OPeNDAP Server Dataset Access Form
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HDF_GLOBAL.HDFEOSVersion: "HDFEOS_V2.13" HDF_GLOBAL.Path_number: 165 HDF_GLOBAL.AGP_version_id: 2 HDF_GLOBAL.DID_version_id: 4 HDF_GLOBAL.Number_blocks: 180 HDF_GLOBAL.Ocean_blocks_size: 180 HDF_GLOBAL.Ocean_blocks.count: 57 HDF_GLOBAL.Ocean_blocks.numbers: 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 146, 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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 HDF_GLOBAL.SOM_parameters.som_ellipsoid.a: 6.37814e+06 HDF_GLOBAL.SOM_parameters.som_ellipsoid.e2: 0.00669435 HDF_GLOBAL.SOM_parameters.som_orbit.aprime: 1 HDF_GLOBAL.SOM_parameters.som_orbit.eprime: 1 HDF_GLOBAL.SOM_parameters.som_orbit.gama: 1 HDF_GLOBAL.SOM_parameters.som_orbit.nrev: 233 HDF_GLOBAL.SOM_parameters.som_orbit.ro: 7.07804e+06 HDF_GLOBAL.SOM_parameters.som_orbit.i: 1.71573 HDF_GLOBAL.SOM_parameters.som_orbit.P2P1: 0.0686667 HDF_GLOBAL.SOM_parameters.som_orbit.lambda0: -2.19266 HDF_GLOBAL.Origin_block.ulc.x: 7.46075e+06 HDF_GLOBAL.Origin_block.ulc.y: 527450 HDF_GLOBAL.Origin_block.lrc.x: 7.60155e+06 HDF_GLOBAL.Origin_block.lrc.y: 1.09065e+06 HDF_GLOBAL.Start_block: 68 HDF_GLOBAL.End block: 74 HDF_GLOBAL.Cam_mode: 1 HDF_GLOBAL.Num_local_modes: 0 HDF_GLOBAL.Local_mode_site_name: "\\000\\000\\000\\000\\000\\000\\000\\000\\000\\000\\000\\000" HDF_GLOBAL.Orbit_QA: 0 HDF_GLOBAL.SubsetMetadata: "\\012GROUP = SUBSET\\012 PARENT_FILE = MISR_AM1_TC_ALBEDO_P165_O024406_F04_0008.hdf\\012 BLOCKS = (68,69,70,71,72,73,74)\\012 PARAMETERS = (ALL)\\012END GROUP = SUBSET\\012" HDF_GLOBAL.HDF_ANNOT: "SCIENCE CONFIGURATION INFORMATION\\012!------------------------------------------------\\012! PGE 8c Albedo Science Configuration File parameters\\012! Reference: TOA/Cloud Product Software Requirements\\012! Document, JPL D-XXXXX\\012!------------------------------------------------\\0120 ! start block override\\012 ! starting block to process. If =0, use L1B2 starting block. \\0120 ! end block override\\012 ! ending block to process. If =0, use L1B2 ending block. \\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,1)\\012 ! channel needed at 1x1 res, (band=1:4,cam=1)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,2)\\012 ! channel needed at 1x1 res, (band=1:4,cam=2)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,3)\\012 ! channel needed at 1x1 res, (band=1:4,cam=3)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,4)\\012 ! channel needed at 1x1 res, (band=1:4,cam=4)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,5)\\012 ! channel needed at 1x1 res, (band=1:4,cam=5)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,6)\\012 ! channel needed at 1x1 res, (band=1:4,cam=6)\\012.false. .false. .true. .false ! ep_res_1x1_needed(:,7)\\012 ! channel needed at 1x1 res, (band=1:4,cam=7)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,8)\\012 ! channel needed at 1x1 res, (band=1:4,cam=8)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,9)\\012 ! channel needed at 1x1 res, (band=1:4,cam=9)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,1)\\012 ! channel needed at 4x4 res, (band=1:4,cam=1)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,2)\\012 ! channel needed at 4x4 res, (band=1:4,cam=2)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,3)\\012 ! channel needed at 4x4 res, (band=1:4,cam=3)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,4)\\012 ! channel needed at 4x4 res, (band=1:4,cam=4)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,5)\\012 ! channel needed at 4x4 res, (band=1:4,cam=5)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,6)\\012 ! channel needed at 4x4 res, (band=1:4,cam=6)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,7)\\012 ! channel needed at 4x4 res, (band=1:4,cam=7)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,8)\\012 ! channel needed at 4x4 res, (band=1:4,cam=8)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,9)\\012 ! channel needed at 4x4 res, (band=1:4,cam=9)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,1)\\012 ! channel needed at 1x1 res, (band=1:4,cam=1)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,2)\\012 ! channel needed at 1x1 res, (band=1:4,cam=2)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,3)\\012 ! channel needed at 1x1 res, (band=1:4,cam=3)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,4)\\012 ! channel needed at 1x1 res, (band=1:4,cam=4)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,5)\\012 ! channel needed at 1x1 res, (band=1:4,cam=5)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,6)\\012 ! channel needed at 1x1 res, (band=1:4,cam=6)\\012.false. .false. .false. .false ! tp_res_1x1_needed(:,7)\\012 ! channel needed at 1x1 res, (band=1:4,cam=7)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,8)\\012 ! channel needed at 1x1 res, (band=1:4,cam=8)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,9)\\012 ! channel needed at 1x1 res, (band=1:4,cam=9)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,1)\\012 ! channel needed at 4x4 res, (band=1:4,cam=1)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,2)\\012 ! channel needed at 4x4 res, (band=1:4,cam=2)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,3)\\012 ! channel needed at 4x4 res, (band=1:4,cam=3)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,4)\\012 ! channel needed at 4x4 res, (band=1:4,cam=4)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,5)\\012 ! channel needed at 4x4 res, (band=1:4,cam=5)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,6)\\012 ! channel needed at 4x4 res, (band=1:4,cam=6)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,7)\\012 ! channel needed at 4x4 res, (band=1:4,cam=7)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,8)\\012 ! channel needed at 4x4 res, (band=1:4,cam=8)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,9)\\012 ! channel needed at 4x4 res, (band=1:4,cam=9)\\0120.0 ! extrn_min_snow_ice_pcnt\\012 ! minimum acceptable snow/ice percent value from external source\\012100.0 ! extrn_max_snow_ice_pcnt\\012 ! maximum acceptable snow/ice percent value from external source\\0120.0 ! extrn_min_snow_water_eq\\012 ! min acceptable snow water equivalent value from external source (mm)\\0121000.0 ! extrn_max_snow_water_eq\\012 ! max acceptable snow water equivalent value from external source (mm)\\0120.0 ! extrn_min_cloud_height\\012 ! minimum acceptable cloud height value from external source (km)\\01225.0 ! extrn_max_cloud_height\\012 ! maximum acceptable cloud height value from external source (km)\\0121 ! rdqi1\\012 ! maximum acceptable RDQI used in averaging data to appropriate resolution\\0123 ! rdqi2\\012 ! RDQI val to use during the computation of avg RDQI, for each RDQI > RDQI1\\0120 ! rdqi4\\012 ! maximum acceptable RDQI used in calculating BRFs\\0120.01 ! mu0_thresh\\012 ! regional cosine of solar zenith angle threshold\\0123 ! ref_band\\012 ! reference band (red band)\\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\\012, 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)\\0123.0 ! fwdaft_windns_diff_good\\012 ! WindNS FwdAft Difference threshold for a wind to be considered good quality\\01210.0 ! fwdaft_windns_diff_bad\\012 ! WindNS FwdAft Difference threshold for a wind to be considered bad quality\\0121.0 ! fwdaft_windew_diff_good\\012 ! WindEW FwdAft Difference threshold for a wind to be considered good quality\\0123.0 ! fwdaft_windew_diff_bad\\012 ! WindEW FwdAft Difference threshold for a wind to be considered bad quality\\012300.0 ! fwdaft_wheight_diff_good\\012 ! WHeight FwdAft Difference threshold for a wind to be considered good quality\\0121000.0 ! fwdaft_wheight_diff_bad\\012 ! WHeight FwdAft Difference threshold for a wind to be considered bad quality\\01245.0 ! fwdaft_wangle_diff_bad\\012 ! WAngle FwdAft Difference threshold for a wind to be considered bad quality\\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.\\0120.1 ! max_frac_bad_winds\\012 ! maximum allowable fraction of winds to fail the FwdAft quality test\\0129999.0 ! max_mean_fwdaft_diff1 \\012 ! maximum allowable mean value of NS Wind FwdAft difference for good winds\\0128.0 ! max_mean_fwdaft_diff\\012 ! maximum allowable mean value of NS Wind FwdAft difference for all winds\\0120.75 ! max_frac_bad_gdqi\\012 ! maximum allowable fraction of bad GDQI's per camera\\012\\012\\012", "EXECUTABLE INFORMATION\\012MISR_EXEC_NAME:TC_AL_postprocess.c\\012MISR_EXEC_VERSION: V4.0_i3_PGE8BC\\012MISR_COMPOSITION_INFO_BEGIN\\012DATE OF BUILD: Wed May 10 13:30:27 EDT 2006\\012BUILT BY: sbaekins\\012HOST INFO: l0spg11: ClearCase 2003.06.10+ (IRIX64 6.5 10070055 IP35)\\012VOBS CONFIGURATION:\\012 /vobs/PCS/... V3.3\\012 /vobs/PGEvob/... V4.0\\012 /vobs/Shared/... V4.0\\012 /vobs/L2TC/... V4.0_i3_PGE8BC\\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. .false. ! ep_res_1x1_needed(:,3)\\012 ! channel needed at 1x1 res, (band=1:4,cam=3)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,4)\\012 ! channel needed at 1x1 res, (band=1:4,cam=4)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,5)\\012 ! channel needed at 1x1 res, (band=1:4,cam=5)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,6)\\012 ! channel needed at 1x1 res, (band=1:4,cam=6)\\012.false. .false. .true. .false ! ep_res_1x1_needed(:,7)\\012 ! channel needed at 1x1 res, (band=1:4,cam=7)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,8)\\012 ! channel needed at 1x1 res, (band=1:4,cam=8)\\012.false. .false. .true. .false. ! ep_res_1x1_needed(:,9)\\012 ! channel needed at 1x1 res, (band=1:4,cam=9)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,1)\\012 ! channel needed at 4x4 res, (band=1:4,cam=1)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,2)\\012 ! channel needed at 4x4 res, (band=1:4,cam=2)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,3)\\012 ! channel needed at 4x4 res, (band=1:4,cam=3)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,4)\\012 ! channel needed at 4x4 res, (band=1:4,cam=4)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,5)\\012 ! channel needed at 4x4 res, (band=1:4,cam=5)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,6)\\012 ! channel needed at 4x4 res, (band=1:4,cam=6)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,7)\\012 ! channel needed at 4x4 res, (band=1:4,cam=7)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,8)\\012 ! channel needed at 4x4 res, (band=1:4,cam=8)\\012.true. .true. .true. .true. ! ep_res_4x4_needed(:,9)\\012 ! channel needed at 4x4 res, (band=1:4,cam=9)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,1)\\012 ! channel needed at 1x1 res, (band=1:4,cam=1)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,2)\\012 ! channel needed at 1x1 res, (band=1:4,cam=2)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,3)\\012 ! channel needed at 1x1 res, (band=1:4,cam=3)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,4)\\012 ! channel needed at 1x1 res, (band=1:4,cam=4)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,5)\\012 ! channel needed at 1x1 res, (band=1:4,cam=5)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,6)\\012 ! channel needed at 1x1 res, (band=1:4,cam=6)\\012.false. .false. .false. .false ! tp_res_1x1_needed(:,7)\\012 ! channel needed at 1x1 res, (band=1:4,cam=7)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,8)\\012 ! channel needed at 1x1 res, (band=1:4,cam=8)\\012.false. .false. .false. .false. ! tp_res_1x1_needed(:,9)\\012 ! channel needed at 1x1 res, (band=1:4,cam=9)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,1)\\012 ! channel needed at 4x4 res, (band=1:4,cam=1)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,2)\\012 ! channel needed at 4x4 res, (band=1:4,cam=2)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,3)\\012 ! channel needed at 4x4 res, (band=1:4,cam=3)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,4)\\012 ! channel needed at 4x4 res, (band=1:4,cam=4)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,5)\\012 ! channel needed at 4x4 res, (band=1:4,cam=5)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,6)\\012 ! channel needed at 4x4 res, (band=1:4,cam=6)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,7)\\012 ! channel needed at 4x4 res, (band=1:4,cam=7)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,8)\\012 ! channel needed at 4x4 res, (band=1:4,cam=8)\\012.false. .false. .false. .false. ! tp_res_4x4_needed(:,9)\\012 ! channel needed at 4x4 res, (band=1:4,cam=9)\\0120.0 ! extrn_min_snow_ice_pcnt\\012 ! minimum acceptable snow/ice percent value from external source\\012100.0 ! extrn_max_snow_ice_pcnt\\012 ! maximum acceptable snow/ice percent value from external source\\0120.0 ! extrn_min_snow_water_eq\\012 ! min acceptable snow water equivalent value from external source (mm)\\0121000.0 ! extrn_max_snow_water_eq\\012 ! max acceptable snow water equivalent value from external source (mm)\\0120.0 ! extrn_min_cloud_height\\012 ! minimum acceptable cloud height value from external source (km)\\01225.0 ! extrn_max_cloud_height\\012 ! maximum acceptable cloud height value from external source (km)\\0121 ! rdqi1\\012 ! maximum acceptable RDQI used in averaging data to appropriate resolution\\0123 ! rdqi2\\012 ! RDQI val to use during the computation of avg RDQI, for each RDQI > RDQI1\\0120 ! rdqi4\\012 ! maximum acceptable RDQI used in calculating BRFs\\0120.01 ! mu0_thresh\\012 ! regional cosine of solar zenith angle threshold\\0123 ! ref_band\\012 ! reference band (red band)\\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\\012, 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)\\0123.0 ! fwdaft_windns_diff_good\\012 ! WindNS FwdAft Difference threshold for a wind to be considered good quality\\01210.0 ! fwdaft_windns_diff_bad\\012 ! WindNS FwdAft Difference threshold for a wind to be considered bad quality\\0121.0 ! fwdaft_windew_diff_good\\012 ! WindEW FwdAft Difference threshold for a wind to be considered good quality\\0123.0 ! fwdaft_windew_diff_bad\\012 ! WindEW FwdAft Difference threshold for a wind to be considered bad quality\\012300.0 ! fwdaft_wheight_diff_good\\012 ! WHeight FwdAft Difference threshold for a wind to be considered good quality\\0121000.0 ! fwdaft_wheight_diff_bad\\012 ! WHeight FwdAft Difference threshold for a wind to be considered bad quality\\01245.0 ! fwdaft_wangle_diff_bad\\012 ! WAngle FwdAft Difference threshold for a wind to be considered bad quality\\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.\\0120.1 ! max_frac_bad_winds\\012 ! maximum allowable fraction of winds to fail the FwdAft quality test\\0129999.0 ! max_mean_fwdaft_diff1 \\012 ! maximum allowable mean value of NS Wind FwdAft difference for good winds\\0128.0 ! max_mean_fwdaft_diff\\012 ! maximum allowable mean value of NS Wind FwdAft difference for all winds\\0120.75 ! max_frac_bad_gdqi\\012 ! maximum allowable fraction of bad GDQI's per camera\\012\\012\\012", "INPUT FILES INFORMATION\\012LID = 922; Local Granule ID = MISR_AM1_TC_AL_SCI_CONFIG_F05_0007.txt\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_TC_AL_SCI_CONFIG_F05_0007.txt\\012LID = 930; Local Granule ID = MISR_AM1_AZM_F01_01.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/AZM/MISR_AM1_AZM_F01_01.hdf\\012LID = 1101; Local Granule ID = MISR_AM1_PGE8C_PCS_CONFIG_F02_0005.txt\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_PGE8C_PCS_CONFIG_F02_0005.txt\\012LID = 1304; Local Granule ID = MISR_AM1_AGP_P165_F01_24.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/AGP/MISR_AM1_AGP_P165_F01_24.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 = 1307; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145607.DF.24.hdf\\012LID = 1308; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145607.CF.24.hdf\\012LID = 1309; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145546.BF.24.hdf\\012LID = 1310; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145546.AF.24.hdf\\012LID = 1311; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145546.AN.24.hdf\\012LID = 1312; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145607.DA.24.hdf\\012LID = 1313; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145607.CA.24.hdf\\012LID = 1314; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145546.BA.24.hdf\\012LID = 1315; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145546.AA.24.hdf\\012LID = 1316; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145607.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145607.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145546.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145546.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145546.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145607.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145607.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145546.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145546.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_DF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072151707.DF.24.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_CF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072150331.CF.24.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_BF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072151707.BF.24.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_AF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072150342.AF.24.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_AN_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072150603.AN.24.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_DA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072151707.DA.24.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_CA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072150401.CA.24.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_BA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072151738.BA.24.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_AA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072150351.AA.24.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P165_O024406_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2GEOP/MIB2GEOP.A2004202.0652.002.2007072084457.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_JUL_F01_01.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/TASC/MISR_AM1_TASC_JUL_F01_01.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_T027_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T027_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 = 951; Local Granule ID = MISR_AM1_TC_STEREO_P165_O024406_F08_0016.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIL2TCST/MIL2TCST.A2004202.0652.002.2007072154649.16.hdf\\012_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\\012, 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)\\0123.0 ! fwdaft_windns_diff_good\\012 ! WindNS FwdAft Difference threshold for a wind to be considered good quality\\01210.0 ! fwdaft_windns_diff_bad\\012 ! WindNS FwdAft Difference threshold for a wind to be considered bad quality\\0121.0 ! fwdaft_windew_diff_good\\012 ! WindEW FwdAft Difference threshold for a wind to be considered good quality\\0123.0 ! fwdaft_windew_diff_bad\\012 ! WindEW FwdAft Difference threshold for a wind to be considered bad quality\\012300.0 ! fwdaft_wheight_diff_good\\012 ! WHeight FwdAft Difference threshold for a wind to be considered good quality\\0121000.0 ! fwdaft_wheight_diff_bad\\012 ! WHeight FwdAft Difference threshold for a wind to be considered bad quality\\01245.0 ! fwdaft_wangle_diff_bad\\012 ! WAngle FwdAft Difference threshold for a wind to be considered bad quality\\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.\\0120.1 ! max_frac_bad_winds\\012 ! maximum allowable fraction of winds to fail the FwdAft quality test\\0129999.0 ! max_mean_fwdaft_diff1 \\012 ! maximum allowable mean value of NS Wind FwdAft difference for good winds\\0128.0 ! max_mean_fwdaft_diff\\012 ! maximum allowable mean value of NS Wind FwdAft difference for all winds\\0120.75 ! max_frac_bad_gdqi\\012 ! maximum allowable fraction of bad GDQI's per camera\\012\\012\\012", "RUNTIME ENVIRONMENT INFORMATION\\012DATE OF RUN: Tue Mar 13 22:53:31 2007\\012HOST INFO: l0spg10: (IRIX64 6.5 01090133 IP35)\\012RUN BY: s4pmopsr\\012UNIQUE FILE NAME: MISR_AM1_TC_ALBEDO_P165_O024406_F04_0008.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_MI8C.2004202065229/DO.RUN_MI8C.2004202065229\\012 PGSMSG = /vol1/OPS/S4PM-MISR-REPR/strings/terra/stations/reprocessing/run_algorithm/RUNNING.RUN_MI8C.2004202065229/../MI8C/40003/MSGS\\012/S4PM-MISR-REPR/data/ancillary/AGP/MISR_AM1_AGP_P165_F01_24.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 = 1307; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145607.DF.24.hdf\\012LID = 1308; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145607.CF.24.hdf\\012LID = 1309; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145546.BF.24.hdf\\012LID = 1310; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145546.AF.24.hdf\\012LID = 1311; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145546.AN.24.hdf\\012LID = 1312; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145607.DA.24.hdf\\012LID = 1313; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145607.CA.24.hdf\\012LID = 1314; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145546.BA.24.hdf\\012LID = 1315; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P165_O024406_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004202.0652.003.2007072145546.AA.24.hdf\\012LID = 1316; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145607.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145607.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145546.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145546.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145546.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145607.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145607.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145546.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P165_O024406_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004202.0652.003.2007072145546.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_DF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072151707.DF.24.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_CF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072150331.CF.24.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_BF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072151707.BF.24.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_AF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072150342.AF.24.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_AN_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072150603.AN.24.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_DA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072151707.DA.24.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_CA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072150401.CA.24.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_BA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072151738.BA.24.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P165_O024406_AA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004202.0652.004.2007072150351.AA.24.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P165_O024406_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2GEOP/MIB2GEOP.A2004202.0652.002.2007072084457.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_JUL_F01_01.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/TASC/MISR_AM1_TASC_JUL_F01_01.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_T027_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T027_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 = 951; Local Granule ID = MISR_AM1_TC_STEREO_P165_O024406_F08_0016.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIL2TCST/MIL2TCST.A2004202.0652.002.2007072154649.16.hdf\\012_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\\012, 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)\\0123.0 ! fwdaft_windns_diff_good\\012 ! WindNS FwdAft Difference threshold for a wind to be considered good quality\\01210.0 ! fwdaft_windns_diff_bad\\012 ! WindNS FwdAft Difference threshold for a wind to be considered bad quality\\0121.0 ! fwdaft_windew_diff_good\\012 ! WindEW FwdAft Difference threshold for a wind to be considered good quality\\0123.0 ! fwdaft_windew_diff_bad\\012 ! WindEW FwdAft Difference threshold for a wind to be considered bad quality\\012300.0 ! fwdaft_wheight_diff_good\\012 ! WHeight FwdAft Difference threshold for a wind to be considered good quality\\0121000.0 ! fwdaft_wheight_diff_bad\\012 ! WHeight FwdAft Difference threshold for a wind to be considered bad quality\\01245.0 ! fwdaft_wangle_diff_bad\\012 ! WAngle FwdAft Difference threshold for a wind to be considered bad quality\\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.\\0120.1 ! max_frac_bad_winds\\012 ! maximum allowable fraction of winds to fail the FwdAft quality test\\0129999.0 ! max_mean_fwdaft_diff1 \\012 ! maximum allowable mean value of NS Wind FwdAft difference for good winds\\0128.0 ! max_mean_fwdaft_diff\\012 ! maximum allowable mean value of NS Wind FwdAft difference for all winds\\0120.75 ! max_frac_bad_gdqi\\012 ! maximum allowable fraction of bad GDQI's per camera\\012\\012\\012" StructMetadata.GridStructure.GRID_1.GridName: "AlbedoParameters_35.2_km" StructMetadata.GridStructure.GRID_1.XDim: 4 StructMetadata.GridStructure.GRID_1.YDim: 16 StructMetadata.GridStructure.GRID_1.UpperLeftPointMtrs: 7460750.000000, 1090650.000000 StructMetadata.GridStructure.GRID_1.LowerRightMtrs: 7601550.000000, 527450.000000 StructMetadata.GridStructure.GRID_1.Projection: GCTP_SOM StructMetadata.GridStructure.GRID_1.ProjParams: 6378137, -0.006694, 0, 98018013.750000, -125037048.080000, 0, 0, 0, 98.880000, 0, 0, 180, 0 StructMetadata.GridStructure.GRID_1.SphereCode: 12 StructMetadata.GridStructure.GRID_1.PixelRegistration: HDFE_CENTER StructMetadata.GridStructure.GRID_1.Dimension.Dimension_1.DimensionName: "NBandDim" StructMetadata.GridStructure.GRID_1.Dimension.Dimension_1.Size: 4 StructMetadata.GridStructure.GRID_1.Dimension.Dimension_2.DimensionName: "NCamDim" StructMetadata.GridStructure.GRID_1.Dimension.Dimension_2.Size: 9 StructMetadata.GridStructure.GRID_1.Dimension.Dimension_3.DimensionName: "SOMBlockDim" StructMetadata.GridStructure.GRID_1.Dimension.Dimension_3.Size: 180 StructMetadata.GridStructure.GRID_1.DataField.DataField_1.DataFieldName: "AlbedoExpansive" StructMetadata.GridStructure.GRID_1.DataField.DataField_1.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_1.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_2.DataFieldName: "AlbedoRestrictive" StructMetadata.GridStructure.GRID_1.DataField.DataField_2.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_2.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_3.DataFieldName: "AlbedoExpansiveBroadband" StructMetadata.GridStructure.GRID_1.DataField.DataField_3.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_3.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_4.DataFieldName: "AlbedoRestrictiveBroadband" StructMetadata.GridStructure.GRID_1.DataField.DataField_4.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_4.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_5.DataFieldName: "SolarZenithCosineRegional" StructMetadata.GridStructure.GRID_1.DataField.DataField_5.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_5.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_6.DataFieldName: "NumLocalAlbedoGood" StructMetadata.GridStructure.GRID_1.DataField.DataField_6.DataType: DFNT_INT16 StructMetadata.GridStructure.GRID_1.DataField.DataField_6.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_7.DataFieldName: "NumLocalAlbedoGoodNoCamFill" StructMetadata.GridStructure.GRID_1.DataField.DataField_7.DataType: DFNT_INT16 StructMetadata.GridStructure.GRID_1.DataField.DataField_7.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_8.DataFieldName: "LocalAlbedo_Mean" StructMetadata.GridStructure.GRID_1.DataField.DataField_8.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_8.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_9.DataFieldName: "LocalAlbedo_StdDev" StructMetadata.GridStructure.GRID_1.DataField.DataField_9.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_9.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_10.DataFieldName: "LocalAlbedoNoCamFill_Mean" StructMetadata.GridStructure.GRID_1.DataField.DataField_10.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_10.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_11.DataFieldName: "LocalAlbedoNoCamFill_StdDev" StructMetadata.GridStructure.GRID_1.DataField.DataField_11.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_11.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_12.DataFieldName: "NumDeterministicSucceeded" StructMetadata.GridStructure.GRID_1.DataField.DataField_12.DataType: DFNT_INT16 StructMetadata.GridStructure.GRID_1.DataField.DataField_12.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_13.DataFieldName: "NumDeterministicFailed" StructMetadata.GridStructure.GRID_1.DataField.DataField_13.DataType: DFNT_INT16 StructMetadata.GridStructure.GRID_1.DataField.DataField_13.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_14.DataFieldName: "NumStochasticSucceeded" StructMetadata.GridStructure.GRID_1.DataField.DataField_14.DataType: DFNT_INT16 StructMetadata.GridStructure.GRID_1.DataField.DataField_14.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_15.DataFieldName: "NumStochasticFailed" StructMetadata.GridStructure.GRID_1.DataField.DataField_15.DataType: DFNT_INT16 StructMetadata.GridStructure.GRID_1.DataField.DataField_15.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_16.DataFieldName: "RestrictiveAlbedoTop" StructMetadata.GridStructure.GRID_1.DataField.DataField_16.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_16.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_17.DataFieldName: "RestrictiveAlbedoSide" StructMetadata.GridStructure.GRID_1.DataField.DataField_17.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_17.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_18.DataFieldName: "NumSubRestrictiveAlbedoTop" StructMetadata.GridStructure.GRID_1.DataField.DataField_18.DataType: DFNT_UINT16 StructMetadata.GridStructure.GRID_1.DataField.DataField_18.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_19.DataFieldName: "NumSubRestrictiveAlbedoSide" StructMetadata.GridStructure.GRID_1.DataField.DataField_19.DataType: DFNT_UINT16 StructMetadata.GridStructure.GRID_1.DataField.DataField_19.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_20.DataFieldName: "FlagRestrictiveAlbedoSide" StructMetadata.GridStructure.GRID_1.DataField.DataField_20.DataType: DFNT_UINT16 StructMetadata.GridStructure.GRID_1.DataField.DataField_20.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_21.DataFieldName: "NumSubExpansiveConsidered" StructMetadata.GridStructure.GRID_1.DataField.DataField_21.DataType: DFNT_INT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_21.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_22.DataFieldName: "NumSubExpansiveUsed" StructMetadata.GridStructure.GRID_1.DataField.DataField_22.DataType: DFNT_INT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_22.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_23.DataFieldName: "NumSubExpansiveMissBRFTop" StructMetadata.GridStructure.GRID_1.DataField.DataField_23.DataType: DFNT_INT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_23.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_24.DataFieldName: "NumSubExpansiveMissBRFSide" StructMetadata.GridStructure.GRID_1.DataField.DataField_24.DataType: DFNT_INT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_24.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_25.DataFieldName: "NumSubExpansiveBadObscTop" StructMetadata.GridStructure.GRID_1.DataField.DataField_25.DataType: DFNT_INT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_25.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_26.DataFieldName: "NumSubExpansiveBadObscSide" StructMetadata.GridStructure.GRID_1.DataField.DataField_26.DataType: DFNT_INT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_26.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_27.DataFieldName: "NumSubExpansiveOblique" StructMetadata.GridStructure.GRID_1.DataField.DataField_27.DataType: DFNT_INT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_27.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_28.DataFieldName: "FractionExpansiveClearHighConf" StructMetadata.GridStructure.GRID_1.DataField.DataField_28.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_28.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GRID_1.DataField.DataField_29.DataFieldName: "FractionExpansiveClearLowConf" StructMetadata.GridStructure.GRID_1.DataField.DataField_29.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_1.DataField.DataField_29.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.GridName: "AlbedoParameters_35.2_km" StructMetadata.GridStructure.AlbedoParameters_35.2_km.XDim: 4 StructMetadata.GridStructure.AlbedoParameters_35.2_km.YDim: 16 StructMetadata.GridStructure.AlbedoParameters_35.2_km.UpperLeftPointMtrs: 7460750.000000, 1090650.000000 StructMetadata.GridStructure.AlbedoParameters_35.2_km.LowerRightMtrs: 7601550.000000, 527450.000000 StructMetadata.GridStructure.AlbedoParameters_35.2_km.Projection: GCTP_SOM StructMetadata.GridStructure.AlbedoParameters_35.2_km.ProjParams: 6378137, -0.006694, 0, 98018013.750000, -125037048.080000, 0, 0, 0, 98.880000, 0, 0, 180, 0 StructMetadata.GridStructure.AlbedoParameters_35.2_km.SphereCode: 12 StructMetadata.GridStructure.AlbedoParameters_35.2_km.PixelRegistration: HDFE_CENTER StructMetadata.GridStructure.AlbedoParameters_35.2_km.Dimension.Dimension_1.DimensionName: "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.Dimension.Dimension_1.Size: 4 StructMetadata.GridStructure.AlbedoParameters_35.2_km.Dimension.Dimension_2.DimensionName: "NCamDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.Dimension.Dimension_2.Size: 9 StructMetadata.GridStructure.AlbedoParameters_35.2_km.Dimension.Dimension_3.DimensionName: "SOMBlockDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.Dimension.Dimension_3.Size: 180 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_1.DataFieldName: "AlbedoExpansive" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_1.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_1.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_2.DataFieldName: "AlbedoRestrictive" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_2.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_2.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_3.DataFieldName: "AlbedoExpansiveBroadband" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_3.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_3.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_4.DataFieldName: "AlbedoRestrictiveBroadband" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_4.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_4.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_5.DataFieldName: "SolarZenithCosineRegional" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_5.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_5.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_6.DataFieldName: "NumLocalAlbedoGood" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_6.DataType: DFNT_INT16 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_6.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_7.DataFieldName: "NumLocalAlbedoGoodNoCamFill" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_7.DataType: DFNT_INT16 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_7.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_8.DataFieldName: "LocalAlbedo_Mean" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_8.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_8.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_9.DataFieldName: "LocalAlbedo_StdDev" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_9.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_9.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_10.DataFieldName: "LocalAlbedoNoCamFill_Mean" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_10.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_10.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_11.DataFieldName: "LocalAlbedoNoCamFill_StdDev" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_11.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_11.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_12.DataFieldName: "NumDeterministicSucceeded" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_12.DataType: DFNT_INT16 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_12.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_13.DataFieldName: "NumDeterministicFailed" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_13.DataType: DFNT_INT16 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_13.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_14.DataFieldName: "NumStochasticSucceeded" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_14.DataType: DFNT_INT16 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_14.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_15.DataFieldName: "NumStochasticFailed" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_15.DataType: DFNT_INT16 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_15.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_16.DataFieldName: "RestrictiveAlbedoTop" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_16.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_16.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_17.DataFieldName: "RestrictiveAlbedoSide" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_17.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_17.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_18.DataFieldName: "NumSubRestrictiveAlbedoTop" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_18.DataType: DFNT_UINT16 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_18.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_19.DataFieldName: "NumSubRestrictiveAlbedoSide" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_19.DataType: DFNT_UINT16 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_19.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_20.DataFieldName: "FlagRestrictiveAlbedoSide" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_20.DataType: DFNT_UINT16 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_20.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_21.DataFieldName: "NumSubExpansiveConsidered" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_21.DataType: DFNT_INT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_21.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_22.DataFieldName: "NumSubExpansiveUsed" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_22.DataType: DFNT_INT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_22.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_23.DataFieldName: "NumSubExpansiveMissBRFTop" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_23.DataType: DFNT_INT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_23.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_24.DataFieldName: "NumSubExpansiveMissBRFSide" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_24.DataType: DFNT_INT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_24.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_25.DataFieldName: "NumSubExpansiveBadObscTop" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_25.DataType: DFNT_INT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_25.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_26.DataFieldName: "NumSubExpansiveBadObscSide" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_26.DataType: DFNT_INT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_26.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_27.DataFieldName: "NumSubExpansiveOblique" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_27.DataType: DFNT_INT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_27.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_28.DataFieldName: "FractionExpansiveClearHighConf" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_28.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_28.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_29.DataFieldName: "FractionExpansiveClearLowConf" StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_29.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.AlbedoParameters_35.2_km.DataField.DataField_29.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GRID_2.GridName: "GeometricParameters_17.6_km" StructMetadata.GridStructure.GRID_2.XDim: 8 StructMetadata.GridStructure.GRID_2.YDim: 32 StructMetadata.GridStructure.GRID_2.UpperLeftPointMtrs: 7460750.000000, 1090650.000000 StructMetadata.GridStructure.GRID_2.LowerRightMtrs: 7601550.000000, 527450.000000 StructMetadata.GridStructure.GRID_2.Projection: GCTP_SOM StructMetadata.GridStructure.GRID_2.ProjParams: 6378137, -0.006694, 0, 98018013.750000, -125037048.080000, 0, 0, 0, 98.880000, 0, 0, 180, 0 StructMetadata.GridStructure.GRID_2.SphereCode: 12 StructMetadata.GridStructure.GRID_2.PixelRegistration: HDFE_CENTER StructMetadata.GridStructure.GRID_2.Dimension.Dimension_1.DimensionName: "NBandDim" StructMetadata.GridStructure.GRID_2.Dimension.Dimension_1.Size: 4 StructMetadata.GridStructure.GRID_2.Dimension.Dimension_2.DimensionName: "NCamDim" StructMetadata.GridStructure.GRID_2.Dimension.Dimension_2.Size: 9 StructMetadata.GridStructure.GRID_2.Dimension.Dimension_3.DimensionName: "SOMBlockDim" StructMetadata.GridStructure.GRID_2.Dimension.Dimension_3.Size: 180 StructMetadata.GridStructure.GRID_2.DataField.DataField_1.DataFieldName: "SolarZenithAngle" StructMetadata.GridStructure.GRID_2.DataField.DataField_1.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_2.DataField.DataField_1.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GRID_2.DataField.DataField_2.DataFieldName: "ViewZenithAngle" StructMetadata.GridStructure.GRID_2.DataField.DataField_2.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_2.DataField.DataField_2.DimList: "SOMBlockDim", "XDim", "YDim", "NCamDim" StructMetadata.GridStructure.GRID_2.DataField.DataField_3.DataFieldName: "RelativeAzimuthAngle" StructMetadata.GridStructure.GRID_2.DataField.DataField_3.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_2.DataField.DataField_3.DimList: "SOMBlockDim", "XDim", "YDim", "NCamDim" StructMetadata.GridStructure.GeometricParameters_17.6_km.GridName: "GeometricParameters_17.6_km" StructMetadata.GridStructure.GeometricParameters_17.6_km.XDim: 8 StructMetadata.GridStructure.GeometricParameters_17.6_km.YDim: 32 StructMetadata.GridStructure.GeometricParameters_17.6_km.UpperLeftPointMtrs: 7460750.000000, 1090650.000000 StructMetadata.GridStructure.GeometricParameters_17.6_km.LowerRightMtrs: 7601550.000000, 527450.000000 StructMetadata.GridStructure.GeometricParameters_17.6_km.Projection: GCTP_SOM StructMetadata.GridStructure.GeometricParameters_17.6_km.ProjParams: 6378137, -0.006694, 0, 98018013.750000, -125037048.080000, 0, 0, 0, 98.880000, 0, 0, 180, 0 StructMetadata.GridStructure.GeometricParameters_17.6_km.SphereCode: 12 StructMetadata.GridStructure.GeometricParameters_17.6_km.PixelRegistration: HDFE_CENTER StructMetadata.GridStructure.GeometricParameters_17.6_km.Dimension.Dimension_1.DimensionName: "NBandDim" StructMetadata.GridStructure.GeometricParameters_17.6_km.Dimension.Dimension_1.Size: 4 StructMetadata.GridStructure.GeometricParameters_17.6_km.Dimension.Dimension_2.DimensionName: "NCamDim" StructMetadata.GridStructure.GeometricParameters_17.6_km.Dimension.Dimension_2.Size: 9 StructMetadata.GridStructure.GeometricParameters_17.6_km.Dimension.Dimension_3.DimensionName: "SOMBlockDim" StructMetadata.GridStructure.GeometricParameters_17.6_km.Dimension.Dimension_3.Size: 180 StructMetadata.GridStructure.GeometricParameters_17.6_km.DataField.DataField_1.DataFieldName: "SolarZenithAngle" StructMetadata.GridStructure.GeometricParameters_17.6_km.DataField.DataField_1.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GeometricParameters_17.6_km.DataField.DataField_1.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GeometricParameters_17.6_km.DataField.DataField_2.DataFieldName: "ViewZenithAngle" StructMetadata.GridStructure.GeometricParameters_17.6_km.DataField.DataField_2.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GeometricParameters_17.6_km.DataField.DataField_2.DimList: "SOMBlockDim", "XDim", "YDim", "NCamDim" StructMetadata.GridStructure.GeometricParameters_17.6_km.DataField.DataField_3.DataFieldName: "RelativeAzimuthAngle" StructMetadata.GridStructure.GeometricParameters_17.6_km.DataField.DataField_3.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GeometricParameters_17.6_km.DataField.DataField_3.DimList: "SOMBlockDim", "XDim", "YDim", "NCamDim" StructMetadata.GridStructure.GRID_3.GridName: "ReflectingLevelParameters_2.2_km" StructMetadata.GridStructure.GRID_3.XDim: 64 StructMetadata.GridStructure.GRID_3.YDim: 256 StructMetadata.GridStructure.GRID_3.UpperLeftPointMtrs: 7460750.000000, 1090650.000000 StructMetadata.GridStructure.GRID_3.LowerRightMtrs: 7601550.000000, 527450.000000 StructMetadata.GridStructure.GRID_3.Projection: GCTP_SOM StructMetadata.GridStructure.GRID_3.ProjParams: 6378137, -0.006694, 0, 98018013.750000, -125037048.080000, 0, 0, 0, 98.880000, 0, 0, 180, 0 StructMetadata.GridStructure.GRID_3.SphereCode: 12 StructMetadata.GridStructure.GRID_3.PixelRegistration: HDFE_CENTER StructMetadata.GridStructure.GRID_3.Dimension.Dimension_1.DimensionName: "NBandDim" StructMetadata.GridStructure.GRID_3.Dimension.Dimension_1.Size: 4 StructMetadata.GridStructure.GRID_3.Dimension.Dimension_2.DimensionName: "NCamDim" StructMetadata.GridStructure.GRID_3.Dimension.Dimension_2.Size: 9 StructMetadata.GridStructure.GRID_3.Dimension.Dimension_3.DimensionName: "SOMBlockDim" StructMetadata.GridStructure.GRID_3.Dimension.Dimension_3.Size: 180 StructMetadata.GridStructure.GRID_3.DataField.DataField_1.DataFieldName: "AlbedoLocal" StructMetadata.GridStructure.GRID_3.DataField.DataField_1.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_3.DataField.DataField_1.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_2.DataFieldName: "NumUnobscuredTop" StructMetadata.GridStructure.GRID_3.DataField.DataField_2.DataType: DFNT_INT8 StructMetadata.GridStructure.GRID_3.DataField.DataField_2.DimList: "SOMBlockDim", "XDim", "YDim", "NCamDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_3.DataFieldName: "BRFTop_Mean" StructMetadata.GridStructure.GRID_3.DataField.DataField_3.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_3.DataField.DataField_3.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_4.DataFieldName: "FlagCamFillTop" StructMetadata.GridStructure.GRID_3.DataField.DataField_4.DataType: DFNT_UINT8 StructMetadata.GridStructure.GRID_3.DataField.DataField_4.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_5.DataFieldName: "NumUnobscuredSide" StructMetadata.GridStructure.GRID_3.DataField.DataField_5.DataType: DFNT_INT16 StructMetadata.GridStructure.GRID_3.DataField.DataField_5.DimList: "SOMBlockDim", "XDim", "YDim", "NCamDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_6.DataFieldName: "BRFSide_Mean" StructMetadata.GridStructure.GRID_3.DataField.DataField_6.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_3.DataField.DataField_6.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_7.DataFieldName: "FlagCamFillSide" StructMetadata.GridStructure.GRID_3.DataField.DataField_7.DataType: DFNT_UINT8 StructMetadata.GridStructure.GRID_3.DataField.DataField_7.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_8.DataFieldName: "LocalAlbedoMethodAndSAWReason" StructMetadata.GridStructure.GRID_3.DataField.DataField_8.DataType: DFNT_UINT8 StructMetadata.GridStructure.GRID_3.DataField.DataField_8.DimList: "SOMBlockDim", "XDim", "YDim", "NBandDim", "NCamDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_9.DataFieldName: "GLDVStdDevTotal" StructMetadata.GridStructure.GRID_3.DataField.DataField_9.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_3.DataField.DataField_9.DimList: "SOMBlockDim", "XDim", "YDim", "NCamDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_10.DataFieldName: "GLDVStdDevAlong" StructMetadata.GridStructure.GRID_3.DataField.DataField_10.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_3.DataField.DataField_10.DimList: "SOMBlockDim", "XDim", "YDim", "NCamDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_11.DataFieldName: "GLDVStdDevAcross" StructMetadata.GridStructure.GRID_3.DataField.DataField_11.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_3.DataField.DataField_11.DimList: "SOMBlockDim", "XDim", "YDim", "NCamDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_12.DataFieldName: "RLRAInterpolated" StructMetadata.GridStructure.GRID_3.DataField.DataField_12.DataType: DFNT_FLOAT32 StructMetadata.GridStructure.GRID_3.DataField.DataField_12.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_13.DataFieldName: "CloudyClearDesignation" StructMetadata.GridStructure.GRID_3.DataField.DataField_13.DataType: DFNT_UINT8 StructMetadata.GridStructure.GRID_3.DataField.DataField_13.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_14.DataFieldName: "HighCloudIndicator" StructMetadata.GridStructure.GRID_3.DataField.DataField_14.DataType: DFNT_UINT8 StructMetadata.GridStructure.GRID_3.DataField.DataField_14.DimList: "SOMBlockDim", "XDim", "YDim" StructMetadata.GridStructure.GRID_3.DataField.DataField_15.DataFieldName: "CloudyClearSource" StructMetadata.GridStructure.GRID_3.DataField.DataField_15.DataType: DFNT_UINT8 StructMetadata.GridStructure.GRID_3.DataField.DataField_15.DimList: "SOMBlockDim&q