Attributes { HDF_GLOBAL { String HDFEOSVersion "HDFEOS_V2.13"; Int32 Path_number 159; Int32 AGP_version_id 2; Int32 DID_version_id 4; Int32 Number_blocks 180; Int32 Ocean_blocks_size 180; Int32 Ocean_blocks.count 71; Int32 Ocean_blocks.numbers 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 79, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 175, 176, 177, 178, 179, 180, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0; Float64 SOM_parameters.som_ellipsoid.a 6.37814e+06; Float64 SOM_parameters.som_ellipsoid.e2 0.00669435; Float64 SOM_parameters.som_orbit.aprime 1; Float64 SOM_parameters.som_orbit.eprime 1; Float64 SOM_parameters.som_orbit.gama 1; Int32 SOM_parameters.som_orbit.nrev 233; Float64 SOM_parameters.som_orbit.ro 7.07804e+06; Float64 SOM_parameters.som_orbit.i 1.71573; Float64 SOM_parameters.som_orbit.P2P1 0.0686667; Float64 SOM_parameters.som_orbit.lambda0 -2.03086; Float64 Origin_block.ulc.x 7.46075e+06; Float64 Origin_block.ulc.y 527450; Float64 Origin_block.lrc.x 7.60155e+06; Float64 Origin_block.lrc.y 1.09065e+06; Int32 Start_block 68; Int32 End%20block 74; Int32 Cam_mode 1; Int32 Num_local_modes 0; String Local_mode_site_name "\\000\\000\\000\\000\\000\\000\\000\\000\\000\\000\\000\\000"; Float32 Orbit_QA 0; Int32 Camera 1; String SubsetMetadata "\\012GROUP = SUBSET\\012 PARENT_FILE = MISR_AM1_GRP_ELLIPSOID_GM_P159_O025891_DF_F03_0024.hdf\\012 BLOCKS = (68,69,70,71,72,73,74)\\012 PARAMETERS = (ALL)\\012END GROUP = SUBSET\\012"; String HDF_ANNOT "EXECUTABLE INFORMATION\\012MISR_EXEC_NAME:GP_UPD_E_main.c\\012MISR_EXEC_VERSION: V3.3_i2_PGE6_22\\012MISR_COMPOSITION_INFO_BEGIN\\012DATE OF BUILD: Wed Nov 16 12:20:03 EST 2005\\012BUILT BY: sbaekins\\012HOST INFO: l0spg11: ClearCase 2003.06.10+ (IRIX64 6.5 10070055 IP35)\\012VOBS CONFIGURATION:\\012 /vobs/PGEvob/... V3.3\\012 /vobs/Shared/... V3.3\\012 /vobs/PCS/... V3.3\\012 /vobs/L1B2/... V3.3_i2_PGE6_22\\012LIB ENVIRONMENT:\\012 HDFEOS:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/hdfeos/lib/sgi32\\012 HDF:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/hdf/sgi32/HDF4.2r0/lib\\012 PGSTK:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/lib/sgi32\\012COMPILER FLAGS\\012 -n32 -mips4 -r10000 -O3 -g3 -fullwarn -DCPU_SGI\\012 -Wl,-woff,84 -Wl,-woff,85 -Wl,-woff,15 -Wl,-woff,134\\012 -DCC_VERSION=MIPSpro Compilers: Version 7.4\\012 -DOSVERSION=6.5\\012MISR_COMPOSITION_INFO_END\\012illary/CSSC/MISR_AM1_CSSC_F02_06.hdf\\012LID = 1307; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_DF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113053452.DF.24.hdf\\012LID = 1308; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_CF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050606.CF.24.hdf\\012LID = 1309; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_BF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113054059.BF.24.hdf\\012LID = 1310; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_AF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050404.AF.24.hdf\\012LID = 1311; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_AN_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050443.AN.24.hdf\\012LID = 1312; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_DA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113053937.DA.24.hdf\\012LID = 1313; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_CA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050617.CA.24.hdf\\012LID = 1314; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_BA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113053833.BA.24.hdf\\012LID = 1315; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_AA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050402.AA.24.hdf\\012LID = 1316; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_DF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113053501.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_CF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050731.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_BF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113054108.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_AF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050555.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_AN_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050757.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_DA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113053952.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_CA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050801.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_BA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113053846.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_AA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050601.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_DF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083182729.DF.25.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_CF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083202513.CF.25.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_BF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083201202.BF.25.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_AF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083195818.AF.25.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_AN_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083200548.AN.25.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_DA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083183218.DA.25.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_CA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083201721.CA.25.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_BA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083193317.BA.25.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_AA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083195209.AA.25.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P156_O033740_F03_0013.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIB2GEOP.A2006112.0556.002.2008074014047.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_APR_2006_F02_03.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/TASC/MISR_AM1_TASC_APR_2006_F02_03.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012LID = 1501; Local Granule ID = MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 951; Local Granule ID = MISR_AM1_TC_STEREO_P156_O033740_F08_0017.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIL2TCST.A2006112.0556.002.2008084083022.17.hdf\\012)\\01240.8 ! cam_line_repeat_time\\012 ! MISR camera line repeat time (msec)\\012.0001 ! BRF scale factor\\012!------------------------------------------------\\012! Threshold parameters\\012! Reference: None\\012! \\012!------------------------------------------------\\0120.0 ! min_rlra_height\\012 ! minimum acceptable value for RLRA height (m)\\01220000.0 ! max_rlra_height\\012 ! maximum acceptable value for RLRA height (m)\\0120.0 ! min_texture_index\\012 ! minimum acceptable value for texture index\\01210.0 ! max_texture_index\\012 ! maximum acceptable value for texture index\\012175.0 ! min_temperature\\012 ! minimum acceptable value for temperature (K)\\012340.0 ! max_temperature\\012 ! maximum acceptable value for temperature (K)\\0126.0 ! max_brf_value\\012 ! maximum acceptable value for BRF\\0120.0 ! min_albedo_value\\012 ! minimum acceptable value for albedo\\0126.0 ! max_albedo_value\\012 ! maximum acceptable value for albedo\\01280.0 ! max_view_angle_along\\012 ! maximum view angle in along-track direction (degrees)\\01225.0 ! max_view_angle_cross\\012 ! maximum view angle in cross-track direction (degrees)\\012!------------------------------------------------\\012! TOA Albedo Retrieval Configuration File parameters\\012! Reference: Level 2 Top-of-Atmosphere Albedo Algorithm\\012! Theoretical Basis Document, JPL D-13401, Rev B\\012!------------------------------------------------\\0120.04 ! mu0_thresh_albedo\\012 ! minimum cosine of solar zenith angle for calculation of albedos\\0128 ! max_brf_cam_dist_t\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0121 ! max_brf_cam_dist_s\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0120.0 ! min_liquid_cloud_temp\\012 ! minimum temperature for setting cloud phase = liquid (degrees C)\\012-43.0 ! max_ice_cloud_temp\\012 ! maximum temperature for setting cloud phase = ice (degrees C)\\0126 ! min_angle_det_clear\\012 ! minimum number of angles needed for applying Deterministic (clear) model\\0120.240 0.094 0.043 0.015 ! rayleigh_std\\012 ! standard Rayleigh optical depth, for each spectral band\\0128.0 ! scale_ht\\012 ! atmospheric scale height, H (km)\\0124 ! niter_det_clear\\012 ! number of iterations for clear sky deterministic model fit\\0122.0 ! chi_sq_thresh_azm\\012 ! threshold for determining goodness of clear-sky AZM fit\\01210 ! nbin_mu\\012 ! number of cosine of zenith angle sub-bins\\01290 ! nbin_phi\\012 ! number of azimuth angle sub-bins\\0120.9 ! mu0_thresh_saw\\012 ! minimum value of mu0 above which pure Solid Angle Weighting is used\\01230.0 ! toa_altitude\\012 ! TOA altitude for referencing expansive albedos (km)\\0125 ! nblock_expansive\\012 ! number of 140.8-km blocks contributing to expansive albedo calculation\\0120 ! force_albedo_method\\012 ! force albedo code through one method: 0 - do not force; 1 - cloudy determ;\\012 ! 2 - cloudy stoch; 3 - clear determ; 4 - solid angle weighting\\0121.640 ! alb_broadband_zeropoint\\012 ! a_0 regression coefficient to use for broadband albedo calculation\\0120.170 0.210 -0.18 0.530 ! alb_broadband_coeff\\012 ! coefficients (blue-band, green-band, red-band, nir-band in order)\\012 ! to use in calculating the broadband albedo\\0121368.0 ! alb_broadband_I0b\\012 ! \"I0_b\" coefficient to use in albedo broadband calculation\\0121 ! cssc_search_dist\\012 ! distance from center of lat/long cell to search for nearest land class, \\012 ! expressed as a whole number of CSSC cells\\0128 ! min_localb_cameras\\012 ! minimum number of cameras that satisfy criteria for computing local\\012 ! albedo - to crop local albedo at swath edges\\0121 ! reset_localb_to_fill\\012 ! whether or not to reset local albedo values at filled RLRAs to BADVALUE;\\012 ! 0 = do not reset; 1 = reset\\01210000.0 ! rlp_horiz_segment_len\\012 ! horizontal distance in meters over which look vectors expressed in SOM\\012\\011 ! coords can be linearly interpolated to give acceptable results\\0122 ! rlra_filter\\012 ! type of RLRA filtering to do in RLP: 0 = do not replace RLRA BAD_VALUEs;\\012 ! 1 = replace all BAD_VALUEs with 0.0; 2 = replace all BAD_VALUES with an\\012 ! average of nearby RLRA values\\0120 ! rlra_smooth\\012 ! whether to do RLRA smoothing in RLP:\\012 ! 0 = do not smooth RLRAs; 1 = smooth RLRAs after replacement\\012target_patch_cross \\012 ! target patch size used in height retrievals, cross-track (pixels)\\0120.75 ! m2_thresh\\012 ! M2 threshold\\0121.00 ! m3_thresh\\012 ! M3 threshold\\0126 ! rs_filter_window_along\\012 ! RS filter window size, along-track direction (pixels)\\0126 ! rs_filter_window_cross\\012 ! RS filter window size, cross-track direction (pixels)\\0120 ! rs_string_size (currently not used)\\012 ! RS along-track string size (pixels)\\01250.0 ! min_median_filter_pcnt\\012 ! minimum population of filter window to perform median filtering (percent)\\0124 ! m2m3_matcher_score\\012 ! M2+M3 matcher score\\0123 ! m2_matcher_score\\012 ! M2 matcher score\\0122 ! m3_matcher_score\\012 ! M3 matcher score\\0121 ! rs_matcher_score\\012 ! RS matcher score\\0120.0 ! min_stereo_cloud_height\\012 ! minimum allowable stereoscopic cloud height. (km)\\01220.0 ! max_stereo_cloud_height\\012 ! maximum allowable stereoscopic cloud height. (km)\\0121000.0 ! max_skew\\012 ! ray skewness blunder threshold (m)\\01210000.0 ! max_skew_zerowind\\012 ! ray skewness blunder threshold (m) for zero-wind heights.\\0120 ! skew_blunder_score\\012 ! ray skewness blunder score\\0121 ! skew_lc_score\\012 ! ray skewness test low confidence score\\012275.0 ! skew_hc_thresh\\012 ! ray skewness test high confidence threshold (m)\\0122 ! skew_hc_score\\012 ! ray skewness test high confidence score\\012562.0 ! height_unc\\012 ! stereoscopic height uncertainty increment\\0128 ! max_hc_score\\012 ! maximum score for declaring a stereoscopic height High Confidence\\0126 ! min_hc_score\\012 ! minimum score for declaring a stereoscopic height High Confidence\\0125 ! max_lc_score\\012 ! maximum score for declaring a stereoscopic height Low Confidence\\0121 ! min_lc_score\\012 ! minimum score for declaring a stereoscopic height Low Confidence\\0125.0 ! max_snow_water_eq\\012 ! maximum equivalent water amount which is not considered snow-covered (mm)\\0125.0 ! max_sea_ice_pcnt\\012 ! maximum sea ice cover which is not considered snow-covered (percent)\\0120.0 ! default_rlra_ht\\012 ! default rlra height (km above terrain)\\0123.0 ! default_cloud_ht\\012 ! default cloud height (km above terrain)\\0127 ! neighborhd_size\\012 ! # of 1.1 km samples, along- and cross-track, in terrain \"neighborhood\"\\0120 3 3 2 2 ! stereo_ht_table\\0121 1 1 1 2 ! stereoscopic height decision matrix (Table 5 of ATB)\\0121 1 1 2 2 ! 0 = \"No Retrieval\"\\0121 1 1 2 2 ! 1 = \"Keep\"\\0121 1 1 2 2 ! 2 = \"Surface\"\\012 ! 3 = \"Default Cloud\"\\0120 2 2 4 4 ! sdcm_table\\0121 1 1 1 4 ! 0 = \"No Retrieval\"\\0122 2 2 4 4 ! 1 = \"CloudHC\"\\0123 3 3 4 4 ! 2 = \"CloudLC\"\\0124 3 3 4 4 ! 3 = \"Near Surface\"\\012 ! 4 = \"Clear\"\\0120.0 ! texture_max_rdqi\\012 ! RDQI thresh for determ what is valid data in calc avg BRFs and text indices\\01292.0 ! max_scat_angle\\012 ! scattering angle threshold for establishing forward scattering\\0122.0 ! max_low_cloud\\012 ! low cloud upper limit for altitude binning (km)\\0126.0 ! max_mid_cloud\\012 ! middle cloud upper limit for altitude binning (km)\\012275.0 ! cloud_thickness\\012 ! assumed cloud thickness used in cloud shadow algorithm (m)\\012550.0 ! ray_cast_step_size\\012 ! horizontal ray-casting step size in cloud and topographic shadow alg (m)\\01235.2 ! max_ray_cast\\012 ! maximum horizontal distance for casting cloud and topographic shadow\\0120.5 ! prev_match_m2_thresh\\012 ! previous match method threshold for M2\\0120.5 ! prev_match_m3_thresh\\012 ! previous match method threshold for M3\\0122 ! pyramid_levels\\012 ! number of levels in stereo image pyramid\\012.FALSE. ! rs_match_flag\\012 ! whether to use the RS stereo matching method (flag)\\0125 ! height_ref_cam\\012 ! stereo height reference camera id\\0124 ! height_comp_cam_fwd\\012 ! stereo height forward comparison camera id\\0126 ! height_comp_cam_aft\\012 ! stereo height aft comparison camera id\\0127 ! previous_window_along\\012 ! along-track size of previous-match-method search window\\0125 ! previous_window_cross\\012 ! cross-track size of previous-match-method search window\\0125 ! pyramid_window_along\\012 ! along-track size of pyramid-match-method search window\\0125 ! pyramid_window_cross\\012 ! cross-track size of pyramid-match-method search window\\0122.0 ! blunder_thresh\\012 ! number of standard deviations used to compute height blunder limits\\012275.0 ! near_ellipsoid_tolerance\\012 ! distance from ellipsoid to be considered a misregistration correction point\\01210\\011 ! min_misreg_points\\012\\011 ! min number of misreg points needed to perform misregistration correction\\0122 ! max_misreg_cross_disp\\012\\011 ! maximum cross-track disparity to allow in misregistration calculation\\0121.5 ! max_misreg_height_diff\\012\\011 ! max diff btw surface ht and disparity-calc ht for point to be included in misreg calc (times resolution)\\0122\\011 ! max_peak_variance_cross\\012\\011 ! maximum cross-track variance from histogram peak to avoid cut\\0122\\011 ! max_peak_variance_along\\012\\011 ! maximum along-track variance from histogram peak to avoid cut\\0121.00\\011 ! max_misreg_cloud_frac\\012\\011 ! max frac of domain classified as cloudy (CLOUD_HC or CLOUD_LC) for misreg calc to be performed\\0125\\011 ! misreg_srch_neighborhd\\012\\011 ! area around point to search for land (NxN)\\0120.30 ! ratio_ntriplets_alltriplets\\012\\011 ! min ratio of triplets to all triplets for wind disparity histograms to be used for wind QA calculations.\\01213\\011 ! wdisp_hist_width_good\\012\\011 ! max histogram width to be called good quality.\\01225\\011 ! wdisp_hist_width_bad\\012\\011 ! histogram width at or above which is called bad quality.\\0123\\011 ! min_ngoodhist_vgwind\\012\\011 ! min number of good quality histograms for wind to be very good.\\0120\\011 ! max_nbadhist_vgwind\\012\\011 ! max number of bad quality histograms for wind to be very good quality.\\0122\\011 ! min_ngoodhist_goodwind\\012\\011 ! min number of good quality histograms for wind to be good quality.\\0121\\011 ! max_nbadhist_goodwind\\012\\011 ! max number of bad quality histograms for wind to be good quality.\\0121\\011 ! min_ngoodhist_badwind\\012\\011 ! min number of good quality histograms for wind to be bad quality.\\0122\\011 ! min_nbadhist_badwind \\012\\011 ! min number of bad quality histograms for wind to be bad quality.\\012\\012\\012l depth gridpoint on aerosol residual grid\\0122.925 ! tau_resid_gridpt(118)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122.950 ! tau_resid_gridpt(119)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122.975 ! tau_resid_gridpt(120)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0123.000 ! tau_resid_gridpt(121)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122 ! aer_tau_ref_band\\012 ! reference band to use for aerosol optical depth retrievals\\012!------------------------------------------------\\012! Aerosol Retrieval Configuration File parameters\\012! Reference: Level 2 Aerosol Retrieval Algorithm\\012! Theoretical Basis Document, JPL D-11400\\012!------------------------------------------------\\012!\\012!----------------------------------------------------\\012! (1) Parameters that apply to all aerosol retrievals\\012!----------------------------------------------------\\0120.2 ! mu0_thresh\\012 ! regional cosine of solar zenith angle threshold\\012500. ! region_topo_complex_thresh\\012 ! regional topographic complexity threshold (m)\\012100. ! hc_cloud_pcnt_thresh\\012 ! regional cloudiness threshold for high confidence cloud percent\\012100. ! lc_cloud_pcnt_thresh\\012 ! regional cloudiness threshold for low confidence cloud percent\\0121 ! rdqi1\\012 ! maximum acceptable RDQI used in averaging data to appropriate resolution\\0123 ! rdqi2\\012 ! RDQI value to use during the comp of avg RDQI, for each RDQI > RDQI1\\012250. ! subr_topo_complex_thresh\\012 ! subregional topographic complexity threshold (m)\\01220. ! max_subr_avg_slope\\012 ! max allowable subregion average slope (degrees)\\0125 ! nsdcm_class\\012 ! number of SDCM cloud classifications\\0125 ! nrccm_class\\012 ! number of RCCM cloud classifications\\0125 ! nascm_class\\012 ! number of ASCM cloud classifications\\012!----------------------------------------------------------\\012! Atmospheric State Decision Matrix: ASCM = Not Available\\012! 1 => CLEAR 2 => OPTICALLY THICK 3 => CLOUDY\\012!----------------------------------------------------------\\0121 ! cloud_mask_decision_matrix(0,0,0)\\012 ! cloud mask value when (SDCM = NotAvailable,RCCM = NotAvailable)\\0121 ! cloud_mask_decision_matrix(1,0,0)\\012 ! \\004", "INPUT FILES INFORMATION\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P159_O025891_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2GEOP/MIB2GEOP.A2004304.0614.002.2007112210552.13.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012LID = 1501; Local Granule ID = MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T029_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T029_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 1982; Local Granule ID = MISR_AM1_RP_GM_P159_O025891_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B1/MI1B1.A2004304.0614.002.2007112213636.DF.24.hdf\\012LID = 1365; Local Granule ID = MISR_AM1_TRP_ELLIPSOID_P159_O025891_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2TRPE/MIB2TRPE.A2004304.0614.002.2007113045913.DF.24.hdf\\012LID = 1101; Local Granule ID = MISR_AM1_PGE22_PCS_CONFIG_DF_F01_0001.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_PGE22_PCS_CONFIG_DF_F01_0001.ascii\\012Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050404.AF.24.hdf\\012LID = 1311; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_AN_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050443.AN.24.hdf\\012LID = 1312; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_DA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113053937.DA.24.hdf\\012LID = 1313; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_CA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050617.CA.24.hdf\\012LID = 1314; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_BA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113053833.BA.24.hdf\\012LID = 1315; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_AA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050402.AA.24.hdf\\012LID = 1316; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_DF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113053501.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_CF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050731.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_BF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113054108.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_AF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050555.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_AN_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050757.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_DA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113053952.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_CA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050801.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_BA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113053846.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_AA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050601.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_DF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083182729.DF.25.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_CF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083202513.CF.25.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_BF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083201202.BF.25.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_AF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083195818.AF.25.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_AN_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083200548.AN.25.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_DA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083183218.DA.25.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_CA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083201721.CA.25.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_BA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083193317.BA.25.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_AA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083195209.AA.25.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P156_O033740_F03_0013.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIB2GEOP.A2006112.0556.002.2008074014047.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_APR_2006_F02_03.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/TASC/MISR_AM1_TASC_APR_2006_F02_03.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012LID = 1501; Local Granule ID = MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 951; Local Granule ID = MISR_AM1_TC_STEREO_P156_O033740_F08_0017.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIL2TCST.A2006112.0556.002.2008084083022.17.hdf\\012)\\01240.8 ! cam_line_repeat_time\\012 ! MISR camera line repeat time (msec)\\012.0001 ! BRF scale factor\\012!------------------------------------------------\\012! Threshold parameters\\012! Reference: None\\012! \\012!------------------------------------------------\\0120.0 ! min_rlra_height\\012 ! minimum acceptable value for RLRA height (m)\\01220000.0 ! max_rlra_height\\012 ! maximum acceptable value for RLRA height (m)\\0120.0 ! min_texture_index\\012 ! minimum acceptable value for texture index\\01210.0 ! max_texture_index\\012 ! maximum acceptable value for texture index\\012175.0 ! min_temperature\\012 ! minimum acceptable value for temperature (K)\\012340.0 ! max_temperature\\012 ! maximum acceptable value for temperature (K)\\0126.0 ! max_brf_value\\012 ! maximum acceptable value for BRF\\0120.0 ! min_albedo_value\\012 ! minimum acceptable value for albedo\\0126.0 ! max_albedo_value\\012 ! maximum acceptable value for albedo\\01280.0 ! max_view_angle_along\\012 ! maximum view angle in along-track direction (degrees)\\01225.0 ! max_view_angle_cross\\012 ! maximum view angle in cross-track direction (degrees)\\012!------------------------------------------------\\012! TOA Albedo Retrieval Configuration File parameters\\012! Reference: Level 2 Top-of-Atmosphere Albedo Algorithm\\012! Theoretical Basis Document, JPL D-13401, Rev B\\012!------------------------------------------------\\0120.04 ! mu0_thresh_albedo\\012 ! minimum cosine of solar zenith angle for calculation of albedos\\0128 ! max_brf_cam_dist_t\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0121 ! max_brf_cam_dist_s\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0120.0 ! min_liquid_cloud_temp\\012 ! minimum temperature for setting cloud phase = liquid (degrees C)\\012-43.0 ! max_ice_cloud_temp\\012 ! maximum temperature for setting cloud phase = ice (degrees C)\\0126 ! min_angle_det_clear\\012 ! minimum number of angles needed for applying Deterministic (clear) model\\0120.240 0.094 0.043 0.015 ! rayleigh_std\\012 ! standard Rayleigh optical depth, for each spectral band\\0128.0 ! scale_ht\\012 ! atmospheric scale height, H (km)\\0124 ! niter_det_clear\\012 ! number of iterations for clear sky deterministic model fit\\0122.0 ! chi_sq_thresh_azm\\012 ! threshold for determining goodness of clear-sky AZM fit\\01210 ! nbin_mu\\012 ! number of cosine of zenith angle sub-bins\\01290 ! nbin_phi\\012 ! number of azimuth angle sub-bins\\0120.9 ! mu0_thresh_saw\\012 ! minimum value of mu0 above which pure Solid Angle Weighting is used\\01230.0 ! toa_altitude\\012 ! TOA altitude for referencing expansive albedos (km)\\0125 ! nblock_expansive\\012 ! number of 140.8-km blocks contributing to expansive albedo calculation\\0120 ! force_albedo_method\\012 ! force albedo code through one method: 0 - do not force; 1 - cloudy determ;\\012 ! 2 - cloudy stoch; 3 - clear determ; 4 - solid angle weighting\\0121.640 ! alb_broadband_zeropoint\\012 ! a_0 regression coefficient to use for broadband albedo calculation\\0120.170 0.210 -0.18 0.530 ! alb_broadband_coeff\\012 ! coefficients (blue-band, green-band, red-band, nir-band in order)\\012 ! to use in calculating the broadband albedo\\0121368.0 ! alb_broadband_I0b\\012 ! \"I0_b\" coefficient to use in albedo broadband calculation\\0121 ! cssc_search_dist\\012 ! distance from center of lat/long cell to search for nearest land class, \\012 ! expressed as a whole number of CSSC cells\\0128 ! min_localb_cameras\\012 ! minimum number of cameras that satisfy criteria for computing local\\012 ! albedo - to crop local albedo at swath edges\\0121 ! reset_localb_to_fill\\012 ! whether or not to reset local albedo values at filled RLRAs to BADVALUE;\\012 ! 0 = do not reset; 1 = reset\\01210000.0 ! rlp_horiz_segment_len\\012 ! horizontal distance in meters over which look vectors expressed in SOM\\012\\011 ! coords can be linearly interpolated to give acceptable results\\0122 ! rlra_filter\\012 ! type of RLRA filtering to do in RLP: 0 = do not replace RLRA BAD_VALUEs;\\012 ! 1 = replace all BAD_VALUEs with 0.0; 2 = replace all BAD_VALUES with an\\012 ! average of nearby RLRA values\\0120 ! rlra_smooth\\012 ! whether to do RLRA smoothing in RLP:\\012 ! 0 = do not smooth RLRAs; 1 = smooth RLRAs after replacement\\012target_patch_cross \\012 ! target patch size used in height retrievals, cross-track (pixels)\\0120.75 ! m2_thresh\\012 ! M2 threshold\\0121.00 ! m3_thresh\\012 ! M3 threshold\\0126 ! rs_filter_window_along\\012 ! RS filter window size, along-track direction (pixels)\\0126 ! rs_filter_window_cross\\012 ! RS filter window size, cross-track direction (pixels)\\0120 ! rs_string_size (currently not used)\\012 ! RS along-track string size (pixels)\\01250.0 ! min_median_filter_pcnt\\012 ! minimum population of filter window to perform median filtering (percent)\\0124 ! m2m3_matcher_score\\012 ! M2+M3 matcher score\\0123 ! m2_matcher_score\\012 ! M2 matcher score\\0122 ! m3_matcher_score\\012 ! M3 matcher score\\0121 ! rs_matcher_score\\012 ! RS matcher score\\0120.0 ! min_stereo_cloud_height\\012 ! minimum allowable stereoscopic cloud height. (km)\\01220.0 ! max_stereo_cloud_height\\012 ! maximum allowable stereoscopic cloud height. (km)\\0121000.0 ! max_skew\\012 ! ray skewness blunder threshold (m)\\01210000.0 ! max_skew_zerowind\\012 ! ray skewness blunder threshold (m) for zero-wind heights.\\0120 ! skew_blunder_score\\012 ! ray skewness blunder score\\0121 ! skew_lc_score\\012 ! ray skewness test low confidence score\\012275.0 ! skew_hc_thresh\\012 ! ray skewness test high confidence threshold (m)\\0122 ! skew_hc_score\\012 ! ray skewness test high confidence score\\012562.0 ! height_unc\\012 ! stereoscopic height uncertainty increment\\0128 ! max_hc_score\\012 ! maximum score for declaring a stereoscopic height High Confidence\\0126 ! min_hc_score\\012 ! minimum score for declaring a stereoscopic height High Confidence\\0125 ! max_lc_score\\012 ! maximum score for declaring a stereoscopic height Low Confidence\\0121 ! min_lc_score\\012 ! minimum score for declaring a stereoscopic height Low Confidence\\0125.0 ! max_snow_water_eq\\012 ! maximum equivalent water amount which is not considered snow-covered (mm)\\0125.0 ! max_sea_ice_pcnt\\012 ! maximum sea ice cover which is not considered snow-covered (percent)\\0120.0 ! default_rlra_ht\\012 ! default rlra height (km above terrain)\\0123.0 ! default_cloud_ht\\012 ! default cloud height (km above terrain)\\0127 ! neighborhd_size\\012 ! # of 1.1 km samples, along- and cross-track, in terrain \"neighborhood\"\\0120 3 3 2 2 ! stereo_ht_table\\0121 1 1 1 2 ! stereoscopic height decision matrix (Table 5 of ATB)\\0121 1 1 2 2 ! 0 = \"No Retrieval\"\\0121 1 1 2 2 ! 1 = \"Keep\"\\0121 1 1 2 2 ! 2 = \"Surface\"\\012 ! 3 = \"Default Cloud\"\\0120 2 2 4 4 ! sdcm_table\\0121 1 1 1 4 ! 0 = \"No Retrieval\"\\0122 2 2 4 4 ! 1 = \"CloudHC\"\\0123 3 3 4 4 ! 2 = \"CloudLC\"\\0124 3 3 4 4 ! 3 = \"Near Surface\"\\012 ! 4 = \"Clear\"\\0120.0 ! texture_max_rdqi\\012 ! RDQI thresh for determ what is valid data in calc avg BRFs and text indices\\01292.0 ! max_scat_angle\\012 ! scattering angle threshold for establishing forward scattering\\0122.0 ! max_low_cloud\\012 ! low cloud upper limit for altitude binning (km)\\0126.0 ! max_mid_cloud\\012 ! middle cloud upper limit for altitude binning (km)\\012275.0 ! cloud_thickness\\012 ! assumed cloud thickness used in cloud shadow algorithm (m)\\012550.0 ! ray_cast_step_size\\012 ! horizontal ray-casting step size in cloud and topographic shadow alg (m)\\01235.2 ! max_ray_cast\\012 ! maximum horizontal distance for casting cloud and topographic shadow\\0120.5 ! prev_match_m2_thresh\\012 ! previous match method threshold for M2\\0120.5 ! prev_match_m3_thresh\\012 ! previous match method threshold for M3\\0122 ! pyramid_levels\\012 ! number of levels in stereo image pyramid\\012.FALSE. ! rs_match_flag\\012 ! whether to use the RS stereo matching method (flag)\\0125 ! height_ref_cam\\012 ! stereo height reference camera id\\0124 ! height_comp_cam_fwd\\012 ! stereo height forward comparison camera id\\0126 ! height_comp_cam_aft\\012 ! stereo height aft comparison camera id\\0127 ! previous_window_along\\012 ! along-track size of previous-match-method search window\\0125 ! previous_window_cross\\012 ! cross-track size of previous-match-method search window\\0125 ! pyramid_window_along\\012 ! along-track size of pyramid-match-method search window\\0125 ! pyramid_window_cross\\012 ! cross-track size of pyramid-match-method search window\\0122.0 ! blunder_thresh\\012 ! number of standard deviations used to compute height blunder limits\\012275.0 ! near_ellipsoid_tolerance\\012 ! distance from ellipsoid to be considered a misregistration correction point\\01210\\011 ! min_misreg_points\\012\\011 ! min number of misreg points needed to perform misregistration correction\\0122 ! max_misreg_cross_disp\\012\\011 ! maximum cross-track disparity to allow in misregistration calculation\\0121.5 ! max_misreg_height_diff\\012\\011 ! max diff btw surface ht and disparity-calc ht for point to be included in misreg calc (times resolution)\\0122\\011 ! max_peak_variance_cross\\012\\011 ! maximum cross-track variance from histogram peak to avoid cut\\0122\\011 ! max_peak_variance_along\\012\\011 ! maximum along-track variance from histogram peak to avoid cut\\0121.00\\011 ! max_misreg_cloud_frac\\012\\011 ! max frac of domain classified as cloudy (CLOUD_HC or CLOUD_LC) for misreg calc to be performed\\0125\\011 ! misreg_srch_neighborhd\\012\\011 ! area around point to search for land (NxN)\\0120.30 ! ratio_ntriplets_alltriplets\\012\\011 ! min ratio of triplets to all triplets for wind disparity histograms to be used for wind QA calculations.\\01213\\011 ! wdisp_hist_width_good\\012\\011 ! max histogram width to be called good quality.\\01225\\011 ! wdisp_hist_width_bad\\012\\011 ! histogram width at or above which is called bad quality.\\0123\\011 ! min_ngoodhist_vgwind\\012\\011 ! min number of good quality histograms for wind to be very good.\\0120\\011 ! max_nbadhist_vgwind\\012\\011 ! max number of bad quality histograms for wind to be very good quality.\\0122\\011 ! min_ngoodhist_goodwind\\012\\011 ! min number of good quality histograms for wind to be good quality.\\0121\\011 ! max_nbadhist_goodwind\\012\\011 ! max number of bad quality histograms for wind to be good quality.\\0121\\011 ! min_ngoodhist_badwind\\012\\011 ! min number of good quality histograms for wind to be bad quality.\\0122\\011 ! min_nbadhist_badwind \\012\\011 ! min number of bad quality histograms for wind to be bad quality.\\012\\012\\012l depth gridpoint on aerosol residual grid\\0122.925 ! tau_resid_gridpt(118)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122.950 ! tau_resid_gridpt(119)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122.975 ! tau_resid_gridpt(120)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0123.000 ! tau_resid_gridpt(121)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122 ! aer_tau_ref_band\\012 ! reference band to use for aerosol optical depth retrievals\\012!------------------------------------------------\\012! Aerosol Retrieval Configuration File parameters\\012! Reference: Level 2 Aerosol Retrieval Algorithm\\012! Theoretical Basis Document, JPL D-11400\\012!------------------------------------------------\\012!\\012!----------------------------------------------------\\012! (1) Parameters that apply to all aerosol retrievals\\012!----------------------------------------------------\\0120.2 ! mu0_thresh\\012 ! regional cosine of solar zenith angle threshold\\012500. ! region_topo_complex_thresh\\012 ! regional topographic complexity threshold (m)\\012100. ! hc_cloud_pcnt_thresh\\012 ! regional cloudiness threshold for high confidence cloud percent\\012100. ! lc_cloud_pcnt_thresh\\012 ! regional cloudiness threshold for low confidence cloud percent\\0121 ! rdqi1\\012 ! maximum acceptable RDQI used in averaging data to appropriate resolution\\0123 ! rdqi2\\012 ! RDQI value to use during the comp of avg RDQI, for each RDQI > RDQI1\\012250. ! subr_topo_complex_thresh\\012 ! subregional topographic complexity threshold (m)\\01220. ! max_subr_avg_slope\\012 ! max allowable subregion average slope (degrees)\\0125 ! nsdcm_class\\012 ! number of SDCM cloud classifications\\0125 ! nrccm_class\\012 ! number of RCCM cloud classifications\\0125 ! nascm_class\\012 ! number of ASCM cloud classifications\\012!----------------------------------------------------------\\012! Atmospheric State Decision Matrix: ASCM = Not Available\\012! 1 => CLEAR 2 => OPTICALLY THICK 3 => CLOUDY\\012!----------------------------------------------------------\\0121 ! cloud_mask_decision_matrix(0,0,0)\\012 ! cloud mask value when (SDCM = NotAvailable,RCCM = NotAvailable)\\0121 ! cloud_mask_decision_matrix(1,0,0)\\012 ! \\004", "RUNTIME ENVIRONMENT INFORMATION\\012DATE OF RUN: Mon Apr 23 01:26:56 2007\\012HOST INFO: l0spg10: (IRIX64 6.5 01090133 IP35)\\012RUN BY: s4pmopsr\\012UNIQUE FILE NAME: MISR_AM1_GRP_ELLIPSOID_GM_P159_O025891_DF_F03_0024.hdf\\012TOOLKIT_VERSION: DAAC TK5.2.13\\012ENVIRONMENT VARIABLES\\012 PGSHOME = /vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT\\012 PGS_PC_INFO_FILE = /vol1/OPS/S4PM-MISR-REPR/strings/terra/stations/reprocessing/run_algorithm/RUNNING.RUN_M22DF.2004304061430/DO.RUN_M22DF.2004304061430\\012 PGSMSG = /vol1/OPS/S4PM-MISR-REPR/strings/terra/stations/reprocessing/run_algorithm/RUNNING.RUN_M22DF.2004304061430/../M22DF/33001/MSGS\\0120.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T029_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 1982; Local Granule ID = MISR_AM1_RP_GM_P159_O025891_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B1/MI1B1.A2004304.0614.002.2007112213636.DF.24.hdf\\012LID = 1365; Local Granule ID = MISR_AM1_TRP_ELLIPSOID_P159_O025891_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2TRPE/MIB2TRPE.A2004304.0614.002.2007113045913.DF.24.hdf\\012LID = 1101; Local Granule ID = MISR_AM1_PGE22_PCS_CONFIG_DF_F01_0001.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_PGE22_PCS_CONFIG_DF_F01_0001.ascii\\012Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050404.AF.24.hdf\\012LID = 1311; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_AN_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050443.AN.24.hdf\\012LID = 1312; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_DA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113053937.DA.24.hdf\\012LID = 1313; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_CA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050617.CA.24.hdf\\012LID = 1314; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_BA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113053833.BA.24.hdf\\012LID = 1315; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P156_O033740_AA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2T.A2006112.0556.003.2006113050402.AA.24.hdf\\012LID = 1316; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_DF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113053501.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_CF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050731.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_BF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113054108.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_AF_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050555.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_AN_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050757.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_DA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113053952.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_CA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050801.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_BA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113053846.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P156_O033740_AA_F03_0024.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MI1B2E.A2006112.0556.003.2006113050601.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_DF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083182729.DF.25.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_CF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083202513.CF.25.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_BF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083201202.BF.25.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_AF_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083195818.AF.25.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_AN_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083200548.AN.25.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_DA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083183218.DA.25.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_CA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083201721.CA.25.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_BA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083193317.BA.25.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P156_O033740_AA_F04_0025.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIRCCM.A2006112.0556.004.2008083195209.AA.25.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P156_O033740_F03_0013.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIB2GEOP.A2006112.0556.002.2008074014047.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_APR_2006_F02_03.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/TASC/MISR_AM1_TASC_APR_2006_F02_03.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012LID = 1501; Local Granule ID = MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /MISR/OPS/S4PM-MISR-L2/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 951; Local Granule ID = MISR_AM1_TC_STEREO_P156_O033740_F08_0017.hdf\\012 Input Path = /tmp/243259.1.MISR_OPS.q/MIL2TCST.A2006112.0556.002.2008084083022.17.hdf\\012)\\01240.8 ! cam_line_repeat_time\\012 ! MISR camera line repeat time (msec)\\012.0001 ! BRF scale factor\\012!------------------------------------------------\\012! Threshold parameters\\012! Reference: None\\012! \\012!------------------------------------------------\\0120.0 ! min_rlra_height\\012 ! minimum acceptable value for RLRA height (m)\\01220000.0 ! max_rlra_height\\012 ! maximum acceptable value for RLRA height (m)\\0120.0 ! min_texture_index\\012 ! minimum acceptable value for texture index\\01210.0 ! max_texture_index\\012 ! maximum acceptable value for texture index\\012175.0 ! min_temperature\\012 ! minimum acceptable value for temperature (K)\\012340.0 ! max_temperature\\012 ! maximum acceptable value for temperature (K)\\0126.0 ! max_brf_value\\012 ! maximum acceptable value for BRF\\0120.0 ! min_albedo_value\\012 ! minimum acceptable value for albedo\\0126.0 ! max_albedo_value\\012 ! maximum acceptable value for albedo\\01280.0 ! max_view_angle_along\\012 ! maximum view angle in along-track direction (degrees)\\01225.0 ! max_view_angle_cross\\012 ! maximum view angle in cross-track direction (degrees)\\012!------------------------------------------------\\012! TOA Albedo Retrieval Configuration File parameters\\012! Reference: Level 2 Top-of-Atmosphere Albedo Algorithm\\012! Theoretical Basis Document, JPL D-13401, Rev B\\012!------------------------------------------------\\0120.04 ! mu0_thresh_albedo\\012 ! minimum cosine of solar zenith angle for calculation of albedos\\0128 ! max_brf_cam_dist_t\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0121 ! max_brf_cam_dist_s\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0120.0 ! min_liquid_cloud_temp\\012 ! minimum temperature for setting cloud phase = liquid (degrees C)\\012-43.0 ! max_ice_cloud_temp\\012 ! maximum temperature for setting cloud phase = ice (degrees C)\\0126 ! min_angle_det_clear\\012 ! minimum number of angles needed for applying Deterministic (clear) model\\0120.240 0.094 0.043 0.015 ! rayleigh_std\\012 ! standard Rayleigh optical depth, for each spectral band\\0128.0 ! scale_ht\\012 ! atmospheric scale height, H (km)\\0124 ! niter_det_clear\\012 ! number of iterations for clear sky deterministic model fit\\0122.0 ! chi_sq_thresh_azm\\012 ! threshold for determining goodness of clear-sky AZM fit\\01210 ! nbin_mu\\012 ! number of cosine of zenith angle sub-bins\\01290 ! nbin_phi\\012 ! number of azimuth angle sub-bins\\0120.9 ! mu0_thresh_saw\\012 ! minimum value of mu0 above which pure Solid Angle Weighting is used\\01230.0 ! toa_altitude\\012 ! TOA altitude for referencing expansive albedos (km)\\0125 ! nblock_expansive\\012 ! number of 140.8-km blocks contributing to expansive albedo calculation\\0120 ! force_albedo_method\\012 ! force albedo code through one method: 0 - do not force; 1 - cloudy determ;\\012 ! 2 - cloudy stoch; 3 - clear determ; 4 - solid angle weighting\\0121.640 ! alb_broadband_zeropoint\\012 ! a_0 regression coefficient to use for broadband albedo calculation\\0120.170 0.210 -0.18 0.530 ! alb_broadband_coeff\\012 ! coefficients (blue-band, green-band, red-band, nir-band in order)\\012 ! to use in calculating the broadband albedo\\0121368.0 ! alb_broadband_I0b\\012 ! \"I0_b\" coefficient to use in albedo broadband calculation\\0121 ! cssc_search_dist\\012 ! distance from center of lat/long cell to search for nearest land class, \\012 ! expressed as a whole number of CSSC cells\\0128 ! min_localb_cameras\\012 ! minimum number of cameras that satisfy criteria for computing local\\012 ! albedo - to crop local albedo at swath edges\\0121 ! reset_localb_to_fill\\012 ! whether or not to reset local albedo values at filled RLRAs to BADVALUE;\\012 ! 0 = do not reset; 1 = reset\\01210000.0 ! rlp_horiz_segment_len\\012 ! horizontal distance in meters over which look vectors expressed in SOM\\012\\011 ! coords can be linearly interpolated to give acceptable results\\0122 ! rlra_filter\\012 ! type of RLRA filtering to do in RLP: 0 = do not replace RLRA BAD_VALUEs;\\012 ! 1 = replace all BAD_VALUEs with 0.0; 2 = replace all BAD_VALUES with an\\012 ! average of nearby RLRA values\\0120 ! rlra_smooth\\012 ! whether to do RLRA smoothing in RLP:\\012 ! 0 = do not smooth RLRAs; 1 = smooth RLRAs after replacement\\012target_patch_cross \\012 ! target patch size used in height retrievals, cross-track (pixels)\\0120.75 ! m2_thresh\\012 ! M2 threshold\\0121.00 ! m3_thresh\\012 ! M3 threshold\\0126 ! rs_filter_window_along\\012 ! RS filter window size, along-track direction (pixels)\\0126 ! rs_filter_window_cross\\012 ! RS filter window size, cross-track direction (pixels)\\0120 ! rs_string_size (currently not used)\\012 ! RS along-track string size (pixels)\\01250.0 ! min_median_filter_pcnt\\012 ! minimum population of filter window to perform median filtering (percent)\\0124 ! m2m3_matcher_score\\012 ! M2+M3 matcher score\\0123 ! m2_matcher_score\\012 ! M2 matcher score\\0122 ! m3_matcher_score\\012 ! M3 matcher score\\0121 ! rs_matcher_score\\012 ! RS matcher score\\0120.0 ! min_stereo_cloud_height\\012 ! minimum allowable stereoscopic cloud height. (km)\\01220.0 ! max_stereo_cloud_height\\012 ! maximum allowable stereoscopic cloud height. (km)\\0121000.0 ! max_skew\\012 ! ray skewness blunder threshold (m)\\01210000.0 ! max_skew_zerowind\\012 ! ray skewness blunder threshold (m) for zero-wind heights.\\0120 ! skew_blunder_score\\012 ! ray skewness blunder score\\0121 ! skew_lc_score\\012 ! ray skewness test low confidence score\\012275.0 ! skew_hc_thresh\\012 ! ray skewness test high confidence threshold (m)\\0122 ! skew_hc_score\\012 ! ray skewness test high confidence score\\012562.0 ! height_unc\\012 ! stereoscopic height uncertainty increment\\0128 ! max_hc_score\\012 ! maximum score for declaring a stereoscopic height High Confidence\\0126 ! min_hc_score\\012 ! minimum score for declaring a stereoscopic height High Confidence\\0125 ! max_lc_score\\012 ! maximum score for declaring a stereoscopic height Low Confidence\\0121 ! min_lc_score\\012 ! minimum score for declaring a stereoscopic height Low Confidence\\0125.0 ! max_snow_water_eq\\012 ! maximum equivalent water amount which is not considered snow-covered (mm)\\0125.0 ! max_sea_ice_pcnt\\012 ! maximum sea ice cover which is not considered snow-covered (percent)\\0120.0 ! default_rlra_ht\\012 ! default rlra height (km above terrain)\\0123.0 ! default_cloud_ht\\012 ! default cloud height (km above terrain)\\0127 ! neighborhd_size\\012 ! # of 1.1 km samples, along- and cross-track, in terrain \"neighborhood\"\\0120 3 3 2 2 ! stereo_ht_table\\0121 1 1 1 2 ! stereoscopic height decision matrix (Table 5 of ATB)\\0121 1 1 2 2 ! 0 = \"No Retrieval\"\\0121 1 1 2 2 ! 1 = \"Keep\"\\0121 1 1 2 2 ! 2 = \"Surface\"\\012 ! 3 = \"Default Cloud\"\\0120 2 2 4 4 ! sdcm_table\\0121 1 1 1 4 ! 0 = \"No Retrieval\"\\0122 2 2 4 4 ! 1 = \"CloudHC\"\\0123 3 3 4 4 ! 2 = \"CloudLC\"\\0124 3 3 4 4 ! 3 = \"Near Surface\"\\012 ! 4 = \"Clear\"\\0120.0 ! texture_max_rdqi\\012 ! RDQI thresh for determ what is valid data in calc avg BRFs and text indices\\01292.0 ! max_scat_angle\\012 ! scattering angle threshold for establishing forward scattering\\0122.0 ! max_low_cloud\\012 ! low cloud upper limit for altitude binning (km)\\0126.0 ! max_mid_cloud\\012 ! middle cloud upper limit for altitude binning (km)\\012275.0 ! cloud_thickness\\012 ! assumed cloud thickness used in cloud shadow algorithm (m)\\012550.0 ! ray_cast_step_size\\012 ! horizontal ray-casting step size in cloud and topographic shadow alg (m)\\01235.2 ! max_ray_cast\\012 ! maximum horizontal distance for casting cloud and topographic shadow\\0120.5 ! prev_match_m2_thresh\\012 ! previous match method threshold for M2\\0120.5 ! prev_match_m3_thresh\\012 ! previous match method threshold for M3\\0122 ! pyramid_levels\\012 ! number of levels in stereo image pyramid\\012.FALSE. ! rs_match_flag\\012 ! whether to use the RS stereo matching method (flag)\\0125 ! height_ref_cam\\012 ! stereo height reference camera id\\0124 ! height_comp_cam_fwd\\012 ! stereo height forward comparison camera id\\0126 ! height_comp_cam_aft\\012 ! stereo height aft comparison camera id\\0127 ! previous_window_along\\012 ! along-track size of previous-match-method search window\\0125 ! previous_window_cross\\012 ! cross-track size of previous-match-method search window\\0125 ! pyramid_window_along\\012 ! along-track size of pyramid-match-method search window\\0125 ! pyramid_window_cross\\012 ! cross-track size of pyramid-match-method search window\\0122.0 ! blunder_thresh\\012 ! number of standard deviations used to compute height blunder limits\\012275.0 ! near_ellipsoid_tolerance\\012 ! distance from ellipsoid to be considered a misregistration correction point\\01210\\011 ! min_misreg_points\\012\\011 ! min number of misreg points needed to perform misregistration correction\\0122 ! max_misreg_cross_disp\\012\\011 ! maximum cross-track disparity to allow in misregistration calculation\\0121.5 ! max_misreg_height_diff\\012\\011 ! max diff btw surface ht and disparity-calc ht for point to be included in misreg calc (times resolution)\\0122\\011 ! max_peak_variance_cross\\012\\011 ! maximum cross-track variance from histogram peak to avoid cut\\0122\\011 ! max_peak_variance_along\\012\\011 ! maximum along-track variance from histogram peak to avoid cut\\0121.00\\011 ! max_misreg_cloud_frac\\012\\011 ! max frac of domain classified as cloudy (CLOUD_HC or CLOUD_LC) for misreg calc to be performed\\0125\\011 ! misreg_srch_neighborhd\\012\\011 ! area around point to search for land (NxN)\\0120.30 ! ratio_ntriplets_alltriplets\\012\\011 ! min ratio of triplets to all triplets for wind disparity histograms to be used for wind QA calculations.\\01213\\011 ! wdisp_hist_width_good\\012\\011 ! max histogram width to be called good quality.\\01225\\011 ! wdisp_hist_width_bad\\012\\011 ! histogram width at or above which is called bad quality.\\0123\\011 ! min_ngoodhist_vgwind\\012\\011 ! min number of good quality histograms for wind to be very good.\\0120\\011 ! max_nbadhist_vgwind\\012\\011 ! max number of bad quality histograms for wind to be very good quality.\\0122\\011 ! min_ngoodhist_goodwind\\012\\011 ! min number of good quality histograms for wind to be good quality.\\0121\\011 ! max_nbadhist_goodwind\\012\\011 ! max number of bad quality histograms for wind to be good quality.\\0121\\011 ! min_ngoodhist_badwind\\012\\011 ! min number of good quality histograms for wind to be bad quality.\\0122\\011 ! min_nbadhist_badwind \\012\\011 ! min number of bad quality histograms for wind to be bad quality.\\012\\012\\012l depth gridpoint on aerosol residual grid\\0122.925 ! tau_resid_gridpt(118)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122.950 ! tau_resid_gridpt(119)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122.975 ! tau_resid_gridpt(120)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0123.000 ! tau_resid_gridpt(121)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122 ! aer_tau_ref_band\\012 ! reference band to use for aerosol optical depth retrievals\\012!------------------------------------------------\\012! Aerosol Retrieval Configuration File parameters\\012! Reference: Level 2 Aerosol Retrieval Algorithm\\012! Theoretical Basis Document, JPL D-11400\\012!------------------------------------------------\\012!\\012!----------------------------------------------------\\012! (1) Parameters that apply to all aerosol retrievals\\012!----------------------------------------------------\\0120.2 ! mu0_thresh\\012 ! regional cosine of solar zenith angle threshold\\012500. ! region_topo_complex_thresh\\012 ! regional topographic complexity threshold (m)\\012100. ! hc_cloud_pcnt_thresh\\012 ! regional cloudiness threshold for high confidence cloud percent\\012100. ! lc_cloud_pcnt_thresh\\012 ! regional cloudiness threshold for low confidence cloud percent\\0121 ! rdqi1\\012 ! maximum acceptable RDQI used in averaging data to appropriate resolution\\0123 ! rdqi2\\012 ! RDQI value to use during the comp of avg RDQI, for each RDQI > RDQI1\\012250. ! subr_topo_complex_thresh\\012 ! subregional topographic complexity threshold (m)\\01220. ! max_subr_avg_slope\\012 ! max allowable subregion average slope (degrees)\\0125 ! nsdcm_class\\012 ! number of SDCM cloud classifications\\0125 ! nrccm_class\\012 ! number of RCCM cloud classifications\\0125 ! nascm_class\\012 ! number of ASCM cloud classifications\\012!----------------------------------------------------------\\012! Atmospheric State Decision Matrix: ASCM = Not Available\\012! 1 => CLEAR 2 => OPTICALLY THICK 3 => CLOUDY\\012!----------------------------------------------------------\\0121 ! cloud_mask_decision_matrix(0,0,0)\\012 ! cloud mask value when (SDCM = NotAvailable,RCCM = NotAvailable)\\0121 ! cloud_mask_decision_matrix(1,0,0)\\012 ! \\004", "PROPAGATE VERSION HISTORY BEGIN\\012SOURCE_ID = MISR_AM1_TRP_ELLIPSOID_P159_O025891_DF_F03_0024.hdf\\012SOURCE_FILE = /vol1/OPS/S4PM-MISR-REPR/data/MIB2TRPE/MIB2TRPE.A2004304.0614.002.2007113045913.DF.24.hdf\\012SCIENCE CONFIGURATION INFORMATION\\012MISRFILE\\012!! Global configuration file for PGE 22\\012!! ---------------------------------------------------------------------\\012!! This section contains values for GP_CORR_main (l1b2_correction_merge)\\012!!\\012!! Threshold for rejecting a l1b2_camera_match block result. If the\\012!! number of points used in finding a camera match result for a block\\012!! is less than this minimum value, then the camera match result for\\012!! that block will be rejected. If this value is set to 13 or less,\\012!! than all blocks in the l1b2_camera_match results will be accepted.\\012!! cam_match_thresh_numpts =\\012 15\\012!! Threshold for rejecting a l1b2_camera_match block result. If a\\012!! standard deviation for a camera match result is greater than this\\012!! maximum value, then the camera match result for that block will be\\012!! rejected.\\012!! cam_match_thresh_stddev =\\012 0.35\\012!! Camera-dependent thresholds for setting preliminary GDQI. If the\\012!! mean of camera match corrections between a pair of ROI corrections\\012!! is greater than this camera-dependent threshold, then the GDQI for\\012!! all blocks between the ROI correction blocks is set to -1.\\012!! Otherwise they are set to 1. (Df=0, .. An=4, .. Da=8)\\012!! prelim_gdqi_cam_thresh =\\012 0.5\\012 0.5\\012 0.5\\012 0.5\\012 0.5\\012 0.5\\012 0.5\\012 0.5\\012 0.5\\012!! Camera-dependent preliminary GDQI values when there are no camera\\012!! match and no ROI corrections in an orbit. (Df=0, .. An=4, .. Da=8)\\012!! prelim_gdqi_cam_nocorr =\\012 0.0\\012 0.0\\012 0.0\\012 0.0\\012 0.0\\012 0.0\\012 0.0\\012 0.0\\012 -0.5\\012!! Camera-dependent coefficients for computing final GDQI. Final GDQI\\012!! is computed by first finding the mean, corrected ICC value for all\\012!! blocks in an orbit where there are cam match and ROI corrections.\\012!! The GDQI for a block is (1 - x * diff), where x is the appropriate\\012!! coefficient below, and diff is the diagonal difference between\\012!! line/sample values and the mean: (Df=0, .. An=4, .. Da=8)\\012!! diag_diff = sqrt( (lineICC - lineMean) * (lineICC - lineMean) +\\012!! (sampICC - sampMean) * (sampICC - sampMean))\\012!! final_gdqi_cam_coeff =\\012 1.5\\012 1.5\\012 1.5\\012 1.5\\012 1.5\\012 1.5\\012 1.5\\012 1.5\\012 1.5\\012\\012EXECUTABLE INFORMATION\\012GP_CORR_main.c\\012MISR_EXEC_VERSION: V3.3_i2_PGE6_22\\012MISR_COMPOSITION_INFO_BEGIN\\012DATE OF BUILD: Wed Nov 16 12:08:12 EST 2005\\012BUILT BY: sbaekins\\012HOST INFO: l0spg11: ClearCase 2003.06.10+ (IRIX64 6.5 10070055 IP35)\\012VOBS CONFIGURATION:\\012 /vobs/PGEvob/... V3.3\\012 /vobs/Shared/... V3.3\\012 /vobs/PCS/... V3.3\\012 /vobs/L1B2/... V3.3_i2_PGE6_22\\012LIB ENVIRONMENT:\\012 HDFEOS:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/hdfeos/lib/sgi32\\012 HDF:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/hdf/sgi32/HDF4.2r0/lib\\012 PGSTK:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/lib/sgi32\\012COMPILER FLAGS\\012 -n32 -mips4 -r10000 -O3 -g3 -fullwarn -DCPU_SGI\\012 -Wl,-woff,84 -Wl,-woff,85 -Wl,-woff,15 -Wl,-woff,134\\012 -DCC_VERSION=MIPSpro Compilers: Version 7.4\\012 -DOSVERSION=6.5\\012MISR_COMPOSITION_INFO_END\\012\\012INPUT FILES INFORMATION\\012LID = 1369; Local Granule ID = MISR_AM1_PGE22_SCI_CONFIG_DF_F01_0001.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_PGE22_SCI_CONFIG_DF_F01_0001.ascii\\012LID = 1304; Local Granule ID = MISR_AM1_AGP_P159_F01_24.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/AGP/MISR_AM1_AGP_P159_F01_24.hdf\\012LID = 1359; Local Granule ID = MISR_AM1_PTRP_TERRAIN_P159_O025891_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIBTRPTP/MIBTRPTP.A2004304.0614.001.2007112213636.DF.24.hdf\\012LID = 1361; Local Granule ID = MISR_AM1_PTRP_ELLIPSOID_P159_O025891_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIBTRPEP/MIBTRPEP.A2004304.0614.001.2007112213622.DF.24.hdf\\012LID = 1368; Local Granule ID = MISR_AM1_CORR_GM_P159_O025891_F01_0024.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2CORR/MIB2CORR.A2004304.0614.001.2007113034147.24.hdf\\012\\012RUNTIME ENVIRONMENT INFORMATION\\012DATE OF RUN: Mon Apr 23 01:10:46 2007\\012HOST INFO: l0spg10: (IRIX64 6.5 01090133 IP35)\\012RUN BY: s4pmopsr\\012UNIQUE FILE NAME: MISR_AM1_TRP_ELLIPSOID_P159_O025891_DF_F03_0024.hdf\\012TOOLKIT_VERSION: DAAC TK5.2.13\\012ENVIRONMENT VARIABLES\\012 PGSHOME = /vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT\\012 PGS_PC_INFO_FILE = /vol1/OPS/S4PM-MISR-REPR/strings/terra/stations/reprocessing/run_algorithm/RUNNING.RUN_M22DF.2004304061430/DO.RUN_M22DF.2004304061430\\012 PGSMSG = /vol1/OPS/S4PM-MISR-REPR/strings/terra/stations/reprocessing/run_algorithm/RUNNING.RUN_M22DF.2004304061430/../M22DF/33001/MSGS\\012\\012PROPAGATE VERSION HISTORY BEGIN\\012SOURCE_ID = MISR_AM1_TRP_ELLIPSOID_P159_O025891_DF_F03_0024.hdf\\012SOURCE_FILE = /vol1/OPS/S4PM-MISR-REPR/data/MIBTRPEP/MIBTRPEP.A2004304.0614.001.2007112213622.DF.24.hdf\\012EXECUTABLE INFORMATION\\012MISR_EXEC_NAME:GP_ellipsoid_main.c\\012MISR_EXEC_VERSION: V4.0_PGE1_13\\012MISR_COMPOSITION_INFO_BEGIN\\012DATE OF BUILD: Wed Nov 16 09:53:19 EST 2005\\012BUILT BY: sbaekins\\012HOST INFO: l0spg11: ClearCase 2003.06.10+ (IRIX64 6.5 10070055 IP35)\\012VOBS CONFIGURATION:\\012 /vobs/Lev1/... V3.2_PGE1\\012 /vobs/PCS/... V3.3\\012 /vobs/PGEvob/... V4.0\\012 /vobs/Shared/... V4.0\\012 /vobs/L1B2/... V4.0_PGE1_13\\012LIB ENVIRONMENT:\\012 HDFEOS:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/hdfeos/lib/sgi32\\012 HDF:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/hdf/sgi32/HDF4.2r0/lib\\012 PGSTK:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/lib/sgi32\\012COMPILER FLAGS\\012 -n32 -mips4 -r10000 -O3 -g3 -fullwarn -DCPU_SGI\\012 -Wl,-woff,84 -Wl,-woff,85 -Wl,-woff,15 -Wl,-woff,134\\012 -DCC_VERSION=MIPSpro Compilers: Version 7.4\\012 -DOSVERSION=6.5\\012MISR_COMPOSITION_INFO_END\\012\\012INPUT FILES INFORMATION\\012LID = 190; Local Granule ID = \\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CGM/MISR_AM1_CGM_F01_0007.ascii\\012LID = 227; Local Granule ID = MISR_AM1_RCCT_FALL_DF_T920_F02_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/RCCT/MISR_AM1_RCCT_FALL_DF_T920_F02_0003.hdf\\012LID = 239; Local Granule ID = MISR_AM1_RCCI_DCAM_F01_05.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/RCCI/MISR_AM1_RCCI_DCAM_F01_05.hdf\\012LID = 1301; Local Granule ID = MISR_AM1_CSSC_F01_05.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CSSC/MISR_AM1_CSSC_F01_05.hdf\\012LID = 1304; Local Granule ID = MISR_AM1_AGP_P159_F01_24.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/AGP/MISR_AM1_AGP_P159_F01_24.hdf\\012LID = 1305; Local Granule ID = MISR_AM1_PP_P159_DF_22.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/PP/MISR_AM1_PP_P159_DF_22.hdf\\012LID = 1306; Local Granule ID = MISR_AM1_ROI_SUM_P159_DF_F02_02.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ROI/MISR_AM1_ROI_SUM_P159_DF_F02_02.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P159_O025891_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2GEOP/MIB2GEOP.A2004304.0614.002.2007112210552.13.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012LID = 1501; Local Granule ID = MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 250; Local Granule ID = MISR_AM1_RCCM_CONFIG_DF_F02_02.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_RCCM_CONFIG_DF_F02_02.ascii\\012LID = 252; Local Granule ID = MISR_AM1_GRP_CONFIG_DF_F08_07.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_GRP_CONFIG_DF_F08_07.ascii\\012LID = 599; Local Granule ID = MISR_AM1_FM_SCI_CONFIG_DF_F01_05.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_FM_SCI_CONFIG_DF_F01_05.ascii\\012LID = 1984; Local Granule ID = MISR_AM1_RP_CONFIG_DF_F02_04.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_RP_CONFIG_DF_F02_04.ascii\\012LID = 1101; Local Granule ID = MISR_AM1_PGE1_PCS_CONFIG_DF_F02_0005.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_PGE1_PCS_CONFIG_DF_F02_0005.ascii\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T029_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T029_F02_0010.hdf\\012LID = 1120; Local Granule ID = EOC_DAS_2004303001.txt\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/INPUT/ActSched.A2004303.2000.001.2004303121659\\012LID = 10501; Local Granule ID = AM1EPHN0.A2004304.0600.001.2004304091526\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/INPUT/AM1EPHN0.A2004304.0600.001.2004304131528\\012LID = 10502; Local Granule ID = AM1ATTNF.A2004304.0600.001.2004304115211\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/INPUT/AM1ATTNF.A2004304.0600.001.2004304155211\\012LID = 10301; Local Granule ID = \\012 Input Path = /vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/database/common/TD/leapsec.dat\\012LID = 10401; Local Granule ID = \\012 Input Path = /vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/database/common/CSC/utcpole.dat\\012\\012RUNTIME ENVIRONMENT INFORMATION\\012DATE OF RUN: Sun Apr 22 18:11:20 2007\\012HOST INFO: l0spg10: (IRIX64 6.5 01090133 IP35)\\012RUN BY: s4pmopsr\\012UNIQUE FILE NAME: MISR_AM1_PTRP_ELLIPSOID_P159_O025891_DF_F03_0024.hdf\\012TOOLKIT_VERSION: DAAC TK5.2.13\\012ENVIRONMENT VARIABLES\\012 PGSHOME = /vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT\\012 PGS_PC_INFO_FILE = /vol1/OPS/S4PM-MISR-REPR/strings/terra/stations/reprocessing/run_algorithm/RUNNING.RUN_M1DF.2004304061430/DO.RUN_M1DF.2004304061430\\012 PGSMSG = /vol1/OPS/S4PM-MISR-REPR/strings/terra/stations/reprocessing/run_algorithm/RUNNING.RUN_M1DF.2004304061430/../M1DF/40000/MSGS\\012\\012PROPAGATE VERSION HISTORY END\\012\\012PROPAGATE VERSION HISTORY END\\012ing\\0121.640 ! alb_broadband_zeropoint\\012 ! a_0 regression coefficient to use for broadband albedo calculation\\0120.170 0.210 -0.18 0.530 ! alb_broadband_coeff\\012 ! coefficients (blue-band, green-band, red-band, nir-band in order)\\012 ! to use in calculating the broadband albedo\\0121368.0 ! alb_broadband_I0b\\012 ! \"I0_b\" coefficient to use in albedo broadband calculation\\0121 ! cssc_search_dist\\012 ! distance from center of lat/long cell to search for nearest land class, \\012 ! expressed as a whole number of CSSC cells\\0128 ! min_localb_cameras\\012 ! minimum number of cameras that satisfy criteria for computing local\\012 ! albedo - to crop local albedo at swath edges\\0121 ! reset_localb_to_fill\\012 ! whether or not to reset local albedo values at filled RLRAs to BADVALUE;\\012 ! 0 = do not reset; 1 = reset\\01210000.0 ! rlp_horiz_segment_len\\012 ! horizontal distance in meters over which look vectors expressed in SOM\\012\\011 ! coords can be linearly interpolated to give acceptable results\\0122 ! rlra_filter\\012 ! type of RLRA filtering to do in RLP: 0 = do not replace RLRA BAD_VALUEs;\\012 ! 1 = replace all BAD_VALUEs with 0.0; 2 = replace all BAD_VALUES with an\\012 ! average of nearby RLRA values\\0120 ! rlra_smooth\\012 ! whether to do RLRA smoothing in RLP:\\012 ! 0 = do not smooth RLRAs; 1 = smooth RLRAs after replacement\\012target_patch_cross \\012 ! target patch size used in height retrievals, cross-track (pixels)\\0120.75 ! m2_thresh\\012 ! M2 threshold\\0121.00 ! m3_thresh\\012 ! M3 threshold\\0126 ! rs_filter_window_along\\012 ! RS filter window size, along-track direction (pixels)\\0126 ! rs_filter_window_cross\\012 ! RS filter window size, cross-track direction (pixels)\\0120 ! rs_string_size (currently not used)\\012 ! RS along-track string size (pixels)\\01250.0 ! min_median_filter_pcnt\\012 ! minimum population of filter window to perform median filtering (percent)\\0124 ! m2m3_matcher_score\\012 ! M2+M3 matcher score\\0123 ! m2_matcher_score\\012 ! M2 matcher score\\0122 ! m3_matcher_score\\012 ! M3 matcher score\\0121 ! rs_matcher_score\\012 ! RS matcher score\\0120.0 ! min_stereo_cloud_height\\012 ! minimum allowable stereoscopic cloud height. (km)\\01220.0 ! max_stereo_cloud_height\\012 ! maximum allowable stereoscopic cloud height. (km)\\0121000.0 ! max_skew\\012 ! ray skewness blunder threshold (m)\\01210000.0 ! max_skew_zerowind\\012 ! ray skewness blunder threshold (m) for zero-wind heights.\\0120 ! skew_blunder_score\\012 ! ray skewness blunder score\\0121 ! skew_lc_score\\012 ! ray skewness test low confidence score\\012275.0 ! skew_hc_thresh\\012 ! ray skewness test high confidence threshold (m)\\0122 ! skew_hc_score\\012 ! ray skewness test high confidence score\\012562.0 ! height_unc\\012 ! stereoscopic height uncertainty increment\\0128 ! max_hc_score\\012 ! maximum score for declaring a stereoscopic height High Confidence\\0126 ! min_hc_score\\012 ! minimum score for declaring a stereoscopic height High Confidence\\0125 ! max_lc_score\\012 ! maximum score for declaring a stereoscopic height Low Confidence\\0121 ! min_lc_score\\012 ! minimum score for declaring a stereoscopic height Low Confidence\\0125.0 ! max_snow_water_eq\\012 ! maximum equivalent water amount which is not considered snow-covered (mm)\\0125.0 ! max_sea_ice_pcnt\\012 ! maximum sea ice cover which is not considered snow-covered (percent)\\0120.0 ! default_rlra_ht\\012 ! default rlra height (km above terrain)\\0123.0 ! default_cloud_ht\\012 ! default cloud height (km above terrain)\\0127 ! neighborhd_size\\012 ! # of 1.1 km samples, along- and cross-track, in terrain \"neighborhood\"\\0120 3 3 2 2 ! stereo_ht_table\\0121 1 1 1 2 ! stereoscopic height decision matrix (Table 5 of ATB)\\0121 1 1 2 2 ! 0 = \"No Retrieval\"\\0121 1 1 2 2 ! 1 = \"Keep\"\\0121 1 1 2 2 ! 2 = \"Surface\"\\012 ! 3 = \"Default Cloud\"\\0120 2 2 4 4 ! sdcm_table\\0121 1 1 1 4 ! 0 = \"No Retrieval\"\\0122 2 2 4 4 ! 1 = \"CloudHC\"\\0123 3 3 4 4 ! 2 = \"CloudLC\"\\0124 3 3 4 4 ! 3 = \"Near Surface\"\\012 ! 4 = \"Clear\"\\0120.0 ! texture_max_rdqi\\012 ! RDQI thresh for determ what is valid data in calc avg BRFs and text indices\\01292.0 ! max_scat_angle\\012 ! scattering angle threshold for establishing forward scattering\\0122.0 ! max_low_cloud\\012 ! low cloud upper limit for altitude binning (km)\\0126.0 ! max_mid_cloud\\012 ! middle cloud upper limit for altitude binning (km)\\012275.0 ! cloud_thickness\\012 ! assumed cloud thickness used in cloud shadow algorithm (m)\\012550.0 ! ray_cast_step_size\\012 ! horizontal ray-casting step size in cloud and topographic shadow alg (m)\\01235.2 ! max_ray_cast\\012 ! maximum horizontal distance for casting cloud and topographic shadow\\0120.5 ! prev_match_m2_thresh\\012 ! previous match method threshold for M2\\0120.5 ! prev_match_m3_thresh\\012 ! previous match method threshold for M3\\0122 ! pyramid_levels\\012 ! number of levels in stereo image pyramid\\012.FALSE. ! rs_match_flag\\012 ! whether to use the RS stereo matching method (flag)\\0125 ! height_ref_cam\\012 ! stereo height reference camera id\\0124 ! height_comp_cam_fwd\\012 ! stereo height forward comparison camera id\\0126 ! height_comp_cam_aft\\012 ! stereo height aft comparison camera id\\0127 ! previous_window_along\\012 ! along-track size of previous-match-method search window\\0125 ! previous_window_cross\\012 ! cross-track size of previous-match-method search window\\0125 ! pyramid_window_along\\012 ! along-track size of pyramid-match-method search window\\0125 ! pyramid_window_cross\\012 ! cross-track size of pyramid-match-method search window\\0122.0 ! blunder_thresh\\012 ! number of standard deviations used to compute height blunder limits\\012275.0 ! near_ellipsoid_tolerance\\012 ! distance from ellipsoid to be considered a misregistration correction point\\01210\\011 ! min_misreg_points\\012\\011 ! min number of misreg points needed to perform misregistration correction\\0122 ! max_misreg_cross_disp\\012\\011 ! maximum cross-track disparity to allow in misregistration calculation\\0121.5 ! max_misreg_height_diff\\012\\011 ! max diff btw surface ht and disparity-calc ht for point to be included in misreg calc (times resolution)\\0122\\011 ! max_peak_variance_cross\\012\\011 ! maximum cross-track variance from histogram peak to avoid cut\\0122\\011 ! max_peak_variance_along\\012\\011 ! maximum along-track variance from histogram peak to avoid cut\\0121.00\\011 ! max_misreg_cloud_frac\\012\\011 ! max frac of domain classified as cloudy (CLOUD_HC or CLOUD_LC) for misreg calc to be performed\\0125\\011 ! misreg_srch_neighborhd\\012\\011 ! area around point to search for land (NxN)\\0120.30 ! ratio_ntriplets_alltriplets\\012\\011 ! min ratio of triplets to all triplets for wind disparity histograms to be used for wind QA calculations.\\01213\\011 ! wdisp_hist_width_good\\012\\011 ! max histogram width to be called good quality.\\01225\\011 ! wdisp_hist_width_bad\\012\\011 ! histogram width at or above which is called bad quality.\\0123\\011 ! min_ngoodhist_vgwind\\012\\011 ! min number of good quality histograms for wind to be very good.\\0120\\011 ! max_nbadhist_vgwind\\012\\011 ! max number of bad quality histograms for wind to be very good quality.\\0122\\011 ! min_ngoodhist_goodwind\\012\\011 ! min number of good quality histograms for wind to be good quality.\\0121\\011 ! max_nbadhist_goodwind\\012\\011 ! max number of bad quality histograms for wind to be good quality.\\0121\\011 ! min_ngoodhist_badwind\\012\\011 ! min number of good quality histograms for wind to be bad quality.\\0122\\011 ! min_nbadhist_badwind \\012\\011 ! min number of bad quality histograms for wind to be bad quality.\\012\\012\\012l depth gridpoint on aerosol residual grid\\0122.925 ! tau_resid_gridpt(118)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122.950 ! tau_resid_gridpt(119)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122.975 ! tau_resid_gridpt(120)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0123.000 ! tau_resid_gridpt(121)\\012 ! value of optical depth gridpoint on aerosol residual grid\\0122 ! aer_tau_ref_band\\012 ! reference band to use for aerosol optical depth retrievals\\012!------------------------------------------------\\012! Aerosol Retrieval Configuration File parameters\\012! Reference: Level 2 Aerosol Retrieval Algorithm\\012! Theoretical Basis Document, JPL D-11400\\012!------------------------------------------------\\012!\\012!----------------------------------------------------\\012! (1) Parameters that apply to all aerosol retrievals\\012!----------------------------------------------------\\0120.2 ! mu0_thresh\\012 ! regional cosine of solar zenith angle threshold\\012500. ! region_topo_complex_thresh\\012 ! regional topographic complexity threshold (m)\\012100. ! hc_cloud_pcnt_thresh\\012 ! regional cloudiness threshold for high confidence cloud percent\\012100. ! lc_cloud_pcnt_thresh\\012 ! regional cloudiness threshold for low confidence cloud percent\\0121 ! rdqi1\\012 ! maximum acceptable RDQI used in averaging data to appropriate resolution\\0123 ! rdqi2\\012 ! RDQI value to use during the comp of avg RDQI, for each RDQI > RDQI1\\012250. ! subr_topo_complex_thresh\\012 ! subregional topographic complexity threshold (m)\\01220. ! max_subr_avg_slope\\012 ! max allowable subregion average slope (degrees)\\0125 ! nsdcm_class\\012 ! number of SDCM cloud classifications\\0125 ! nrccm_class\\012 ! number of RCCM cloud classifications\\0125 ! nascm_class\\012 ! number of ASCM cloud classifications\\012!----------------------------------------------------------\\012! Atmospheric State Decision Matrix: ASCM = Not Available\\012! 1 => CLEAR 2 => OPTICALLY THICK 3 => CLOUDY\\012!----------------------------------------------------------\\0121 ! cloud_mask_decision_matrix(0,0,0)\\012 ! cloud mask value when (SDCM = NotAvailable,RCCM = NotAvailable)\\0121 ! cloud_mask_decision_matrix(1,0,0)\\012 ! \\004"; } StructMetadata { SwathStructure { } GridStructure { GRID_1 { String GridName "BlueBand"; Int32 XDim 128; Int32 YDim 512; Float64 UpperLeftPointMtrs 7460750.000000, 1090650.000000; Float64 LowerRightMtrs 7601550.000000, 527450.000000; String Projection GCTP_SOM; Float64 ProjParams 6378137, -0.006694, 0, 98018013.750000, -116021034.680000, 0, 0, 0, 98.880000, 0, 0, 180, 0; Int32 SphereCode 12; String PixelRegistration HDFE_CENTER; Dimension { Dimension_1 { String DimensionName "SOMBlockDim"; Int32 Size 180; } } DataField { DataField_1 { String DataFieldName "Blue Radiance/RDQI"; String DataType DFNT_UINT16; String DimList "SOMBlockDim", "XDim", "YDim"; } } MergedFields { } } Alias BlueBand GRID_1; GRID_2 { String GridName "GreenBand"; Int32 XDim 128; Int32 YDim 512; Float64 UpperLeftPointMtrs 7460750.000000, 1090650.000000; Float64 LowerRightMtrs 7601550.000000, 527450.000000; String Projection GCTP_SOM; Float64 ProjParams 6378137, -0.006694, 0, 98018013.750000, -116021034.680000, 0, 0, 0, 98.880000, 0, 0, 180, 0; Int32 SphereCode 12; String PixelRegistration HDFE_CENTER; Dimension { Dimension_1 { String DimensionName "SOMBlockDim"; Int32 Size 180; } } DataField { DataField_1 { String DataFieldName "Green Radiance/RDQI"; String DataType DFNT_UINT16; String DimList "SOMBlockDim", "XDim", "YDim"; } } MergedFields { } } Alias GreenBand GRID_2; GRID_3 { String GridName "RedBand"; Int32 XDim 512; Int32 YDim 2048; Float64 UpperLeftPointMtrs 7460750.000000, 1090650.000000; Float64 LowerRightMtrs 7601550.000000, 527450.000000; String Projection GCTP_SOM; Float64 ProjParams 6378137, -0.006694, 0, 98018013.750000, -116021034.680000, 0, 0, 0, 98.880000, 0, 0, 180, 0; Int32 SphereCode 12; String PixelRegistration HDFE_CENTER; Dimension { Dimension_1 { String DimensionName "SOMBlockDim"; Int32 Size 180; } } DataField { DataField_1 { String DataFieldName "Red Radiance/RDQI"; String DataType DFNT_UINT16; String DimList "SOMBlockDim", "XDim", "YDim"; } } MergedFields { } } Alias RedBand GRID_3; GRID_4 { String GridName "NIRBand"; Int32 XDim 128; Int32 YDim 512; Float64 UpperLeftPointMtrs 7460750.000000, 1090650.000000; Float64 LowerRightMtrs 7601550.000000, 527450.000000; String Projection GCTP_SOM; Float64 ProjParams 6378137, -0.006694, 0, 98018013.750000, -116021034.680000, 0, 0, 0, 98.880000, 0, 0, 180, 0; Int32 SphereCode 12; String PixelRegistration HDFE_CENTER; Dimension { Dimension_1 { String DimensionName "SOMBlockDim"; Int32 Size 180; } } DataField { DataField_1 { String DataFieldName "NIR Radiance/RDQI"; String DataType DFNT_UINT16; String DimList "SOMBlockDim", "XDim", "YDim"; } } MergedFields { } } Alias NIRBand GRID_4; GRID_5 { String GridName "BRF Conversion Factors"; Int32 XDim 8; Int32 YDim 32; Float64 UpperLeftPointMtrs 7460750.000000, 1090650.000000; Float64 LowerRightMtrs 7601550.000000, 527450.000000; String Projection GCTP_SOM; Float64 ProjParams 6378137, -0.006694, 0, 98018013.750000, -116021034.680000, 0, 0, 0, 98.880000, 0, 0, 180, 0; Int32 SphereCode 12; String PixelRegistration HDFE_CENTER; Dimension { Dimension_1 { String DimensionName "SOMBlockDim"; Int32 Size 180; } } DataField { DataField_1 { String DataFieldName "BlueConversionFactor"; String DataType DFNT_FLOAT32; String DimList "SOMBlockDim", "XDim", "YDim"; } DataField_2 { String DataFieldName "GreenConversionFactor"; String DataType DFNT_FLOAT32; String DimList "SOMBlockDim", "XDim", "YDim"; } DataField_3 { String DataFieldName "RedConversionFactor"; String DataType DFNT_FLOAT32; String DimList "SOMBlockDim", "XDim", "YDim"; } DataField_4 { String DataFieldName "NIRConversionFactor"; String DataType DFNT_FLOAT32; String DimList "SOMBlockDim", "XDim", "YDim"; } } MergedFields { } } Alias BRF_Conversion_Factors GRID_5; GRID_6 { String GridName "GeometricParameters"; Int32 XDim 8; Int32 YDim 32; Float64 UpperLeftPointMtrs 7460750.000000, 1090650.000000; Float64 LowerRightMtrs 7601550.000000, 527450.000000; String Projection GCTP_SOM; Float64 ProjParams 6378137, -0.006694, 0, 98018013.750000, -116021034.680000, 0, 0, 0, 98.880000, 0, 0, 180, 0; Int32 SphereCode 12; String PixelRegistration HDFE_CENTER; Dimension { Dimension_1 { String DimensionName "SOMBlockDim"; Int32 Size 180; } } DataField { DataField_1 { String DataFieldName "SolarAzimuth"; String DataType DFNT_FLOAT64; String DimList "SOMBlockDim", "XDim", "YDim"; } DataField_2 { String DataFieldName "SolarZenith"; String DataType DFNT_FLOAT64; String DimList "SOMBlockDim", "XDim", "YDim"; } } MergedFields { } } Alias GeometricParameters GRID_6; } PointStructure { } } coremetadata { INVENTORYMETADATA { String GROUPTYPE MASTERGROUP; ECSDATAGRANULE { LOCALGRANULEID { Int32 NUM_VAL 1; String VALUE "MISR_AM1_GRP_ELLIPSOID_GM_P159_O025891_DF_F03_0024.hdf"; } PRODUCTIONDATETIME { Int32 NUM_VAL 1; String VALUE "2007-04-23T05:26:56.000Z"; } LOCALVERSIONID { Int32 NUM_VAL 1; String VALUE "MISR_EXEC_VERSION: V3.3_i2_PGE6_22 MISR_EXEC_NAME:GP_UPD_E_main.c"; } } PGEVERSIONCLASS { PGEVERSION { Int32 NUM_VAL 1; String VALUE "V3.3"; } } MEASUREDPARAMETER { MEASUREDPARAMETERCONTAINER { String CLASS "1"; QAFLAGS { String CLASS "1"; AUTOMATICQUALITYFLAGEXPLANATION { Int32 NUM_VAL 1; String CLASS "1"; String VALUE "Automatic quality determination software not yet implemented"; } AUTOMATICQUALITYFLAG { Int32 NUM_VAL 1; String CLASS "1"; String VALUE "Not Investigated"; } } QASTATS { String CLASS "1"; QAPERCENTMISSINGDATA { Int32 NUM_VAL 1; String CLASS "1"; Int32 VALUE 0; } } PARAMETERNAME { String CLASS "1"; Int32 NUM_VAL 1; String VALUE "Granule"; } } } ORBITCALCULATEDSPATIALDOMAIN { ORBITCALCULATEDSPATIALDOMAINCONTAINER { String CLASS "1"; EQUATORCROSSINGDATE { String CLASS "1"; Int32 NUM_VAL 1; String VALUE "2004-10-30"; } EQUATORCROSSINGTIME { String CLASS "1"; Int32 NUM_VAL 1; String VALUE "07:03:27.914905Z"; } ORBITNUMBER { String CLASS "1"; Int32 NUM_VAL 1; Int32 VALUE 25891; } EQUATORCROSSINGLONGITUDE { String CLASS "1"; Int32 NUM_VAL 1; Float64 VALUE 51.2563525938721; } } } COLLECTIONDESCRIPTIONCLASS { VERSIONID { Int32 NUM_VAL 1; Int32 VALUE 3; } SHORTNAME { Int32 NUM_VAL 1; String VALUE "MI1B2E"; } } INPUTGRANULE { INPUTPOINTER { Int32 NUM_VAL 9; String VALUE "LGID:MIB2GEOP:002:MISR_AM1_GP_GMP_P159_O025891_F03_0013.hdf", "MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf", "MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf", "MISR_AM1_ARP_INFLTCAL_T029_F02_0010.hdf", "MISR_AM1_ARP_CONFIG_F03_0003.hdf", " LGID:MI1B1:002:MISR_AM1_RP_GM_P159_O025891_DF_F03_0024.hdf", "LGID:MIB2TRPE.A2004304.0614.002.2007113045913.DF.24.hdf", "MISR_AM1_PGE22_PCS_CONFIG_DF_F01_0001.ascii"; } } SPATIALDOMAINCONTAINER { HORIZONTALSPATIALDOMAINCONTAINER { GPOLYGON 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