HDDT ID= 98052 SITE NAME= KeyWestATI-132-1 CCT TYPE= at CCT ID= 38 LATITUDE AT START OF SCENE= 24.904628536821686 LONGITUDE AT START OF SCENE= -80.417142342096867 LATITUDE AT END OF SCENE= 24.904628536821686 LONGITUDE AT END OF SCENE= -80.417142342096867 CHIRP BANDWIDTH= 40 RADAR ALTITUDE= 8330.596 AIRCRAFT TRACK ANGLE= 132.20461976854224 NUMBER OF LINES IN IMAGE= 7019 NUMBER OF SAMPLES PER RECORD= 2516 PROCESSOR START FRAMECOUNT= 12663372 RANGE PIXEL SPACING= 3.331027 AZIMUTH PIXEL SPACING= 3.897523 JPL AIRCRAFT SAR PROCESSOR VERSION= Pre-Release C BAND (PROCESSING PARAMETERS) ;=============================================================================== ; ; ATI pre-processor parameter file ; produced by script ; at Fri Jul 23 12:27:45 PDT 2004 by ; for AIRSAR (c Band) data set at0038 ; located in /export/air27/airops/at38out ; ;=============================================================================== ; include hpp file: /export/air27/airops/at38out/at0038.chpp ;=============================================================================== ; ; header processor parameter file ; produced by script /u/auroch0/airops/ati/hp/scripts/hp ; at Fri Jul 23 12:04:34 PDT 2004 by ; for AIRSAR (c Band) data set at0038 ; located in /export/air27/airops/at38out ; ;=============================================================================== ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpInit ; executables used for header processing tools = /u/auroch0/airops/ati/Tools/bin ; utility executables path pick = /u/auroch0/airops/ati/Tools/bin/pick ; general-purpose data extraction byteSplit = /u/auroch0/airops/ati/Tools/bin/byteSplit ; fast specialized data extraction 2bin = /u/auroch0/airops/ati/Tools/bin/2bin ; ascii-->binary conversion filt = /u/auroch0/airops/ati/Tools/bin/filt ; median filter stats = /u/auroch0/airops/ati/Tools/bin/stats ; statistics tool pickmocomp = /u/auroch0/airops/ati/Tools/bin/pick sym=moc ; pick applied to motion files hppath = /u/auroch0/airops/ati/hp ; location of hp top folder calpath = /u/auroch0/airops/ati/hp/data ; folder of cal parm files scripts = /u/auroch0/airops/ati/hp/scripts ; location of hp scripts bin = /u/auroch0/airops/ati/hp/bin ; location of hp C++ programs hp = /u/auroch0/airops/ati/hp/scripts/hp ; main executable hp_init = /u/auroch0/airops/ati/hp/scripts/hpInit ; parameter initialization hp_sub = /u/auroch0/airops/ati/hp/scripts/hpSeparate ; extract sub-comm data hp_frm = /u/auroch0/airops/ati/hp/scripts/hpFrame ; IGI frame time-tags hp_hw = /u/auroch0/airops/ati/hp/scripts/hpHW ; extract honeywell data hp_cal = /u/auroch0/airops/ati/hp/scripts/hpCal ; get calibration file for this data hp_par = /u/auroch0/airops/ati/hp/scripts/hpParms ; get miscellaneous parameters hp_hwf = /u/auroch0/airops/ati/hp/scripts/hpHWf ; median filter honeywell data hp_hwp = /u/auroch0/airops/ati/hp/bin/hwProc ; clean honeywell data hp_mxr = /u/auroch0/airops/ati/hp/bin/moxRef ; peg data to ref track hp_mxa = /u/auroch0/airops/ati/hp/bin/moxArm ; add leverarms hp_mxs = /u/auroch0/airops/ati/hp/scripts/hpMxStats ; statistics on motion data ; data run pwd = /export/air27/airops/at38out ; folder from which scripts were executed inpath = /export/air27/airops/at38out ; folder for the aux data tag = at0038 ; name of all associated files for this data set band = c ; band (l,c,x,p) of operation ; paths and filenames out = /export/air27/airops/at38out ; folder for hp output hpp = /export/air27/airops/at38out/at0038.chpp ; this file (Header Processor Parameter file) aux = /export/air27/airops/at38out/at0038.caux ; aux file ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpSeparate sub = /export/air27/airops/at38out/at0038.csub ; subcommutated header fix = /export/air27/airops/at38out/at0038.cfix; aux file with missing lines stripped year = 1998 ; year for this data take ; info for /export/air27/airops/at38out/at0038.caux and /export/air27/airops/at38out/at0038.csub auxreclen = 128 ; length (bytes) of the aux records subdatalen = 32 ; length (bytes) of mux data in each aux record subreclen = 4096 ; length (bytes) of the subcomm records subrec0 = 52 ; aux record for first subcom record minfsize = 11994 ; subtract hdrlen and / 2 to get good bytes maxDataBytes = 5933 ; number of bytes to use in each raw data rec nframes = 120021 ; # records in aux file (one per xmit pulse) framestart = 12663372 ; frame count of first aux record framestop = 12783392 ; frame count of last aux record missing = 310 314 317 321 756 760 764 767 11822 11826 18811 18815 18819 18822 28541 28545 28549 52658 52662 52666 77368 ; missing lines (0-offset from first frame) ;+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ; ; calibration parameters from cal-1998-10-23 ; ;+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ cal = /u/auroch0/airops/ati/hp/data/cal-1998-10-23 ; cal parm file used jDay = 302 ; Julian day of year(1998) of data acq. acqDay = 6870 ; gps day of acquisition gDay = 6865 ; gps day of cal file (cal-1998-10-23) ; ; calibration parameter file ; ; antenna lever arms are in the ijk coord system, ; i.e., i is forward, j is port and k is up ; differential delays laf_rangeDelay(m)=0.0 lfa_rangeDelay(m)=0.0 laa_rangeDelay(m)=0.0 lff_rangeDelay(m)=0.0 caf_rangeDelay(m)=0.0 cfa_rangeDelay(m)=0.0 caa_rangeDelay(m)=0.0 cff_rangeDelay(m)=0.0 ; phase offsets laf_phaseOffset(rad)=0.0 lfa_phaseOffset(rad)=0.0 laa_phaseOffset(rad)=0.0 lff_phaseOffset(rad)=0.0 caf_phaseOffset(rad)=0.0 cfa_phaseOffset(rad)=0.0 caa_phaseOffset(rad)=0.0 cff_phaseOffset(rad)=0.0 ; L-band antennas ; these are the original measured baselines ; lever_lf(m) = 19.58 0.03 -0.23 ; lever_la(m) = 0.54 0.52 -0.23 ; l-band bottom and aft are the same antenna lever_lt(m) = 0.47 1.18 1.49 ; adjust lever arms from calibration of Rosamond170-6 ; note that along-track pixel offset should be subtracted from ; lever_lf and added to lever_la to achieve the required correction. ; lever_lf(m) = 19.90 0.30 -0.25 ; lever_la(m) = 0.22 0.25 -0.21 ; To lever arms above, subtract the EGI-IGI offset of 51cm ; (EGI is forward of the old IGI position, therefore subtract ; 51cm from old lever arms to get new ones.) ;lever_lf(m) = 19.39 0.30 -0.25 ;lever_la(m) = -0.17 0.25 -0.21 ;ati/rosa98/rosa24Oct/laf_laa> cat baseline.out | stats mean stdev ;mean stdev ;1.64e+04 9.48e+03 (stdin: col-1) ;8.99 0.786 (stdin: col-2) ;-0.0206 1.13 (stdin: col-3) ;-0.169 0.349 (stdin: col-4) ;0.101 0.04 (stdin: col-5) ; using result of baseline analysis, the ; y and z components are added to ; the old lever_lf and subtracted from the old ; lever_la to get the new lever arms. ;lever_lf(m) = 19.39 0.13 -0.15 ;lever_la(m) = -0.17 0.42 -0.31 ; the baseline seems pretty good for this past set ; of lever arms; however, there is still some residual ; motion, indicating that the absolute lever arm positions ; may be significantly off. Assuming that the original ; measurements of the la lever arm are likely to be more ; accurate than those of the lf lever arm, we adjust the ; lever arms above, maintaining the same baseline, but so ; that the la lever arm is the same as the original one ; after accounting for the 51cm displacement of the EGI. ; ; here, we also added the result of the latest baseline ; evaluation from the previous set: ;mean stdev ;1.4e+04 8.16e+03 (stdin: col-1) ;-8.37 5.82 (stdin: col-2) ;-0.186 2.4 (stdin: col-3) ;0.0591 0.729 (stdin: col-4) ;-0.113 0.13 (stdin: col-5) ;lever_lf(m) = 19.59 0.35 -0.30 ;lever_la(m) = 0.03 0.52 -0.23 ;mean stdev ;1.64e+04 9.48e+03 (stdin: col-1) ;5.55 0.331 (stdin: col-2) ;-0.00841 0.26 (stdin: col-3) ;-0.0623 0.0796 (stdin: col-4) ;0.119 0.0116 (stdin: col-5) ; add twice the z result to the lf lever arm z-component lever_lf(m) = 19.59 0.35 -0.06 lever_la(m) = 0.03 0.52 -0.23 ; Still see banding which appears to be due ; to motion compensation errors. As a test, ; try assuming that the baseline is between ; the L-Top antenna and the forward antenna.... ;lever_lf(m) = 19.57 1.05 1.51 ;lever_la(m) = 0.01 1.22 1.58 length_lf(m) = 1.505 length_la(m) = 1.505 length_lt(m) = 1.505 ; these leverarms are for debugging purposes ; lever_li(m) = 1.0 0.0 0.0 ; lever_lj(m) = 0.0 1.0 0.0 ; lever_lk(m) = 0.0 0.0 1.0 ; C-band antennas lever_ct(m) = 2.45 1.18 1.56 ; lever_cb(m) = 2.47 0.13 -0.70 ; lever_cs(m) = 0.55 0.67 -0.09 length_ct(m) = 1.3 ; length_cb(m) = 1.3 ; length_cs(m) = 1.3 lever_cf(m) = 2.47 0.13 -0.70 lever_ca(m) = 0.55 0.67 -0.09 length_cf(m) = 1.3 length_ca(m) = 1.3 ; P-band antennas lever_ps(m) = 2.48 0.58 -0.26 ; only one antenna for both channels length_ps(m) = 1.65 ; center frequencies fconv_p_20(Hz) = 450.0e6 fconv_p_40(Hz) = 450.0e6 fconv_l_20(Hz) = 1.26e9 fconv_l_40(Hz) = 1.26e9 fconv_l_80(Hz) = 1.3025e9 fconv_c_20(Hz) = 5.31e9 fconv_c_40(Hz) = 5.31e9 elecdelay(s) = 32.5e-6 ; IMU calibration ; (the biases are subtracted from the IMU data) ;rollBias(rad) = 0.0089623 ; 0.5135 degrees rollBias(rad) = 0.0 pitchBias(rad) = 0.0 yawBias(rad) = 0.0 ; phase calibration ; result of imageOffset in range should be subtracted from ; the laf_rangeDelay to correct for a residual differential delay ; laf_rangeDelay(m)=12.33 ; laa_rangeDelay(m)=0.0 ; result of imageOffset on 98 rosa data: ;~/ati/rosa98/rosa24Oct/laf_laa> cat offset.out | stats mean stdev ;mean stdev ;1.22e+04 7.1e+03 (stdin: col-1) ;1.22e+03 738 (stdin: col-2) ;-0.0806 0.812 (stdin: col-3) ;-0.118 0.153 (stdin: col-4) ; ; with a 3.331m range sample spacing, this amounts to a rangeDelay of -0.393m laf_rangeDelay(m)=12.72 lfa_rangeDelay(m)=12.72 laa_rangeDelay(m)=0.0 lff_rangeDelay(m)=25.44 csb_rangeDelay(m)=3.3 css_rangeDelay(m)=0.0 caf_rangeDelay(m)=2.53 cfa_rangeDelay(m)=2.53 cff_rangeDelay(m)=5.34 caa_rangeDelay(m)=0.0 ctt_rangeDelay(m)=0.0 ctf_rangeDelay(m)=0.0 ; Common range delay measurements ; currently, the nomenclature is: ; crd_$band_$bw ; where $band is the frequency [p,l,c] ; and $bw is the bandwidth in MHz [20,40,80] ; ; the crd parameter is subtracted from ; the original value of range0 to get the ; new value of the range0 parameter crd_p_20(m)=0.0 crd_p_40(m)=0.0 crd_p_80(m)=0.0 crd_l_20(m)=0.0 crd_l_40(m)=0.0 crd_l_80(m)=0.0 crd_c_20(m)=0.0 crd_c_40(m)=0.0 crd_c_80(m)=0.0 ; L-band polarimetry lvv_rangeDelay(m)=0.0 lhh_rangeDelay(m)=0.0 lhv_rangeDelay(m)=0.0 lvh_rangeDelay(m)=0.0 length_lv(m) = 1.505 length_lh(m) = 1.505 lever_lv(m) = 0.03 0.52 -0.23 lever_lh(m) = 0.03 0.52 -0.23 ;+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpParms fc(Hz) = 5.31e9 ; RF conversion frequency for this mode frequency(Hz) = 5287500000 ; RF center of video frequency spectrum wavelength(m) = 0.0566983372104019 ; wavelength of the center frequency range0(m) = 9518.4105415 ; meters to first sample bandwidth(Hz) = 40000000 ; pulse bandwidth pulseduration(s) = 1e-05 ; pulse duration sampfreq(Hz) = 90000000 ; real sampling frequency (2 * complex sampfreq) rangeSampleSpacing(m) = 3.33102731111111 ; meters (complex samples) chirpdirection = DN ; options: UP, DN, or U/D transmitmode = 1 ; 1 for ping-pong, 0 for common-xmtr lightspeed = 299792458 ; speed of light in vacuo acqname = KeyWestATI-132-1 ; name of data take acqdate = 302 22:11:25.029 ; day of year, time of mission acqlat = +25 00.0 ; rough latitude of mission acqlon = -080 32.1 ; rough longitude of mission serial = 98052 ; volume serial number on tape acqmode = 9 ; what mode for this datatake? acqstatus = ATI2P ; radar status: test,data,etc acqantenna = Mixed Modes ; antenna configuration acqcrew = Tim,Scotty,Tak,Gonzo,LM Nobody ; whom do we blame for this data set? acqnotes = System looks good, phase stable telev(ft) = 0 ; estimated elevation of target lCalFreq(MHz) = 1216.40625 ; L-band caltone frequency cCalFreq(MHz) = 5266.40625 ; C-band caltone frequency pCalFreq(MHz) = 428.5546875 ; P-band caltone frequency calFreq(MHz) = 5266.40625 ; caltone for current band (c) ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpHW hw = /export/air27/airops/at38out/at0038.chw ; honeywell data ; info on /export/air27/airops/at38out/at0038.chw file hwfields = frame time tprf lat lon alt ve vn vu hdg pitch roll nhwfields = 12 ; number of fields in each record hwrecsize = 96 ; number of bytes in each record nhwrecs = 9224 ; number of records in the file ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpFrame frm = /export/air27/airops/at38out/at0038.cfrm ; IGI frame time-tags timestart = 425498.2891166 ; GPS time at first frame timestop = 425642.377390127 ; GPS time at last frame timetotal = 144.088273526984 ; duration of data segment timepri = 0.00120052552075873 ; estimate of PRI from time tags badFrames = 0 ; number of mis-ordered frames badTimes = 0 ; number of mis-ordered time tags ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpHWf hwffilterlength = 5 ; length of HW data median filter hwm = /export/air27/airops/at38out/at0038.chwm ; median filtered HW data hwf = /export/air27/airops/at38out/at0038.chwf ; corrected HW data ; parameters used or added by /u/auroch0/airops/ati/hp/bin/hwProc hwpolyfit = 2 ; order of polynomial fit hwstdevfilter = 3 ; stdev's from avg hwfilterlength = 11 ; smoothing window ; parameters added by /u/auroch0/airops/ati/hp/bin/moxRef mox = /export/air27/airops/at38out/at0038.cmox ; INU motion pegged to ref ; reference track: peg(deg) = 24.90458793727581 -80.417093219532134 0 heading(deg) = 132.20464756341485 ; parameters added by /u/auroch0/airops/ati/hp/bin/moxArm mox_ctt = /export/air27/airops/at38out/at0038.cmox_ctt; motion data for ctt phase center (no interp). mox_ctf = /export/air27/airops/at38out/at0038.cmox_ctf; motion data for ctf phase center (no interp). mox_cta = /export/air27/airops/at38out/at0038.cmox_cta; motion data for cta phase center (no interp). mox_cft = /export/air27/airops/at38out/at0038.cmox_cft; motion data for cft phase center (no interp). mox_cff = /export/air27/airops/at38out/at0038.cmox_cff; motion data for cff phase center (no interp). mox_cfa = /export/air27/airops/at38out/at0038.cmox_cfa; motion data for cfa phase center (no interp). mox_cat = /export/air27/airops/at38out/at0038.cmox_cat; motion data for cat phase center (no interp). mox_caf = /export/air27/airops/at38out/at0038.cmox_caf; motion data for caf phase center (no interp). mox_caa = /export/air27/airops/at38out/at0038.cmox_caa; motion data for caa phase center (no interp). ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpMxStats stf = /export/air27/airops/at38out/at0038.cstf ; stats file for motion data ; ; specific command line parameters added for this job ; azkeep = 1 ch1 = caf ch2 = caa exit = regrid noclean = 1 ;=============================================================================== ; parameters added by /u/auroch0/airops/ati/pp/scripts/ppSetup ; pp executables and paths pppath = /u/auroch0/airops/ati/pp ; top-level for pp ppscripts = /u/auroch0/airops/ati/pp/scripts ; source folder for scripts ppbin = /u/auroch0/airops/ati/pp/bin ; folder for pp binaries pp_setup = /u/auroch0/airops/ati/pp/scripts/ppSetup ; pp setup script ps_setup = /u/auroch0/airops/ati/pp/scripts/psSetup ; presum setup script az_setup = /u/auroch0/airops/ati/pp/scripts/azSetup ; azimuth processing setup script if_setup = /u/auroch0/airops/ati/pp/scripts/ifSetup ; interferogram and magfile setup script uw_setup = /u/auroch0/airops/ati/pp/scripts/uwSetup ; phase unwrapping setup script grid_setup = /u/auroch0/airops/ati/pp/scripts/gridSetup ; phase unwrapping setup script par_setup = /u/auroch0/airops/ati/pp/scripts/parSetup ; parameter parsing setup script pp_ati = /u/auroch0/airops/ati/pp/bin/ppAti ; pp binary for ATI ; ATI executables and paths ati_path = /u/auroch0/airops/ati ; top-level for ATI software ati_bin = /u/auroch0/airops/ati/bin ; folder for ATI executables caltone = /u/auroch0/airops/ati/bin/caltone ; caltone estimation executable presum = /u/auroch0/airops/ati/bin/presum ; presum executable azproc = /u/auroch0/airops/ati/bin/azproc ; azimuth compression executable intf = /u/auroch0/airops/ati/bin/intf ; interferogram formation executable mags = /u/auroch0/airops/ati/bin/mags ; mag files formation executable unwrap = /u/auroch0/airops/ati/bin/unwrap ; phase unwrapping executable regrid = /u/auroch0/airops/ati/bin/grid ; regridding incMap = /u/auroch0/airops/ati/bin/incMap ; incidence angle map creation offsets = /u/auroch0/airops/ati/Tools/bin/calib_ampcor ; registration estimator tools = /u/auroch0/airops/ati/Tools/bin ; path to ati utilities rilooks = /u/auroch0/airops/ati/Tools/bin/rilooks ; utility for taking real looks in complex data cpxlooks = /u/auroch0/airops/ati/Tools/bin/cpxlooks ; utility for taking complex looks reallooks = /u/auroch0/airops/ati/Tools/bin/detilt_hgt ; utility for taking real looks in real data cpx2mag = /u/auroch0/airops/ati/Tools/bin/cpx2mag ; utility for converting complex*8 to real*4 mags cpx2phs = /u/auroch0/airops/ati/Tools/bin/cpx2phs ; utility for converting complex*8 to real*4 phase byteSplit = /u/auroch0/airops/ati/Tools/bin/byteSplit ; utility for fast extraction of raw data ; files and paths ppout = /export/air27/airops/at38out ; where to write the output ppp = /export/air27/airops/at38out/at0038.cppp ; pre-processing parameters (this file) par = /export/air27/airops/at38out/at0038.caf_caa_par ; nicely-formatted essential parameters file. ; interferometric channels ch0 = caf_caa ; reference ch1 = caf ; first channel ch2 = caa ; second channel lever_caf = 1.51 0.4 -0.395 ; phase center for caf channel lever_caa = 0.55 0.67 -0.09 ; phase center for caa channel baseline_caf_caa = 0.96 -0.27 -0.305 ; vector: lever_caf - lever_caa ; ping-pong information transmitBaseline = pp ; pp/ct (ping-pong/common-transmitter) tprfFactor = 2 ; tprf corresponds to 1/2 channels processBaseline = 1 ; 0/1/2 for baseline factor caf_ndataframes = 60010 ; nRecs in caf rsd file caa_ndataframes = 60010 ; nRecs in caf rsd file caf_frameOffset = 1 ; lookup into frametag caa_frameOffset = 1 ; lookup into frametag ; ppAti options ppOs = 1.2 ; oversampling factor ppnRefSkip = 0 ; number of points between each ref point ppnRefAvg = 1 ; number of points to average for ref moxTag = mox ; suffix for mox files mocTag = moc ; suffix for moc files leverTag = lever ; suffix for leverarm keywords lengthTag = length ; suffix for antenna length keywords ppdt(s) = 1 ; (debugging) time delay between updates ppds(m) = 1 ; spacing (meters) for reference track ; output products: number of looks azonl = 1 ; 'target' total number of looks for output imagery ; ; parameters added by ppAti ; ppDs(m) = 0.641171 ; motion record spacing ppS0(m) = -12.9313 ; starting position ppSS(m) = 30823.2 ; along track length ppnMocRecs = 48074 ; number of records caf_caa_moc = /export/air27/airops/at38out/at0038.cmoc_caf_caa ; mocomp file for ref caf_moc = /export/air27/airops/at38out/at0038.cmoc_caf ; mocomp file for ch1 caa_moc = /export/air27/airops/at38out/at0038.cmoc_caa ; mocomp file for ch2 ; ; parameters added by /u/auroch0/airops/ati/pp/scripts/psSetup ; ; data files caf = /export/air27/airops/at38out/at0038.caf ; data file for first channel caa = /export/air27/airops/at38out/at0038.caa ; data file for second channel caf_nsamples = 6144 ; caf data file record length caa_nsamples = 6144 ; caa data file record length ; presum options psRfl = 4 ; presum relative filter length psfPrecision = 1024 ; presum filter precision psfWindow = Hanning ; presum filter window psfBandwidth = 1 ; presum filter fractional bandwidth psbRes(Hz) = 1 ; presum buffer update resolution psElevRef(m) = 0 ; elevation reference for presummer caf_psMocRec0 = 0 ; presum start mocrec caa_psMocRec0 = 0 ; presum start mocrec caf_psOut = /export/air27/airops/at38out/at0038.caf-ps ; presum output file for caf caa_psOut = /export/air27/airops/at38out/at0038.caa-ps ; presum output file for caa ; ; Parameters associated with caltone: ; ppFile = /export/air27/airops/at38out/at0038.cppp ; caltone parameter file caf_nSamples = 6144 caf_caltone = /export/air27/airops/at38out/at0038.caf_caltone caf_calnAvgAz = 4 caf_calBin = 3968 caf_calPhase(rad) = -0.019627 caf_calMag = 22.6513 ; ; parameters added by presum ; caf_psnmocrecs = 48074 ; number of moc recs presummed caf_psnsamples = 2516 ; ; parameters added by /u/auroch0/airops/ati/pp/scripts/azSetup ; offset_log = /export/air27/airops/at38out/at0038.azOffsetsLog_caf_caa ; log of registration estimates offset_data = /export/air27/airops/at38out/at0038.azOffsets_caf_caa ; registration estimates data ; azimuth processing options caf_azout = /export/air27/airops/at38out/at0038.caf-az ; azimuth processed file for caf caa_azout = /export/air27/airops/at38out/at0038.caa-az ; azimuth processed file for caa caf_azSquint = /export/air27/airops/at38out/at0038.caf-az-squint ; squint used to azimuth-compress caf caa_azSquint = /export/air27/airops/at38out/at0038.caa-az-squint ; squint used to azimuth-compress caa caf_azMocAvg = /export/air27/airops/at38out/at0038.caf-az-mocAvg ; mocAvg used to azimuth-compress caf caa_azMocAvg = /export/air27/airops/at38out/at0038.caa-az-mocAvg ; mocAvg used to azimuth-compress caa azPixelRatio = 6.49403067027187 ; ratio of one-look pixel dimensions azonlRa = 1 ; range looks for output magnitude image azonlAz = 6 ; azimuth looks for output magnitude image imageLooks = 6 ; actual number of looks taken for imagery ; ; parameters added by azproc for ch caf ; caf_refLen = 2048 ; az reference length caf_azblock = 4096 ; length of azimuth proc. patch caf_azdata = 2048 ; length of azimuth output patch caf_aznsamples = 2516 ; samples in az file caf_azsample0 = 0 ; first azimuth sample caf_aznmocrecs = 48074 ; number of pulses in az file caf_azmocrec0 = 0 ; first pulse in az file ; ; Parameters associated with caltone: ; ppFile = /export/air27/airops/at38out/at0038.cppp ; caltone parameter file caa_nSamples = 6144 caa_caltone = /export/air27/airops/at38out/at0038.caa_caltone caa_calnAvgAz = 4 caa_calBin = 3968 caa_calPhase(rad) = -2.49917 caa_calMag = 21.0966 ; ; parameters added by presum ; caa_psnmocrecs = 48074 ; number of moc recs presummed caa_psnsamples = 2516 ; ; parameters added by azproc for ch caa ; caa_refLen = 2048 ; az reference length caa_azblock = 4096 ; length of azimuth proc. patch caa_azdata = 2048 ; length of azimuth output patch caa_aznsamples = 2516 ; samples in az file caa_azsample0 = 0 ; first azimuth sample caa_aznmocrecs = 48074 ; number of pulses in az file caa_azmocrec0 = 0 ; first pulse in az file ; ; parameters added by /u/auroch0/airops/ati/pp/scripts/ifSetup ; ; azimuth processing options caf_caa_intf = /export/air27/airops/at38out/at0038.caf_caa_intf ; interferogram betwenn caf and caa caf_caa_azmag = /export/air27/airops/at38out/at0038.caf_caa_azmag ; complex (caf,caa) mag file ifonlRa = 1 ; range looks for output interferogram ifonlAz = 6 ; azimuth looks for output interferogram ; ; parameters added by /u/auroch0/airops/ati/pp/scripts/uwSetup ; ; unwrapping processing options gwf = /export/air27/airops/at38out/at0038.caf_caa_intf.gwf ; parmfile for gwf unwrapper uwAvgRa = 3 ; looks in range for unwrapping uwAvgAz = 15.5856736086525 ; looks in azimuth for unwrapping uwSm = /export/air27/airops/at38out/at0038.caf_caa-uwSm ; Filtered Interferogram File uwUnw = /export/air27/airops/at38out/at0038.caf_caa-uwWrp ; Unwrapped Phase File uwWrp = /export/air27/airops/at38out/at0038.caf_caa-uwWrp ; Wrapped Phase File uwFlg = /export/air27/airops/at38out/at0038.caf_caa-uwFlg ; Flag File uwSlp = /export/air27/airops/at38out/at0038.caf_caa-uwSlp ; Phase Gradient File uwGcc = /export/air27/airops/at38out/at0038.caf_caa-uwGcc ; Gradient Corrected Correlation File uwCc = /export/air27/airops/at38out/at0038.caf_caa-uwCc ; Standard Correlation File uwPhs = /export/air27/airops/at38out/at0038.caf_caa-uwPhs ; Phase Sigma File uwScc = /export/air27/airops/at38out/at0038.caf_caa-uwScc ; Phase Sigma Correlation File ; ; parameters added by /u/auroch0/airops/ati/pp/scripts/gridSetup ; ; re-gridding processing options postS(m) = 10 ; along-track post spacing postC(m) = 10 ; cross-track post spacing grid_intf = /export/air27/airops/at38out/at0038.caf_caa-uwWrp-sc10x10 ; gridded interferogram output filename grid_corr = /export/air27/airops/at38out/at0038.caf_caa-uwScc-sc10x10 ; gridded correlation output filename grid_inc = /export/air27/airops/at38out/at0038.caf_caa-uwWrp-sc10x10-inc ; gridded incidence angles output filename ; ; parameters added by grid ; grid_sMin = -14448; min S in regridded output grid_sMax = 14672; max S in regridded output grid_cMin = 4581; min C in regridded output grid_cMax = 15821; max C in regridded output grid_pulse_window = 18 grid_sample_window = 7 grid_distance_threshhold = 14.1421 grid_nsamples = 1125; regridded samples grid_nrecords = 2913; regridded records grid_corner_1 = 25.02281963 -80.49246346 0.02940572798; lat(d) lon(d) alt(m) grid_corner_2 = 25.09805438 -80.41759878 0.109158027; lat(d) lon(d) alt(m) grid_corner_3 = 24.84613241 -80.278894 -0.02813438792; lat(d) lon(d) alt(m) grid_corner_4 = 24.92126204 -80.2040071 -0.08987475466; lat(d) lon(d) alt(m) L BAND (PROCESSING PARAMETERS) ;=============================================================================== ; ; ATI pre-processor parameter file ; produced by script ; at Sat Jul 24 15:39:43 PDT 2004 by ; for AIRSAR (l Band) data set at0038 ; located in /export/air27/airops/at38out ; ;=============================================================================== ; include hpp file: /export/air27/airops/at38out/at0038.lhpp ;=============================================================================== ; ; header processor parameter file ; produced by script /u/auroch0/airops/ati/hp/scripts/hp ; at Sat Jul 24 15:10:29 PDT 2004 by ; for AIRSAR (l Band) data set at0038 ; located in /export/air27/airops/at38out ; ;=============================================================================== ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpInit ; executables used for header processing tools = /u/auroch0/airops/ati/Tools/bin ; utility executables path pick = /u/auroch0/airops/ati/Tools/bin/pick ; general-purpose data extraction byteSplit = /u/auroch0/airops/ati/Tools/bin/byteSplit ; fast specialized data extraction 2bin = /u/auroch0/airops/ati/Tools/bin/2bin ; ascii-->binary conversion filt = /u/auroch0/airops/ati/Tools/bin/filt ; median filter stats = /u/auroch0/airops/ati/Tools/bin/stats ; statistics tool pickmocomp = /u/auroch0/airops/ati/Tools/bin/pick sym=moc ; pick applied to motion files hppath = /u/auroch0/airops/ati/hp ; location of hp top folder calpath = /u/auroch0/airops/ati/hp/data ; folder of cal parm files scripts = /u/auroch0/airops/ati/hp/scripts ; location of hp scripts bin = /u/auroch0/airops/ati/hp/bin ; location of hp C++ programs hp = /u/auroch0/airops/ati/hp/scripts/hp ; main executable hp_init = /u/auroch0/airops/ati/hp/scripts/hpInit ; parameter initialization hp_sub = /u/auroch0/airops/ati/hp/scripts/hpSeparate ; extract sub-comm data hp_frm = /u/auroch0/airops/ati/hp/scripts/hpFrame ; IGI frame time-tags hp_hw = /u/auroch0/airops/ati/hp/scripts/hpHW ; extract honeywell data hp_cal = /u/auroch0/airops/ati/hp/scripts/hpCal ; get calibration file for this data hp_par = /u/auroch0/airops/ati/hp/scripts/hpParms ; get miscellaneous parameters hp_hwf = /u/auroch0/airops/ati/hp/scripts/hpHWf ; median filter honeywell data hp_hwp = /u/auroch0/airops/ati/hp/bin/hwProc ; clean honeywell data hp_mxr = /u/auroch0/airops/ati/hp/bin/moxRef ; peg data to ref track hp_mxa = /u/auroch0/airops/ati/hp/bin/moxArm ; add leverarms hp_mxs = /u/auroch0/airops/ati/hp/scripts/hpMxStats ; statistics on motion data ; data run pwd = /export/air27/airops/at38out ; folder from which scripts were executed inpath = /export/air27/airops/at38out ; folder for the aux data tag = at0038 ; name of all associated files for this data set band = l ; band (l,c,x,p) of operation ; paths and filenames out = /export/air27/airops/at38out ; folder for hp output hpp = /export/air27/airops/at38out/at0038.lhpp ; this file (Header Processor Parameter file) aux = /export/air27/airops/at38out/at0038.laux ; aux file ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpSeparate sub = /export/air27/airops/at38out/at0038.lsub ; subcommutated header fix = /export/air27/airops/at38out/at0038.lfix; aux file with missing lines stripped year = 1998 ; year for this data take ; info for /export/air27/airops/at38out/at0038.laux and /export/air27/airops/at38out/at0038.lsub auxreclen = 128 ; length (bytes) of the aux records subdatalen = 32 ; length (bytes) of mux data in each aux record subreclen = 4096 ; length (bytes) of the subcomm records subrec0 = 52 ; aux record for first subcom record minfsize = 11994 ; subtract hdrlen and / 2 to get good bytes maxDataBytes = 5933 ; number of bytes to use in each raw data rec nframes = 120022 ; # records in aux file (one per xmit pulse) framestart = 12663372 ; frame count of first aux record framestop = 12783393 ; frame count of last aux record missing = 310 314 318 322 756 760 764 768 11822 11826 11830 18815 18819 18823 28542 28549 52662 52666 87635 ; missing lines (0-offset from first frame) ;+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ; ; calibration parameters from cal-1998-10-23 ; ;+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ cal = /u/auroch0/airops/ati/hp/data/cal-1998-10-23 ; cal parm file used jDay = 302 ; Julian day of year(1998) of data acq. acqDay = 6870 ; gps day of acquisition gDay = 6865 ; gps day of cal file (cal-1998-10-23) ; ; calibration parameter file ; ; antenna lever arms are in the ijk coord system, ; i.e., i is forward, j is port and k is up ; differential delays laf_rangeDelay(m)=0.0 lfa_rangeDelay(m)=0.0 laa_rangeDelay(m)=0.0 lff_rangeDelay(m)=0.0 caf_rangeDelay(m)=0.0 cfa_rangeDelay(m)=0.0 caa_rangeDelay(m)=0.0 cff_rangeDelay(m)=0.0 ; phase offsets laf_phaseOffset(rad)=0.0 lfa_phaseOffset(rad)=0.0 laa_phaseOffset(rad)=0.0 lff_phaseOffset(rad)=0.0 caf_phaseOffset(rad)=0.0 cfa_phaseOffset(rad)=0.0 caa_phaseOffset(rad)=0.0 cff_phaseOffset(rad)=0.0 ; L-band antennas ; these are the original measured baselines ; lever_lf(m) = 19.58 0.03 -0.23 ; lever_la(m) = 0.54 0.52 -0.23 ; l-band bottom and aft are the same antenna lever_lt(m) = 0.47 1.18 1.49 ; adjust lever arms from calibration of Rosamond170-6 ; note that along-track pixel offset should be subtracted from ; lever_lf and added to lever_la to achieve the required correction. ; lever_lf(m) = 19.90 0.30 -0.25 ; lever_la(m) = 0.22 0.25 -0.21 ; To lever arms above, subtract the EGI-IGI offset of 51cm ; (EGI is forward of the old IGI position, therefore subtract ; 51cm from old lever arms to get new ones.) ;lever_lf(m) = 19.39 0.30 -0.25 ;lever_la(m) = -0.17 0.25 -0.21 ;ati/rosa98/rosa24Oct/laf_laa> cat baseline.out | stats mean stdev ;mean stdev ;1.64e+04 9.48e+03 (stdin: col-1) ;8.99 0.786 (stdin: col-2) ;-0.0206 1.13 (stdin: col-3) ;-0.169 0.349 (stdin: col-4) ;0.101 0.04 (stdin: col-5) ; using result of baseline analysis, the ; y and z components are added to ; the old lever_lf and subtracted from the old ; lever_la to get the new lever arms. ;lever_lf(m) = 19.39 0.13 -0.15 ;lever_la(m) = -0.17 0.42 -0.31 ; the baseline seems pretty good for this past set ; of lever arms; however, there is still some residual ; motion, indicating that the absolute lever arm positions ; may be significantly off. Assuming that the original ; measurements of the la lever arm are likely to be more ; accurate than those of the lf lever arm, we adjust the ; lever arms above, maintaining the same baseline, but so ; that the la lever arm is the same as the original one ; after accounting for the 51cm displacement of the EGI. ; ; here, we also added the result of the latest baseline ; evaluation from the previous set: ;mean stdev ;1.4e+04 8.16e+03 (stdin: col-1) ;-8.37 5.82 (stdin: col-2) ;-0.186 2.4 (stdin: col-3) ;0.0591 0.729 (stdin: col-4) ;-0.113 0.13 (stdin: col-5) ;lever_lf(m) = 19.59 0.35 -0.30 ;lever_la(m) = 0.03 0.52 -0.23 ;mean stdev ;1.64e+04 9.48e+03 (stdin: col-1) ;5.55 0.331 (stdin: col-2) ;-0.00841 0.26 (stdin: col-3) ;-0.0623 0.0796 (stdin: col-4) ;0.119 0.0116 (stdin: col-5) ; add twice the z result to the lf lever arm z-component lever_lf(m) = 19.59 0.35 -0.06 lever_la(m) = 0.03 0.52 -0.23 ; Still see banding which appears to be due ; to motion compensation errors. As a test, ; try assuming that the baseline is between ; the L-Top antenna and the forward antenna.... ;lever_lf(m) = 19.57 1.05 1.51 ;lever_la(m) = 0.01 1.22 1.58 length_lf(m) = 1.505 length_la(m) = 1.505 length_lt(m) = 1.505 ; these leverarms are for debugging purposes ; lever_li(m) = 1.0 0.0 0.0 ; lever_lj(m) = 0.0 1.0 0.0 ; lever_lk(m) = 0.0 0.0 1.0 ; C-band antennas lever_ct(m) = 2.45 1.18 1.56 ; lever_cb(m) = 2.47 0.13 -0.70 ; lever_cs(m) = 0.55 0.67 -0.09 length_ct(m) = 1.3 ; length_cb(m) = 1.3 ; length_cs(m) = 1.3 lever_cf(m) = 2.47 0.13 -0.70 lever_ca(m) = 0.55 0.67 -0.09 length_cf(m) = 1.3 length_ca(m) = 1.3 ; P-band antennas lever_ps(m) = 2.48 0.58 -0.26 ; only one antenna for both channels length_ps(m) = 1.65 ; center frequencies fconv_p_20(Hz) = 450.0e6 fconv_p_40(Hz) = 450.0e6 fconv_l_20(Hz) = 1.26e9 fconv_l_40(Hz) = 1.26e9 fconv_l_80(Hz) = 1.3025e9 fconv_c_20(Hz) = 5.31e9 fconv_c_40(Hz) = 5.31e9 elecdelay(s) = 32.5e-6 ; IMU calibration ; (the biases are subtracted from the IMU data) ;rollBias(rad) = 0.0089623 ; 0.5135 degrees rollBias(rad) = 0.0 pitchBias(rad) = 0.0 yawBias(rad) = 0.0 ; phase calibration ; result of imageOffset in range should be subtracted from ; the laf_rangeDelay to correct for a residual differential delay ; laf_rangeDelay(m)=12.33 ; laa_rangeDelay(m)=0.0 ; result of imageOffset on 98 rosa data: ;~/ati/rosa98/rosa24Oct/laf_laa> cat offset.out | stats mean stdev ;mean stdev ;1.22e+04 7.1e+03 (stdin: col-1) ;1.22e+03 738 (stdin: col-2) ;-0.0806 0.812 (stdin: col-3) ;-0.118 0.153 (stdin: col-4) ; ; with a 3.331m range sample spacing, this amounts to a rangeDelay of -0.393m laf_rangeDelay(m)=12.72 lfa_rangeDelay(m)=12.72 laa_rangeDelay(m)=0.0 lff_rangeDelay(m)=25.44 csb_rangeDelay(m)=3.3 css_rangeDelay(m)=0.0 caf_rangeDelay(m)=2.53 cfa_rangeDelay(m)=2.53 cff_rangeDelay(m)=5.34 caa_rangeDelay(m)=0.0 ctt_rangeDelay(m)=0.0 ctf_rangeDelay(m)=0.0 ; Common range delay measurements ; currently, the nomenclature is: ; crd_$band_$bw ; where $band is the frequency [p,l,c] ; and $bw is the bandwidth in MHz [20,40,80] ; ; the crd parameter is subtracted from ; the original value of range0 to get the ; new value of the range0 parameter crd_p_20(m)=0.0 crd_p_40(m)=0.0 crd_p_80(m)=0.0 crd_l_20(m)=0.0 crd_l_40(m)=0.0 crd_l_80(m)=0.0 crd_c_20(m)=0.0 crd_c_40(m)=0.0 crd_c_80(m)=0.0 ; L-band polarimetry lvv_rangeDelay(m)=0.0 lhh_rangeDelay(m)=0.0 lhv_rangeDelay(m)=0.0 lvh_rangeDelay(m)=0.0 length_lv(m) = 1.505 length_lh(m) = 1.505 lever_lv(m) = 0.03 0.52 -0.23 lever_lh(m) = 0.03 0.52 -0.23 ;+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpParms fc(Hz) = 1.26e9 ; RF conversion frequency for this mode frequency(Hz) = 1237500000 ; RF center of video frequency spectrum wavelength(m) = 0.242256531717172 ; wavelength of the center frequency range0(m) = 9518.4105415 ; meters to first sample bandwidth(Hz) = 40000000 ; pulse bandwidth pulseduration(s) = 1e-05 ; pulse duration sampfreq(Hz) = 90000000 ; real sampling frequency (2 * complex sampfreq) rangeSampleSpacing(m) = 3.33102731111111 ; meters (complex samples) chirpdirection = DN ; options: UP, DN, or U/D transmitmode = 1 ; 1 for ping-pong, 0 for common-xmtr lightspeed = 299792458 ; speed of light in vacuo acqname = KeyWestATI-132-1 ; name of data take acqdate = 302 22:11:25.029 ; day of year, time of mission acqlat = +25 00.0 ; rough latitude of mission acqlon = -080 32.1 ; rough longitude of mission serial = 98052 ; volume serial number on tape acqmode = 9 ; what mode for this datatake? acqstatus = ATI2P ; radar status: test,data,etc acqantenna = Mixed Modes ; antenna configuration acqcrew = Tim,Scotty,Tak,Gonzo,LM Nobody ; whom do we blame for this data set? acqnotes = System looks good, phase stable telev(ft) = 0 ; estimated elevation of target lCalFreq(MHz) = 1216.40625 ; L-band caltone frequency cCalFreq(MHz) = 5266.40625 ; C-band caltone frequency pCalFreq(MHz) = 428.5546875 ; P-band caltone frequency calFreq(MHz) = 1216.40625 ; caltone for current band (l) ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpHW hw = /export/air27/airops/at38out/at0038.lhw ; honeywell data ; info on /export/air27/airops/at38out/at0038.lhw file hwfields = frame time tprf lat lon alt ve vn vu hdg pitch roll nhwfields = 12 ; number of fields in each record hwrecsize = 96 ; number of bytes in each record nhwrecs = 9228 ; number of records in the file ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpFrame frm = /export/air27/airops/at38out/at0038.lfrm ; IGI frame time-tags timestart = 425498.2891166 ; GPS time at first frame timestop = 425642.380990927 ; GPS time at last frame timetotal = 144.091874326987 ; duration of data segment timepri = 0.00120054551937967 ; estimate of PRI from time tags badFrames = 0 ; number of mis-ordered frames badTimes = 1 ; number of mis-ordered time tags ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpHWf hwffilterlength = 5 ; length of HW data median filter hwm = /export/air27/airops/at38out/at0038.lhwm ; median filtered HW data hwf = /export/air27/airops/at38out/at0038.lhwf ; corrected HW data ; parameters used or added by /u/auroch0/airops/ati/hp/bin/hwProc hwpolyfit = 2 ; order of polynomial fit hwstdevfilter = 3 ; stdev's from avg hwfilterlength = 11 ; smoothing window ; parameters added by /u/auroch0/airops/ati/hp/bin/moxRef mox = /export/air27/airops/at38out/at0038.lmox ; INU motion pegged to ref ; reference track: peg(deg) = 24.904628536821686 -80.417142342096867 0 heading(deg) = 132.20461976854224 ; parameters added by /u/auroch0/airops/ati/hp/bin/moxArm mox_ltt = /export/air27/airops/at38out/at0038.lmox_ltt; motion data for ltt phase center (no interp). mox_ltf = /export/air27/airops/at38out/at0038.lmox_ltf; motion data for ltf phase center (no interp). mox_lta = /export/air27/airops/at38out/at0038.lmox_lta; motion data for lta phase center (no interp). mox_ltv = /export/air27/airops/at38out/at0038.lmox_ltv; motion data for ltv phase center (no interp). mox_lth = /export/air27/airops/at38out/at0038.lmox_lth; motion data for lth phase center (no interp). mox_lft = /export/air27/airops/at38out/at0038.lmox_lft; motion data for lft phase center (no interp). mox_lff = /export/air27/airops/at38out/at0038.lmox_lff; motion data for lff phase center (no interp). mox_lfa = /export/air27/airops/at38out/at0038.lmox_lfa; motion data for lfa phase center (no interp). mox_lfv = /export/air27/airops/at38out/at0038.lmox_lfv; motion data for lfv phase center (no interp). mox_lfh = /export/air27/airops/at38out/at0038.lmox_lfh; motion data for lfh phase center (no interp). mox_lat = /export/air27/airops/at38out/at0038.lmox_lat; motion data for lat phase center (no interp). mox_laf = /export/air27/airops/at38out/at0038.lmox_laf; motion data for laf phase center (no interp). mox_laa = /export/air27/airops/at38out/at0038.lmox_laa; motion data for laa phase center (no interp). mox_lav = /export/air27/airops/at38out/at0038.lmox_lav; motion data for lav phase center (no interp). mox_lah = /export/air27/airops/at38out/at0038.lmox_lah; motion data for lah phase center (no interp). mox_lvt = /export/air27/airops/at38out/at0038.lmox_lvt; motion data for lvt phase center (no interp). mox_lvf = /export/air27/airops/at38out/at0038.lmox_lvf; motion data for lvf phase center (no interp). mox_lva = /export/air27/airops/at38out/at0038.lmox_lva; motion data for lva phase center (no interp). mox_lvv = /export/air27/airops/at38out/at0038.lmox_lvv; motion data for lvv phase center (no interp). mox_lvh = /export/air27/airops/at38out/at0038.lmox_lvh; motion data for lvh phase center (no interp). mox_lht = /export/air27/airops/at38out/at0038.lmox_lht; motion data for lht phase center (no interp). mox_lhf = /export/air27/airops/at38out/at0038.lmox_lhf; motion data for lhf phase center (no interp). mox_lha = /export/air27/airops/at38out/at0038.lmox_lha; motion data for lha phase center (no interp). mox_lhv = /export/air27/airops/at38out/at0038.lmox_lhv; motion data for lhv phase center (no interp). mox_lhh = /export/air27/airops/at38out/at0038.lmox_lhh; motion data for lhh phase center (no interp). ; parameters added by /u/auroch0/airops/ati/hp/scripts/hpMxStats stf = /export/air27/airops/at38out/at0038.lstf ; stats file for motion data ; ; specific command line parameters added for this job ; azkeep = 1 ch1 = laf ch2 = laa exit = regrid noclean = 1 ;=============================================================================== ; parameters added by /u/auroch0/airops/ati/pp/scripts/ppSetup ; pp executables and paths pppath = /u/auroch0/airops/ati/pp ; top-level for pp ppscripts = /u/auroch0/airops/ati/pp/scripts ; source folder for scripts ppbin = /u/auroch0/airops/ati/pp/bin ; folder for pp binaries pp_setup = /u/auroch0/airops/ati/pp/scripts/ppSetup ; pp setup script ps_setup = /u/auroch0/airops/ati/pp/scripts/psSetup ; presum setup script az_setup = /u/auroch0/airops/ati/pp/scripts/azSetup ; azimuth processing setup script if_setup = /u/auroch0/airops/ati/pp/scripts/ifSetup ; interferogram and magfile setup script uw_setup = /u/auroch0/airops/ati/pp/scripts/uwSetup ; phase unwrapping setup script grid_setup = /u/auroch0/airops/ati/pp/scripts/gridSetup ; phase unwrapping setup script par_setup = /u/auroch0/airops/ati/pp/scripts/parSetup ; parameter parsing setup script pp_ati = /u/auroch0/airops/ati/pp/bin/ppAti ; pp binary for ATI ; ATI executables and paths ati_path = /u/auroch0/airops/ati ; top-level for ATI software ati_bin = /u/auroch0/airops/ati/bin ; folder for ATI executables caltone = /u/auroch0/airops/ati/bin/caltone ; caltone estimation executable presum = /u/auroch0/airops/ati/bin/presum ; presum executable azproc = /u/auroch0/airops/ati/bin/azproc ; azimuth compression executable intf = /u/auroch0/airops/ati/bin/intf ; interferogram formation executable mags = /u/auroch0/airops/ati/bin/mags ; mag files formation executable unwrap = /u/auroch0/airops/ati/bin/unwrap ; phase unwrapping executable regrid = /u/auroch0/airops/ati/bin/grid ; regridding incMap = /u/auroch0/airops/ati/bin/incMap ; incidence angle map creation offsets = /u/auroch0/airops/ati/Tools/bin/calib_ampcor ; registration estimator tools = /u/auroch0/airops/ati/Tools/bin ; path to ati utilities rilooks = /u/auroch0/airops/ati/Tools/bin/rilooks ; utility for taking real looks in complex data cpxlooks = /u/auroch0/airops/ati/Tools/bin/cpxlooks ; utility for taking complex looks reallooks = /u/auroch0/airops/ati/Tools/bin/detilt_hgt ; utility for taking real looks in real data cpx2mag = /u/auroch0/airops/ati/Tools/bin/cpx2mag ; utility for converting complex*8 to real*4 mags cpx2phs = /u/auroch0/airops/ati/Tools/bin/cpx2phs ; utility for converting complex*8 to real*4 phase byteSplit = /u/auroch0/airops/ati/Tools/bin/byteSplit ; utility for fast extraction of raw data ; files and paths ppout = /export/air27/airops/at38out ; where to write the output ppp = /export/air27/airops/at38out/at0038.lppp ; pre-processing parameters (this file) par = /export/air27/airops/at38out/at0038.laf_laa_par ; nicely-formatted essential parameters file. ; interferometric channels ch0 = laf_laa ; reference ch1 = laf ; first channel ch2 = laa ; second channel lever_laf = 9.81 0.435 -0.145 ; phase center for laf channel lever_laa = 0.03 0.52 -0.23 ; phase center for laa channel baseline_laf_laa = 9.78 -0.085 0.085 ; vector: lever_laf - lever_laa ; ping-pong information transmitBaseline = pp ; pp/ct (ping-pong/common-transmitter) tprfFactor = 2 ; tprf corresponds to 1/2 channels processBaseline = 1 ; 0/1/2 for baseline factor laf_ndataframes = 60011 ; nRecs in laf rsd file laa_ndataframes = 60011 ; nRecs in laf rsd file laf_frameOffset = 1 ; lookup into frametag laa_frameOffset = 1 ; lookup into frametag ; ppAti options ppOs = 1.2 ; oversampling factor ppnRefSkip = 0 ; number of points between each ref point ppnRefAvg = 1 ; number of points to average for ref moxTag = mox ; suffix for mox files mocTag = moc ; suffix for moc files leverTag = lever ; suffix for leverarm keywords lengthTag = length ; suffix for antenna length keywords ppdt(s) = 1 ; (debugging) time delay between updates ppds(m) = 1 ; spacing (meters) for reference track ; output products: number of looks azonl = 1 ; 'target' total number of looks for output imagery ; ; parameters added by ppAti ; ppDs(m) = 0.556789 ; motion record spacing ppS0(m) = -2.94297 ; starting position ppSS(m) = 30820 ; along track length ppnMocRecs = 55349 ; number of records laf_laa_moc = /export/air27/airops/at38out/at0038.lmoc_laf_laa ; mocomp file for ref laf_moc = /export/air27/airops/at38out/at0038.lmoc_laf ; mocomp file for ch1 laa_moc = /export/air27/airops/at38out/at0038.lmoc_laa ; mocomp file for ch2 ; ; parameters added by /u/auroch0/airops/ati/pp/scripts/psSetup ; ; data files laf = /export/air27/airops/at38out/at0038.laf ; data file for first channel laa = /export/air27/airops/at38out/at0038.laa ; data file for second channel laf_nsamples = 6144 ; laf data file record length laa_nsamples = 6144 ; laa data file record length ; presum options psRfl = 4 ; presum relative filter length psfPrecision = 1024 ; presum filter precision psfWindow = Hanning ; presum filter window psfBandwidth = 1 ; presum filter fractional bandwidth psbRes(Hz) = 1 ; presum buffer update resolution psElevRef(m) = 0 ; elevation reference for presummer laf_psMocRec0 = 0 ; presum start mocrec laa_psMocRec0 = 0 ; presum start mocrec laf_psOut = /export/air27/airops/at38out/at0038.laf-ps ; presum output file for laf laa_psOut = /export/air27/airops/at38out/at0038.laa-ps ; presum output file for laa ; ; Parameters associated with caltone: ; ppFile = /export/air27/airops/at38out/at0038.lppp ; caltone parameter file laf_nSamples = 6144 laf_caltone = /export/air27/airops/at38out/at0038.laf_caltone laf_calnAvgAz = 4 laf_calBin = 3968 laf_calPhase(rad) = 0.565012 laf_calMag = 23.2275 ; ; parameters added by presum ; laf_psnmocrecs = 55349 ; number of moc recs presummed laf_psnsamples = 2516 ; ; parameters added by /u/auroch0/airops/ati/pp/scripts/azSetup ; offset_log = /export/air27/airops/at38out/at0038.azOffsetsLog_laf_laa ; log of registration estimates offset_data = /export/air27/airops/at38out/at0038.azOffsets_laf_laa ; registration estimates data ; azimuth processing options laf_azout = /export/air27/airops/at38out/at0038.laf-az ; azimuth processed file for laf laa_azout = /export/air27/airops/at38out/at0038.laa-az ; azimuth processed file for laa laf_azSquint = /export/air27/airops/at38out/at0038.laf-az-squint ; squint used to azimuth-compress laf laa_azSquint = /export/air27/airops/at38out/at0038.laa-az-squint ; squint used to azimuth-compress laa laf_azMocAvg = /export/air27/airops/at38out/at0038.laf-az-mocAvg ; mocAvg used to azimuth-compress laf laa_azMocAvg = /export/air27/airops/at38out/at0038.laa-az-mocAvg ; mocAvg used to azimuth-compress laa azPixelRatio = 7.4782083318616 ; ratio of one-look pixel dimensions azonlRa = 1 ; range looks for output magnitude image azonlAz = 7 ; azimuth looks for output magnitude image imageLooks = 7 ; actual number of looks taken for imagery ; ; parameters added by azproc for ch laf ; laf_refLen = 4096 ; az reference length laf_azblock = 8192 ; length of azimuth proc. patch laf_azdata = 4096 ; length of azimuth output patch laf_aznsamples = 2516 ; samples in az file laf_azsample0 = 0 ; first azimuth sample laf_aznmocrecs = 55349 ; number of pulses in az file laf_azmocrec0 = 0 ; first pulse in az file ; ; Parameters associated with caltone: ; ppFile = /export/air27/airops/at38out/at0038.lppp ; caltone parameter file laa_nSamples = 6144 laa_caltone = /export/air27/airops/at38out/at0038.laa_caltone laa_calnAvgAz = 4 laa_calBin = 3968 laa_calPhase(rad) = 1.40774 laa_calMag = 31.3412 ; ; parameters added by presum ; laa_psnmocrecs = 55349 ; number of moc recs presummed laa_psnsamples = 2516 ; ; parameters added by azproc for ch laa ; laa_refLen = 4096 ; az reference length laa_azblock = 8192 ; length of azimuth proc. patch laa_azdata = 4096 ; length of azimuth output patch laa_aznsamples = 2516 ; samples in az file laa_azsample0 = 0 ; first azimuth sample laa_aznmocrecs = 55349 ; number of pulses in az file laa_azmocrec0 = 0 ; first pulse in az file ; ; parameters added by /u/auroch0/airops/ati/pp/scripts/ifSetup ; ; azimuth processing options laf_laa_intf = /export/air27/airops/at38out/at0038.laf_laa_intf ; interferogram betwenn laf and laa laf_laa_azmag = /export/air27/airops/at38out/at0038.laf_laa_azmag ; complex (laf,laa) mag file ifonlRa = 1 ; range looks for output interferogram ifonlAz = 7 ; azimuth looks for output interferogram ; ; parameters added by /u/auroch0/airops/ati/pp/scripts/uwSetup ; ; unwrapping processing options gwf = /export/air27/airops/at38out/at0038.laf_laa_intf.gwf ; parmfile for gwf unwrapper uwAvgRa = 3 ; looks in range for unwrapping uwAvgAz = 17.9476999964678 ; looks in azimuth for unwrapping uwSm = /export/air27/airops/at38out/at0038.laf_laa-uwSm ; Filtered Interferogram File uwUnw = /export/air27/airops/at38out/at0038.laf_laa-uwWrp ; Unwrapped Phase File uwWrp = /export/air27/airops/at38out/at0038.laf_laa-uwWrp ; Wrapped Phase File uwFlg = /export/air27/airops/at38out/at0038.laf_laa-uwFlg ; Flag File uwSlp = /export/air27/airops/at38out/at0038.laf_laa-uwSlp ; Phase Gradient File uwGcc = /export/air27/airops/at38out/at0038.laf_laa-uwGcc ; Gradient Corrected Correlation File uwCc = /export/air27/airops/at38out/at0038.laf_laa-uwCc ; Standard Correlation File uwPhs = /export/air27/airops/at38out/at0038.laf_laa-uwPhs ; Phase Sigma File uwScc = /export/air27/airops/at38out/at0038.laf_laa-uwScc ; Phase Sigma Correlation File ; ; parameters added by /u/auroch0/airops/ati/pp/scripts/gridSetup ; ; re-gridding processing options postS(m) = 10 ; along-track post spacing postC(m) = 10 ; cross-track post spacing grid_intf = /export/air27/airops/at38out/at0038.laf_laa-uwWrp-sc10x10 ; gridded interferogram output filename grid_corr = /export/air27/airops/at38out/at0038.laf_laa-uwScc-sc10x10 ; gridded correlation output filename grid_inc = /export/air27/airops/at38out/at0038.laf_laa-uwWrp-sc10x10-inc ; gridded incidence angles output filename ; ; parameters added by grid ; grid_sMin = -13958; min S in regridded output grid_sMax = 13642; max S in regridded output grid_cMin = 4582; min C in regridded output grid_cMax = 15822; max C in regridded output grid_pulse_window = 20 grid_sample_window = 7 grid_distance_threshhold = 14.1421 grid_nsamples = 1125; regridded samples grid_nrecords = 2761; regridded records grid_corner_1 = 25.01991379 -80.48885895 0.02844974212; lat(d) lon(d) alt(m) grid_corner_2 = 25.09514008 -80.41400051 0.1058189748; lat(d) lon(d) alt(m) grid_corner_3 = 24.85244974 -80.28642925 -0.02611054201; lat(d) lon(d) alt(m) grid_corner_4 = 24.92757639 -80.21154974 -0.08283414412; lat(d) lon(d) alt(m)