PDS_VERSION_ID = PDS3 /* Identification Information */ NOT_APPLICABLE_CONSTANT = -9998 DATA_SET_ID = "MRO-M-HIRISE-3-RDR-V1.1" DATA_SET_NAME = "MRO MARS HIGH RESOLUTION IMAGING SCIENCE EXPERIMENT RDR V1.1" PRODUCER_INSTITUTION_NAME = "UNIVERSITY OF ARIZONA" PRODUCER_ID = "UA" PRODUCER_FULL_NAME = "ALFRED MCEWEN" OBSERVATION_ID = "ESP_082331_1745" PRODUCT_ID = "ESP_082331_1745_COLOR" PRODUCT_VERSION_ID = "1.0" INSTRUMENT_HOST_NAME = "MARS RECONNAISSANCE ORBITER" INSTRUMENT_HOST_ID = "MRO" INSTRUMENT_NAME = "HIGH RESOLUTION IMAGING SCIENCE EXPERIMENT" INSTRUMENT_ID = "HIRISE" TARGET_NAME = "MARS" MISSION_PHASE_NAME = "EXTENDED SCIENCE PHASE" ORBIT_NUMBER = 82331 SOURCE_PRODUCT_ID = (ESP_082331_1745_BG13_0, ESP_082331_1745_BG13_1, ESP_082331_1745_RED5_0, ESP_082331_1745_RED5_1, ESP_082331_1745_IR11_0, ESP_082331_1745_IR11_1) RATIONALE_DESC = "Hematite-rich terrain in west Candor Chasma" SOFTWARE_NAME = "PDS_to_JP2 v4.5.1 (1.56 2016/09/26 23:05:38)" OBJECT = IMAGE_MAP_PROJECTION ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" MAP_PROJECTION_TYPE = "EQUIRECTANGULAR" PROJECTION_LATITUDE_TYPE = PLANETOCENTRIC /* NOTE: The EQUIRECTANGULAR projection is based on the formula */ /* for a sphere. To eliminate confusion in the */ /* IMAGE_MAP_PROJECTION object we have set all three radii, */ /* A_AXIS_RADIUS, B_AXIS_RADIUS, and C_AXIS_RADIUS to the same */ /* number. The value recorded in the three radii is the local */ /* radius at the CENTER_LATITUDE on the Mars ellipsoid. That is, */ /* equatorial radius of 3396.190000 km and polar radius of */ /* 3376.200000 kilometers. Using the local radius of the */ /* ellipsoid implies that the MAP_SCALE and MAP_RESOLUTION are */ /* true at the CENTER_LATITUDE. */ A_AXIS_RADIUS = 3396.0368126024 B_AXIS_RADIUS = 3396.0368126024 C_AXIS_RADIUS = 3396.0368126024 COORDINATE_SYSTEM_NAME = PLANETOCENTRIC POSITIVE_LONGITUDE_DIRECTION = EAST KEYWORD_LATITUDE_TYPE = PLANETOCENTRIC /* NOTE: CENTER_LATITUDE and CENTER_LONGITUDE describe the location */ /* of the center of projection, which is not necessarily equal to the */ /* location of the center point of the image. */ CENTER_LATITUDE = -5.000 CENTER_LONGITUDE = 180.000 LINE_FIRST_PIXEL = 1 LINE_LAST_PIXEL = 21631 SAMPLE_FIRST_PIXEL = 1 SAMPLE_LAST_PIXEL = 3981 MAP_PROJECTION_ROTATION = 0.0 MAP_RESOLUTION = 118544.04779769 MAP_SCALE = 0.5 MAXIMUM_LATITUDE = -5.126482182853 MINIMUM_LATITUDE = -5.3089463460817 LINE_PROJECTION_OFFSET = -607713.5 SAMPLE_PROJECTION_OFFSET = -12493004.5 EASTERNMOST_LONGITUDE = 285.82329395825 WESTERNMOST_LONGITUDE = 285.78958535732 END_OBJECT = IMAGE_MAP_PROJECTION /* All xxx_COUNT values are for the MRO spacecraft clock (SCLK) */ /* in seconds:subseconds form. A subsecond tick = 15.2588 microseconds. */ /* All xxx_TIME values are referenced to UTC. */ GROUP = TIME_PARAMETERS /* Time when the observation first started */ MRO:OBSERVATION_START_TIME = 2024-02-18T13:03:18.354 /* Time of the first image line */ START_TIME = 2024-02-18T13:03:18.401 SPACECRAFT_CLOCK_START_COUNT = "1392728658:30841" /* Time of the last image line */ STOP_TIME = 2024-02-18T13:03:21.997 SPACECRAFT_CLOCK_STOP_COUNT = "1392728662:04346" /* Time when this RDR product was created */ PRODUCT_CREATION_TIME = 2024-02-28T02:05:20 END_GROUP = TIME_PARAMETERS GROUP = INSTRUMENT_SETTING_PARAMETERS MRO:CCD_FLAG = (ON, ON, ON, ON, OFF, ON, ON, ON, ON, OFF, ON, ON, ON, ON) MRO:BINNING = (-9998, -9998, -9998, -9998, -9998, 2, -9998, -9998, -9998, -9998, -9998, 2, -9998, 2) MRO:TDI = (-9998, -9998, -9998, -9998, -9998, 64, -9998, -9998, -9998, -9998, -9998, 128, -9998, 128) MRO:SPECIAL_PROCESSING_FLAG = ("NULL", "NULL", "NULL", "NULL", "NULL", CUBENORM, "NULL", "NULL", "NULL", "NULL", "NULL", NOMINAL, "NULL", NOMINAL) END_GROUP = INSTRUMENT_SETTING_PARAMETERS GROUP = VIEWING_PARAMETERS INCIDENCE_ANGLE = 56.871464 EMISSION_ANGLE = 12.997249 PHASE_ANGLE = 69.868400 LOCAL_TIME = 15.81624 SOLAR_LONGITUDE = 201.496772 SUB_SOLAR_AZIMUTH = 172.679794 NORTH_AZIMUTH = 270.000001 END_GROUP = VIEWING_PARAMETERS /* The JPEG2000 image data file associated with this label. */ OBJECT = COMPRESSED_FILE FILE_NAME = "ESP_082331_1745_COLOR.JP2" RECORD_TYPE = UNDEFINED ENCODING_TYPE = "JP2" ENCODING_TYPE_VERSION_NAME = "ISO/IEC15444-1:2004" INTERCHANGE_FORMAT = BINARY /* The name of the original source file. */ UNCOMPRESSED_FILE_NAME = "ESP_082331_1745_UNFILTERED_COLOR.IMG" /* The amount of original image data. */ REQUIRED_STORAGE_BYTES = 516678066 ^DESCRIPTION = "JP2INFO.TXT" END_OBJECT = COMPRESSED_FILE /* The source image data definition. */ OBJECT = UNCOMPRESSED_FILE FILE_NAME = "ESP_082331_1745_UNFILTERED_COLOR.IMG" RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 7962 FILE_RECORDS = 64893 ^IMAGE = "ESP_082331_1745_UNFILTERED_COLOR.IMG" OBJECT = IMAGE DESCRIPTION = "HiRISE projected and mosaicked product" LINES = 21631 LINE_SAMPLES = 3981 BANDS = 3 SAMPLE_TYPE = MSB_UNSIGNED_INTEGER SAMPLE_BITS = 16 SAMPLE_BIT_MASK = 2#0000001111111111# /* NOTE: The conversion from DN to I/F (intensity/flux) is: */ /* I/F = (DN * SCALING_FACTOR) + OFFSET */ /* I/F is defined as the ratio of the observed radiance and */ /* the radiance of a 100% lambertian reflector with the sun */ /* and camera orthogonal to the observing surface. */ SCALING_FACTOR = 7.6890966794942e-05 OFFSET = 0.036766228761724 BAND_STORAGE_TYPE = BAND_SEQUENTIAL CORE_NULL = 0 CORE_LOW_REPR_SATURATION = 1 CORE_LOW_INSTR_SATURATION = 2 CORE_HIGH_REPR_SATURATION = 1023 CORE_HIGH_INSTR_SATURATION = 1022 CENTER_FILTER_WAVELENGTH = (900 , 700 , 500 ) MRO:MINIMUM_STRETCH = (3, 3, 3) MRO:MAXIMUM_STRETCH = (1021, 1021, 1021) FILTER_NAME = ("NEAR-INFRARED", "RED", "BLUE-GREEN") END_OBJECT = IMAGE END_OBJECT = UNCOMPRESSED_FILE END