E+00 0.0000000E+00 2097 3514 21 1396 patch iptc,sj,dgj,dgi,id: 2 3514 -455 -476 1396 half line dmj dgc: 0 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3514 2097 Zeroing lines in arrays Total # of output lines = 2 3513 3514 5610 0 2096 patch iptc,sj,dgj,dgi,id: 2 5610 -455 -455 2096 half line dmj dgc: 1 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5610 3514 Zeroing lines in arrays Total # of output lines = 2 5609 Processing block number 3 DEBUG -464 319.2097 -463.6470 0.0000000E+00 0.0000000E+00 5610 6997 -9 1396 patch iptc,sj,dgj,dgi,id: 3 6997 -464 -455 1396 half line dmj dgc: 0 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6997 5610 Zeroing lines in arrays Total # of output lines = 3 6996 6997 9093 0 2096 patch iptc,sj,dgj,dgi,id: 3 9093 -464 -464 2096 half line dmj dgc: 1 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9093 6997 Zeroing lines in arrays Total # of output lines = 3 9092 Processing block number 4 DEBUG -474 324.3950 -473.6448 0.0000000E+00 0.0000000E+00 9093 10479 -10 1396 patch iptc,sj,dgj,dgi,id: 4 10479 -474 -464 1396 half line dmj dgc: 0 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10479 9093 Zeroing lines in arrays Total # of output lines = 4 10478 10479 12575 0 2096 patch iptc,sj,dgj,dgi,id: 4 287 -474 -474 2096 half line dmj dgc: 1 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10479 287 Zeroing lines in arrays Total # of output lines = 4 12574 Processing block number 5 DEBUG -452 334.2011 -451.4832 0.0000000E+00 0.0000000E+00 287 544 22 235 patch iptc,sj,dgj,dgi,id: 5 544 -452 -474 235 half line dmj dgc: 0 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 544 287 Zeroing lines in arrays Total # of output lines = 5 12831 544 2640 0 2096 patch iptc,sj,dgj,dgi,id: 5 2640 -452 -452 2096 half line dmj dgc: 1 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 2640 544 Zeroing lines in arrays Total # of output lines = 5 14927 ia dmi dgi: 2640 334 -452 Writing the last 2882 lines last half sj>s1 5522 2640 14927 WAYNE done patche 74.04939401149750 Total # of output lines = 17809 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 17809 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 74.25484502315521 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.pp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_p.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8930.490 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) = 0.0000000E+00 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? /export/air31/airops/6395/p_vv Name of the mocomp data file? /export/air35/airops/6395/cm6395_p.mocompv Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.4184996E-02 reading motion compensation data WAYNE read motion compen 0.4916430 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1502100 start range comp, time = 0.758 WAYNE PREV 0.6710300 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 0.943 seconds. before reading done reading WAYNE load raw data , time = 46.22632801532745 ATTN ifrq ipol ln 0 4 18668 14.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1194944381713867E-02 WAYNE Motion comp. added to patch, time = 15.73736000061035 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3449659347534180E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 263.7633360624313 Writing 4192 lines of data to file WAYNE write output data 1.382175922393799 ==w out 4 0 2001 0 WAYNE PROCESS 327.1243739128113 ==w out 5 4195 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 0.922 seconds. before reading done reading WAYNE load raw data , time = 46.12301397323608 ATTN ifrq ipol ln 0 4 11684 14.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 2.2618055343627930E-02 WAYNE Motion comp. added to patch, time = 15.77902805805206 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3610591888427734E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 264.4006410837173 Writing 4192 lines of data to file WAYNE write output data 1.388027906417847 ==w out 2 0 2001 0 WAYNE PROCESS 327.7172909975052 ==w out 3 4195 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 0.933 seconds. before reading done reading WAYNE load raw data , time = 46.63053202629089 ATTN ifrq ipol ln 0 4 15176 14.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1228919029235840E-02 WAYNE Motion comp. added to patch, time = 15.84616410732269 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3729801177978516E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.0162409543991 Writing 4192 lines of data to file WAYNE write output data 1.268795967102051 ==w out 3 0 2001 0 WAYNE PROCESS 330.7770500183105 ==w out 4 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 0.961 seconds. before reading done reading WAYNE load raw data , time = 46.95436501502991 ATTN ifrq ipol ln 0 4 20999 14.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1307001113891602E-02 WAYNE Motion comp. added to patch, time = 15.89443194866180 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3360252380371094E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.3057730197906 Writing 4192 lines of data to file WAYNE write output data 1.322545051574707 ==w out 5 0 2001 0 WAYNE PROCESS 333.4923679828644 ==w out 6 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.911 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 47.24938905239105 ATTN ifrq ipol ln 0 4 8192 14.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1209964752197266E-02 TESTING 0.0000000E+00 -1.4999102E-02 0.2196834 WAYNE Motion comp. added to patch, time = 15.90297901630402 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3609399795532227E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -1.4999102E-02 0.2196834 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 269.5762079954147 Writing 4192 lines of data to file WAYNE write output data 1.330368995666504 ==w out 1 0 2001 0 WAYNE PROCESS 334.0741209983826 ==w out 2 4195 1 3423053 0 2 3420397 0 3 3422580 0 4 3413521 0 5 3422893 0 6 3419902 0 7 3422733 0 8 3422804 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 21.90339994430542 WAYNE LOOP TIME: 364.5070319175720 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_p.vv_j /export/air35/airops/6395/cm6395_p.mocompv /export/air35/airops/6395/cm6395_p.dop /export/air35/airops/6395/cm6395_p.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 6.662100 0.5144000 mocompfile /export/air35/airops/6395/cm6395_p.mocompv dopfile /export/air35/airops/6395/cm6395_p.dop globalfile /export/air35/airops/6395/cm6395_p.glb /export/air35/airops/6395/cm6395_p.glb 38 deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 after deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 lat1 lon1: 320 21.29803 -158.1418 20960 last ra n_ns ns: 8930.963 0 1 21279 20960 lati loni: 21279 21.29809 -158.0255 21279 1 center ra n_ns ns: 17451.79 1279 1279 10799 20960 lati loni: 10799 21.37468 -158.0828 10799 2560 Updated paramater header in /export/air31/airops/6395/cm6395_p.vv_j WAYNE FINAL PROCESS 365.9415910243988 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_p.vv_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_p.dop Name of the deskew file? /export/air31/airops/6395/deskew.pv Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_p.vv Name of the line output file? /export/air35/airops/6395/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 4.238198995590210 Deskewing 5 patches Processing block number 1 DEBUG -476 320.8398 -475.8243 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -476 -476 0 half line dmj dgc: 0 2001 320 -476 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 -476 -476 2096 half line dmj dgc: 1 2001 320 -476 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 -455 320.8147 -454.0484 0.0000000E+00 0.0000000E+00 2097 3514 21 1396 patch iptc,sj,dgj,dgi,id: 2 3514 -455 -476 1396 half line dmj dgc: 0 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3514 2097 Zeroing lines in arrays Total # of output lines = 2 3513 3514 5610 0 2096 patch iptc,sj,dgj,dgi,id: 2 5610 -455 -455 2096 half line dmj dgc: 1 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5610 3514 Zeroing lines in arrays Total # of output lines = 2 5609 Processing block number 3 DEBUG -464 319.2097 -463.6470 0.0000000E+00 0.0000000E+00 5610 6997 -9 1396 patch iptc,sj,dgj,dgi,id: 3 6997 -464 -455 1396 half line dmj dgc: 0 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6997 5610 Zeroing lines in arrays Total # of output lines = 3 6996 6997 9093 0 2096 patch iptc,sj,dgj,dgi,id: 3 9093 -464 -464 2096 half line dmj dgc: 1 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9093 6997 Zeroing lines in arrays Total # of output lines = 3 9092 Processing block number 4 DEBUG -474 324.3950 -473.6448 0.0000000E+00 0.0000000E+00 9093 10479 -10 1396 patch iptc,sj,dgj,dgi,id: 4 10479 -474 -464 1396 half line dmj dgc: 0 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10479 9093 Zeroing lines in arrays Total # of output lines = 4 10478 10479 12575 0 2096 patch iptc,sj,dgj,dgi,id: 4 287 -474 -474 2096 half line dmj dgc: 1 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10479 287 Zeroing lines in arrays Total # of output lines = 4 12574 Processing block number 5 DEBUG -452 334.2011 -451.4832 0.0000000E+00 0.0000000E+00 287 544 22 235 patch iptc,sj,dgj,dgi,id: 5 544 -452 -474 235 half line dmj dgc: 0 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 544 287 Zeroing lines in arrays Total # of output lines = 5 12831 544 2640 0 2096 patch iptc,sj,dgj,dgi,id: 5 2640 -452 -452 2096 half line dmj dgc: 1 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 2640 544 Zeroing lines in arrays Total # of output lines = 5 14927 ia dmi dgi: 2640 334 -452 Writing the last 2882 lines last half sj>s1 5522 2640 14927 WAYNE done patche 63.63291406631470 Total # of output lines = 17809 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 17809 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 63.93348705768585 Enter single look lines filename: Enter single look image filename: Enter output lines filename: Enter number of looks: ns np nlloks: 2560 17809 18 Multi-looking lines.dat file... Total number of lines written to output file: 989 *************************************** ***** ***** ***** 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: 0 min. window size : 5947 MIN window samp: 2749 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 36.27554 47.23972 Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the number of looks in azimuth. amplitude ratio and phase = 1.141161 26.42199 ns min window: 2560 10240 ns complex: 2560 20480 17802 989 18 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.4109323 2.286230 146 11.750 3046 5.250 2.28623 0.078677 0.246527 -0.011083 r_peak,r_snr = 0.1123563 6.252288 246 -2.063 3046 1.719 6.25229 0.042080 1.263617 -0.012259 r_peak,r_snr = 8.7812476E-02 4.309698 346 -3.406 3046 5.750 4.30970 0.138055 4.208194 0.382346 r_peak,r_snr = 9.6996218E-02 3.425967 446 -0.656 3046 4.281 3.42597 0.101574 2.131063 0.030275 r_peak,r_snr = 0.1362527 5.911601 646 -0.875 3046 2.813 5.91160 0.019619 0.713600 0.065721 r_peak,r_snr = 0.1061387 7.031169 746 1.781 3046 6.313 7.03117 0.025683 1.276003 -0.047703 r_peak,r_snr = 0.2452259 1.749563 846 3.656 3046 8.250 1.74956 0.061278 1.486171 -0.054245 r_peak,r_snr = 0.1811607 2.926824 946 6.656 3046 -5.188 2.92682 0.021039 2.241359 0.131098 r_peak,r_snr = 0.1411494 6.480364 1146 1.656 3046 -8.219 6.48036 0.009155 1.055755 0.040808 r_peak,r_snr = 9.9726252E-02 4.541423 1246 -15.563 3046 -9.875 4.54142 0.024136 1.031407 0.013592 r_peak,r_snr = 3.2936126E-02 7.8589976E-02 1346 20.875 3046 6.719 0.07859 0.155978 0.484727 -0.044078 r_peak,r_snr = 0.1198886 2.808916 1546 -2.844 3046 -13.031 2.80892 0.014865 2.041635 0.038318 At line = 3400 Reading in data.... r_peak,r_snr = 0.4928481 3.427074 146 0.313 3446 -2.188 3.42707 0.005263 0.684978 -0.005939 r_peak,r_snr = 0.1603719 5.553949 246 -2.719 3446 5.250 5.55395 0.032379 2.936678 -0.139806 r_peak,r_snr = 0.1809029 4.400837 346 -6.094 3446 6.969 4.40084 0.047396 1.147828 -0.149443 r_peak,r_snr = 0.1215288 9.284917 446 -6.906 3446 13.219 9.28492 0.010177 5.894199 0.173396 r_peak,r_snr = 0.3331994 7.398075 546 -0.094 3446 8.813 7.39808 0.007851 3.047064 0.114461 r_peak,r_snr = 0.1477526 3.989460 646 -1.406 3446 8.813 3.98946 0.048801 1.422673 -0.127500 r_peak,r_snr = 0.1354634 6.524841 846 0.406 3446 6.781 6.52484 0.032706 3.893219 0.230979 r_peak,r_snr = 8.1822164E-02 6.583484 946 2.031 3446 -7.250 6.58348 0.016156 1.196490 -0.010881 r_peak,r_snr = 0.1014547 5.486794 1146 13.219 3446 -1.250 5.48679 0.019492 1.581673 0.074504 r_peak,r_snr = 0.1648673 3.387682 1246 8.906 3446 13.844 3.38768 0.033643 1.940326 -0.031055 r_peak,r_snr = 0.2456959 3.910801 1346 -4.469 3446 13.313 3.91080 0.098647 0.406609 0.045484 r_peak,r_snr = 0.1780381 3.474932 1446 13.875 3446 5.781 3.47493 0.042483 1.051753 -0.047975 r_peak,r_snr = 0.1600291 6.034872 1546 8.313 3446 2.031 6.03487 0.011790 0.873243 0.002293 r_peak,r_snr = 0.2707320 3.193714 1646 -13.344 3446 7.969 3.19371 0.010234 1.094463 0.002886 r_peak,r_snr = 0.1560926 5.011621 1746 11.656 3446 7.125 5.01162 0.048096 1.761218 0.154251 At line = 3800 Reading in data.... r_peak,r_snr = 0.3822557 6.559729 146 -0.688 3846 9.250 6.55973 0.002685 1.698723 0.012630 r_peak,r_snr = 0.3079420 11.14911 246 -0.656 3846 7.688 11.14911 0.005541 1.132163 0.028467 r_peak,r_snr = 0.1377316 6.760617 346 -0.875 3846 6.219 6.76062 0.017802 2.324002 -0.087648 r_peak,r_snr = 0.1346645 13.58648 446 8.938 3846 5.906 13.58648 0.007431 1.053755 0.015988 r_peak,r_snr = 0.3604691 14.11395 546 -0.156 3846 -0.750 14.11395 0.002536 0.121212 0.008451 r_peak,r_snr = 0.1099965 3.387033 846 9.188 3846 8.875 3.38703 0.105508 5.200112 -0.508069 r_peak,r_snr = 0.1781454 3.032492 1046 -1.625 3846 6.250 3.03249 0.042169 1.543968 0.065049 r_peak,r_snr = 0.4467178 1.897212 1446 14.063 3846 -3.125 1.89721 0.023827 0.520902 -0.046508 r_peak,r_snr = 0.1958534 3.213706 1546 -10.219 3846 15.781 3.21371 0.015111 5.756432 0.097707 r_peak,r_snr = 0.3690971 2.513761 1846 -7.188 3846 10.781 2.51376 0.003029 0.342773 0.000350 r_peak,r_snr = 0.2492370 4.151731 1946 -12.938 3846 11.219 4.15173 0.005950 0.444370 0.002870 At line = 4200 Reading in data.... r_peak,r_snr = 0.1697021 4.872582 246 0.594 4246 10.813 4.87258 0.008875 2.330183 0.039837 r_peak,r_snr = 0.1468046 3.581891 346 0.281 4246 -0.781 3.58189 3.985342 37.809544 -9.372827 r_peak,r_snr = 9.8691255E-02 8.497690 446 7.188 4246 -5.250 8.49769 0.006640 1.140474 0.031353 r_peak,r_snr = 0.1026773 7.230130 546 -0.594 4246 10.281 7.23013 0.031240 2.860173 0.010590 r_peak,r_snr = 0.1531308 7.516801 646 0.375 4246 -4.781 7.51680 0.079819 9.185696 0.785909 r_peak,r_snr = 0.2045495 4.613877 746 -4.063 4246 -12.031 4.61388 0.007359 1.853546 0.065352 r_peak,r_snr = 0.2595038 3.498157 846 -0.063 4246 10.281 3.49816 0.010519 1.725614 0.092293 r_peak,r_snr = 0.1167876 4.885101 946 -8.375 4246 15.813 4.88510 0.027494 2.892157 0.083156 r_peak,r_snr = 0.1791482 3.363290 1146 -3.250 4246 10.469 3.36329 0.009099 2.417913 0.000727 r_peak,r_snr = 0.1863095 3.174596 1246 2.000 4246 6.781 3.17460 0.007687 3.446941 -0.086127 r_peak,r_snr = 0.2885767 2.438510 1446 -13.750 4246 -13.531 2.43851 0.016397 0.204939 -0.010745 r_peak,r_snr = 0.1077061 5.931962 1746 10.375 4246 -10.563 5.93196 0.046443 0.326395 0.001667 r_peak,r_snr = 0.1786201 3.699343 1846 0.344 4246 -4.219 3.69934 0.010761 0.389950 0.018276 r_peak,r_snr = 0.2033504 5.690818 1946 9.313 4246 13.906 5.69082 0.021174 0.069664 0.007368 At line = 4600 Reading in data.... r_peak,r_snr = 0.1511086 7.381238 246 -0.594 4646 11.125 7.38124 0.018488 2.864028 0.061871 r_peak,r_snr = 0.4110864 6.014149 346 0.656 4646 -0.219 6.01415 0.014047 0.302265 0.001687 r_peak,r_snr = 7.6975867E-02 5.916472 446 1.406 4646 6.844 5.91647 0.018689 7.892453 0.051254 r_peak,r_snr = 0.3236692 14.39697 546 -0.250 4646 -0.688 14.39697 0.002312 0.483117 -0.010293 r_peak,r_snr = 0.1134679 10.28228 646 -0.656 4646 -1.781 10.28228 0.021187 8.776434 -0.118368 r_peak,r_snr = 0.1151596 6.623127 746 -0.313 4646 -9.188 6.62313 0.395842 76.278877 5.386642 r_peak,r_snr = 0.1363921 5.546423 1146 9.813 4646 10.250 5.54642 0.012212 1.345691 0.070766 r_peak,r_snr = 0.1027937 5.273217 1246 -8.125 4646 13.625 5.27322 0.042408 5.335806 0.182327 r_peak,r_snr = 0.3107773 2.368276 1346 7.844 4646 11.156 2.36828 0.005143 0.944424 -0.006443 r_peak,r_snr = 0.3336868 2.304259 1446 3.969 4646 12.219 2.30426 0.007179 0.186039 0.000725 r_peak,r_snr = 0.2581343 3.924860 1546 -11.344 4646 6.375 3.92486 0.003898 0.047957 0.001823 r_peak,r_snr = 0.1233044 1.707584 1746 15.438 4646 3.938 1.70758 0.506891 0.029814 0.057243 r_peak,r_snr = 0.3572502 2.559759 1846 -8.813 4646 -12.063 2.55976 0.019970 0.026103 0.004122 r_peak,r_snr = 4.9421575E-02 0.7240551 1946 -18.250 4646 4.250 0.72406 0.039191 0.137942 0.006745 At line = 5000 Reading in data.... r_peak,r_snr = 0.1530060 6.492697 146 -3.781 5046 8.125 6.49270 0.015237 2.001326 -0.100331 r_peak,r_snr = 0.5458934 5.284606 246 0.344 5046 4.219 5.28461 0.002845 0.428786 -0.015791 r_peak,r_snr = 0.4375843 6.501411 346 0.031 5046 -10.781 6.50141 0.001734 0.569792 -0.001404 r_peak,r_snr = 0.3526618 5.619664 446 0.094 5046 -4.250 5.61966 0.005180 0.852028 -0.035307 r_peak,r_snr = 0.3179671 3.497353 546 -1.781 5046 2.781 3.49735 0.005615 0.776550 0.018161 r_peak,r_snr = 0.4617473 7.766516 646 -0.469 5046 -4.750 7.76652 0.025019 2.396588 -0.229530 r_peak,r_snr = 0.3787339 4.170393 746 -0.188 5046 0.281 4.17039 0.007318 0.879192 0.030942 r_peak,r_snr = 0.1732952 4.046523 846 0.406 5046 5.219 4.04652 0.029391 1.795326 0.142772 r_peak,r_snr = 0.1714152 6.365855 946 -5.094 5046 15.844 6.36586 0.010109 0.215846 0.013053 r_peak,r_snr = 0.3522763 3.848209 1046 0.125 5046 2.781 3.84821 0.004924 0.077124 0.000594 r_peak,r_snr = 0.2405008 8.184031 1146 -0.313 5046 -1.188 8.18403 0.023035 1.559564 0.136536 r_peak,r_snr = 0.2824156 3.825161 1346 -1.656 5046 7.844 3.82516 0.010609 0.120149 -0.008573 r_peak,r_snr = 0.3312190 3.656074 1446 -0.094 5046 3.656 3.65607 0.161943 0.010023 0.008114 r_peak,r_snr = 0.2704589 3.460633 1546 13.750 5046 -2.813 3.46063 0.024381 0.007194 0.002227 r_peak,r_snr = 0.2189298 2.855548 1646 -9.125 5046 13.969 2.85555 0.021674 0.022756 0.002260 r_peak,r_snr = 0.3330172 4.213388 1846 -13.656 5046 -10.281 4.21339 0.029874 0.006225 0.001331 r_peak,r_snr = 0.3249281 3.332256 1946 -11.000 5046 -2.063 3.33226 0.021945 0.003709 0.001111 r_peak,r_snr = 0.2792914 5.527380 2046 -16.844 5046 -13.344 5.52738 0.010741 0.009809 0.002506 At line = 5400 Reading in data.... r_peak,r_snr = 0.3641035 6.236619 146 0.406 5446 -1.250 6.23662 0.008226 1.206958 -0.059862 r_peak,r_snr = 0.5280325 3.291756 346 -0.219 5446 -1.750 3.29176 0.006117 0.387770 0.012034 r_peak,r_snr = 0.3884844 4.139277 446 -0.063 5446 1.719 4.13928 0.012393 1.617245 0.044480 r_peak,r_snr = 0.1678821 6.984703 546 0.438 5446 7.750 6.98470 0.011576 10.980942 -0.025652 r_peak,r_snr = 0.2252426 8.342633 646 -0.156 5446 2.563 8.34263 0.006379 0.231770 -0.007999 r_peak,r_snr = 0.3362141 5.919436 746 0.063 5446 0.781 5.91944 0.016621 2.479365 0.169254 r_peak,r_snr = 0.1561756 7.923485 846 0.469 5446 10.813 7.92349 0.043290 6.009265 -0.451233 r_peak,r_snr = 0.2723190 10.82381 946 0.313 5446 -1.000 10.82381 0.004153 0.366553 -0.002278 r_peak,r_snr = 0.5125660 5.500317 1046 0.281 5446 8.781 5.50032 0.004427 0.325371 -0.020660 r_peak,r_snr = 0.1723750 10.85203 1146 -0.406 5446 1.813 10.85203 0.030343 2.590652 -0.154983 r_peak,r_snr = 0.2546629 2.286096 1446 -8.969 5446 -11.250 2.28610 0.019071 0.555958 -0.045445 r_peak,r_snr = 0.2649587 7.328660 1546 -1.625 5446 -2.031 7.32866 0.003957 0.502318 0.009832 r_peak,r_snr = 0.3267345 2.040148 1646 -2.813 5446 13.875 2.04015 0.023160 0.594449 0.000167 r_peak,r_snr = 0.4234256 4.002881 1946 12.500 5446 14.063 4.00288 0.026112 0.135337 0.001068 r_peak,r_snr = 0.1569296 4.190934 2046 -2.875 5446 8.844 4.19093 0.295434 0.262524 -0.202396 At line = 5800 Reading in data.... r_peak,r_snr = 0.2427716 6.844558 146 0.406 5846 5.781 6.84456 0.009673 1.719494 -0.082658 r_peak,r_snr = 0.3582700 4.492758 246 -0.156 5846 10.656 4.49276 0.006557 0.428505 -0.008325 r_peak,r_snr = 0.5675762 2.850564 346 -0.688 5846 -0.188 2.85056 0.011946 0.620695 -0.064842 r_peak,r_snr = 0.3066490 6.563690 446 0.406 5846 0.219 6.56369 0.006836 1.496798 0.061635 r_peak,r_snr = 0.3143811 3.516368 546 -1.969 5846 -3.188 3.51637 0.016865 0.726820 -0.065712 r_peak,r_snr = 0.3487791 5.100330 646 -0.938 5846 -3.188 5.10033 0.006782 0.644686 -0.046189 r_peak,r_snr = 0.4788108 2.818992 746 -0.031 5846 -0.688 2.81899 0.003782 1.674450 0.001551 r_peak,r_snr = 0.1710999 4.812722 846 -0.375 5846 -1.375 4.81272 0.010859 0.886831 -0.010142 r_peak,r_snr = 0.3673886 2.617356 946 1.813 5846 8.031 2.61736 0.011009 0.375768 -0.029256 r_peak,r_snr = 0.4989390 2.885440 1046 -1.844 5846 9.750 2.88544 0.015762 0.109681 -0.017144 r_peak,r_snr = 0.1409256 7.738680 1146 -0.406 5846 5.844 7.73868 0.030858 5.935566 -0.390617 r_peak,r_snr = 0.4321280 1.896077 1346 10.781 5846 -10.688 1.89608 0.157564 0.174511 0.102662 r_peak,r_snr = 0.3149704 2.860007 1446 0.500 5846 -1.781 2.86001 0.029288 0.419554 -0.023658 r_peak,r_snr = 0.2656340 2.069993 1546 0.906 5846 -13.844 2.06999 0.015184 0.626079 -0.045758 r_peak,r_snr = 0.3684788 3.411495 1646 2.625 5846 6.531 3.41149 0.022369 0.119802 0.021716 r_peak,r_snr = 0.2515193 2.735911 1746 -12.063 5846 -6.688 2.73591 0.023642 0.207964 0.022472 r_peak,r_snr = 0.2087615 5.894103 1846 1.156 5846 4.719 5.89410 0.016383 0.284003 0.020998 r_peak,r_snr = 0.2126382 4.871402 2046 -10.688 5846 -5.656 4.87140 0.017805 0.159808 -0.009904 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.4224435 3.811282 146 1.063 3046 1.813 3.81128 0.001640 0.067067 -0.005305 r_peak,r_snr = 0.4500374 13.99567 246 0.188 3046 0.781 13.99567 0.001754 0.137087 0.001316 r_peak,r_snr = 0.2860142 9.665575 346 -0.344 3046 2.813 9.66558 0.007579 1.055460 0.030252 r_peak,r_snr = 0.3147440 8.785037 446 0.438 3046 -0.156 8.78504 0.010261 0.098463 0.004279 r_peak,r_snr = 0.2204190 2.669048 546 -5.156 3046 11.813 2.66905 0.012298 5.920846 0.103457 r_peak,r_snr = 0.5210928 21.76262 646 0.156 3046 -0.281 21.76262 0.000838 0.020111 -0.000161 r_peak,r_snr = 0.4030109 12.76423 746 0.156 3046 -0.750 12.76423 0.001440 0.111313 0.001907 r_peak,r_snr = 0.2913452 3.354293 846 0.063 3046 10.156 3.35429 0.009923 0.481773 0.010977 r_peak,r_snr = 0.2649643 2.812776 946 0.594 3046 -1.188 2.81278 2.510613 30.176855 8.600500 r_peak,r_snr = 7.8468636E-02 4.887153 1046 -8.250 3046 -14.156 4.88715 0.147100 10.050858 1.126646 r_peak,r_snr = 0.1682069 9.094333 1146 8.188 3046 -4.750 9.09433 0.006573 0.744507 -0.032039 r_peak,r_snr = 0.1960943 18.35446 1246 -0.719 3046 1.344 18.35446 0.003348 0.224027 0.012836 r_peak,r_snr = 9.0843633E-02 0.9362385 1446 8.156 3046 17.875 0.93624 0.046293 7.199072 -0.229939 r_peak,r_snr = 0.1009951 2.006110 1646 -15.531 3046 -9.031 2.00611 0.368561 1.553326 -0.107902 r_peak,r_snr = 1.5990807E-02 4.6292931E-02 1746 -6.750 3046 -4.344 0.04629 0.028669 4.287876 0.157071 r_peak,r_snr = 0.2262358 3.832534 1846 0.219 3046 -2.344 3.83253 0.057044 0.148108 -0.039627 r_peak,r_snr = 0.3243406 5.862284 1946 -0.219 3046 -1.594 5.86228 0.003822 0.056824 0.000534 r_peak,r_snr = 0.2099362 5.600702 2046 -0.094 3046 -3.531 5.60070 0.007221 0.502080 -0.027123 At line = 3400 Reading in data.... r_peak,r_snr = 0.7050642 4.486623 146 0.063 3446 -0.875 4.48662 0.000816 0.026555 0.000205 r_peak,r_snr = 0.6384437 7.975951 246 -0.125 3446 1.281 7.97595 0.000924 0.051256 0.000305 r_peak,r_snr = 0.3874503 45.76847 446 0.094 3446 0.219 45.76847 0.000934 0.034816 0.000096 r_peak,r_snr = 0.3713713 9.663549 546 0.313 3446 -0.375 9.66355 0.003603 0.201104 -0.009059 r_peak,r_snr = 0.2848944 4.826733 646 0.719 3446 0.438 4.82673 0.003465 0.406964 0.001283 r_peak,r_snr = 0.3864064 8.859772 746 0.469 3446 0.750 8.85977 0.003728 0.099524 -0.004850 r_peak,r_snr = 0.2711958 3.264869 846 0.594 3446 1.781 3.26487 0.007546 1.478096 0.013156 r_peak,r_snr = 0.1904405 5.066599 946 0.750 3446 1.656 5.06660 0.006313 1.417565 -0.001713 r_peak,r_snr = 6.5388799E-02 2.751627 1146 17.938 3446 -12.000 2.75163 0.011241 4.339955 0.084846 r_peak,r_snr = 0.1971352 3.612404 1246 1.656 3446 5.813 3.61240 0.011771 1.351858 0.067192 r_peak,r_snr = 0.3197304 7.707588 1346 0.500 3446 4.844 7.70759 0.016597 0.397187 0.004090 r_peak,r_snr = 0.2128899 2.519131 1446 14.656 3446 -6.000 2.51913 0.676256 0.381966 -0.082920 r_peak,r_snr = 0.1300964 3.644912 1546 -7.656 3446 0.813 3.64491 0.011460 0.858547 -0.062561 r_peak,r_snr = 0.1265532 4.158331 1646 -15.844 3446 10.813 4.15833 0.028472 1.846174 0.005166 r_peak,r_snr = 0.1066492 7.217023 1746 -0.906 3446 9.813 7.21702 0.004276 2.661827 0.015866 r_peak,r_snr = 0.1979935 4.592380 2046 0.938 3446 -0.375 4.59238 0.003561 1.573847 -0.004542 At line = 3800 Reading in data.... r_peak,r_snr = 0.6728310 8.138906 146 0.063 3846 -0.844 8.13891 0.000837 0.044087 0.001698 r_peak,r_snr = 0.4913318 11.24591 246 0.125 3846 0.031 11.24591 0.001339 0.195373 0.006907 r_peak,r_snr = 0.2033109 8.920289 346 0.063 3846 -0.250 8.92029 0.005291 0.497946 0.009509 r_peak,r_snr = 0.6078644 14.08083 446 0.156 3846 0.063 14.08083 0.000497 0.026761 -0.000269 r_peak,r_snr = 0.2874971 15.75140 546 0.188 3846 0.000 15.75140 0.002556 0.076315 -0.001839 r_peak,r_snr = 0.6178734 5.944580 646 -0.031 3846 -0.750 5.94458 0.000635 0.017761 0.000043 r_peak,r_snr = 0.2465256 16.57531 746 -0.156 3846 -0.188 16.57531 0.002537 0.237218 0.005456 r_peak,r_snr = 0.3743342 5.469004 846 0.188 3846 -0.250 5.46900 0.003177 0.203762 -0.002176 r_peak,r_snr = 0.1623319 2.216361 946 -13.969 3846 12.781 2.21636 0.035028 4.584159 0.200314 r_peak,r_snr = 0.2595357 3.216232 1046 1.469 3846 -4.719 3.21623 0.023799 1.105293 0.111434 r_peak,r_snr = 0.1595073 19.78253 1146 -0.281 3846 -0.531 19.78253 0.002224 0.516945 0.010353 r_peak,r_snr = 0.2779048 15.86408 1246 0.000 3846 0.188 15.86408 0.001573 0.221398 0.001821 r_peak,r_snr = 5.8129489E-02 0.5334010 1746 -1.625 3846 11.219 0.53340 0.007789 1.847799 0.055311 r_peak,r_snr = 0.1544779 4.913344 1946 -2.875 3846 -5.938 4.91334 0.013132 0.844011 -0.043796 r_peak,r_snr = 8.3844379E-02 2.318874 2046 3.844 3846 11.969 2.31887 0.014453 0.660122 0.002514 At line = 4200 Reading in data.... r_peak,r_snr = 0.3964277 9.490851 146 0.375 4246 2.250 9.49085 0.002394 0.220242 0.005701 r_peak,r_snr = 0.2809634 8.285941 246 -0.063 4246 3.844 8.28594 0.010603 2.505931 0.144414 r_peak,r_snr = 0.2901179 10.86944 346 0.531 4246 0.594 10.86944 0.021562 2.030021 -0.123914 r_peak,r_snr = 0.4922867 18.11171 446 0.219 4246 0.719 18.11171 0.000683 0.029164 0.000651 r_peak,r_snr = 0.4061560 29.73252 546 0.125 4246 -0.031 29.73252 0.000981 0.031176 0.000215 r_peak,r_snr = 0.6056677 11.12299 646 -0.156 4246 -0.688 11.12299 0.000604 0.018588 0.000173 r_peak,r_snr = 0.3844759 8.422850 746 -0.344 4246 -1.250 8.42285 0.005442 0.924087 0.057413 r_peak,r_snr = 0.3286003 5.033068 846 -0.875 4246 -1.063 5.03307 0.005258 0.261915 0.012035 r_peak,r_snr = 0.1838933 9.709078 946 -0.125 4246 -1.469 9.70908 0.004976 0.343643 0.018054 r_peak,r_snr = 0.5677658 3.998478 1046 -0.156 4246 0.281 3.99848 0.000890 0.051446 0.000458 r_peak,r_snr = 0.3779004 3.713161 1446 2.094 4246 2.719 3.71316 0.009193 0.024878 0.001355 r_peak,r_snr = 0.1789166 4.429290 1546 8.094 4246 10.094 4.42929 0.010315 1.991073 0.097481 r_peak,r_snr = 0.1543832 8.488960 1746 -0.219 4246 1.125 8.48896 0.007182 0.226939 0.018592 r_peak,r_snr = 0.1881634 2.323174 1846 -9.063 4246 -5.250 2.32317 0.024960 0.828282 0.075808 r_peak,r_snr = 3.2475717E-02 0.5625314 1946 -16.094 4246 -1.094 0.56253 0.066824 2.458529 0.241239 r_peak,r_snr = 0.1795885 5.810699 2046 -12.813 4246 -1.000 5.81070 0.011975 0.135826 0.005437 At line = 4600 Reading in data.... r_peak,r_snr = 0.8318030 5.923402 146 0.063 4646 -0.219 5.92340 0.000208 0.003721 -0.000021 r_peak,r_snr = 0.8200532 21.05136 246 0.094 4646 -0.219 21.05136 0.000148 0.005811 -0.000052 r_peak,r_snr = 0.6320233 5.575416 346 0.625 4646 -2.750 5.57542 0.006269 0.490189 0.020578 r_peak,r_snr = 0.5829362 43.00420 446 0.094 4646 0.000 43.00420 0.000432 0.008047 0.000095 r_peak,r_snr = 0.3783627 17.93290 546 -0.031 4646 0.219 17.93290 0.001294 0.038332 0.000991 r_peak,r_snr = 0.5670347 26.00037 646 0.000 4646 0.188 26.00037 0.000470 0.018917 0.000626 r_peak,r_snr = 0.5988684 15.20245 746 0.125 4646 0.094 15.20245 0.000923 0.020809 -0.000892 r_peak,r_snr = 0.3275886 4.130989 846 -0.219 4646 -0.813 4.13099 0.044732 1.257892 -0.210312 r_peak,r_snr = 0.1891867 9.876183 946 -0.219 4646 0.313 9.87618 0.006868 0.628269 0.024934 r_peak,r_snr = 0.6415200 6.380689 1046 0.313 4646 0.813 6.38069 0.000574 0.022277 0.000780 r_peak,r_snr = 0.4077803 18.87553 1146 0.063 4646 0.719 18.87553 0.001482 0.067842 0.001410 r_peak,r_snr = 0.2143530 23.73349 1246 0.156 4646 0.063 23.73349 0.001469 0.084022 0.005069 r_peak,r_snr = 0.4378574 7.293302 1346 -0.938 4646 6.844 7.29330 0.004226 0.228148 -0.018970 r_peak,r_snr = 0.3076684 1.908500 1446 -7.656 4646 7.156 1.90850 0.032910 0.443037 0.041955 r_peak,r_snr = 0.3225378 3.066772 1546 1.031 4646 -2.313 3.06677 0.001851 0.177224 0.007742 r_peak,r_snr = 0.3393781 1.725273 1846 -0.875 4646 -2.375 1.72527 0.070172 0.112739 0.037093 r_peak,r_snr = 0.3130730 4.918139 2046 13.906 4646 4.844 4.91814 0.008381 0.011206 0.000812 At line = 5000 Reading in data.... r_peak,r_snr = 0.8789344 24.05435 146 0.094 5046 -0.063 24.05435 0.000083 0.001677 0.000004 r_peak,r_snr = 0.6170759 8.738288 246 -0.094 5046 0.188 8.73829 0.000800 0.031190 -0.001239 r_peak,r_snr = 0.6136810 5.314604 346 0.063 5046 1.781 5.31460 0.001356 0.115310 -0.002062 r_peak,r_snr = 0.7204008 14.54188 446 -0.063 5046 -0.125 14.54188 0.000336 0.006088 0.000001 r_peak,r_snr = 0.6354054 11.66775 546 0.031 5046 -0.188 11.66775 0.000438 0.006931 -0.000032 r_peak,r_snr = 0.7304165 14.04727 646 0.031 5046 -0.281 14.04727 0.000384 0.012243 0.000364 r_peak,r_snr = 0.6583304 6.760572 746 0.000 5046 0.281 6.76057 0.000603 0.013074 0.000243 r_peak,r_snr = 0.2811578 2.212786 846 8.844 5046 8.813 2.21279 0.016036 0.488266 0.023540 r_peak,r_snr = 0.2129810 5.723655 946 0.625 5046 0.656 5.72365 0.017813 0.551140 0.041379 r_peak,r_snr = 0.6838676 8.561946 1046 0.281 5046 0.281 8.56195 0.000806 0.019986 -0.000057 r_peak,r_snr = 0.3178544 20.65661 1146 -0.063 5046 1.250 20.65661 0.002283 0.068574 0.000931 r_peak,r_snr = 0.4903839 18.13944 1246 -0.625 5046 0.563 18.13944 0.001132 0.074257 0.000175 r_peak,r_snr = 0.3607373 5.648844 1346 -0.875 5046 7.125 5.64884 0.006396 0.014432 -0.000028 r_peak,r_snr = 0.2642165 5.497848 1446 -3.813 5046 -12.813 5.49785 0.006384 0.019478 0.000863 r_peak,r_snr = 0.2135570 4.333097 1546 14.031 5046 11.188 4.33310 0.011737 0.012093 0.002428 r_peak,r_snr = 0.2023277 4.096583 1646 5.750 5046 13.750 4.09658 0.013240 0.062600 0.003893 r_peak,r_snr = 0.1152052 7.349084 1746 1.375 5046 -0.188 7.34908 0.022074 0.223965 -0.016281 r_peak,r_snr = 0.3104706 3.630154 1846 9.000 5046 11.031 3.63015 0.005647 0.014174 -0.000227 r_peak,r_snr = 0.2211154 7.937733 1946 0.563 5046 -0.656 7.93773 0.012702 0.025959 0.008227 r_peak,r_snr = 0.3703401 3.771869 2046 0.375 5046 -0.813 3.77187 0.005298 0.005775 0.001205 At line = 5400 Reading in data.... r_peak,r_snr = 0.8957654 22.55945 146 0.031 5446 0.031 22.55945 0.000080 0.000977 -0.000018 r_peak,r_snr = 0.8095441 13.65405 246 -0.063 5446 0.188 13.65405 0.000206 0.007176 0.000099 r_peak,r_snr = 0.5111844 3.596890 346 -0.063 5446 -0.188 3.59689 0.001529 1.018613 0.001256 r_peak,r_snr = 0.5403062 12.09394 446 0.000 5446 -0.188 12.09394 0.000674 0.030670 0.000445 r_peak,r_snr = 0.4521382 32.17259 546 0.031 5446 0.188 32.17259 0.000933 0.026064 -0.000721 r_peak,r_snr = 0.6632444 27.79287 646 -0.063 5446 -0.188 27.79287 0.000297 0.004454 -0.000211 r_peak,r_snr = 0.6799326 17.62851 746 0.031 5446 0.156 17.62851 0.000351 0.012350 -0.000178 r_peak,r_snr = 0.1884240 7.807185 846 -0.125 5446 -3.125 7.80719 0.164204 16.264206 1.559818 r_peak,r_snr = 0.3251553 14.90698 946 -0.063 5446 0.094 14.90698 0.002554 0.248128 -0.005377 r_peak,r_snr = 0.7584473 5.885580 1046 -0.094 5446 -0.188 5.88558 0.000647 0.022420 0.000406 r_peak,r_snr = 0.2246246 12.94915 1146 -0.344 5446 -0.219 12.94915 0.003510 0.682888 0.012936 r_peak,r_snr = 0.4167707 8.513731 1246 0.156 5446 0.281 8.51373 0.002857 0.208054 -0.010630 r_peak,r_snr = 0.3406456 2.088938 1446 -9.844 5446 15.750 2.08894 0.010237 0.288439 -0.031214 r_peak,r_snr = 0.3859670 14.36118 1546 -0.844 5446 9.250 14.36118 0.001651 0.211694 -0.004548 r_peak,r_snr = 0.2922385 4.686658 1646 -1.688 5446 -2.781 4.68666 0.016207 0.384549 -0.019771 r_peak,r_snr = 0.1977996 6.367713 1746 0.844 5446 -0.188 6.36771 0.004149 0.164841 -0.004267 r_peak,r_snr = 0.3003397 7.147625 2046 0.531 5446 -3.313 7.14762 0.007129 0.108636 -0.001945 At line = 5800 Reading in data.... r_peak,r_snr = 0.7312820 21.70788 146 0.000 5846 -0.188 21.70788 0.000267 0.009663 0.000207 r_peak,r_snr = 0.4974074 10.10623 246 -0.063 5846 0.000 10.10623 0.001519 0.071120 0.001196 r_peak,r_snr = 0.5402982 3.075139 346 -0.750 5846 0.063 3.07514 0.010776 0.240849 -0.024859 r_peak,r_snr = 0.5737665 21.62027 446 0.094 5846 -0.625 21.62027 0.000563 0.012932 0.000003 r_peak,r_snr = 0.6140087 9.446230 546 0.156 5846 -0.531 9.44623 0.000594 0.012139 0.000064 r_peak,r_snr = 0.6173820 9.401443 646 0.000 5846 -0.250 9.40144 0.000583 0.025967 -0.000127 r_peak,r_snr = 0.5272650 3.184457 746 0.094 5846 1.781 3.18446 0.006084 1.209781 0.065863 r_peak,r_snr = 0.1257177 5.909116 846 -1.781 5846 -9.813 5.90912 0.018907 1.729750 -0.125850 r_peak,r_snr = 0.4605706 3.653587 946 0.219 5846 -8.781 3.65359 0.006922 7.108419 -0.162623 r_peak,r_snr = 0.7348241 3.100595 1046 -0.031 5846 -1.156 3.10060 0.000779 0.073306 -0.000885 r_peak,r_snr = 0.1540623 9.847072 1146 0.094 5846 -0.219 9.84707 0.009892 0.284915 0.006921 r_peak,r_snr = 0.3774909 5.889058 1246 -0.219 5846 -5.781 5.88906 0.007744 1.260430 -0.037900 r_peak,r_snr = 0.1953776 9.051079 1446 0.469 5846 8.031 9.05108 0.008586 0.568520 -0.030894 r_peak,r_snr = 0.1993779 7.447761 1546 0.188 5846 2.188 7.44776 0.013937 1.101200 -0.063290 r_peak,r_snr = 0.1766809 5.309106 1746 -1.750 5846 12.594 5.30911 0.043516 0.801807 -0.060108 r_peak,r_snr = 0.3545114 12.42863 1846 -0.281 5846 2.969 12.42863 0.003149 0.625065 -0.023343 r_peak,r_snr = 0.3222684 3.943971 1946 1.719 5846 9.156 3.94397 0.030603 0.535566 -0.035262 r_peak,r_snr = 0.2921832 3.063813 2046 -0.781 5846 -9.250 3.06381 0.012462 0.512250 0.031179 /u/sardine0/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: 989 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/sardine0/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 : 90 20.00000 8369.500 10.00000 $tphase,phasedat: 167.5000 26.40000 $rphase,phasevh,phasehv: 141.1000 48.70000 -92.40000 Reading data size. 989 989 2560 2560 Enter H Ant pattern file: POLSAR H-ANT:/u/sardine0/airops/OPS/data_proc/AIRSAR.PH Enter V Ant pattern file: POLSAR V-ANT:/u/sardine0/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: 21000 Cross pol phase difference is: 26.40 deg Receiver phase difference is 141.10 deg Transmitter phase difference is 167.50 deg Cable phase difference is -161.78 deg $ghv,phasedat,phi: (0.8957118,0.4446352) 26.40000 26.40000 $phico aphase: -14.95999 -161.7800 $fhh,fhv,fvh: (0.9661064,0.2581445) (0.9950209,-9.9667154E-02) (0.9355674,0.3531482) Input ground spacing ? cross-track ground spacing: 6.000000 Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 0 NSAMP vec_len nbytes: 2560 20480 Reading data to estimate cross-talk. 989 2560 256 512 768 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: (-8.9278268E-03,-1.8947002E-02) (-7.7863531E-03,-4.8805103E-03) Finished estimating cross-talk. Enter the file with the lines per pixel. lines lun: 19 Is there a DEM available? Now doing the actual calibration nline. 989 989 Absolute gain AChu(linear) :. 8.6706031E-08 1.2603746E-07 1.3979775E-07 ahh hv vv chh hv vh vv: -235.1390 -239.4900 -235.0390 -239.8900 93.90000 101.5000 93.80000 102.8000 1 257 513 769 ********************************************* ***** ***** ***** 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. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of output file. Please choose the type of compression: (1) Stokes matrix (AIRSAR standard) (2) Cross-products (SIR-C standard) hddt: 90 Finished writing headers. 256 512 768 Enter number of set to convert: Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 min. window size : 5947 new found samp 2560 153600 20480 25600 25600 *** 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. ibytesdata= 153600 do line: 51 done line: 51 do line: 101 done line: 101 do line: 151 done line: 151 do line: 201 done line: 201 do line: 251 done line: 251 do line: 301 done line: 301 do line: 351 done line: 351 do line: 401 done line: 401 do line: 451 done line: 451 do line: 501 done line: 501 do line: 551 done line: 551 do line: 601 done line: 601 do line: 651 done line: 651 do line: 701 done line: 701 do line: 751 done line: 751 do line: 801 done line: 801 do line: 851 done line: 851 do line: 901 done line: 901 do line: 951 done line: 951 100 200 300 400 500 600 700 800 900 Fri Aug 3 18:27:36 PDT 2001 RUNNING RFI FILTER... << Clean RFI from TOPSAR Data >> Enter P-band input file name: p_hh.rfi Enter Output file name: p_hh Enter range spectrum file name: cm6395_p_hh_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 21000 Enter 40 MHz flag : 0 Enter the file name of the sub-band fileter coeff : /u/sardine0/airops/OPS/data_proc/par_npr_qmf_8_128_pro.dat Enter the file name of the LMS parameters array : p_hh_par_lms.dat Number of subbands: 8 Length of prototype: 128 Subband Switch Weighting Length Block Step Factor 1 1 1 256 16 0.50 0.9 2 1 1 256 16 0.50 0.9 3 1 1 256 16 0.50 0.9 4 0 1 256 16 0.50 0.9 5 1 1 256 16 0.50 0.9 6 0 1 256 16 0.50 0.9 7 0 1 256 16 0.50 0.9 8 0 1 256 16 0.50 0.9 40/80 MHz flag: 0 3905 4289 7.1080001E-03 4.6822000E-02 Input file name: p_hh.rfi Number of samples: 6144 Overwrite Status: 0 1 (overwrite) or 0 (new file) Output file name: p_hh Range Spectra: 1 1 (dump spectra) or 0 (do not dump) Data Range: 1 to 21000 lines to process FFT size: 8192 Done Initializing c_data block number 1 (x 100) block number 2 (x 100) block number 3 (x 100) block number 4 (x 100) block number 5 (x 100) block number 6 (x 100) block number 7 (x 100) block number 8 (x 100) block number 9 (x 100) At line: 1001 ; # of saturated pulses= 0 block number 10 (x 100) block number 11 (x 100) block number 12 (x 100) block number 13 (x 100) block number 14 (x 100) block number 15 (x 100) block number 16 (x 100) block number 17 (x 100) block number 18 (x 100) block number 19 (x 100) At line: 2001 ; # of saturated pulses= 0 block number 20 (x 100) block number 21 (x 100) block number 22 (x 100) block number 23 (x 100) block number 24 (x 100) block number 25 (x 100) block number 26 (x 100) block number 27 (x 100) block number 28 (x 100) block number 29 (x 100) At line: 3001 ; # of saturated pulses= 0 block number 30 (x 100) block number 31 (x 100) block number 32 (x 100) block number 33 (x 100) block number 34 (x 100) block number 35 (x 100) block number 36 (x 100) block number 37 (x 100) block number 38 (x 100) block number 39 (x 100) At line: 4001 ; # of saturated pulses= 0 block number 40 (x 100) block number 41 (x 100) block number 42 (x 100) block number 43 (x 100) block number 44 (x 100) block number 45 (x 100) block number 46 (x 100) block number 47 (x 100) block number 48 (x 100) block number 49 (x 100) At line: 5001 ; # of saturated pulses= 0 block number 50 (x 100) block number 51 (x 100) block number 52 (x 100) block number 53 (x 100) block number 54 (x 100) block number 55 (x 100) block number 56 (x 100) block number 57 (x 100) block number 58 (x 100) block number 59 (x 100) At line: 6001 ; # of saturated pulses= 0 block number 60 (x 100) block number 61 (x 100) block number 62 (x 100) block number 63 (x 100) block number 64 (x 100) block number 65 (x 100) block number 66 (x 100) block number 67 (x 100) block number 68 (x 100) block number 69 (x 100) At line: 7001 ; # of saturated pulses= 0 block number 70 (x 100) block number 71 (x 100) block number 72 (x 100) block number 73 (x 100) block number 74 (x 100) block number 75 (x 100) block number 76 (x 100) block number 77 (x 100) block number 78 (x 100) block number 79 (x 100) At line: 8001 ; # of saturated pulses= 0 block number 80 (x 100) block number 81 (x 100) block number 82 (x 100) block number 83 (x 100) block number 84 (x 100) block number 85 (x 100) block number 86 (x 100) block number 87 (x 100) block number 88 (x 100) block number 89 (x 100) At line: 9001 ; # of saturated pulses= 0 block number 90 (x 100) block number 91 (x 100) block number 92 (x 100) block number 93 (x 100) block number 94 (x 100) block number 95 (x 100) block number 96 (x 100) block number 97 (x 100) block number 98 (x 100) block number 99 (x 100) At line: 10001 ; # of saturated pulses= 0 block number 100 (x 100) block number 101 (x 100) block number 102 (x 100) block number 103 (x 100) block number 104 (x 100) block number 105 (x 100) block number 106 (x 100) block number 107 (x 100) block number 108 (x 100) block number 109 (x 100) At line: 11001 ; # of saturated pulses= 0 block number 110 (x 100) block number 111 (x 100) block number 112 (x 100) block number 113 (x 100) block number 114 (x 100) block number 115 (x 100) block number 116 (x 100) block number 117 (x 100) block number 118 (x 100) block number 119 (x 100) At line: 12001 ; # of saturated pulses= 0 block number 120 (x 100) block number 121 (x 100) block number 122 (x 100) block number 123 (x 100) block number 124 (x 100) block number 125 (x 100) block number 126 (x 100) block number 127 (x 100) block number 128 (x 100) block number 129 (x 100) At line: 13001 ; # of saturated pulses= 0 block number 130 (x 100) block number 131 (x 100) block number 132 (x 100) block number 133 (x 100) block number 134 (x 100) block number 135 (x 100) block number 136 (x 100) block number 137 (x 100) block number 138 (x 100) block number 139 (x 100) At line: 14001 ; # of saturated pulses= 0 block number 140 (x 100) block number 141 (x 100) block number 142 (x 100) block number 143 (x 100) block number 144 (x 100) block number 145 (x 100) block number 146 (x 100) block number 147 (x 100) block number 148 (x 100) block number 149 (x 100) At line: 15001 ; # of saturated pulses= 0 block number 150 (x 100) block number 151 (x 100) block number 152 (x 100) block number 153 (x 100) block number 154 (x 100) block number 155 (x 100) block number 156 (x 100) block number 157 (x 100) block number 158 (x 100) block number 159 (x 100) At line: 16001 ; # of saturated pulses= 0 block number 160 (x 100) block number 161 (x 100) block number 162 (x 100) block number 163 (x 100) block number 164 (x 100) block number 165 (x 100) block number 166 (x 100) block number 167 (x 100) block number 168 (x 100) block number 169 (x 100) At line: 17001 ; # of saturated pulses= 0 block number 170 (x 100) block number 171 (x 100) block number 172 (x 100) block number 173 (x 100) block number 174 (x 100) block number 175 (x 100) block number 176 (x 100) block number 177 (x 100) block number 178 (x 100) block number 179 (x 100) At line: 18001 ; # of saturated pulses= 0 block number 180 (x 100) block number 181 (x 100) block number 182 (x 100) block number 183 (x 100) block number 184 (x 100) block number 185 (x 100) block number 186 (x 100) block number 187 (x 100) block number 188 (x 100) block number 189 (x 100) At line: 19001 ; # of saturated pulses= 0 block number 190 (x 100) block number 191 (x 100) block number 192 (x 100) block number 193 (x 100) block number 194 (x 100) block number 195 (x 100) block number 196 (x 100) block number 197 (x 100) block number 198 (x 100) block number 199 (x 100) At line: 20001 ; # of saturated pulses= 0 block number 200 (x 100) block number 201 (x 100) block number 202 (x 100) block number 203 (x 100) block number 204 (x 100) block number 205 (x 100) block number 206 (x 100) block number 207 (x 100) block number 208 (x 100) block number 209 (x 100) At line: 21001 ; # of saturated pulses= 0 block number 210 (x 100) Writing file: cm6395_p_hh_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 796.9472 sys time: 4.636489 796.9543 4.683311 << Clean RFI from TOPSAR Data >> Enter P-band input file name: p_hv.rfi Enter Output file name: p_hv Enter range spectrum file name: cm6395_p_hv_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 21000 Enter 40 MHz flag : 0 Enter the file name of the sub-band fileter coeff : /u/sardine0/airops/OPS/data_proc/par_npr_qmf_8_128_pro.dat Enter the file name of the LMS parameters array : p_hv_par_lms.dat Number of subbands: 8 Length of prototype: 128 Subband Switch Weighting Length Block Step Factor 1 1 1 256 16 0.50 0.9 2 1 1 256 16 0.50 0.9 3 1 1 256 16 0.50 0.9 4 1 1 256 16 0.50 0.9 5 1 1 256 16 0.50 0.9 6 1 1 256 16 0.50 0.9 7 0 1 256 16 0.50 0.9 8 1 1 256 16 0.50 0.9 40/80 MHz flag: 0 3905 4289 6.8910001E-03 3.8343001E-02 Input file name: p_hv.rfi Number of samples: 6144 Overwrite Status: 0 1 (overwrite) or 0 (new file) Output file name: p_hv Range Spectra: 1 1 (dump spectra) or 0 (do not dump) Data Range: 1 to 21000 lines to process FFT size: 8192 Done Initializing c_data block number 1 (x 100) block number 2 (x 100) block number 3 (x 100) block number 4 (x 100) block number 5 (x 100) block number 6 (x 100) block number 7 (x 100) block number 8 (x 100) block number 9 (x 100) At line: 1001 ; # of saturated pulses= 0 block number 10 (x 100) block number 11 (x 100) block number 12 (x 100) block number 13 (x 100) block number 14 (x 100) block number 15 (x 100) block number 16 (x 100) block number 17 (x 100) block number 18 (x 100) block number 19 (x 100) At line: 2001 ; # of saturated pulses= 0 block number 20 (x 100) block number 21 (x 100) block number 22 (x 100) block number 23 (x 100) block number 24 (x 100) block number 25 (x 100) block number 26 (x 100) block number 27 (x 100) block number 28 (x 100) block number 29 (x 100) At line: 3001 ; # of saturated pulses= 0 block number 30 (x 100) block number 31 (x 100) block number 32 (x 100) block number 33 (x 100) block number 34 (x 100) block number 35 (x 100) block number 36 (x 100) block number 37 (x 100) block number 38 (x 100) block number 39 (x 100) At line: 4001 ; # of saturated pulses= 0 block number 40 (x 100) block number 41 (x 100) block number 42 (x 100) block number 43 (x 100) block number 44 (x 100) block number 45 (x 100) block number 46 (x 100) block number 47 (x 100) block number 48 (x 100) block number 49 (x 100) At line: 5001 ; # of saturated pulses= 0 block number 50 (x 100) block number 51 (x 100) block number 52 (x 100) block number 53 (x 100) block number 54 (x 100) block number 55 (x 100) block number 56 (x 100) block number 57 (x 100) block number 58 (x 100) block number 59 (x 100) At line: 6001 ; # of saturated pulses= 0 block number 60 (x 100) block number 61 (x 100) block number 62 (x 100) block number 63 (x 100) block number 64 (x 100) block number 65 (x 100) block number 66 (x 100) block number 67 (x 100) block number 68 (x 100) block number 69 (x 100) At line: 7001 ; # of saturated pulses= 0 block number 70 (x 100) block number 71 (x 100) block number 72 (x 100) block number 73 (x 100) block number 74 (x 100) block number 75 (x 100) block number 76 (x 100) block number 77 (x 100) block number 78 (x 100) block number 79 (x 100) At line: 8001 ; # of saturated pulses= 0 block number 80 (x 100) block number 81 (x 100) block number 82 (x 100) block number 83 (x 100) block number 84 (x 100) block number 85 (x 100) block number 86 (x 100) block number 87 (x 100) block number 88 (x 100) block number 89 (x 100) At line: 9001 ; # of saturated pulses= 0 block number 90 (x 100) block number 91 (x 100) block number 92 (x 100) block number 93 (x 100) block number 94 (x 100) block number 95 (x 100) block number 96 (x 100) block number 97 (x 100) block number 98 (x 100) block number 99 (x 100) At line: 10001 ; # of saturated pulses= 0 block number 100 (x 100) block number 101 (x 100) block number 102 (x 100) block number 103 (x 100) block number 104 (x 100) block number 105 (x 100) block number 106 (x 100) block number 107 (x 100) block number 108 (x 100) block number 109 (x 100) At line: 11001 ; # of saturated pulses= 0 block number 110 (x 100) block number 111 (x 100) block number 112 (x 100) block number 113 (x 100) block number 114 (x 100) block number 115 (x 100) block number 116 (x 100) block number 117 (x 100) block number 118 (x 100) block number 119 (x 100) At line: 12001 ; # of saturated pulses= 0 block number 120 (x 100) block number 121 (x 100) block number 122 (x 100) block number 123 (x 100) block number 124 (x 100) block number 125 (x 100) block number 126 (x 100) block number 127 (x 100) block number 128 (x 100) block number 129 (x 100) At line: 13001 ; # of saturated pulses= 0 block number 130 (x 100) block number 131 (x 100) block number 132 (x 100) block number 133 (x 100) block number 134 (x 100) block number 135 (x 100) block number 136 (x 100) block number 137 (x 100) block number 138 (x 100) block number 139 (x 100) At line: 14001 ; # of saturated pulses= 0 block number 140 (x 100) block number 141 (x 100) block number 142 (x 100) block number 143 (x 100) block number 144 (x 100) block number 145 (x 100) block number 146 (x 100) block number 147 (x 100) block number 148 (x 100) block number 149 (x 100) At line: 15001 ; # of saturated pulses= 0 block number 150 (x 100) block number 151 (x 100) block number 152 (x 100) block number 153 (x 100) block number 154 (x 100) block number 155 (x 100) block number 156 (x 100) block number 157 (x 100) block number 158 (x 100) block number 159 (x 100) At line: 16001 ; # of saturated pulses= 0 block number 160 (x 100) block number 161 (x 100) block number 162 (x 100) block number 163 (x 100) block number 164 (x 100) block number 165 (x 100) block number 166 (x 100) block number 167 (x 100) block number 168 (x 100) block number 169 (x 100) At line: 17001 ; # of saturated pulses= 0 block number 170 (x 100) block number 171 (x 100) block number 172 (x 100) block number 173 (x 100) block number 174 (x 100) block number 175 (x 100) block number 176 (x 100) block number 177 (x 100) block number 178 (x 100) block number 179 (x 100) At line: 18001 ; # of saturated pulses= 0 block number 180 (x 100) block number 181 (x 100) block number 182 (x 100) block number 183 (x 100) block number 184 (x 100) block number 185 (x 100) block number 186 (x 100) block number 187 (x 100) block number 188 (x 100) block number 189 (x 100) At line: 19001 ; # of saturated pulses= 0 block number 190 (x 100) block number 191 (x 100) block number 192 (x 100) block number 193 (x 100) block number 194 (x 100) block number 195 (x 100) block number 196 (x 100) block number 197 (x 100) block number 198 (x 100) block number 199 (x 100) At line: 20001 ; # of saturated pulses= 0 block number 200 (x 100) block number 201 (x 100) block number 202 (x 100) block number 203 (x 100) block number 204 (x 100) block number 205 (x 100) block number 206 (x 100) block number 207 (x 100) block number 208 (x 100) block number 209 (x 100) At line: 21001 ; # of saturated pulses= 0 block number 210 (x 100) Writing file: cm6395_p_hv_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 1075.081 sys time: 4.808710 1075.087 4.847053 << Clean RFI from TOPSAR Data >> Enter P-band input file name: p_vh.rfi Enter Output file name: p_vh Enter range spectrum file name: cm6395_p_vh_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 21000 Enter 40 MHz flag : 0 Enter the file name of the sub-band fileter coeff : /u/sardine0/airops/OPS/data_proc/par_npr_qmf_8_128_pro.dat Enter the file name of the LMS parameters array : p_vh_par_lms.dat Number of subbands: 8 Length of prototype: 128 Subband Switch Weighting Length Block Step Factor 1 1 1 256 16 0.50 0.9 2 1 1 256 16 0.50 0.9 3 1 1 256 16 0.50 0.9 4 1 1 256 16 0.50 0.9 5 1 1 256 16 0.50 0.9 6 1 1 256 16 0.50 0.9 7 1 1 256 16 0.50 0.9 8 1 1 256 16 0.50 0.9 40/80 MHz flag: 0 3905 4289 6.9630002E-03 3.7154000E-02 Input file name: p_vh.rfi Number of samples: 6144 Overwrite Status: 0 1 (overwrite) or 0 (new file) Output file name: p_vh Range Spectra: 1 1 (dump spectra) or 0 (do not dump) Data Range: 1 to 21000 lines to process FFT size: 8192 Done Initializing c_data block number 1 (x 100) block number 2 (x 100) block number 3 (x 100) block number 4 (x 100) block number 5 (x 100) block number 6 (x 100) block number 7 (x 100) block number 8 (x 100) block number 9 (x 100) At line: 1001 ; # of saturated pulses= 0 block number 10 (x 100) block number 11 (x 100) block number 12 (x 100) block number 13 (x 100) block number 14 (x 100) block number 15 (x 100) block number 16 (x 100) block number 17 (x 100) block number 18 (x 100) block number 19 (x 100) At line: 2001 ; # of saturated pulses= 0 block number 20 (x 100) block number 21 (x 100) block number 22 (x 100) block number 23 (x 100) block number 24 (x 100) block number 25 (x 100) block number 26 (x 100) block number 27 (x 100) block number 28 (x 100) block number 29 (x 100) At line: 3001 ; # of saturated pulses= 0 block number 30 (x 100) block number 31 (x 100) block number 32 (x 100) block number 33 (x 100) block number 34 (x 100) block number 35 (x 100) block number 36 (x 100) block number 37 (x 100) block number 38 (x 100) block number 39 (x 100) At line: 4001 ; # of saturated pulses= 0 block number 40 (x 100) block number 41 (x 100) block number 42 (x 100) block number 43 (x 100) block number 44 (x 100) block number 45 (x 100) block number 46 (x 100) block number 47 (x 100) block number 48 (x 100) block number 49 (x 100) At line: 5001 ; # of saturated pulses= 0 block number 50 (x 100) block number 51 (x 100) block number 52 (x 100) block number 53 (x 100) block number 54 (x 100) block number 55 (x 100) block number 56 (x 100) block number 57 (x 100) block number 58 (x 100) block number 59 (x 100) At line: 6001 ; # of saturated pulses= 0 block number 60 (x 100) block number 61 (x 100) block number 62 (x 100) block number 63 (x 100) block number 64 (x 100) block number 65 (x 100) block number 66 (x 100) block number 67 (x 100) block number 68 (x 100) block number 69 (x 100) At line: 7001 ; # of saturated pulses= 0 block number 70 (x 100) block number 71 (x 100) block number 72 (x 100) block number 73 (x 100) block number 74 (x 100) block number 75 (x 100) block number 76 (x 100) block number 77 (x 100) block number 78 (x 100) block number 79 (x 100) At line: 8001 ; # of saturated pulses= 0 block number 80 (x 100) block number 81 (x 100) block number 82 (x 100) block number 83 (x 100) block number 84 (x 100) block number 85 (x 100) block number 86 (x 100) block number 87 (x 100) block number 88 (x 100) block number 89 (x 100) At line: 9001 ; # of saturated pulses= 0 block number 90 (x 100) block number 91 (x 100) block number 92 (x 100) block number 93 (x 100) block number 94 (x 100) block number 95 (x 100) block number 96 (x 100) block number 97 (x 100) block number 98 (x 100) block number 99 (x 100) At line: 10001 ; # of saturated pulses= 0 block number 100 (x 100) block number 101 (x 100) block number 102 (x 100) block number 103 (x 100) block number 104 (x 100) block number 105 (x 100) block number 106 (x 100) block number 107 (x 100) block number 108 (x 100) block number 109 (x 100) At line: 11001 ; # of saturated pulses= 0 block number 110 (x 100) block number 111 (x 100) block number 112 (x 100) block number 113 (x 100) block number 114 (x 100) block number 115 (x 100) block number 116 (x 100) block number 117 (x 100) block number 118 (x 100) block number 119 (x 100) At line: 12001 ; # of saturated pulses= 0 block number 120 (x 100) block number 121 (x 100) block number 122 (x 100) block number 123 (x 100) block number 124 (x 100) block number 125 (x 100) block number 126 (x 100) block number 127 (x 100) block number 128 (x 100) block number 129 (x 100) At line: 13001 ; # of saturated pulses= 0 block number 130 (x 100) block number 131 (x 100) block number 132 (x 100) block number 133 (x 100) block number 134 (x 100) block number 135 (x 100) block number 136 (x 100) block number 137 (x 100) block number 138 (x 100) block number 139 (x 100) At line: 14001 ; # of saturated pulses= 0 block number 140 (x 100) block number 141 (x 100) block number 142 (x 100) block number 143 (x 100) block number 144 (x 100) block number 145 (x 100) block number 146 (x 100) block number 147 (x 100) block number 148 (x 100) block number 149 (x 100) At line: 15001 ; # of saturated pulses= 0 block number 150 (x 100) block number 151 (x 100) block number 152 (x 100) block number 153 (x 100) block number 154 (x 100) block number 155 (x 100) block number 156 (x 100) block number 157 (x 100) block number 158 (x 100) block number 159 (x 100) At line: 16001 ; # of saturated pulses= 0 block number 160 (x 100) block number 161 (x 100) block number 162 (x 100) block number 163 (x 100) block number 164 (x 100) block number 165 (x 100) block number 166 (x 100) block number 167 (x 100) block number 168 (x 100) block number 169 (x 100) At line: 17001 ; # of saturated pulses= 0 block number 170 (x 100) block number 171 (x 100) block number 172 (x 100) block number 173 (x 100) block number 174 (x 100) block number 175 (x 100) block number 176 (x 100) block number 177 (x 100) block number 178 (x 100) block number 179 (x 100) At line: 18001 ; # of saturated pulses= 0 block number 180 (x 100) block number 181 (x 100) block number 182 (x 100) block number 183 (x 100) block number 184 (x 100) block number 185 (x 100) block number 186 (x 100) block number 187 (x 100) block number 188 (x 100) block number 189 (x 100) At line: 19001 ; # of saturated pulses= 0 block number 190 (x 100) block number 191 (x 100) block number 192 (x 100) block number 193 (x 100) block number 194 (x 100) block number 195 (x 100) block number 196 (x 100) block number 197 (x 100) block number 198 (x 100) block number 199 (x 100) At line: 20001 ; # of saturated pulses= 0 block number 200 (x 100) block number 201 (x 100) block number 202 (x 100) block number 203 (x 100) block number 204 (x 100) block number 205 (x 100) block number 206 (x 100) block number 207 (x 100) block number 208 (x 100) block number 209 (x 100) At line: 21001 ; # of saturated pulses= 0 block number 210 (x 100) Writing file: cm6395_p_vh_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 1226.204 sys time: 4.907035 1226.211 4.944189 << Clean RFI from TOPSAR Data >> Enter P-band input file name: p_vv.rfi Enter Output file name: p_vv Enter range spectrum file name: cm6395_p_vv_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 21000 Enter 40 MHz flag : 0 Enter the file name of the sub-band fileter coeff : /u/sardine0/airops/OPS/data_proc/par_npr_qmf_8_128_pro.dat Enter the file name of the LMS parameters array : p_vv_par_lms.dat Number of subbands: 8 Length of prototype: 128 Subband Switch Weighting Length Block Step Factor 1 1 1 256 16 0.50 0.9 2 1 1 256 16 0.50 0.9 3 0 1 256 16 0.50 0.9 4 0 1 256 16 0.50 0.9 5 0 1 256 16 0.50 0.9 6 0 1 256 16 0.50 0.9 7 0 1 256 16 0.50 0.9 8 0 1 256 16 0.50 0.9 40/80 MHz flag: 0 3905 4289 6.9490001E-03 3.7661001E-02 Input file name: p_vv.rfi Number of samples: 6144 Overwrite Status: 0 1 (overwrite) or 0 (new file) Output file name: p_vv Range Spectra: 1 1 (dump spectra) or 0 (do not dump) Data Range: 1 to 21000 lines to process FFT size: 8192 Done Initializing c_data block number 1 (x 100) block number 2 (x 100) block number 3 (x 100) block number 4 (x 100) block number 5 (x 100) block number 6 (x 100) block number 7 (x 100) block number 8 (x 100) block number 9 (x 100) At line: 1001 ; # of saturated pulses= 0 block number 10 (x 100) block number 11 (x 100) block number 12 (x 100) block number 13 (x 100) block number 14 (x 100) block number 15 (x 100) block number 16 (x 100) block number 17 (x 100) block number 18 (x 100) block number 19 (x 100) At line: 2001 ; # of saturated pulses= 0 block number 20 (x 100) block number 21 (x 100) block number 22 (x 100) block number 23 (x 100) block number 24 (x 100) block number 25 (x 100) block number 26 (x 100) block number 27 (x 100) block number 28 (x 100) block number 29 (x 100) At line: 3001 ; # of saturated pulses= 0 block number 30 (x 100) block number 31 (x 100) block number 32 (x 100) block number 33 (x 100) block number 34 (x 100) block number 35 (x 100) block number 36 (x 100) block number 37 (x 100) block number 38 (x 100) block number 39 (x 100) At line: 4001 ; # of saturated pulses= 0 block number 40 (x 100) block number 41 (x 100) block number 42 (x 100) block number 43 (x 100) block number 44 (x 100) block number 45 (x 100) block number 46 (x 100) block number 47 (x 100) block number 48 (x 100) block number 49 (x 100) At line: 5001 ; # of saturated pulses= 0 block number 50 (x 100) block number 51 (x 100) block number 52 (x 100) block number 53 (x 100) block number 54 (x 100) block number 55 (x 100) block number 56 (x 100) block number 57 (x 100) block number 58 (x 100) block number 59 (x 100) At line: 6001 ; # of saturated pulses= 0 block number 60 (x 100) block number 61 (x 100) block number 62 (x 100) block number 63 (x 100) block number 64 (x 100) block number 65 (x 100) block number 66 (x 100) block number 67 (x 100) block number 68 (x 100) block number 69 (x 100) At line: 7001 ; # of saturated pulses= 0 block number 70 (x 100) block number 71 (x 100) block number 72 (x 100) block number 73 (x 100) block number 74 (x 100) block number 75 (x 100) block number 76 (x 100) block number 77 (x 100) block number 78 (x 100) block number 79 (x 100) At line: 8001 ; # of saturated pulses= 0 block number 80 (x 100) block number 81 (x 100) block number 82 (x 100) block number 83 (x 100) block number 84 (x 100) block number 85 (x 100) block number 86 (x 100) block number 87 (x 100) block number 88 (x 100) block number 89 (x 100) At line: 9001 ; # of saturated pulses= 0 block number 90 (x 100) block number 91 (x 100) block number 92 (x 100) block number 93 (x 100) block number 94 (x 100) block number 95 (x 100) block number 96 (x 100) block number 97 (x 100) block number 98 (x 100) block number 99 (x 100) At line: 10001 ; # of saturated pulses= 0 block number 100 (x 100) block number 101 (x 100) block number 102 (x 100) block number 103 (x 100) block number 104 (x 100) block number 105 (x 100) block number 106 (x 100) block number 107 (x 100) block number 108 (x 100) block number 109 (x 100) At line: 11001 ; # of saturated pulses= 0 block number 110 (x 100) block number 111 (x 100) block number 112 (x 100) block number 113 (x 100) block number 114 (x 100) block number 115 (x 100) block number 116 (x 100) block number 117 (x 100) block number 118 (x 100) block number 119 (x 100) At line: 12001 ; # of saturated pulses= 0 block number 120 (x 100) block number 121 (x 100) block number 122 (x 100) block number 123 (x 100) block number 124 (x 100) block number 125 (x 100) block number 126 (x 100) block number 127 (x 100) block number 128 (x 100) block number 129 (x 100) At line: 13001 ; # of saturated pulses= 0 block number 130 (x 100) block number 131 (x 100) block number 132 (x 100) block number 133 (x 100) block number 134 (x 100) block number 135 (x 100) block number 136 (x 100) block number 137 (x 100) block number 138 (x 100) block number 139 (x 100) At line: 14001 ; # of saturated pulses= 0 block number 140 (x 100) block number 141 (x 100) block number 142 (x 100) block number 143 (x 100) block number 144 (x 100) block number 145 (x 100) block number 146 (x 100) block number 147 (x 100) block number 148 (x 100) block number 149 (x 100) At line: 15001 ; # of saturated pulses= 0 block number 150 (x 100) block number 151 (x 100) block number 152 (x 100) block number 153 (x 100) block number 154 (x 100) block number 155 (x 100) block number 156 (x 100) block number 157 (x 100) block number 158 (x 100) block number 159 (x 100) At line: 16001 ; # of saturated pulses= 0 block number 160 (x 100) block number 161 (x 100) block number 162 (x 100) block number 163 (x 100) block number 164 (x 100) block number 165 (x 100) block number 166 (x 100) block number 167 (x 100) block number 168 (x 100) block number 169 (x 100) At line: 17001 ; # of saturated pulses= 0 block number 170 (x 100) block number 171 (x 100) block number 172 (x 100) block number 173 (x 100) block number 174 (x 100) block number 175 (x 100) block number 176 (x 100) block number 177 (x 100) block number 178 (x 100) block number 179 (x 100) At line: 18001 ; # of saturated pulses= 0 block number 180 (x 100) block number 181 (x 100) block number 182 (x 100) block number 183 (x 100) block number 184 (x 100) block number 185 (x 100) block number 186 (x 100) block number 187 (x 100) block number 188 (x 100) block number 189 (x 100) At line: 19001 ; # of saturated pulses= 0 block number 190 (x 100) block number 191 (x 100) block number 192 (x 100) block number 193 (x 100) block number 194 (x 100) block number 195 (x 100) block number 196 (x 100) block number 197 (x 100) block number 198 (x 100) block number 199 (x 100) At line: 20001 ; # of saturated pulses= 0 block number 200 (x 100) block number 201 (x 100) block number 202 (x 100) block number 203 (x 100) block number 204 (x 100) block number 205 (x 100) block number 206 (x 100) block number 207 (x 100) block number 208 (x 100) block number 209 (x 100) At line: 21001 ; # of saturated pulses= 0 block number 210 (x 100) Writing file: cm6395_p_vv_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 528.7242 sys time: 4.680187 528.7311 4.717848 RFI FILTER COMPLETED. Mon Aug 6 19:29:08 PDT 2001 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. * * * ***************************************************** Enter command file name ==> Opening command file... bias of roll yaw pitch: -3.7999999999999999E-02 0.0000000000000000E+00 1.0000000000000000E-02 xdelay: -1.027807 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: - - - - - - - - - - - - - - - - - - - - - Names: John Boyett McCluskey, William Richard Fiechter, Walter E dward Brown Jr., Walter Felix Skotnicki, Takeshi Sato, Yunjin Ki m, Yunling Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): input name:/export/air31/airops/6395/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: 21000 window delay: window delay 0 enter the .par filename : par filename:/export/air35/airops/6395/cm6395_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: 90 enter HDDT TID <0> : Sony TID: 49069 enter the title of image: title image BARBERSPOINT90-1 enter the CCT (job) ID: cct: 6395 target:BarbersPoint90-1 prod ID(cctid):6395 chrp_delay from subcomm header tapeID: 32.45000 90 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: 0.0000000E+00 gen_par_aipt P-band fs ntapeid: 45.00000 90 idelay,chrp_delay,xdelay 91 32.45000 -1.027807 near range delr windelay: 8930.488 6.662055 0 azsamp iden inum 4/numsave: 0.5144445 1 1 4 f_cal rf 1216.406 5266.406 428.5547 f_cal 21.44530 Parameter header created .. IGI lat: 1 21.26979075372219 IGI lon: 1 -158.1447502411902 get_subcomm_aiptEGI year i_yearind: 20008 8 >> Record # : 128 >> GPS Stuff = 0.00 0 0 0 0 0 0 startrng r_chirpdelay i_yearind 91.00000000000000 3.2450000000000003E-05 8 3.2450000000000003E-05=chirp elec delays 2000 digdelay startrng(us):91 91.00000000000000 startrng(m) elecdelay: 8930.489852849636 3.2450000000000003E-05 >> start range = 8930.4899 >> ccal_amp = -66.39999 >> ccal_atn = 10 >> ratn_phh = 0 12 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 6 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 17 0 >> ratn_lhv = 0 11 0 >> ratn_lvh = 0 11 0 >> ratn_lvv = 0 17 0 >> ratn_chh = 0 12 10 >> ratn_chv = 0 6 10 >> ratn_cvh = 0 6 10 >> ratn_cvv = 0 12 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 41984 21.26979075372219 -158.1447502411902 21.27000000000000 -158.1500000000000 7927.543200000000 dads_ralt,dads_roll,dads_pth,dads_th,dads_da 8308.543200000000 0.6000000000000000 1.700000000000000 88.80000000000000 0.8000000000000000 gps_lat,gps_lon,gps_nc,gps_ec gps_time(1): 21.26991653442383 -158.1461944580078 0.0000000000000000E+00 0.0000000000000000E+00 24686272.00000000 ****gps_frame**** 1844866 gps_hgt,gps_speed gps_heading(1): 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 startrng,srecsb,nrecsb,gpsdelay,records,year 8930.489852849636 1 328 0.00 0 0 0 0 0 0 128 0 2000 Check for frame count time glitches Mean StD of Frames= 1865756.250000000 12124.97880680823 gpsT doy: 287 10 13 gpsT: 24686272.38000000 2000 10 13 5 17 52 0.3800000000000000 week# 1 ED0 GPS week num: 59 GPS i_pass: -1 main header kk hwTIME: 1 451072.5066720000 EGI msg 1 msl alt(from eo17): 8353.674863818360 EGI msg 1 wander angle(from eo17): 88.67614746093750 EGI09 lat: 21.26979075372219 EGI09 lon: -158.1447502411902 EGI09 alt: 6849.000000000000 EGI09 Height_above_ellipsoid - height_msl: 4.876800000000000 EGI-09 word11 gps Vel East m/s: 214.6642180664062 EGI-09 word12 gps Vel North m/s: 2.844795252227784 EGI-09 word13 gps Vel Upper m/s: -12.16724191818237 EGI-09 GPS Position FOM : 2.000000000000000 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 1 118 C023 EO-9(17)nav FOM 1 8102 118 EO-16(30)Time FOM 1 300 118 EGI-09 w21-22geod_utctime: 19058.78247070313 EGI-09 Time Valid: 0.9699840000000000 EGI-18 dec32 Vel North m/s: 0.6066311597824097 EGI-18 dec32 Vel East m/s: 224.6314086914063 EGI-18 dec32 Vel Upper m/s: -0.1563717424869537 EGI-10 GPS week number: 59 EGI-13 GPS sigma Pos-x/y/z: 1.875000000000000 1.500000000000000 2.625000000000000 EGI-13 GPS sigma Vel-x/y/z: 7.8125000000000000E-03 5.9814453125000000E-03 1.4038085937500000E-02 EGI-13 GPS sigma roll/pitch/az: 4.3713210688081606E-04 4.3713210688081606E-04 1.3113963206424482E-03 r_time_tag_17: 1.460032000000000 EGI-16 time fom;year doy: 3 0 287 EO17 vel-x/y/z: 1.354833581542969 -216.1329167907715 8.7416757202148448E-02 EO17 wrander az roll pitch az: 1.547690741177369 0.3680419921875000 1.571044921875000 88.60473632812500 EO17 r_cnexx/y/z: 0.9318813364952803 -1.2366678565740585E-03 0.3627611631527543 EO17 r_lon: -158.1437308341265 EO16 GPS FOM (acc): 3.000000000000000 EGI-18 w1-8: E000 49DC 3FDA F5E8 dec64: 985B 4794 E3AF 5E89 r_hwgpstime(1): 451070.8425181365 r_utctime_18: 19057.84251813832 EGI-18 dec32 lat: 21.26983403772876 EGI-18 dec32 lon: -158.1466508349605 EGI-18 dec32 sea level alt: 8353.429687500000 EGI-18 dec32 WGS84 alt: 8358.529296875000 WGS84_alt-msl_alt: 5.099609375000000 del time from EO18 word10: -1.0000000000000001E-09 del time EO18 word10: 1 FFFF 2 e22_msg(1) satellite 1: 1E e22_msg(3) satellite 2: 9 e22_msg(5) satellite 3: 4 e22_msg(7) satellite 4: 1A e22_msg(9) satellite 5: 1D EGI-22 Tdop: 3.031250000000000 2.671875000000000 1.359375000000000 2.296875000000000 1.437500000000000 EGI_flag=1 version:000214 eosd:EOSD J2000 compute: i_leap,i_dow,r_diff_time 13 5 0.4900480000000000 geod_utctime time_tag_17 time_valid: 19058.78247070313 1.460032000000000 0.9699840000000000 r_utc_ttag r_del_time_18: 451072.2725187021 -1.0000000000000001E-09 J2000 r_hwtime = 24686272.50667200 GPS J2000 time = 24686272.27251870 Message 1 Time = 24686272.50667200 INS Time = 1.694336000000000 Roll angle = 0.3900146484375000 Pitch angle = 1.571044921875000 Heading angle = 88.60473632812500 Long. acc = 0.2200000000000000 Lat. acc = 5.9999999999999998E-02 Norm. acc = -9.750000000000000 East vel. = 216.1320000000000 North vel. = 1.620000000000000 Up vel. = 8.7000000000000008E-02 True Grnd Spd = 216.1250000000000 Altitude = 8359.000000000000 Latitude = 21.26986904069781 Longitude = -158.1432434264570 Message 6 Week = 59 GPS Time = 24686272.27251870 GDOP = 3.031250000000000 PDOP = 2.671875000000000 HDOP = 1.359375000000000 VDOP = 2.296875000000000 TDOP = 1.437500000000000 Spherical Acc = 2.000000000000000 Time Acc = 3.000000000000000 GPS Lat = 21.26983403772876 GPS Lon = -158.1466508349605 GPS Alt = 8358.529296875000 GPS East Vel = 224.6314086914063 GPS North Vel = 0.6066311597824097 GPS Up Vel = -0.1563717424869537 Message 4 Sigma Pos x = 1.875000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.625000000000000 Sigma Vel x = 7.8125000000000000E-03 Sigma Vel y = 5.9814453125000000E-03 Sigma Vel z = 1.4038085937500000E-02 Message 7 Satellites used = 30 9 4 26 29 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 Honeywell EGI98Fall for gps-hgt 3187 20008 8358.808265179692 Done decoding data from header array... Data collected on ==> 13-OCT-2000 Starting and end GPS times(sec1/secn) for SAR data 24686272.3800 24686322.3260 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61538 88.54980 88.73108 0.0358182 0 trc 89.69191 89.56605 89.76349 0.0377229 0 tgs 216.28398 216.12500 216.37500 0.0745757 0 roll 0.09928 -0.10437 0.45044 0.1097652 0 pitch 1.55211 1.51062 1.60400 0.0278613 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14324 -158.13262 0.0030769 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09822 -158.15000 -158.04667 0.0299082 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.49627 8308.54320 8332.01280 5.3498007 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.1176209 0 thd 88.75976 88.70000 88.90000 0.0496568 0 dad 0.94726 0.70000 1.00000 0.0748480 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.80827 8359.13271 0.0881038 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14324 -158.03964 0.0299188 0 hwalt 8359.27250 8358.80827 8360.73460 0.4271337 0 hwev 216.28800 216.13200 216.37700 0.0744637 0 hwnv 1.16185 0.89300 1.62000 0.1400571 0 hwuv 0.07155 -0.05400 0.23500 0.0857045 0 hwroll 0.09847 -0.10437 0.45044 0.1088824 0 hwpitch 1.55205 1.51062 1.60400 0.0278846 0 hwhdg 88.61538 88.54980 88.73108 0.0358314 0 hwtrc 89.69224 89.57055 89.76349 0.0371919 0 hwtgs 216.28440 216.12500 216.37500 0.0742095 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... 24686273.00000000 i_yearind 20008 GPS time for first pulse = 24686272.38099190 24686272.38000000 New startrecT: 24686272.38099190 24686272.50667200 1 New start and number of records = 107 41843 New start and number of blocks = 1 328 +6+r_hwhead(10/200): 0.0000000000000000E+00 -3.8452148437500000E-02 88.59924316406250 GPS trend coefficients = -0.1421912406060422 0.2429450709556520 6.0768806167031453E-02 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000004 0 hdg 88.61531 88.54980 88.73108 0.0357180 0 trc 89.69216 89.56605 89.76322 0.0372119 0 tgs 216.28434 216.12500 216.37500 0.0742596 0 roll 0.09845 -0.10437 0.45044 0.1089470 0 pitch 1.55205 1.51062 1.60400 0.0278892 0 delx 0.25730 0.00000 0.25736 0.0012582 0 lati 21.26990 21.26987 21.26994 0.0000189 0 loni -158.13793 -158.14321 -158.13265 0.0030766 0 latd 21.27000 21.27000 21.27000 0.0000030 0 lond -158.09827 -158.15000 -158.04667 0.0299732 0 balt 7927.38430 7926.62880 7927.84800 0.3529638 0 ralt 8321.50092 8308.54320 8332.01280 5.3511229 0 dpth 1.62805 1.60000 1.70000 0.0449238 0 droll 0.38323 0.20000 0.70000 0.117Reading from stdin 6209 0 thd 88.75945 88.70000 88.80000 0.0490986 0 dad 0.94756 0.70000 1.00000 0.0748586 0 latg 21.27019 21.26992 21.27044 0.0001497 0 long -158.09439 -158.14619 -158.04218 0.0300171 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8358.96570 8358.95014 8358.97538 0.0065941 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 17.00000 17.00000 17.00000 0.0000000 0 lhv_aten 11.00000 11.00000 11.00000 0.0000000 0 lvh_aten 11.00000 11.00000 11.00000 0.0000000 0 lvv_aten 17.00000 17.00000 17.00000 0.0000000 0 chh_aten 22.00000 22.00000 22.00000 0.0000000 0 chv_aten 16.00000 16.00000 16.00000 0.0000000 0 cvh_aten 16.00000 16.00000 16.00000 0.0000000 0 cvv_aten 22.00000 22.00000 22.00000 0.0000000 0 hwlat 21.27014 21.26987 21.27038 0.0001451 0 hwlon -158.09145 -158.14321 -158.03967 0.0299187 0 hwalt 8359.27250 8358.80943 8360.73251 0.4271311 0 hwev 216.28800 216.13300 216.37700 0.0744630 0 hwnv 1.16185 0.89400 1.61700 0.1400535 0 hwuv 0.07155 -0.05400 0.23500 0.0857046 0 hwroll 0.09842 -0.10437 0.45044 0.1088939 0 hwpitch 1.55205 1.51062 1.60400 0.0279026 0 hwhdg 88.61534 88.54980 88.73108 0.0358222 0 hwtrc 89.69221 89.57135 89.76322 0.0371943 0 hwtgs 216.28427 216.12500 216.37500 0.0741944 0 Finished final analysis of data... Average Barometric Altitude = 7927.384295121976 Average Radar Altitude = 8321.500917073146 Average GPS Altitude = 8358.965703807255 >>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/sardine0/airops/OPS/QA_Proc/pbn_decode.pl /export/air31/airops/6395/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: 327 Number of valid data points = 327 Start time GPS data = 24686271.00000261 End time GPS data = 24686321.00000321 Positions and Distances Start position = 21.2700082 -158.1212684 8366.998 End position = 21.2702604 -158.0692353 8366.502 Loxodromic Heading (deg) = 89.7037919 Loxodromic Distance (km) = 5400.1823701 Geodesic Heading (deg) = 89.6943540 Geodesic Distance (km) = 5400.1822298 Peg latitude and longitude = 21.2701382 -158.0942164 Peg heading = 89.6964733 Rotation matrix First row = -0.864597350 0.374859208 0.334592284 Second row = -0.347667290 -0.927068608 0.140254240 Third row = 0.362765596 0.004936652 0.931867347 Translation vector Vector = -0.90613 -0.36437 -15495.69380 Local Radius of Curvature = 6380947.292532770 startrec dgps_pacrim2k: 107 41843 **i_ts: 107 24686272.50600000 24686271.00000261 1.505997393280268 Start and end pulse used = 107 40028 gmt sec s e = 24686272.50600000 24686320.00000000 dgps sec s = 24686271.00000261 24686320.00000321 r_tsv: -5526209.829357618 -2216344.480607412 2302298.257824737 r_tev: -5522237.873828896 -2226168.938793111 2302352.694968707 lat/lon r_geodis: 0.3712289775194217 -2.760172386273320 0.3712381081092658 -2.758392600989121 10583.26287225188 Ellipsoidal delta s (m) = 0.2651051544864078 DGPS... lat/lon r_geodis: -3.1648954223621963E-07 -8.4596004312578450E-04 -3.6028332996772156E-08 8.1261233825601770E-04 10583.26309779226 Delta s on reference surface = 0.2651051601360753 r_inugpsant_arm: 15.10700000000000 1.057000000000000 -2.961000000000000 Enter a name for the peg data file. peg filename:/export/air35/airops/6395/cm6395_p.peg DGPS Peg latitude and longitude = 21.2701382 -158.0942164 DGPS Peg heading = 89.6964733 == dgps_egi == r_hwheadf: 88.59924316406250 -3.8452148437500000E-02 5.4931640625000000E-03 107 Making final angle restore...Honeywell 88.59924316406250 r_hwheadf restore: 0.0000000000000000E+00 Time comparison statistics between GPS and radar clocks Average difference = 4.6121871984147712E-04 Standard deviation of difference = 2.9067768421206318E-04 Making fits... Vertical fit coefficients = 8369.507111141511 -1.3961879573002989E-02 5.1040686610548391E-06 Cross track fit coefficients = -0.7376539925423439 5.0317555036837318E-02 -6.6105986553005721E-04 Along track fit coefficients = 0.2942850757127838 2.4693515377133962E-03 -1.6983115265207935E-04 avg alt (1): 8369.507111141511 alt r_avgrefh: 8369.624996553428 i_yearind p-hgt t-hgt: 20008 8369.507111141511 0.0000000E+00 avg_ralt tmp: 8369.506835937500 8369.507 enter proc_alt: -1.000000 yaw: -1.109508 88.60473632812500 89.71424466989063 107 tape #: 90 PRF at the start of the run: 840.0537748040234 840.0538 Miscellaneous Information Start range = 8930.489852849636 Start ground range = 3115.285594459322 Time orgin = 24686272.38099190 Pulse spacing = 0.2572996020473780 First frame = 1845292 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. /export/air35/airops/6395/cm6395_p.mocomp Name of the H-pol motion compensation file? /export/air35/airops/6395/cm6395_p.mocomph Name of the V-pol motion compensation file? /export/air35/airops/6395/cm6395_p.mocompv How many lines per polarization? 21000 + 1 + 10001 + 20001 + 30001 + 40001 ********************************************* * * * 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. /export/air35/airops/6395/cm6395_p.par Enter the raw data file name. /export/air31/airops/6395/p_hh Enter the motion compensation file name. /export/air35/airops/6395/cm6395_p.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_p_hh.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_p_hh.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_p_hh.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_p_hh.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1073 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (43.79179,0.0000000E+00) (-59.71608,0.0000000E+00) (-3.981072,0.0000000E+00) attenuation (dB): 12.00000 no_loop: 64 Pulse#/no_loop: 1 1073 2.4340347E+09 plot_x: 327 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 93.85586 Power RMS: 3.1250000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 49294.30 Amp. RMS: 231.3093 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 48.59983 Phase RMS: 0.1432055 Incoherent PH 1st: 48.60584 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 93.85900 CalTone Power Coherently dB : 93.85586 Incoherent PW - Coherent PW : 3.1433105E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 49310.05 CalTone Amplitude Coherently : 49294.30 Incoherent Amp.- Coherent Amp. : 15.74219 ------------ *** ------------ running time (sec): 11.29 ********** 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. /export/air35/airops/6395/cm6395_p.par Enter the raw data file name. /export/air31/airops/6395/p_hv Enter the motion compensation file name. /export/air35/airops/6395/cm6395_p.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_p_hv.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_p_hv.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_p_hv.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_p_hv.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1073 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (-12.55943,0.0000000E+00) (-42.70207,0.0000000E+00) (20.09509,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1073 1.2638376E+09 plot_x: 327 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 91.74895 Power RMS: 5.958516 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 44968.02 Amp. RMS: 16631.96 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -139.5479 Phase RMS: 96.55556 Incoherent PH 1st: -384.7023 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 93.76839 CalTone Power Coherently dB : 91.74895 Incoherent PW - Coherent PW : 2.019440 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 46377.80 CalTone Amplitude Coherently : 44968.02 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 1409.781 ------------ *** ------------ running time (sec): 10.36 ********** 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. /export/air35/airops/6395/cm6395_p.par Enter the raw data file name. /export/air31/airops/6395/p_vh Enter the motion compensation file name. /export/air35/airops/6395/cm6395_p.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_p_vh.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_p_vh.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_p_vh.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_p_vh.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1073 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (37.90998,0.0000000E+00) (-29.92894,0.0000000E+00) (19.95262,0.0000000E+00) attenuation (dB): 6.000001 no_loop: 64 Pulse#/no_loop: 1 1073 2.3305052E+09 plot_x: 327 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 93.44405 Power RMS: 0.4941059 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 47081.51 Amp. RMS: 2409.634 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 48.72555 Phase RMS: 0.1697309 Incoherent PH 1st: 274.5313 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 93.53722 CalTone Power Coherently dB : 93.44405 Incoherent PW - Coherent PW : 9.3177795E-02 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 47499.04 CalTone Amplitude Coherently : 47081.51 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 417.5273 ------------ *** ------------ running time (sec): 10.31 ********** 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. /export/air35/airops/6395/cm6395_p.par Enter the raw data file name. /export/air31/airops/6395/p_vv Enter the motion compensation file name. /export/air35/airops/6395/cm6395_p.mocomp Enter a file name for the range spectrum: /export/air35/airops/6395/db_p_vv.dat Enter a file name for the sampled caltone power: /export/air35/airops/6395/1st_p_vv.dat Enter histogram of the caltone power file name: /export/air35/airops/6395/pw_hist_p_vv.dat Enter histogram of the caltone phase file name: /export/air35/airops/6395/ph_hist_p_vv.dat Enter start range line #: 1 How many lines of raw data? 21000 How many lines to be processed? 21000 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 : 3771 5947 Prediction cal_bin 1073 start/end pulse: 1 20928 64-Loop Count: 326 cmplx raw(1 2 3): (10.02374,0.0000000E+00) (-25.05936,0.0000000E+00) (-15.03562,0.0000000E+00) attenuation (dB): 14.00000 no_loop: 64 Pulse#/no_loop: 1 1073 3.3306258E+09 plot_x: 327 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1073 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 95.20763 Power RMS: 0.3890594 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 57645.03 Amp. RMS: 2163.848 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -92.89627 Phase RMS: 1.160044 Incoherent PH 1st: -92.95895 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 95.21967 CalTone Power Coherently dB : 95.20763 Incoherent PW - Coherent PW : 1.2031555E-02 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 57716.34 CalTone Amplitude Coherently : 57645.03 Incoherent Amp.- Coherent Amp. : 71.31250 ------------ *** ------------ running time (sec): 10.40 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: -1.527200 4.0054216E-05 z fit: constant and linear terms: 7.6946139E-02 4.9350515E-06 y and z standard deviations (meters) 0.4663815 0.1291082 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 = 4 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 1.7333655E-02 1.7080346E-02 1.7877128E-02 1.8289234E-02 Differences = -3.1143241E-04 -5.6474097E-04 2.3204088E-04 6.4414740E-04 PATCH NUMER 2 First line = 3493 Averages = 1.7665684E-02 1.8230656E-02 1.8063407E-02 1.7336851E-02 Differences = -1.5845709E-04 4.0651485E-04 2.3926608E-04 -4.8729032E-04 PATCH NUMER 3 First line = 6985 Averages = 1.8211896E-02 1.7543137E-02 1.7114026E-02 1.7679712E-02 Differences = 5.7470798E-04 -9.4050542E-05 -5.2316114E-04 4.2524189E-05 PATCH NUMER 4 First line = 10477 Averages = 1.7137673E-02 1.7498326E-02 1.8248394E-02 1.8733596E-02 Differences = -7.6680258E-04 -4.0614977E-04 3.4391880E-04 8.2912110E-04 PATCH NUMER 5 First line = 13969 last black mod_64: 54 21000 13969 8192 Averages = 1.8017845E-02 1.8594611E-02 1.9116474E-02 1.9255929E-02 Differences = -7.2837994E-04 -1.5161373E-04 3.7024915E-04 5.0970353E-04 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.pp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_p.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8930.490 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) = 0.0000000E+00 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? /export/air31/airops/6395/p_hh Name of the mocomp data file? /export/air35/airops/6395/cm6395_p.mocomph Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.3410002E-02 reading motion compensation data WAYNE read motion compen 0.4670400 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1485940 start range comp, time = 0.637 WAYNE PREV 0.6446781 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.828 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 48.50771307945251 ATTN ifrq ipol ln 0 1 8192 12.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4997405 shift in azimuth *fractional pixel= -0.4997405 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1345982551574707E-02 TESTING 0.0000000E+00 -1.5103954E-02 0.2196686 WAYNE Motion comp. added to patch, time = 15.98035895824432 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3620128631591797E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -1.5103954E-02 0.2196686 HEY,dt,fract,ye,pe -0.4997405 1.000000 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 269.6013809442520 Writing 4192 lines of data to file WAYNE write output data 1.274176955223083 ==w out 1 0 2001 0 WAYNE PROCESS 335.3792929649353 ==w out 2 4195 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 0.831 seconds. before reading done reading WAYNE load raw data , time = 46.28131997585297 ATTN ifrq ipol ln 0 1 11684 12.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4997367 shift in azimuth *fractional pixel= -0.4997367 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1522054672241211E-02 WAYNE Motion comp. added to patch, time = 15.86559593677521 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3319721221923828E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 276.8284800052643 Writing 4192 lines of data to file WAYNE write output data 1.290799021720886 ==w out 2 0 2001 0 WAYNE PROCESS 340.2818220853806 ==w out 3 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 0.842 seconds. before reading done reading WAYNE load raw data , time = 46.71140706539154 ATTN ifrq ipol ln 0 1 18668 12.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4997202 shift in azimuth *fractional pixel= -0.4997202 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1291027069091797E-02 WAYNE Motion comp. added to patch, time = 15.85158693790436 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4100542068481445E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 278.4296489953995 Writing 4192 lines of data to file WAYNE write output data 1.468544006347656 ==w out 4 0 2001 0 WAYNE PROCESS 342.4765830039978 ==w out 5 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 0.852 seconds. before reading done reading WAYNE load raw data , time = 47.27242505550385 ATTN ifrq ipol ln 0 1 20999 12.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4997168 shift in azimuth *fractional pixel= -0.4997168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1265039443969727E-02 WAYNE Motion comp. added to patch, time = 15.97521293163300 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3150444030761719E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 277.7408009767532 Writing 4192 lines of data to file WAYNE write output data 1.466830015182495 ==w out 5 0 2001 0 WAYNE PROCESS 342.4705389738083 ==w out 6 4195 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 0.844 seconds. before reading done reading WAYNE load raw data , time = 47.45024001598358 ATTN ifrq ipol ln 0 1 15176 12.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4997382 shift in azimuth *fractional pixel= -0.4997382 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1214017868041992E-02 WAYNE Motion comp. added to patch, time = 15.91442406177521 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.3469924926757813E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 278.2176979780197 Writing 4192 lines of data to file WAYNE write output data 1.460417032241821 ==w out 3 0 2001 0 WAYNE PROCESS 343.0581610202789 ==w out 4 4195 1 3474075 0 2 3473746 0 3 3471829 0 4 3473625 0 5 3470037 0 6 3474225 0 7 2245077 0 8 3474107 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 19.31657004356384 WAYNE LOOP TIME: 371.3752189874649 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_p.hh_j /export/air35/airops/6395/cm6395_p.mocomph /export/air35/airops/6395/cm6395_p.dop /export/air35/airops/6395/cm6395_p.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 6.662100 0.5144000 mocompfile /export/air35/airops/6395/cm6395_p.mocomph dopfile /export/air35/airops/6395/cm6395_p.dop globalfile /export/air35/airops/6395/cm6395_p.glb /export/air35/airops/6395/cm6395_p.glb 38 deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 after deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 lat1 lon1: 320 21.29803 -158.1418 20960 last ra n_ns ns: 8930.963 0 1 21279 20960 lati loni: 21279 21.29809 -158.0255 21279 1 center ra n_ns ns: 17451.79 1279 1279 10799 20960 lati loni: 10799 21.37468 -158.0828 10799 2560 Updated paramater header in /export/air31/airops/6395/cm6395_p.hh_j WAYNE FINAL PROCESS 373.6935980319977 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_p.hh_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_p.dop Name of the deskew file? /export/air31/airops/6395/deskew.ph Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_p.hh Name of the line output file? /export/air35/airops/6395/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.735367059707642 Deskewing 5 patches Processing block number 1 DEBUG -476 320.3400 -476.3240 -0.4997405 -0.4997405 patch iptc,sj,dgj,dgi,id: 1 1 -476 -476 0 half line dmj dgc: 0 2001 320 -476 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 -476 -476 2096 half line dmj dgc: 1 2001 320 -476 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 -455 320.3149 -454.5481 -0.4997367 -0.4997367 2097 3514 21 1396 patch iptc,sj,dgj,dgi,id: 2 3514 -455 -476 1396 half line dmj dgc: 0 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3514 2097 Zeroing lines in arrays Total # of output lines = 2 3513 3514 5610 0 2096 patch iptc,sj,dgj,dgi,id: 2 5610 -455 -455 2096 half line dmj dgc: 1 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5610 3514 Zeroing lines in arrays Total # of output lines = 2 5609 Processing block number 3 DEBUG -464 318.7099 -464.1468 -0.4997382 -0.4997382 5610 6997 -9 1396 patch iptc,sj,dgj,dgi,id: 3 6997 -464 -455 1396 half line dmj dgc: 0 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6997 5610 Zeroing lines in arrays Total # of output lines = 3 6996 6997 9093 0 2096 patch iptc,sj,dgj,dgi,id: 3 9093 -464 -464 2096 half line dmj dgc: 1 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9093 6997 Zeroing lines in arrays Total # of output lines = 3 9092 Processing block number 4 DEBUG -474 323.8953 -474.1446 -0.4997202 -0.4997202 9093 10479 -10 1396 patch iptc,sj,dgj,dgi,id: 4 10479 -474 -464 1396 half line dmj dgc: 0 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10479 9093 Zeroing lines in arrays Total # of output lines = 4 10478 10479 12575 0 2096 patch iptc,sj,dgj,dgi,id: 4 287 -474 -474 2096 half line dmj dgc: 1 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10479 287 Zeroing lines in arrays Total # of output lines = 4 12574 Processing block number 5 DEBUG -452 333.7014 -451.9829 -0.4997168 -0.4997168 287 544 22 235 patch iptc,sj,dgj,dgi,id: 5 544 -452 -474 235 half line dmj dgc: 0 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 544 287 Zeroing lines in arrays Total # of output lines = 5 12831 544 2640 0 2096 patch iptc,sj,dgj,dgi,id: 5 2640 -452 -452 2096 half line dmj dgc: 1 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 2640 544 Zeroing lines in arrays Total # of output lines = 5 14927 ia dmi dgi: 2640 334 -452 Writing the last 2882 lines last half sj>s1 5522 2640 14927 WAYNE done patche 54.24412703514099 Total # of output lines = 17809 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 17809 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 54.51321506500244 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.pp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_p.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8930.490 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) = 0.0000000E+00 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? /export/air31/airops/6395/p_hv Name of the mocomp data file? /export/air35/airops/6395/cm6395_p.mocomph Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.2916002E-02 reading motion compensation data WAYNE read motion compen 0.4673520 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1485430 start range comp, time = 0.639 WAYNE PREV 0.6435870 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 0.833 seconds. before reading done reading WAYNE load raw data , time = 46.15235996246338 ATTN ifrq ipol ln 0 2 11684 8.000000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4997367 shift in azimuth *fractional pixel= -0.4997367 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1253952980041504E-02 WAYNE Motion comp. added to patch, time = 15.76956105232239 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.2959709167480469E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 261.7341200113297 Writing 4192 lines of data to file WAYNE write output data 1.299407005310059 ==w out 2 0 2001 0 WAYNE PROCESS 324.9706259965897 ==w out 3 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 0.858 seconds. before reading done reading WAYNE load raw data , time = 46.34008109569550 ATTN ifrq ipol ln 0 2 18668 8.000000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4997202 shift in azimuth *fractional pixel= -0.4997202 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1222004890441895E-02 WAYNE Motion comp. added to patch, time = 15.76287102699280 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3699998855590820E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.5383479595184 Writing 4192 lines of data to file WAYNE write output data 1.280567049980164 ==w out 4 0 2001 0 WAYNE PROCESS 332.9371200799942 ==w out 5 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.816 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 46.79125905036926 ATTN ifrq ipol ln 0 2 8192 8.000000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4997405 shift in azimuth *fractional pixel= -0.4997405 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1243939399719238E-02 TESTING 0.0000000E+00 -1.5103954E-02 0.2196686 WAYNE Motion comp. added to patch, time = 15.86237394809723 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4149417877197266E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -1.5103954E-02 0.2196686 HEY,dt,fract,ye,pe -0.4997405 1.000000 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 271.0951350927353 Writing 4192 lines of data to file WAYNE write output data 1.505005002021790 ==w out 1 0 2001 0 WAYNE PROCESS 335.2690129280090 ==w out 2 4195 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 0.848 seconds. before reading done reading WAYNE load raw data , time = 46.50849199295044 ATTN ifrq ipol ln 0 2 15176 8.000000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4997382 shift in azimuth *fractional pixel= -0.4997382 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1270046234130859E-02 WAYNE Motion comp. added to patch, time = 15.84169495105743 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3870468139648438E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.3939800262451 Writing 4192 lines of data to file WAYNE write output data 1.511626005172729 ==w out 3 0 2001 0 WAYNE PROCESS 335.2711910009384 ==w out 4 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 0.866 seconds. before reading done reading WAYNE load raw data , time = 48.23180401325226 ATTN ifrq ipol ln 0 2 20999 8.000000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4997168 shift in azimuth *fractional pixel= -0.4997168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1175990104675293E-02 WAYNE Motion comp. added to patch, time = 15.97291600704193 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4700164794921875E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 270.5103989839554 Writing 4192 lines of data to file WAYNE write output data 1.544258952140808 ==w out 5 0 2001 0 WAYNE PROCESS 336.2747139930725 ==w out 6 4195 1 3473950 0 2 3474336 0 3 3473169 0 4 3473738 0 5 3473648 0 6 3474473 0 7 3472527 0 8 3474045 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 17.65116703510284 WAYNE LOOP TIME: 362.5695439577103 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_p.hv_j /export/air35/airops/6395/cm6395_p.mocomph /export/air35/airops/6395/cm6395_p.dop /export/air35/airops/6395/cm6395_p.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 6.662100 0.5144000 mocompfile /export/air35/airops/6395/cm6395_p.mocomph dopfile /export/air35/airops/6395/cm6395_p.dop globalfile /export/air35/airops/6395/cm6395_p.glb /export/air35/airops/6395/cm6395_p.glb 38 deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 after deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 lat1 lon1: 320 21.29803 -158.1418 20960 last ra n_ns ns: 8930.963 0 1 21279 20960 lati loni: 21279 21.29809 -158.0255 21279 1 center ra n_ns ns: 17451.79 1279 1279 10799 20960 lati loni: 10799 21.37468 -158.0828 10799 2560 Updated paramater header in /export/air31/airops/6395/cm6395_p.hv_j WAYNE FINAL PROCESS 364.7480139732361 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_p.hv_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_p.dop Name of the deskew file? /export/air31/airops/6395/deskew.ph Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_p.hv Name of the line output file? /export/air35/airops/6395/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.601801037788391 Deskewing 5 patches Processing block number 1 DEBUG -476 320.3400 -476.3240 -0.4997405 -0.4997405 patch iptc,sj,dgj,dgi,id: 1 1 -476 -476 0 half line dmj dgc: 0 2001 320 -476 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 -476 -476 2096 half line dmj dgc: 1 2001 320 -476 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 -455 320.3149 -454.5481 -0.4997367 -0.4997367 2097 3514 21 1396 patch iptc,sj,dgj,dgi,id: 2 3514 -455 -476 1396 half line dmj dgc: 0 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3514 2097 Zeroing lines in arrays Total # of output lines = 2 3513 3514 5610 0 2096 patch iptc,sj,dgj,dgi,id: 2 5610 -455 -455 2096 half line dmj dgc: 1 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5610 3514 Zeroing lines in arrays Total # of output lines = 2 5609 Processing block number 3 DEBUG -464 318.7099 -464.1468 -0.4997382 -0.4997382 5610 6997 -9 1396 patch iptc,sj,dgj,dgi,id: 3 6997 -464 -455 1396 half line dmj dgc: 0 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6997 5610 Zeroing lines in arrays Total # of output lines = 3 6996 6997 9093 0 2096 patch iptc,sj,dgj,dgi,id: 3 9093 -464 -464 2096 half line dmj dgc: 1 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9093 6997 Zeroing lines in arrays Total # of output lines = 3 9092 Processing block number 4 DEBUG -474 323.8953 -474.1446 -0.4997202 -0.4997202 9093 10479 -10 1396 patch iptc,sj,dgj,dgi,id: 4 10479 -474 -464 1396 half line dmj dgc: 0 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10479 9093 Zeroing lines in arrays Total # of output lines = 4 10478 10479 12575 0 2096 patch iptc,sj,dgj,dgi,id: 4 287 -474 -474 2096 half line dmj dgc: 1 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10479 287 Zeroing lines in arrays Total # of output lines = 4 12574 Processing block number 5 DEBUG -452 333.7014 -451.9829 -0.4997168 -0.4997168 287 544 22 235 patch iptc,sj,dgj,dgi,id: 5 544 -452 -474 235 half line dmj dgc: 0 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 544 287 Zeroing lines in arrays Total # of output lines = 5 12831 544 2640 0 2096 patch iptc,sj,dgj,dgi,id: 5 2640 -452 -452 2096 half line dmj dgc: 1 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 2640 544 Zeroing lines in arrays Total # of output lines = 5 14927 ia dmi dgi: 2640 334 -452 Writing the last 2882 lines last half sj>s1 5522 2640 14927 WAYNE done patche 63.02975404262543 Total # of output lines = 17809 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 17809 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 63.30772197246552 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.pp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_p.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8930.490 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) = 0.0000000E+00 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? /export/air31/airops/6395/p_vh Name of the mocomp data file? /export/air35/airops/6395/cm6395_p.mocompv Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.2949005E-02 reading motion compensation data WAYNE read motion compen 0.4672530 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1487220 start range comp, time = 0.859 WAYNE PREV 0.6431560 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 1.025 seconds. before reading done reading WAYNE load raw data , time = 45.94113898277283 ATTN ifrq ipol ln 0 3 11684 6.000000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1275053024291992E-02 WAYNE Motion comp. added to patch, time = 15.87260103225708 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3379325866699219E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 265.5280190706253 Writing 4192 lines of data to file WAYNE write output data 1.311651945114136 ==w out 2 0 2001 0 WAYNE PROCESS 328.6687299013138 ==w out 3 4195 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 1.035 seconds. before reading done reading WAYNE load raw data , time = 46.24799191951752 ATTN ifrq ipol ln 0 3 15176 6.000000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1108994483947754E-02 WAYNE Motion comp. added to patch, time = 15.86388301849365 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4300813674926758E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 266.5068110227585 Writing 4192 lines of data to file WAYNE write output data 1.344952940940857 ==w out 3 0 2001 0 WAYNE PROCESS 329.9788639545441 ==w out 4 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1.049 seconds. before reading done reading WAYNE load raw data , time = 46.41276800632477 ATTN ifrq ipol ln 0 3 18668 6.000000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1186957359313965E-02 WAYNE Motion comp. added to patch, time = 15.87897896766663 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.3820400238037109E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.5871150493622 Writing 4192 lines of data to file WAYNE write output data 1.456716060638428 ==w out 4 0 2001 0 WAYNE PROCESS 332.3508490324020 ==w out 5 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 1.018 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 46.51267194747925 ATTN ifrq ipol ln 0 3 8192 6.000000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1111974716186523E-02 TESTING 0.0000000E+00 -1.4999102E-02 0.2196834 WAYNE Motion comp. added to patch, time = 15.99346101284027 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4489164352416992E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -1.4999102E-02 0.2196834 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 268.9903409481049 Writing 4192 lines of data to file WAYNE write output data 1.552105069160461 ==w out 1 0 2001 0 WAYNE PROCESS 333.0637620687485 ==w out 2 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 1.057 seconds. before reading done reading WAYNE load raw data , time = 47.60693502426147 ATTN ifrq ipol ln 0 3 20999 6.000000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1188030242919922E-02 WAYNE Motion comp. added to patch, time = 15.91234803199768 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4759769439697266E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.2464680671692 Writing 4192 lines of data to file WAYNE write output data 1.543339014053345 ==w out 5 0 2001 0 WAYNE PROCESS 333.3244930505753 ==w out 6 4195 1 3459469 0 2 3474224 0 3 3474363 0 4 3471204 0 5 3473142 0 6 3474012 0 7 3472158 0 8 3474562 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 21.15612006187439 WAYNE LOOP TIME: 363.0889840126038 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_p.vh_j /export/air35/airops/6395/cm6395_p.mocompv /export/air35/airops/6395/cm6395_p.dop /export/air35/airops/6395/cm6395_p.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 6.662100 0.5144000 mocompfile /export/air35/airops/6395/cm6395_p.mocompv dopfile /export/air35/airops/6395/cm6395_p.dop globalfile /export/air35/airops/6395/cm6395_p.glb /export/air35/airops/6395/cm6395_p.glb 38 deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 after deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 lat1 lon1: 320 21.29803 -158.1418 20960 last ra n_ns ns: 8930.963 0 1 21279 20960 lati loni: 21279 21.29809 -158.0255 21279 1 center ra n_ns ns: 17451.79 1279 1279 10799 20960 lati loni: 10799 21.37468 -158.0828 10799 2560 Updated paramater header in /export/air31/airops/6395/cm6395_p.vh_j WAYNE FINAL PROCESS 366.0182780027390 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_p.vh_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_p.dop Name of the deskew file? /export/air31/airops/6395/deskew.pv Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_p.vh Name of the line output file? /export/air35/airops/6395/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 4.349984049797058 Deskewing 5 patches Processing block number 1 DEBUG -476 320.8398 -475.8243 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -476 -476 0 half line dmj dgc: 0 2001 320 -476 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 -476 -476 2096 half line dmj dgc: 1 2001 320 -476 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 -455 320.8147 -454.0484 0.0000000E+00 0.0000000E+00 2097 3514 21 1396 patch iptc,sj,dgj,dgi,id: 2 3514 -455 -476 1396 half line dmj dgc: 0 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3514 2097 Zeroing lines in arrays Total # of output lines = 2 3513 3514 5610 0 2096 patch iptc,sj,dgj,dgi,id: 2 5610 -455 -455 2096 half line dmj dgc: 1 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5610 3514 Zeroing lines in arrays Total # of output lines = 2 5609 Processing block number 3 DEBUG -464 319.2097 -463.6470 0.0000000E+00 0.0000000E+00 5610 6997 -9 1396 patch iptc,sj,dgj,dgi,id: 3 6997 -464 -455 1396 half line dmj dgc: 0 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6997 5610 Zeroing lines in arrays Total # of output lines = 3 6996 6997 9093 0 2096 patch iptc,sj,dgj,dgi,id: 3 9093 -464 -464 2096 half line dmj dgc: 1 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9093 6997 Zeroing lines in arrays Total # of output lines = 3 9092 Processing block number 4 DEBUG -474 324.3950 -473.6448 0.0000000E+00 0.0000000E+00 9093 10479 -10 1396 patch iptc,sj,dgj,dgi,id: 4 10479 -474 -464 1396 half line dmj dgc: 0 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10479 9093 Zeroing lines in arrays Total # of output lines = 4 10478 10479 12575 0 2096 patch iptc,sj,dgj,dgi,id: 4 287 -474 -474 2096 half line dmj dgc: 1 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10479 287 Zeroing lines in arrays Total # of output lines = 4 12574 Processing block number 5 DEBUG -452 334.2011 -451.4832 0.0000000E+00 0.0000000E+00 287 544 22 235 patch iptc,sj,dgj,dgi,id: 5 544 -452 -474 235 half line dmj dgc: 0 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 544 287 Zeroing lines in arrays Total # of output lines = 5 12831 544 2640 0 2096 patch iptc,sj,dgj,dgi,id: 5 2640 -452 -452 2096 half line dmj dgc: 1 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 2640 544 Zeroing lines in arrays Total # of output lines = 5 14927 ia dmi dgi: 2640 334 -452 Writing the last 2882 lines last half sj>s1 5522 2640 14927 WAYNE done patche 67.42406809329987 Total # of output lines = 17809 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 17809 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 67.62528502941132 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /export/air31/airops/6395/sensor.pp_2000 Please enter the name of the parameter file /export/air35/airops/6395/cm6395_p.par hddt: 90 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 21000 lines Keeping 4192 data points per patch Near range (m) = 8930.490 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) = 0.0000000E+00 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? /export/air31/airops/6395/p_vv Name of the mocomp data file? /export/air35/airops/6395/cm6395_p.mocompv Output file name w/o ext? /export/air35/airops/6395/cm6395_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:/export/air31/airops/6395/ output filename:/export/air31/airops/6395/cm6395_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? /export/air31/airops/6395/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.3487000E-02 reading motion compensation data WAYNE read motion compen 0.4719680 write parameters ... bw f0 fc fslp dt npts pul: 20.00000 1.250000 11.25000 2.000000 2.2222223E-02 450 10.00000 analog chirp >/ 96032 90 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.1495130 start range comp, time = 0.680 WAYNE PREV 0.6491790 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 5 by # 5 ==w out 6 -1998 PROCESSING KID# 7 ..... WAYNE IS IN Processing 6 to 5 by # 6 ==w out 6 -1998 PROCESSING KID# 8 ..... WAYNE IS IN Processing 6 to 5 by # 7 ==w out 6 -1998 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 0.875 seconds. before reading done reading WAYNE load raw data , time = 46.44702899456024 ATTN ifrq ipol ln 0 4 11684 14.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1397957801818848E-02 WAYNE Motion comp. added to patch, time = 15.84744298458099 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3950338363647461E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 263.2821209430695 Writing 4192 lines of data to file WAYNE write output data 1.266886949539185 ==w out 2 0 2001 0 WAYNE PROCESS 326.8590279817581 ==w out 3 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 0.899 seconds. before reading done reading WAYNE load raw data , time = 46.95159196853638 ATTN ifrq ipol ln 0 4 18668 14.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1343955993652344E-02 WAYNE Motion comp. added to patch, time = 15.86363399028778 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4269819259643555E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 270.9243240356445 Writing 4192 lines of data to file WAYNE write output data 1.545588970184326 ==w out 4 0 2001 0 WAYNE PROCESS 335.3004469871521 ==w out 5 4195 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 0.888 seconds. before reading done reading WAYNE load raw data , time = 46.23100900650024 ATTN ifrq ipol ln 0 4 15176 14.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1075019836425781E-02 WAYNE Motion comp. added to patch, time = 15.88723897933960 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3709535598754883E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.8870940208435 Writing 4192 lines of data to file WAYNE write output data 1.577260971069336 ==w out 3 0 2001 0 WAYNE PROCESS 335.5976649522781 ==w out 4 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -1.9074300E-02 2.6796000E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.862 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 46.89063704013824 ATTN ifrq ipol ln 0 4 8192 14.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1092066764831543E-02 TESTING 0.0000000E+00 -1.4999102E-02 0.2196834 WAYNE Motion comp. added to patch, time = 15.86922800540924 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3549795150756836E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -1.4999102E-02 0.2196834 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -1.9074300E-02 2.6796000E-02 WAYNE Azimuth compression done, time = 271.4886859655380 Writing 4192 lines of data to file WAYNE write output data 1.626402974128723 ==w out 1 0 2001 0 WAYNE PROCESS 335.8900860548019 ==w out 2 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 12808 20999 patch# 5 reference line: 16903 0.909 seconds. before reading done reading WAYNE load raw data , time = 48.05628097057343 ATTN ifrq ipol ln 0 4 20999 14.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1335015296936035E-02 WAYNE Motion comp. added to patch, time = 15.91017794609070 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.3639202117919922E-03 AZ Wavl Br: 0.6832900 20.00000 9.4872929E-02 847.2618 2464.674 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 270.3291389942169 Writing 4192 lines of data to file WAYNE write output data 1.621213078498840 ==w out 5 0 2001 0 WAYNE PROCESS 335.9321080446243 ==w out 6 4195 1 3474408 0 2 3473510 0 3 3474147 0 4 3474564 0 5 3472287 0 6 3473588 0 7 3474227 0 8 3474784 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 20960kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 0 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 15.09302997589111 WAYNE LOOP TIME: 360.0916409492493 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air31/airops/6395/cm6395_p.vv_j /export/air35/airops/6395/cm6395_p.mocompv /export/air35/airops/6395/cm6395_p.dop /export/air35/airops/6395/cm6395_p.glb 2560 20960 update intf hdr ha: 8369.500 UPDATE: 2560 20960 6.662100 0.5144000 mocompfile /export/air35/airops/6395/cm6395_p.mocompv dopfile /export/air35/airops/6395/cm6395_p.dop globalfile /export/air35/airops/6395/cm6395_p.glb /export/air35/airops/6395/cm6395_p.glb 38 deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 after deskew line ra ha trc: 165.0458 320 8930.963 8369.500 89.71424 lat1 lon1: 320 21.29803 -158.1418 20960 last ra n_ns ns: 8930.963 0 1 21279 20960 lati loni: 21279 21.29809 -158.0255 21279 1 center ra n_ns ns: 17451.79 1279 1279 10799 20960 lati loni: 10799 21.37468 -158.0828 10799 2560 Updated paramater header in /export/air31/airops/6395/cm6395_p.vv_j WAYNE FINAL PROCESS 361.9959650039673 ********************************************* ***** ***** ***** 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 = 8 4192 1 4192 1 4192 1 4192 1 4192 1 0 0 0 0 0 0 Name of data file to be deskewed? /export/air31/airops/6395/cm6395_p.vv_j Name of the doppler parameter file? /export/air35/airops/6395/cm6395_p.dop Name of the deskew file? /export/air31/airops/6395/deskew.pv Line up to another frequency [y/n]? n Name of the output file? /export/air35/airops/6395/cm6395_p.vv Name of the line output file? /export/air35/airops/6395/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.450505971908569 Deskewing 5 patches Processing block number 1 DEBUG -476 320.8398 -475.8243 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -476 -476 0 half line dmj dgc: 0 2001 320 -476 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 -476 -476 2096 half line dmj dgc: 1 2001 320 -476 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 -455 320.8147 -454.0484 0.0000000E+00 0.0000000E+00 2097 3514 21 1396 patch iptc,sj,dgj,dgi,id: 2 3514 -455 -476 1396 half line dmj dgc: 0 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3514 2097 Zeroing lines in arrays Total # of output lines = 2 3513 3514 5610 0 2096 patch iptc,sj,dgj,dgi,id: 2 5610 -455 -455 2096 half line dmj dgc: 1 5493 320 -476 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5610 3514 Zeroing lines in arrays Total # of output lines = 2 5609 Processing block number 3 DEBUG -464 319.2097 -463.6470 0.0000000E+00 0.0000000E+00 5610 6997 -9 1396 patch iptc,sj,dgj,dgi,id: 3 6997 -464 -455 1396 half line dmj dgc: 0 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 6997 5610 Zeroing lines in arrays Total # of output lines = 3 6996 6997 9093 0 2096 patch iptc,sj,dgj,dgi,id: 3 9093 -464 -464 2096 half line dmj dgc: 1 8985 319 -476 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9093 6997 Zeroing lines in arrays Total # of output lines = 3 9092 Processing block number 4 DEBUG -474 324.3950 -473.6448 0.0000000E+00 0.0000000E+00 9093 10479 -10 1396 patch iptc,sj,dgj,dgi,id: 4 10479 -474 -464 1396 half line dmj dgc: 0 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10479 9093 Zeroing lines in arrays Total # of output lines = 4 10478 10479 12575 0 2096 patch iptc,sj,dgj,dgi,id: 4 287 -474 -474 2096 half line dmj dgc: 1 12477 324 -476 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10479 287 Zeroing lines in arrays Total # of output lines = 4 12574 Processing block number 5 DEBUG -452 334.2011 -451.4832 0.0000000E+00 0.0000000E+00 287 544 22 235 patch iptc,sj,dgj,dgi,id: 5 544 -452 -474 235 half line dmj dgc: 0 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 544 287 Zeroing lines in arrays Total # of output lines = 5 12831 544 2640 0 2096 patch iptc,sj,dgj,dgi,id: 5 2640 -452 -452 2096 half line dmj dgc: 1 14808 334 -476 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 2640 544 Zeroing lines in arrays Total # of output lines = 5 14927 ia dmi dgi: 2640 334 -452 Writing the last 2882 lines last half sj>s1 5522 2640 14927 WAYNE done patche 68.14138400554657 Total # of output lines = 17809 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 17809 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.32 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 68.41488802433014 Enter single look lines filename: Enter single look image filename: Enter output lines filename: Enter number of looks: ns np nlloks: 2560 17809 18 Multi-looking lines.dat file... Total number of lines written to output file: 989 *************************************** ***** ***** ***** 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: 0 min. window size : 5947 MIN window samp: 2749 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 20.72681 28.74659 Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the number of looks in azimuth. amplitude ratio and phase = 1.177679 27.65549 ns min window: 2560 10240 ns complex: 2560 20480 17802 989 18 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.1532191 11.02587 146 5.875 3046 -5.219 11.02587 0.010188 8.327488 0.111746 r_peak,r_snr = 0.1241076 5.036846 346 -16.438 3046 -10.156 5.03685 0.135091 3.184158 0.112695 r_peak,r_snr = 0.1888196 9.646879 446 -0.594 3046 8.938 9.64688 0.011820 3.595538 -0.068347 r_peak,r_snr = 0.1279902 6.037047 646 -7.969 3046 -4.188 6.03705 0.465816 25.485128 -3.366372 r_peak,r_snr = 0.1218072 7.247475 746 -14.563 3046 6.313 7.24748 0.034736 2.360550 0.204131 r_peak,r_snr = 0.1243367 5.090646 946 -9.313 3046 13.188 5.09065 0.101654 16.144623 0.973383 r_peak,r_snr = 0.1243058 5.132763 1346 13.094 3046 -5.500 5.13276 0.036316 2.695714 -0.007220 r_peak,r_snr = 9.1934308E-02 4.583993 1446 -0.094 3046 -0.344 4.58399 0.045071 2.788819 -0.195838 r_peak,r_snr = 0.1261045 6.925257 1546 -11.031 3046 -5.094 6.92526 0.081221 9.287726 -0.805212 r_peak,r_snr = 0.1510741 6.823802 1646 11.094 3046 0.250 6.82380 0.013396 3.405049 0.081426 r_peak,r_snr = 0.1471619 7.953626 1846 3.188 3046 -5.594 7.95363 0.009617 1.921930 -0.078895 r_peak,r_snr = 0.1290944 8.927070 1946 -9.156 3046 -15.781 8.92707 0.021691 9.470464 -0.339284 r_peak,r_snr = 0.1614832 8.204885 2046 1.625 3046 -6.625 8.20489 0.017473 1.833657 -0.066364 At line = 3400 Reading in data.... r_peak,r_snr = 0.2115587 6.930413 146 1.094 3446 1.875 6.93041 0.012991 0.703200 -0.017708 r_peak,r_snr = 0.1597113 4.960260 346 13.094 3446 5.125 4.96026 0.012294 3.485399 0.034917 r_peak,r_snr = 0.1454591 7.492183 446 6.969 3446 -0.813 7.49218 0.109193 43.215366 -1.825826 r_peak,r_snr = 0.1289558 5.973812 646 -5.156 3446 2.250 5.97381 0.026210 3.173984 -0.113298 r_peak,r_snr = 0.1351586 8.258575 746 -8.625 3446 9.688 8.25858 0.034732 17.293295 -0.390986 r_peak,r_snr = 0.1965972 3.116458 846 -0.156 3446 13.719 3.11646 0.040655 13.012721 0.500597 r_peak,r_snr = 0.1632589 2.956131 946 -10.813 3446 1.219 2.95613 0.647937 26.302019 3.816958 r_peak,r_snr = 0.1494807 7.259508 1046 -2.656 3446 9.813 7.25951 0.015590 5.187916 -0.126317 r_peak,r_snr = 0.1247128 5.757116 1146 13.563 3446 -3.250 5.75712 0.062067 2.051870 -0.124597 r_peak,r_snr = 8.3831951E-02 2.190332 1246 -14.594 3446 7.906 2.19033 0.641797 17.034813 1.921137 r_peak,r_snr = 0.1287022 5.766971 1346 8.406 3446 5.094 5.76697 0.020746 32.313931 0.584711 r_peak,r_snr = 0.1290409 6.965056 1546 -9.594 3446 11.781 6.96506 0.049289 9.615527 -0.506049 r_peak,r_snr = 0.1680432 5.448601 1646 10.500 3446 -1.875 5.44860 0.020980 18.193197 0.375817 r_peak,r_snr = 0.1180431 6.482350 1746 3.969 3446 -4.156 6.48235 0.059113 44.807671 -1.496290 r_peak,r_snr = 0.1451186 5.844635 1846 -9.281 3446 12.250 5.84464 0.009089 11.119141 -0.168053 r_peak,r_snr = 0.1370771 4.934477 1946 -4.031 3446 -5.000 4.93448 0.034098 7.255561 -0.406122 At line = 3800 Reading in data.... r_peak,r_snr = 0.2418676 9.751637 246 -0.063 3846 3.844 9.75164 0.008702 1.716596 0.055469 r_peak,r_snr = 0.1222323 6.131487 346 8.344 3846 -15.781 6.13149 0.135393 13.325497 -0.929581 r_peak,r_snr = 0.1497694 5.942966 446 9.031 3846 -6.250 5.94297 0.017081 10.113490 -0.204361 r_peak,r_snr = 0.1187234 9.666930 546 -10.875 3846 12.813 9.66693 0.019242 1.855673 -0.110821 r_peak,r_snr = 0.1563418 3.779675 646 6.344 3846 2.781 3.77968 0.021439 1.087481 0.019566 r_peak,r_snr = 0.1527064 8.376130 746 -2.094 3846 -6.594 8.37613 0.011276 4.907509 0.104804 r_peak,r_snr = 0.1320675 4.645101 846 -14.094 3846 -6.281 4.64510 0.285514 65.199120 -3.813429 r_peak,r_snr = 0.1494670 6.607052 1146 12.500 3846 -9.219 6.60705 0.028156 19.952238 -0.609910 r_peak,r_snr = 0.2040967 4.708728 1346 -6.031 3846 -0.781 4.70873 0.148771 6.442940 -0.270104 r_peak,r_snr = 0.1271144 7.777237 1446 10.063 3846 -10.188 7.77724 0.034534 21.368412 0.340639 r_peak,r_snr = 9.1055848E-02 4.434208 1546 -5.938 3846 -3.156 4.43421 0.019295 19.757982 -0.118577 r_peak,r_snr = 8.7514333E-02 6.026310 1846 9.406 3846 12.188 6.02631 0.025073 3.710527 0.141700 r_peak,r_snr = 0.1664139 5.804554 2046 4.500 3846 12.781 5.80455 0.033370 25.968805 0.818281 At line = 4200 Reading in data.... r_peak,r_snr = 8.1882648E-02 3.247708 146 -12.750 4246 4.781 3.24771 0.641210 45.723721 -5.113872 r_peak,r_snr = 8.9171946E-02 4.795454 246 12.406 4246 -16.813 4.79545 0.065551 6.858003 -0.134957 r_peak,r_snr = 0.1224217 5.401744 346 -6.938 4246 -15.781 5.40174 0.187116 48.327385 -2.029270 r_peak,r_snr = 0.1324687 4.228258 446 -14.250 4246 1.250 4.22826 0.015154 1.756459 0.038923 r_peak,r_snr = 0.2148674 5.057701 746 5.031 4246 -11.750 5.05770 0.009948 11.654999 0.067288 r_peak,r_snr = 0.1422222 5.455680 946 -12.625 4246 -4.250 5.45568 0.351075 44.002220 3.787189 r_peak,r_snr = 0.1222428 4.619499 1246 13.688 4246 0.813 4.61950 0.030668 23.892269 0.562509 r_peak,r_snr = 0.1919709 7.062283 1346 -4.844 4246 3.188 7.06228 0.018521 8.412636 -0.208328 r_peak,r_snr = 0.1585525 4.742280 1446 12.813 4246 14.844 4.74228 0.022440 6.853800 -0.216525 r_peak,r_snr = 0.1388309 7.782280 1746 -1.875 4246 0.188 7.78228 0.015002 64.373558 0.352695 r_peak,r_snr = 0.1250566 5.612066 1846 11.719 4246 3.813 5.61207 0.011922 5.721562 -0.140893 r_peak,r_snr = 0.1206940 9.052956 1946 -4.563 4246 -9.156 9.05296 0.206485 21.955032 2.019557 r_peak,r_snr = 0.1608970 6.141999 2046 -4.250 4246 7.219 6.14200 0.220705 50.169212 -3.218780 At line = 4600 Reading in data.... r_peak,r_snr = 0.3245096 2.972192 146 10.813 4646 -12.781 2.97219 0.009598 4.064278 -0.127885 r_peak,r_snr = 0.1516372 5.369536 246 -8.594 4646 -12.219 5.36954 0.062420 4.767372 0.109870 r_peak,r_snr = 0.3046491 6.057516 346 2.688 4646 -0.375 6.05752 0.013096 0.370322 -0.021804 r_peak,r_snr = 0.1206774 5.133650 446 11.813 4646 6.219 5.13365 0.019099 2.125126 -0.074621 r_peak,r_snr = 0.2149299 9.931334 546 -0.063 4646 -0.750 9.93133 0.018656 12.001079 0.420324 r_peak,r_snr = 0.1477172 5.333547 646 0.094 4646 5.781 5.33355 0.016113 2.087343 -0.102108 r_peak,r_snr = 0.1673466 3.773462 846 8.656 4646 7.344 3.77346 0.134964 3.545351 0.368453 r_peak,r_snr = 0.2185625 12.41222 946 -0.281 4646 -9.688 12.41222 0.005602 0.811690 -0.029541 r_peak,r_snr = 0.1511787 3.908621 1046 0.938 4646 -6.750 3.90862 0.019426 2.446080 -0.135607 r_peak,r_snr = 0.1034698 3.468108 1546 -10.188 4646 4.344 3.46811 0.015380 4.519913 0.145440 r_peak,r_snr = 0.1058628 2.574216 1646 -3.938 4646 12.750 2.57422 0.026763 3.468408 0.175581 r_peak,r_snr = 0.2057239 9.723110 1746 0.813 4646 6.000 9.72311 0.006825 8.144522 -0.139283 r_peak,r_snr = 9.1911346E-02 2.402113 1846 -9.063 4646 6.938 2.40211 0.009686 6.923733 0.104680 r_peak,r_snr = 9.1830060E-02 3.800745 1946 -2.781 4646 4.688 3.80075 0.060352 15.299542 -0.391457 r_peak,r_snr = 0.1217048 6.889075 2046 3.688 4646 7.000 6.88907 0.098376 38.153278 1.812315 At line = 5000 Reading in data.... r_peak,r_snr = 0.1288421 4.275169 146 -3.688 5046 8.344 4.27517 0.024103 1.772732 -0.145501 r_peak,r_snr = 0.5405698 5.512981 246 0.406 5046 4.844 5.51298 0.002475 0.397490 -0.011622 r_peak,r_snr = 0.4069607 5.770790 346 0.000 5046 -10.750 5.77079 0.001887 0.718371 0.000907 r_peak,r_snr = 0.2122584 6.134449 446 -0.063 5046 -6.250 6.13445 0.008825 1.071455 -0.031132 r_peak,r_snr = 0.2512841 3.368076 546 -0.281 5046 0.156 3.36808 0.013068 1.219773 0.077222 r_peak,r_snr = 0.3546308 6.751334 646 -0.313 5046 -6.781 6.75133 0.005995 1.681384 -0.039283 r_peak,r_snr = 0.3033774 4.457970 746 0.188 5046 0.250 4.45797 0.007487 2.625093 0.049700 r_peak,r_snr = 0.2195241 4.978178 846 -0.188 5046 8.938 4.97818 0.028964 1.308614 0.157271 r_peak,r_snr = 0.2594273 5.518338 946 -3.000 5046 -8.156 5.51834 0.006695 0.445277 -0.012456 r_peak,r_snr = 0.3716490 5.748877 1046 0.125 5046 -2.031 5.74888 0.012028 2.205254 -0.098656 r_peak,r_snr = 0.2693520 7.153861 1146 -0.688 5046 -2.969 7.15386 0.012558 1.167449 -0.034518 r_peak,r_snr = 0.1022193 4.779142 1246 -10.063 5046 7.281 4.77914 0.022819 5.998086 -0.275699 r_peak,r_snr = 0.4168330 5.008837 1346 -5.844 5046 9.219 5.00884 0.004789 0.149203 0.009306 r_peak,r_snr = 0.2101012 4.769736 1446 5.500 5046 -10.531 4.76974 0.053647 11.636002 0.554469 r_peak,r_snr = 0.1127986 7.347878 1746 4.281 5046 5.063 7.34788 0.011387 2.607226 -0.070882 r_peak,r_snr = 6.7256160E-02 2.183469 1846 5.344 5046 10.813 2.18347 0.114747 3.600380 -0.388534 r_peak,r_snr = 0.1726580 3.372402 1946 -6.906 5046 -5.031 3.37240 0.010241 0.997709 -0.033480 r_peak,r_snr = 9.2636511E-02 6.841605 2046 3.531 5046 -7.156 6.84161 0.018771 63.339687 0.341698 At line = 5400 Reading in data.... r_peak,r_snr = 0.3817661 6.695234 146 0.469 5446 -2.188 6.69523 0.008127 0.887950 -0.057227 r_peak,r_snr = 0.5408971 3.426754 346 -0.156 5446 -1.719 3.42675 0.005027 0.366416 0.008608 r_peak,r_snr = 0.3862806 4.265716 446 0.094 5446 0.438 4.26572 0.008047 1.209236 0.018591 r_peak,r_snr = 0.1574468 6.582115 546 0.594 5446 5.875 6.58212 0.021489 7.430274 -0.289084 r_peak,r_snr = 0.3159153 5.116303 646 0.219 5446 1.375 5.11630 0.005586 0.217769 0.002704 r_peak,r_snr = 0.3790113 6.073749 746 0.063 5446 0.188 6.07375 0.009836 3.428402 0.134316 r_peak,r_snr = 0.1885513 7.070644 846 0.219 5446 0.063 7.07064 0.014184 0.638517 0.047429 r_peak,r_snr = 0.3782713 11.28609 946 0.031 5446 -0.781 11.28609 0.001620 0.143346 -0.000350 r_peak,r_snr = 0.6244728 4.393178 1046 -0.281 5446 -8.219 4.39318 0.005017 1.142016 0.024937 r_peak,r_snr = 0.3083059 10.97291 1146 -0.125 5446 1.250 10.97291 0.004089 0.971640 0.028126 r_peak,r_snr = 0.2289927 5.186605 1246 0.156 5446 4.156 5.18661 0.016282 1.139791 -0.088562 r_peak,r_snr = 0.6573595 3.645529 1346 -4.844 5446 13.219 3.64553 0.005497 6.060606 -0.032285 r_peak,r_snr = 0.3662849 2.285501 1446 -0.250 5446 0.250 2.28550 0.016210 0.455639 -0.012453 r_peak,r_snr = 0.1406606 7.402926 1546 -1.031 5446 -2.813 7.40293 0.009246 0.709867 -0.028310 r_peak,r_snr = 0.1989685 3.888685 1646 -1.813 5446 2.656 3.88869 0.043229 0.588044 0.059310 r_peak,r_snr = 0.1444301 9.235298 1746 -1.094 5446 -11.000 9.23530 0.014862 0.937541 0.008387 r_peak,r_snr = 0.1610773 9.409326 1846 1.219 5446 0.000 9.40933 0.059387 0.518344 0.053869 r_peak,r_snr = 0.1576997 4.644816 1946 9.281 5446 3.031 4.64482 0.013145 2.045289 -0.022246 r_peak,r_snr = 0.1783819 5.014347 2046 -4.719 5446 1.750 5.01435 0.021127 1.336138 0.022907 At line = 5800 Reading in data.... r_peak,r_snr = 0.3205632 7.172596 146 0.656 5846 5.219 7.17260 0.010613 0.709575 0.037243 r_peak,r_snr = 0.3585278 4.080843 246 0.125 5846 -12.750 4.08084 0.006269 0.742912 0.000122 r_peak,r_snr = 0.5961502 2.712500 346 -0.594 5846 -0.750 2.71250 0.019902 1.499872 -0.152905 r_peak,r_snr = 0.3069155 5.856950 446 0.344 5846 2.125 5.85695 0.008842 0.973627 0.048640 r_peak,r_snr = 0.3179912 2.797013 546 0.750 5846 10.219 2.79701 0.064505 8.958809 0.694590 r_peak,r_snr = 0.3527840 4.066335 646 -0.719 5846 -2.750 4.06633 0.008275 0.639634 0.005818 r_peak,r_snr = 0.5386198 2.609695 746 0.844 5846 11.844 2.60969 0.011878 0.740699 0.043136 r_peak,r_snr = 0.5984769 2.796845 946 -0.594 5846 -0.188 2.79684 0.006078 0.172668 -0.001262 r_peak,r_snr = 0.7185164 2.565879 1046 0.031 5846 4.188 2.56588 0.013045 0.065503 -0.017840 r_peak,r_snr = 0.2311868 9.892336 1146 0.406 5846 9.219 9.89234 0.009939 3.835491 -0.114745 r_peak,r_snr = 0.4981278 4.558983 1246 -0.219 5846 11.750 4.55898 0.005502 1.761296 0.021738 r_peak,r_snr = 0.1198726 6.119865 1346 -2.281 5846 15.031 6.11986 1.208347 20.070333 -4.861529 r_peak,r_snr = 0.3219720 3.863518 1446 0.438 5846 3.813 3.86352 0.018530 1.336979 -0.122261 r_peak,r_snr = 0.2459292 6.579344 1546 -0.031 5846 -10.219 6.57934 0.006444 5.258681 0.045474 r_peak,r_snr = 0.3538765 3.019370 1646 0.375 5846 1.219 3.01937 0.038964 1.186860 -0.174018 r_peak,r_snr = 0.2188384 2.968363 1746 -7.094 5846 5.375 2.96836 0.037989 1.366323 0.172819 r_peak,r_snr = 0.2121772 7.014914 1946 -0.563 5846 6.375 7.01491 0.086147 0.699902 0.048825 r_peak,r_snr = 0.3197751 3.572611 2046 0.063 5846 -3.125 3.57261 0.062244 0.421707 -0.082195 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.4115828 7.286656 146 0.000 3046 -0.750 7.28666 0.001616 0.061074 -0.002019 r_peak,r_snr = 0.5685173 12.41939 246 -0.031 3046 0.500 12.41939 0.000825 0.057804 0.000889 r_peak,r_snr = 0.4481301 10.48426 346 -0.094 3046 0.281 10.48426 0.002311 0.161500 0.004923 r_peak,r_snr = 0.5849932 10.83329 446 0.125 3046 -0.250 10.83329 0.000825 0.014715 0.000248 r_peak,r_snr = 0.3675820 4.972752 546 -0.031 3046 0.656 4.97275 0.003993 0.120123 0.002610 r_peak,r_snr = 0.6129153 17.31412 646 0.063 3046 -0.125 17.31412 0.000522 0.010311 -0.000169 r_peak,r_snr = 0.5882948 9.857500 746 -0.125 3046 0.125 9.85750 0.001119 0.040187 0.002531 r_peak,r_snr = 0.5973780 5.719332 846 0.125 3046 0.250 5.71933 0.001208 0.021273 0.000120 r_peak,r_snr = 0.4256092 2.216717 946 0.156 3046 -0.219 2.21672 0.004803 0.355052 0.005810 r_peak,r_snr = 0.1468256 6.978486 1046 0.000 3046 0.563 6.97849 0.006330 0.480333 -0.011115 r_peak,r_snr = 0.2111000 14.13300 1146 0.281 3046 1.094 14.13300 0.005715 0.311408 -0.020779 r_peak,r_snr = 0.3771907 40.04090 1246 0.000 3046 0.031 40.04090 0.001183 0.032630 -0.000897 r_peak,r_snr = 0.3525074 3.085252 1446 4.156 3046 -12.250 3.08525 0.008509 0.376258 -0.013684 r_peak,r_snr = 0.1508458 6.944599 1646 0.125 3046 0.250 6.94460 0.027516 2.158663 -0.133231 r_peak,r_snr = 0.1558486 7.217438 1746 0.250 3046 -1.875 7.21744 0.009821 33.471260 -0.323793 r_peak,r_snr = 0.1592168 8.870975 1846 2.094 3046 7.063 8.87098 0.013527 5.758970 -0.037535 r_peak,r_snr = 0.2612758 19.78727 2046 0.000 3046 1.031 19.78727 0.002718 0.198013 -0.001224 At line = 3400 Reading in data.... r_peak,r_snr = 0.7115648 4.503994 146 -0.063 3446 -0.844 4.50399 0.000847 0.026042 0.000284 r_peak,r_snr = 0.6943538 7.494974 246 0.000 3446 1.250 7.49497 0.000723 0.033464 0.000299 r_peak,r_snr = 0.4796324 3.834872 346 -0.031 3446 1.719 3.83487 0.002231 0.640101 -0.004838 r_peak,r_snr = 0.4889746 49.05951 446 0.000 3446 -0.313 49.05951 0.000565 0.012906 0.000147 r_peak,r_snr = 0.4658900 9.364449 546 0.188 3446 0.031 9.36445 0.001632 0.071012 -0.002022 r_peak,r_snr = 0.3929783 7.055630 646 0.031 3446 -0.250 7.05563 0.001955 0.053822 0.001853 r_peak,r_snr = 0.5839732 9.029479 746 0.094 3446 0.281 9.02948 0.000986 0.022653 -0.000474 r_peak,r_snr = 0.5498189 3.843765 846 -0.156 3446 -0.219 3.84376 0.001952 0.059419 -0.002192 r_peak,r_snr = 0.2918054 3.304476 946 -0.031 3446 -0.219 3.30448 0.005317 1.519437 0.000308 r_peak,r_snr = 0.1229210 6.382741 1146 5.875 3446 7.781 6.38274 0.126145 4.021018 -0.149076 r_peak,r_snr = 0.3223060 6.777244 1246 -0.219 3446 0.219 6.77724 0.003017 0.116692 0.006169 r_peak,r_snr = 0.4599382 8.957895 1346 -0.250 3446 0.813 8.95790 0.002174 0.291925 0.008230 r_peak,r_snr = 0.1128069 4.121125 1446 12.563 3446 -1.188 4.12113 1.374739 51.529526 7.765946 r_peak,r_snr = 0.1714142 6.164245 1546 -11.500 3446 -7.781 6.16424 0.015405 10.428943 0.168777 r_peak,r_snr = 0.1175709 5.703454 1646 -9.375 3446 -3.156 5.70345 0.037725 5.802897 -0.375111 r_peak,r_snr = 0.1278168 6.307659 1946 0.469 3446 -11.563 6.30766 0.054521 2.133030 -0.275255 r_peak,r_snr = 0.3076493 13.34188 2046 -0.031 3446 -0.125 13.34188 0.003874 0.192147 0.002754 At line = 3800 Reading in data.... r_peak,r_snr = 0.6975561 7.678578 146 0.031 3846 -1.250 7.67858 0.000806 0.044059 0.001410 r_peak,r_snr = 0.5761053 10.16564 246 0.000 3846 -0.750 10.16564 0.000694 0.094383 -0.000629 r_peak,r_snr = 0.2586462 16.15808 346 -0.125 3846 0.031 16.15808 0.003855 0.202648 0.000800 r_peak,r_snr = 0.6287728 15.83723 446 -0.094 3846 -0.125 15.83723 0.000452 0.025740 0.000045 r_peak,r_snr = 0.3067755 11.01527 546 -0.063 3846 -0.188 11.01527 0.002552 0.060192 -0.000696 r_peak,r_snr = 0.6329891 4.972042 646 0.063 3846 -0.781 4.97204 0.000740 0.018394 -0.000136 r_peak,r_snr = 0.4533300 10.53921 746 0.000 3846 -0.219 10.53921 0.001699 0.056453 0.001401 r_peak,r_snr = 0.5907991 5.380555 846 0.125 3846 -0.125 5.38056 0.000924 0.047089 0.000766 r_peak,r_snr = 0.4462434 4.575982 946 -0.063 3846 -0.844 4.57598 0.002197 0.223499 -0.000924 r_peak,r_snr = 0.4412435 2.473155 1046 0.250 3846 0.688 2.47315 0.004515 0.133320 0.002634 r_peak,r_snr = 0.2395612 15.15728 1146 0.156 3846 0.188 15.15728 0.003827 0.292006 -0.011454 r_peak,r_snr = 0.3909618 18.52960 1246 -0.063 3846 0.250 18.52960 0.001647 0.059463 0.000922 r_peak,r_snr = 9.8839648E-02 5.879404 1846 -6.500 3846 -3.969 5.87940 0.087576 1.024282 -0.128287 r_peak,r_snr = 0.1229745 6.171981 1946 9.344 3846 2.219 6.17198 0.023312 0.972186 0.014111 r_peak,r_snr = 0.1341289 6.867303 2046 13.656 3846 5.813 6.86730 0.012180 1.397881 -0.002854 At line = 4200 Reading in data.... r_peak,r_snr = 0.4757623 7.585980 146 -0.031 4246 -7.781 7.58598 0.002241 0.438134 -0.011332 r_peak,r_snr = 0.3927893 10.93733 246 0.000 4246 -0.750 10.93733 0.001749 0.174141 -0.002162 r_peak,r_snr = 0.4542237 13.89627 346 0.156 4246 -0.750 13.89627 0.001343 0.082175 0.002500 r_peak,r_snr = 0.4536159 13.95345 446 0.125 4246 0.125 13.95345 0.001103 0.039370 -0.000495 r_peak,r_snr = 0.4306970 15.85334 546 0.000 4246 -0.813 15.85334 0.001266 0.030227 0.000431 r_peak,r_snr = 0.6834544 8.970170 646 -0.094 4246 -0.063 8.97017 0.000508 0.011999 0.000106 r_peak,r_snr = 0.6329669 13.08193 746 0.125 4246 0.250 13.08193 0.000563 0.043674 -0.000119 r_peak,r_snr = 0.4667615 4.220853 846 -0.219 4246 -2.781 4.22085 0.003946 0.156367 -0.010600 r_peak,r_snr = 0.3409538 6.572026 946 -0.031 4246 -0.250 6.57203 0.002709 0.245130 0.001624 r_peak,r_snr = 0.6768060 3.116267 1046 -0.156 4246 0.750 3.11627 0.001062 0.035505 -0.001108 r_peak,r_snr = 0.2674070 11.07245 1146 -0.156 4246 0.781 11.07245 0.003697 0.449571 -0.001680 r_peak,r_snr = 0.2254569 15.73891 1246 -0.063 4246 0.844 15.73891 0.002510 0.150152 -0.001761 r_peak,r_snr = 0.6328871 4.073018 1346 -2.719 4246 1.844 4.07302 0.001231 0.034101 -0.000439 r_peak,r_snr = 0.3838641 2.240326 1446 3.969 4246 0.188 2.24033 0.034851 0.903969 -0.003700 r_peak,r_snr = 0.1983168 7.963271 1646 2.219 4246 -1.750 7.96327 0.012240 1.796031 -0.009708 r_peak,r_snr = 0.1697318 4.516084 1746 6.156 4246 5.813 4.51608 0.070852 0.861653 0.069297 r_peak,r_snr = 0.1280456 6.245120 1846 3.531 4246 -14.781 6.24512 0.050195 1.810015 -0.050571 r_peak,r_snr = 0.1686848 11.38578 2046 0.188 4246 -1.656 11.38578 0.018924 0.787645 -0.018451 At line = 4600 Reading in data.... r_peak,r_snr = 0.8318067 5.812574 146 0.000 4646 -0.219 5.81257 0.000205 0.004213 0.000002 r_peak,r_snr = 0.8362603 20.58916 246 0.063 4646 -0.219 20.58916 0.000138 0.004691 -0.000064 r_peak,r_snr = 0.6714407 5.487457 346 0.688 4646 -2.969 5.48746 0.002690 0.458829 0.013679 r_peak,r_snr = 0.5560343 35.23009 446 0.063 4646 0.063 35.23009 0.000547 0.011332 -0.000043 r_peak,r_snr = 0.3366391 15.01225 546 0.063 4646 0.250 15.01225 0.002182 0.082977 0.000123 r_peak,r_snr = 0.5448474 19.74024 646 -0.031 4646 -0.313 19.74024 0.000669 0.029763 -0.000448 r_peak,r_snr = 0.7164937 15.03104 746 0.000 4646 -0.219 15.03104 0.000423 0.009336 -0.000289 r_peak,r_snr = 0.4187664 3.262639 846 -0.031 4646 -0.781 3.26264 0.013416 0.473077 -0.053785 r_peak,r_snr = 0.2730218 11.00145 946 -0.250 4646 0.250 11.00145 0.004216 0.352500 0.014642 r_peak,r_snr = 0.7689602 4.373534 1046 0.063 4646 0.031 4.37353 0.000459 0.015658 -0.000115 r_peak,r_snr = 0.5864304 14.47660 1146 -0.125 4646 0.125 14.47660 0.000727 0.040688 -0.000628 r_peak,r_snr = 0.3402968 29.68884 1246 0.031 4646 0.750 29.68884 0.002120 0.064489 0.000088 r_peak,r_snr = 0.6736631 5.850982 1346 -2.844 4646 0.156 5.85098 0.000860 0.022696 -0.000443 r_peak,r_snr = 0.2193053 3.955745 1446 1.313 4646 2.000 3.95575 0.059002 1.733254 -0.123331 r_peak,r_snr = 0.1496915 12.50835 1546 -0.031 4646 -5.625 12.50835 0.009155 1.154508 -0.008366 r_peak,r_snr = 0.1808141 7.705852 1646 -3.750 4646 15.813 7.70585 0.529819 16.785078 -2.942869 r_peak,r_snr = 0.1661414 10.16014 1746 0.375 4646 2.781 10.16014 0.048705 3.280584 -0.362420 r_peak,r_snr = 0.1339078 7.680420 1946 1.125 4646 11.531 7.68042 0.020041 1.071094 0.017277 r_peak,r_snr = 0.1081119 6.843192 2046 -4.156 4646 -14.781 6.84319 0.018334 2.159015 -0.072237 At line = 5000 Reading in data.... r_peak,r_snr = 0.8730289 23.92022 146 0.094 5046 -0.063 23.92022 0.000088 0.001816 0.000006 r_peak,r_snr = 0.6144768 8.550306 246 -0.156 5046 0.031 8.55031 0.000844 0.031405 -0.001239 r_peak,r_snr = 0.6143026 5.314038 346 0.031 5046 1.781 5.31404 0.001366 0.113397 -0.001717 r_peak,r_snr = 0.7079032 14.26507 446 -0.063 5046 -0.156 14.26507 0.000360 0.006713 -0.000013 r_peak,r_snr = 0.6303381 11.22464 546 0.031 5046 -0.156 11.22464 0.000450 0.007143 -0.000033 r_peak,r_snr = 0.7425282 14.41393 646 0.063 5046 -0.719 14.41393 0.000340 0.010727 0.000242 r_peak,r_snr = 0.6589428 6.659968 746 -0.031 5046 0.219 6.65997 0.000640 0.013281 0.000399 r_peak,r_snr = 0.3247329 2.131876 846 10.250 5046 -5.625 2.13188 0.043984 0.899265 -0.083112 r_peak,r_snr = 0.3260891 5.775924 946 -0.031 5046 -1.781 5.77592 0.007015 1.001041 0.044553 r_peak,r_snr = 0.7962646 6.681880 1046 0.156 5046 0.313 6.68188 0.000417 0.007806 -0.000148 r_peak,r_snr = 0.4963758 15.29926 1146 0.000 5046 0.750 15.29926 0.001125 0.063713 -0.001679 r_peak,r_snr = 0.6355927 16.89800 1246 -0.281 5046 -1.219 16.89800 0.000547 0.033677 -0.000152 r_peak,r_snr = 0.6821973 4.191339 1346 -3.813 5046 0.813 4.19134 0.001407 0.017981 0.000326 r_peak,r_snr = 0.3518111 2.266159 1446 1.656 5046 -0.188 2.26616 0.040947 1.438018 -0.037901 r_peak,r_snr = 0.2369682 16.99306 1646 -0.125 5046 0.531 16.99306 0.003850 0.616735 -0.020826 r_peak,r_snr = 0.1563922 9.252809 1746 0.375 5046 0.906 9.25281 0.009238 0.824372 -0.026365 r_peak,r_snr = 0.1328779 8.770045 1846 0.375 5046 2.844 8.77005 0.012074 2.840887 -0.001485 r_peak,r_snr = 0.2272333 6.013643 1946 0.156 5046 -1.250 6.01364 0.043740 4.634481 0.404343 At line = 5400 Reading in data.... r_peak,r_snr = 0.8868992 22.31708 146 0.063 5446 0.031 22.31708 0.000090 0.001089 -0.000018 r_peak,r_snr = 0.8055787 12.98808 246 -0.063 5446 0.188 12.98808 0.000219 0.008376 0.000169 r_peak,r_snr = 0.5191339 3.678459 346 -0.094 5446 -0.188 3.67846 0.001424 0.548422 -0.000177 r_peak,r_snr = 0.5639607 12.13082 446 0.031 5446 -0.219 12.13082 0.000589 0.023665 0.000127 r_peak,r_snr = 0.4528543 30.31830 546 0.063 5446 0.219 30.31830 0.000957 0.026792 -0.000619 r_peak,r_snr = 0.6911924 21.29857 646 -0.031 5446 -0.188 21.29857 0.000302 0.004828 -0.000037 r_peak,r_snr = 0.7106027 15.92349 746 -0.031 5446 0.281 15.92349 0.000345 0.011735 0.000010 r_peak,r_snr = 0.1962407 8.004639 846 -0.250 5446 -2.688 8.00464 0.026357 3.481373 0.239159 r_peak,r_snr = 0.3557128 14.76752 946 0.063 5446 -0.063 14.76752 0.002198 0.254991 -0.005788 r_peak,r_snr = 0.8292115 5.424759 1046 -0.031 5446 -0.250 5.42476 0.000420 0.010818 0.000017 r_peak,r_snr = 0.3233528 15.25089 1146 -0.063 5446 -1.125 15.25089 0.002032 0.171593 0.005644 r_peak,r_snr = 0.5788239 10.08582 1246 -0.094 5446 1.031 10.08582 0.000905 0.039732 -0.001723 r_peak,r_snr = 0.7654445 3.817885 1346 -3.875 5446 -0.781 3.81789 0.000909 0.220415 -0.001968 r_peak,r_snr = 0.4848244 1.944964 1446 -1.781 5446 5.250 1.94496 0.009147 0.133930 0.002949 r_peak,r_snr = 0.4210664 11.49704 1546 -0.656 5446 11.594 11.49704 0.001543 0.213286 -0.000738 r_peak,r_snr = 0.5639536 3.801218 1646 -0.313 5446 1.156 3.80122 0.002607 0.106487 0.000576 r_peak,r_snr = 0.1344409 9.444418 1746 0.125 5446 2.688 9.44442 0.045489 0.768879 0.145140 r_peak,r_snr = 0.2215815 12.44759 1846 0.031 5446 0.844 12.44759 0.024228 0.861712 -0.108902 r_peak,r_snr = 0.2428311 4.721003 1946 0.094 5446 0.781 4.72100 0.026222 7.525682 0.358901 r_peak,r_snr = 0.6566839 3.760329 2046 0.000 5446 -1.875 3.76033 0.001722 0.153893 0.010033 At line = 5800 Reading in data.... r_peak,r_snr = 0.7702466 21.72063 146 0.063 5846 -0.219 21.72063 0.000202 0.006256 0.000115 r_peak,r_snr = 0.5379516 10.65263 246 -0.156 5846 0.219 10.65263 0.001222 0.049196 0.000754 r_peak,r_snr = 0.5593901 3.064424 346 -1.125 5846 -0.813 3.06442 0.009349 0.208824 -0.015719 r_peak,r_snr = 0.5802366 20.71495 446 0.094 5846 -0.656 20.71495 0.000529 0.013428 0.000069 r_peak,r_snr = 0.6309434 9.742605 546 0.094 5846 -0.281 9.74261 0.000518 0.010911 0.000187 r_peak,r_snr = 0.6362231 9.274557 646 0.000 5846 -0.313 9.27456 0.000515 0.020568 -0.000295 r_peak,r_snr = 0.6283024 3.588479 746 0.281 5846 -0.031 3.58848 0.001870 0.114135 0.003246 r_peak,r_snr = 0.1605735 5.526572 846 8.563 5846 -0.156 5.52657 0.026839 2.097861 -0.180738 r_peak,r_snr = 0.6968954 2.727345 946 -0.125 5846 -0.219 2.72734 0.001815 0.445257 0.005269 r_peak,r_snr = 0.8055543 2.686836 1046 -0.188 5846 -0.156 2.68684 0.000645 0.030569 0.000515 r_peak,r_snr = 0.2724943 13.22076 1146 0.125 5846 -0.781 13.22076 0.002719 0.176036 0.003337 r_peak,r_snr = 0.5828648 4.669460 1246 -0.438 5846 -3.750 4.66946 0.005799 0.692120 -0.049916 r_peak,r_snr = 0.1504498 5.414549 1346 4.250 5846 3.906 5.41455 0.021611 0.408468 -0.045203 r_peak,r_snr = 0.4129138 2.933210 1446 -0.281 5846 -0.781 2.93321 0.006590 2.054157 -0.011380 r_peak,r_snr = 0.3515742 7.395848 1546 -0.406 5846 2.594 7.39585 0.008242 1.271203 -0.034531 r_peak,r_snr = 0.7326211 2.866755 1646 0.250 5846 1.219 2.86675 0.000846 0.020217 -0.001394 r_peak,r_snr = 0.3323576 2.986732 1746 0.813 5846 -13.219 2.98673 0.016892 7.111032 0.231542 r_peak,r_snr = 0.7650458 5.748405 1846 -0.094 5846 0.750 5.74841 0.000528 0.073476 -0.002706 r_peak,r_snr = 0.4213176 7.181321 1946 0.031 5846 -0.188 7.18132 0.002960 0.121328 -0.000550 r_peak,r_snr = 0.4967183 4.218246 2046 0.063 5846 -0.938 4.21825 0.005206 0.214633 0.016224 /u/sardine0/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: 989 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/sardine0/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 : 90 20.00000 8369.500 10.00000 $tphase,phasedat: 215.9000 27.70000 $rphase,phasevh,phasehv: 188.2000 48.70000 -139.5000 Reading data size. 989 989 2560 2560 Enter H Ant pattern file: POLSAR H-ANT:/u/sardine0/airops/OPS/data_proc/AIRSAR.PH Enter V Ant pattern file: POLSAR V-ANT:/u/sardine0/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: 21000 Cross pol phase difference is: 27.70 deg Receiver phase difference is 188.20 deg Transmitter phase difference is 215.90 deg Cable phase difference is -161.78 deg $ghv,phasedat,phi: (0.8853936,0.4648421) 27.70000 27.70000 $phico aphase: 80.53999 -161.7800 $fhh,fhv,fvh: (0.1643591,-0.9864006) (0.5860897,-0.8102462) (0.8955565,-0.4449477) Input ground spacing ? cross-track ground spacing: 6.000000 Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 0 NSAMP vec_len nbytes: 2560 20480 Reading data to estimate cross-talk. 989 2560 256 512 768 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: (-2.1289513E-02,1.3266052E-02) (2.1987924E-02,-1.2741675E-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. 989 989 Absolute gain AChu(linear) :. 8.6706031E-08 4.0784897E-08 5.8277323E-08 ahh hv vv chh hv vh vv: -235.1390 -239.4900 -235.0390 -239.8900 93.90000 91.70000 93.40000 95.20000 1 257 513 769 ********************************************* ***** ***** ***** 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. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of output file. Please choose the type of compression: (1) Stokes matrix (AIRSAR standard) (2) Cross-products (SIR-C standard) hddt: 90 Finished writing headers. 256 512 768 Enter number of set to convert: Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 min. window size : 5947 new found samp 2560 153600 20480 25600 25600 *** 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. ibytesdata= 153600 do line: 51 done line: 51 do line: 101 done line: 101 do line: 151 done line: 151 do line: 201 done line: 201 do line: 251 done line: 251 do line: 301 done line: 301 do line: 351 done line: 351 do line: 401 done line: 401 do line: 451 done line: 451 do line: 501 done line: 501 do line: 551 done line: 551 do line: 601 done line: 601 do line: 651 done line: 651 do line: 701 done line: 701 do line: 751 done line: 751 do line: 801 done line: 801 do line: 851 done line: 851 do line: 901 done line: 901 do line: 951 done line: 951 100 200 300 400 500 600 700 800 900 Mon Aug 6 20:02:15 PDT 2001