; Parameter file for swissc_06003_09030_004_090527_L090_CX_01 ; search for parameters/value rather than placement in file ; slc = single look complex slant range image ; mlc = multi look cross product slant range image ; dat = compressed stokes matrix of multi-looked data ; grd = ground range projected (equiangular) and multi-looked data ; hgt = dem that grd were projected ; slc_mag and slc_phase are derived from the same 8 bytes per pixel of the slc input file ; mlc_mag and mlc_phase are derived from the same 8 bytes per pixel of the complex mlc input files ; grd_mag and grd_phase ground range projected (equiangular) complex cross-products image ; Peg position is the nadir position of aircraft at the middle of the datatake ; Projection of image is relative to the flightline (S - along track position, C - cross track position) ; S0, C0 is offset to upper left coordinate of SLC in meters ; to display MLC amplitude and phase in mdx: ; mdx -h swissc_06003_09030_004_090527_L090_CX_01.ann -mix + -PER -percent 95 -exp .5 swissc_06003_09030_004_090527_L090HHHH_CX_01.mlc -set mlc_pwr -cmap red swissc_06003_09030_004_090527_L090HVHV_CX_01.mlc -set mlc_pwr -cmap green -exp .5 swissc_06003_09030_004_090527_L090VVVV_CX_01.mlc -set mlc_pwr -cmap blue ; mdx -h swissc_06003_09030_004_090527_L090_CX_01.ann -mix + -PER -percent 95 -exp .5 swissc_06003_09030_004_090527_L090HHHH_CX_01.grd -set grd_pwr -cmap red swissc_06003_09030_004_090527_L090HVHV_CX_01.grd -set grd_pwr -cmap green -exp .5 swissc_06003_09030_004_090527_L090VVVV_CX_01.grd -set grd_pwr -cmap blue ; general location of data (non-unique) Site Description = Jar2 Swiss Camp, Greenland ; URL of JPL website for precision data URL = http://uavsar.jpl.nasa.gov/cgi-bin/product.pl?jobName=swissc_06003_09030_004_090527_L090_CX_01 ; list of precision data files slcHH = swissc_06003_09030_004_090527_L090HH_CX_01.slc ; File Size 6724713600 bytes slcHV = swissc_06003_09030_004_090527_L090HV_CX_01.slc ; File Size 6724713600 bytes slcVH = swissc_06003_09030_004_090527_L090VH_CX_01.slc ; File Size 6724713600 bytes slcVV = swissc_06003_09030_004_090527_L090VV_CX_01.slc ; File Size 6724713600 bytes mlcHHHH = swissc_06003_09030_004_090527_L090HHHH_CX_01.mlc ; File Size 93390000 bytes mlcHVHV = swissc_06003_09030_004_090527_L090HVHV_CX_01.mlc ; File Size 93390000 bytes mlcVVVV = swissc_06003_09030_004_090527_L090VVVV_CX_01.mlc ; File Size 93390000 bytes mlcHHHV = swissc_06003_09030_004_090527_L090HHHV_CX_01.mlc ; File Size 186780000 bytes mlcHHVV = swissc_06003_09030_004_090527_L090HHVV_CX_01.mlc ; File Size 186780000 bytes mlcHVVV = swissc_06003_09030_004_090527_L090HVVV_CX_01.mlc ; File Size 186780000 bytes dat = swissc_06003_09030_004_090527_L090_CX_01.dat ; File Size 233574000 bytes grdHHHH = swissc_06003_09030_004_090527_L090HHHH_CX_01.grd ; File Size 373555728 bytes grdHVHV = swissc_06003_09030_004_090527_L090HVHV_CX_01.grd ; File Size 373555728 bytes grdVVVV = swissc_06003_09030_004_090527_L090VVVV_CX_01.grd ; File Size 373555728 bytes grdHHHV = swissc_06003_09030_004_090527_L090HHHV_CX_01.grd ; File Size 747111456 bytes grdHHVV = swissc_06003_09030_004_090527_L090HHVV_CX_01.grd ; File Size 747111456 bytes grdHVVV = swissc_06003_09030_004_090527_L090HVVV_CX_01.grd ; File Size 747111456 bytes hgt = swissc_06003_09030_004_090527_L090_CX_01.hgt ; File Size 373555728 bytes kmz = swissc_06003_09030_004_090527_L090_CX_01.kmz ; File Size 130820020 bytes ; display parameters (mdx header) ; exception: compressed stokes matrix dat cannot be displayed using mdx set_name (&) = ; Layers Described slc_mag.set_rows (pixels) = 84908 ; SLC Lines slc_mag.set_cols (pixels) = 9900 ; SLC Samples slc_phase.set_rows (pixels) = 84908 ; SLC Lines slc_phase.set_cols (pixels) = 9900 ; SLC Samples mlc_pwr.set_rows (pixels) = 7075 ; MLC Lines mlc_pwr.set_cols (pixels) = 3300 ; MLC Samples mlc_mag.set_rows (pixels) = 7075 ; MLC Lines mlc_mag.set_cols (pixels) = 3300 ; MLC Samples mlc_phase.set_rows (pixels) = 7075 ; MLC Lines mlc_phase.set_cols (pixels) = 3300 ; MLC Samples dat.set_rows (pixels) = 7075 ; DAT Lines (cannot be displayed in mdx) dat.set_cols (pixels) = 3300 ; DAT Samples (cannot be displayed in mdx) grd_pwr.set_rows (pixels) = 7308 ; GRD Lines grd_pwr.set_cols (pixels) = 12779 ; GRD Samples grd_mag.set_rows (pixels) = 7308 ; GRD Lines grd_mag.set_cols (pixels) = 12779 ; GRD Samples grd_phase.set_rows (pixels) = 7308 ; GRD Lines grd_phase.set_cols (pixels) = 12779 ; GRD Samples hgt.set_rows (pixels) = 7308 ; HGT Lines hgt.set_cols (pixels) = 12779 ; HGT Samples set_hddr (bytes) = 0 ; Header Bytes in Raw Data set_tail (bytes) = 0 ; Tail Bytes in Raw Data slc_mag.set_proj (&) = SCX slc_phase.set_proj (&) = SCX mlc_pwr.set_proj (&) = SCX mlc_mag.set_proj (&) = SCX mlc_phase.set_proj (&) = SCX dat.set_proj (&) = SCX grd_pwr.set_proj (&) = EQA grd_mag.set_proj (&) = EQA grd_phase.set_proj (&) = EQA hgt.set_proj (&) = EQA set_plat (deg) = 69.370939 ; Peg Latitude set_plon (deg) = -49.505222 ; Peg Longitude set_phdg (deg) = 60.9989893 ; Peg Heading slc_mag.row_addr (m) = -26295.6 ; S (azimuth) Offset(S0) from Peg slc_mag.col_addr (m) = 12850.4292 ; C (range) Offset(C0) from Peg slc_phase.row_addr (m) = -26295.6 ; S (azimuth) Offset(S0) from Peg slc_phase.col_addr (m) = 12850.4292 ; C (range) Offset(C0) from Peg mlc_pwr.row_addr (m) = -26292.3 ; S (azimuth) Offset(S0) from Peg mlc_pwr.col_addr (m) = 12852.09471366 ; C (range) Offset(C0) from Peg mlc_mag.row_addr (m) = -26292.3 ; S (azimuth) Offset(S0) from Peg mlc_mag.col_addr (m) = 12852.09471366 ; C (range) Offset(C0) from Peg mlc_phase.row_addr (m) = -26292.3 ; S (azimuth) Offset(S0) from Peg mlc_phase.col_addr (m) = 12852.09471366 ; C (range) Offset(C0) from Peg dat.row_addr (m) = -26292.3 ; S (azimuth) Offset(S0) from Peg dat.col_addr (m) = 12852.09471366 ; C (range) Offset(C0) from Peg grd_pwr.row_addr (deg) = 69.692963880000008 ; Center Latitude of Upper Left Pixel of Image grd_pwr.col_addr (deg) = -50.427717940000001 ; Center Longitude of Upper Left Pixel of Image grd_mag.row_addr (deg) = 69.692963880000008 ; Center Latitude of Upper Left Pixel of Image grd_mag.col_addr (deg) = -50.427717940000001 ; Center Longitude of Upper Left Pixel of Image grd_phase.row_addr (deg) = 69.692963880000008 ; Center Latitude of Upper Left Pixel of Image grd_phase.col_addr (deg) = -50.427717940000001 ; Center Longitude of Upper Left Pixel of Image hgt.row_addr (deg) = 69.692963880000008 ; Center Latitude of Upper Left Pixel of Image hgt.col_addr (deg) = -50.427717940000001 ; Center Longitude of Upper Left Pixel of Image slc_mag.row_mult (m/pixel) = 0.6 ; SLC S (azimuth) Slant Post Spacing slc_mag.col_mult (m/pixel) = 1.66551366 ; SLC C (range) Slant Post Spacing slc_phase.row_mult (m/pixel) = 0.6 ; SLC S (azimuth) Slant Post Spacing slc_phase.col_mult (m/pixel) = 1.66551366 ; SLC C (range) Slant Post Spacing mlc_pwr.row_mult (m/pixel) = 7.2 ; MLC S (azimuth) Slant Post Spacing mlc_pwr.col_mult (m/pixel) = 4.99654098 ; MLC C (range) Slant Post Spacing mlc_mag.row_mult (m/pixel) = 7.2 ; MLC S (azimuth) Slant Post Spacing mlc_mag.col_mult (m/pixel) = 4.99654098 ; MLC C (range) Slant Post Spacing mlc_phase.row_mult (m/pixel) = 7.2 ; MLC S (azimuth) Slant Post Spacing mlc_phase.col_mult (m/pixel) = 4.99654098 ; MLC C (range) Slant Post Spacing dat.row_mult (m/pixel) = 7.2 ; DAT S (azimuth) Slant Post Spacing (cannot be displayed in mdx) dat.col_mult (m/pixel) = 4.99654098 ; DAT C (range) Slant Post Spacing (cannot be displayed in mdx) grd_pwr.row_mult (deg/pixel) = -5.5560000000000003e-05; GRD Latitude Pixel Spacing grd_pwr.col_mult (deg/pixel) = 0.00011111 ; GRD Longitude Pixel Spacing grd_mag.row_mult (deg/pixel) = -5.5560000000000003e-05; GRD Latitude Pixel Spacing grd_mag.col_mult (deg/pixel) = 0.00011111 ; GRD Longitude Pixel Spacing grd_phase.row_mult (deg/pixel) = -5.5560000000000003e-05; GRD Latitude Pixel Spacing grd_phase.col_mult (deg/pixel) = 0.00011111 ; GRD Longitude Pixel Spacing hgt.row_mult (deg/pixel) = -5.5560000000000003e-05; HGT Latitude Pixel Spacing hgt.col_mult (deg/pixel) = 0.00011111 ; HGT Longitude Pixel Spacing slc_mag.val_size (bytes) = 8 ; SLC Bytes per pixel in file slc_phase.val_size (bytes) = 8 ; SLC Bytes per pixel in file mlc_pwr.val_size (bytes) = 4 ; MLC Bytes per pixel in file mlc_mag.val_size (bytes) = 8 ; MLC Bytes per pixel in file mlc_phase.val_size (bytes) = 8 ; MLC Bytes per pixel in file dat.val_size (bytes) = 10 ; DAT Bytes per pixel in file (cannot be displayed in mdx) grd_pwr.val_size (bytes) = 4 ; GRD Bytes per pixel in file grd_mag.val_size (bytes) = 8 ; GRD Bytes per pixel in file grd_phase.val_size (bytes) = 8 ; GRD Bytes per pixel in file hgt.val_size (bytes) = 4 ; HGT Bytes per pixel in file slc_mag.val_frmt (&) = COMPLEX_MAGNITUDE ; SLC Data Type slc_phase.val_frmt (&) = COMPLEX_PHASE ; SLC Data Type mlc_pwr.val_frmt (&) = REAL*4 ; MLC Data Type mlc_mag.val_frmt (&) = COMPLEX_MAGNITUDE ; MLC Data Type mlc_phase.val_frmt (&) = COMPLEX_PHASE ; MLC Data Type dat.val_frmt (&) = COMPRESSED_STOKES ; DAT Data Type (cannot be displayed in mdx) grd_pwr.val_frmt (&) = REAL*4 ; GRD Data Type grd_mag.val_frmt (&) = COMPLEX_MAGNITUDE ; GRD Data Type grd_phase.val_frmt (&) = COMPLEX_PHASE ; GRD Data Type hgt.val_frmt (&) = REAL*4 ; HGT Data Type val_endi (&) = LITTLE ENDIAN val_mult (-) = 1.0 ; Scale for Data val_addr (-) = 0.0 ; Shift for Data val_minv (dB) = -1000000. ; Minimum Value Default for display val_maxv (dB) = 10000000. ; Maximum Value Default for display slc_phase.val_mult (-) = 1.0 ; Maximum Value Default for display slc_phase.val_minv (rad) = -3.14 ; Maximum Value Default for display slc_phase.val_maxv (rad) = 3.14 ; Maximum Value Default for display mlc_phase.val_mult (-) = 1.0 ; Maximum Value Default for display mlc_phase.val_minv (rad) = -3.14 ; Maximum Value Default for display mlc_phase.val_maxv (rad) = 3.14 ; Maximum Value Default for display grd_phase.val_mult (-) = 1.0 ; Maximum Value Default for display grd_phase.val_minv (rad) = -3.14 ; Maximum Value Default for display grd_phase.val_maxv (rad) = 3.14 ; Maximum Value Default for display dsp_cmap (&) = grey ; Grey Color Table hgt.dsp_cmap (&) = cmy ; Color Table slc_phase.dsp_cmap (&) = cmy ; Color Table mlc_phase.dsp_cmap (&) = cmy ; Color Table grd_phase.dsp_cmap (&) = cmy ; Color Table ; from patchinfo file Peg Latitude (deg) = 0.693709390E+02 Peg Longitude (deg) = -0.495052220E+02 Peg Heading (deg) = 0.609989893E+02 Center Wavelength (cm) = 0.238403545E+02 Ellipsoid Semi-major Axis (m) = 0.637813700E+07 Ellipsoid Eccentricity Squared (-) = 0.669437999E-02 Look Direction (&) = Left Ping-Pong or Single Antenna Transmit (-) = 1 Range Spacing per Bin (m) = 0.166551366E+01 Image Starting Range (km) = 0.128504292E+02 Nominal Azimuth Reference Length (-) = 8192 Azimuth Spacing (m) = 0.600000000E+00 Global Average Yaw (deg) = -0.496052051E+00 Global Average Pitch (deg) = 0.211807968E+01 Global Average Roll (deg) = 0.188953207E+00 Global Average ESA (deg) = -0.930796022E+00 Global Average Altitude (m) = 0.124966299E+05 Global Average Terrain Height (m) = 0.661000000E+03 Global Average Squint Angle (deg) = 0.897836812E+02 Average Pulse Repetition Interval (ms) = 0.248662631E+01 Average Terrain Height (m) = 0.661000000E+03 Standard Deviation of Terrain Height (m) = 0.000000000E+00 Average Altitude (m) = 0.124966299E+05 Reskew Doppler (&) = Zero Doppler Reskew Doppler Near Mid Far (hz,hz,hz) = 0.00000000 0.00000000 0.00000000 Mocomp I Applied (&) = Y Mocomp II Applied (&) = Y ; acquisition parameters Acquisition Mode (&) = PolSAR Pulse Length (microsec) = 40000000.0 Steering Angle (90 is Boresite) (deg) = 90.0 Bandwidth (Mhz) = 80.00000000000000 Date of Acquisition (&) = 27-May-2009 14:38:25 UTC ; note this flight line's synthetic aperture spans 22 seconds since it was flown at an average speed of 220 m/s Start Time of Acquisition (&) = 27-May-2009 14:38:25 UTC ; note this flight line's synthetic aperture spans 22 seconds since it was flown at an average speed of 220 m/s Stop Time of Acquisition (&) = 27-May-2009 14:41:53 UTC ; note this flight line's synthetic aperture spans 22 seconds since it was flown at an average speed of 220 m/s ; post-processing parameters Number of Range Looks in MLC (-) = 3 Number of Azimuth Looks in MLC (-) = 12 Number of Range Looks in GRD (-) = 3 Number of Azimuth Looks in GRD (-) = 12 Ground Projection Method (&) = Nearest Neighbor DEM Used in Ground Projection (&) = SRTM30 v2 DEM Datum (&) = WGS-84 DEM Source (&) = http://uavsar.jpl.nasa.gov/doc/dem.htm DEM Original Pixel Spacing (arcsec) = 30 Slope Calibration in GRD (&) = No Approximate Upper Left Latitude (deg) = 69.46333440 Approximate Upper Left Longitude (deg) = -50.42238466 Approximate Upper Right Latitude (deg) = 69.68735232 Approximate Upper Right Longitude (deg) = -49.29672925 Approximate Lower Left Latitude (deg) = 69.32304540 Approximate Lower Left Longitude (deg) = -50.18249817 Approximate Lower Right Latitude (deg) = 69.52372812 Approximate Lower Right Longitude (deg) = -49.02673195 Precision DGPS Solution (&) = Real-Time ; Real-Time or Post-Processed Date of Processing (&) = 13-Sep-2013 Processor Version Number (&) = v1.30.5 Post Processor Version Number (&) = v1.30.5 Hardware Version Number (&) = N/A ; radiometric calibration parameters Antenna Pattern Radiometric Correction Applied (&) = Yes Range Dependent Radiometric Correction Applied (&) = Yes Area Correction Factor in Slant Plane Applied (&) = Yes RFI Removed (&) = Yes (Quick RFI Removal) Cross Talk Removed (&) = Yes Apply Receive Cal Pulse Phase (&) = Yes Apply Transmit Cal Pulse Phase (&) = Yes Elevation Boresight Bias HH LRTI80 (deg) = 0.0 Elevation Boresight Bias VV LRTI80 (deg) = 0.0 Sigma Nought Bias HH LRTI80 (-) = 0.04708 Sigma Nought Bias VV LRTI80 (-) = 0.04544 Sigma Nought Bias HV LRTI80 (-) = 0.04672 Sigma Nought Bias VH LRTI80 (-) = 0.04579 HH-VV Phase Bias LRTI80 (deg) = -106.13065 HV-VH Phase Bias LRTI80 (deg) = -112.00000 HH-VV Phase Slope LRTI80 (-) = -0.28204 HV-VH Phase Slope LRTI80 (-) = 0.00000 Noise Calibration Constant LRTI80 (-) = 0.0 ISLR Noise Calibration Term LRTI80 (-) = 0.0 SLC Data Units (&) = linear amplitude MLC Data Units (&) = linear power GRD Data Units (&) = linear power HGT Data Units (&) = meters ; comments comments =