PDS_VERSION_ID = PDS3 LABEL_REVISION_NOTE = "Created for IMA Raw EXT3 Data Set Release 35 -- geolib v1.0.0 used" RELEASE_ID = 0035 REVISION_ID = 0000 RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 528 FILE_RECORDS = 1006912 FILE_NAME = "GEO_MARS.LBL" DATA_SET_NAME = "MARS EXPRESS ASPERA-3 RAW EDR ION MASS ANALYZER EXT3 V1.0" PRODUCT_ID = "GEO_MARS" DATA_SET_ID = "MEX-M-ASPERA3-2-EDR-IMA-EXT3-V1.0" INSTRUMENT_HOST_ID = "MEX" INSTRUMENT_ID = "ASPERA-3" REFERENCE_TARGET_NAME = "MARS" START_TIME = 2010-01-01T15:50:45.112 STOP_TIME = 2012-12-31T21:24:34.405 SPACECRAFT_CLOCK_START_COUNT = "1/0210441044.42956" SPACECRAFT_CLOCK_STOP_COUNT = "1/0305069073.03174" PRODUCT_CREATION_TIME = 2013-08-27T23:32:18 ^INDEX_TABLE = "GEO_MARS.TAB" OBJECT = INDEX_TABLE INTERCHANGE_FORMAT = ASCII INDEX_TYPE = SINGLE ROWS = 1006912 ROW_BYTES = 528 COLUMNS = 47 OBJECT = COLUMN NAME = N START_BYTE = 1 BYTES = 3 DATA_TYPE = ASCII_INTEGER FORMAT = "I3" DESCRIPTION = "none" UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = I START_BYTE = 5 BYTES = 3 DATA_TYPE = ASCII_INTEGER FORMAT = "I3" DESCRIPTION = "none" UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = CHANGE_MODE START_BYTE = 10 BYTES = 1 DATA_TYPE = CHARACTER FORMAT = "A1" DESCRIPTION = "The CHANGE_MODE element represents the additional information about the type of data contained in the new release/revision." UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = PATH_NAME START_BYTE = 14 BYTES = 33 DATA_TYPE = CHARACTER FORMAT = "A33" DESCRIPTION = "The PATH_NAME data element identifies the full directory path - excluding the file name -- used to locate a file on a storage medium or online system. To allow the indication of the full path and file name within a descriptive label, this data element shall be used in conjunction with the FILE_NAME data element." UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = FILE_NAME START_BYTE = 50 BYTES = 31 DATA_TYPE = CHARACTER FORMAT = "A31" DESCRIPTION = "The FILE_NAME element provides the location independent name of a file. It excludes node or volume location, directory path names, and version specification." UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = PRODUCT_ID START_BYTE = 84 BYTES = 27 DATA_TYPE = CHARACTER FORMAT = "A27" DESCRIPTION = "The PRODUCT_ID data element represents a permanent, unique identifier assigned to a data product by its producer." UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = DATA_SET_ID START_BYTE = 114 BYTES = 33 DATA_TYPE = CHARACTER FORMAT = "A33" DESCRIPTION = "The DATA_SET_ID element is a unique alphanumeric identifier for a data set or a data product. The DATA_SET_ID value for a given data set or product is constructed according to flight project naming conventions. In most cases the DATA_SET_ID is an abbreviation of the DATA_SET_NAME." UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = RELEASE_ID START_BYTE = 149 BYTES = 4 DATA_TYPE = ASCII_INTEGER FORMAT = "I4" DESCRIPTION = "The RELEASE_ID indicates the release number of the data described by the entires in the gemetry index table." UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = REVISION_ID START_BYTE = 154 BYTES = 4 DATA_TYPE = ASCII_INTEGER FORMAT = "I4" DESCRIPTION = "The REVISION_ID indicates the revision number for the release indicated in the RELEASE_ID." UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = GEOMETRY_EPOCH START_BYTE = 160 BYTES = 24 DATA_TYPE = TIME FORMAT = "A24" DESCRIPTION = "The GEOMETRY_EPOCH element is the time when the geometrical and position parameters are computed. The GEOMETRY_EPOCH is the time associated with the central point of an observation's sample." UNIT = "seconds" END_OBJECT = COLUMN OBJECT = COLUMN NAME = ORBIT_NUMBER START_BYTE = 186 BYTES = 5 DATA_TYPE = ASCII_REAL FORMAT = "I5" DESCRIPTION = "The ORBIT_NUMBER element is the number of the orbit around the target body." UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SOLAR_LONGITUDE START_BYTE = 192 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The SOLAR_LONGITUDE element provides the value of the angle between the body-Sun line at the time of interest and the body-Sun line at the vernal equinox. This provides a messure of season on a target body, with values of 0 to 90 degrees represnting northern spring, 90 to 180 degrees representing northern summer, 180 to 270 degrees representing northern autumn and 270 to 360 degrees representing northern winter." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SUB_SOLAR_LATITUDE START_BYTE = 200 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The SUB_SOLAR_LATITUDE element provides the latitude of the sub-solar point. The sub-solar point is that point on a body's reference surface where a line from the body center to the sun center intersects the surface." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SUB_SOLAR_LONGITUDE START_BYTE = 208 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The SUB_SOLAR_LONGITUDE element provides the longitude of the sub-solar point. The sub-solar point is that point on a body's reference surface where a line from the body center to the sun center intersects the surface." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SC_SUN_DISTANCE START_BYTE = 216 BYTES = 12 DATA_TYPE = ASCII_REAL FORMAT = "E12.5" DESCRIPTION = "The SC_SUN_DISTANCE element provides the distance from the spacecraft to the center of the sun." UNIT = "KM" END_OBJECT = COLUMN OBJECT = COLUMN NAME = X_SC_SUN_POSITION_VECTOR START_BYTE = 229 BYTES = 12 DATA_TYPE = ASCII_REAL FORMAT = "E12.5" DESCRIPTION = "The X_SC_SUN_POSITION_VECTOR element indicates the x component of the position vector from the spacecraft to the Sun center expressed in J2000 reference frame, and corrected for light time and stellar averration." UNIT = "KM" END_OBJECT = COLUMN OBJECT = COLUMN NAME = Y_SC_SUN_POSITION_VECTOR START_BYTE = 242 BYTES = 12 DATA_TYPE = ASCII_REAL FORMAT = "E12.5" DESCRIPTION = "The Y_SC_SUN_POSITION_VECTOR element indicates the y component of the position vector from the spacecraft to the Sun center expressed in J2000 reference frame, and corrected for light time and stellar averration." UNIT = "KM" END_OBJECT = COLUMN OBJECT = COLUMN NAME = Z_SC_SUN_POSITION_VECTOR START_BYTE = 255 BYTES = 12 DATA_TYPE = ASCII_REAL FORMAT = "E12.5" DESCRIPTION = "The Z_SC_SUN_POSITION_VECTOR element indicates the z component of the position vector from the spacecraft to the Sun center expressed in J2000 reference frame, and corrected for light time and stellar averration." UNIT = "KM" END_OBJECT = COLUMN OBJECT = COLUMN NAME = X_SC_SUN_VELOCITY_VECTOR START_BYTE = 268 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.2" DESCRIPTION = "The X_SC_SUN_VELOCITY_VECTOR element indicates the x component of the velocity vector from the spacecraft to the Sun center expressed in J2000 reference frame, and corrected for light time and stellar aberration." UNIT = "KM/S" END_OBJECT = COLUMN OBJECT = COLUMN NAME = Y_SC_SUN_VELOCITY_VECTOR START_BYTE = 276 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.2" DESCRIPTION = "The Y_SC_SUN_VELOCITY_VECTOR element indicates the y component of the velocity vector from the spacecraft to the Sun center expressed in J2000 reference frame, and corrected for light time and stellar aberration." UNIT = "KM/S" END_OBJECT = COLUMN OBJECT = COLUMN NAME = Z_SC_SUN_VELOCITY_VECTOR START_BYTE = 284 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.2" DESCRIPTION = "The Z_SC_SUN_VELOCITY_VECTOR element indicates the z component of the velocity vector from the spacecraft to the Sun center expressed in J2000 reference frame, and corrected for light time and stellar aberration." UNIT = "KM/S" END_OBJECT = COLUMN OBJECT = COLUMN NAME = X_SC_TARGET_POSITION_VECTOR START_BYTE = 292 BYTES = 12 DATA_TYPE = ASCII_REAL FORMAT = "E12.5" DESCRIPTION = "The X_SC_TARGET_POSITION_VECTOR element indicates the x component of the position vector from the spacecraft to the target center expressed in J2000 reference frame, and corrected for light time and stellar aberration." UNIT = "KM" END_OBJECT = COLUMN OBJECT = COLUMN NAME = Y_SC_TARGET_POSITION_VECTOR START_BYTE = 305 BYTES = 12 DATA_TYPE = ASCII_REAL FORMAT = "E12.5" DESCRIPTION = "The Y_SC_TARGET_POSITION_VECTOR element indicates the y component of the position vector from the spacecraft to the target center expressed in J2000 reference frame, and corrected for light time and stellar aberration." UNIT = "KM" END_OBJECT = COLUMN OBJECT = COLUMN NAME = Z_SC_TARGET_POSITION_VECTOR START_BYTE = 318 BYTES = 12 DATA_TYPE = ASCII_REAL FORMAT = "E12.5" DESCRIPTION = "The Z_SC_TARGET_POSITION_VECTOR element indicates the z component of the position vector from the spacecraft to the target center expressed in J2000 reference frame, and corrected for light time and stellar aberration." UNIT = "KM" END_OBJECT = COLUMN OBJECT = COLUMN NAME = X_SC_TARGET_VELOCITY_VECTOR START_BYTE = 331 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.2" DESCRIPTION = "The X_SC_TARGET_VELOCITY_VECTOR element indicates the x component of the velocity vector from the spacecraft to the target center expressed in J2000 reference frame, and corrected for light time and stellar aberration." UNIT = "KM/S" END_OBJECT = COLUMN OBJECT = COLUMN NAME = Y_SC_TARGET_VELOCITY_VECTOR START_BYTE = 339 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.2" DESCRIPTION = "The Y_SC_TARGET_VELOCITY_VECTOR element indicates the y component of the velocity vector from the spacecraft to the target center expressed in J2000 reference frame, and corrected for light time and stellar aberration." UNIT = "KM/S" END_OBJECT = COLUMN OBJECT = COLUMN NAME = Z_SC_TARGET_VELOCITY_VECTOR START_BYTE = 347 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.2" DESCRIPTION = "The Z_SC_TARGET_VELOCITY_VECTOR element indicates the z component of the velocity vector from the spacecraft to the target center expressed in J2000 reference frame, and corrected for light time and stellar aberration." UNIT = "KM/S" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SPACECRAFT_ALTITUDE START_BYTE = 355 BYTES = 12 DATA_TYPE = ASCII_REAL FORMAT = "E12.5" DESCRIPTION = "The SPACECRAFT_ALTITUDE element provides the distance from the spacecraft to a reference surface of the target body measured normal to the surface." UNIT = "KM" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SUB_SPACECRAFT_LATITUDE START_BYTE = 368 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The SUB_SPACECRAFT_LATITUDE element provides the latitude of the sub-spacecraft point, that is the point on a body that lies directly beneath the spacecraft." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SUB_SPACECRAFT_LONGITUDE START_BYTE = 376 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The SUB_SPACECRAFT_LONGITUDE element provides the longitude of the sub-spacecraft point, that is the point on a body that lies directly beneath the spacecraft." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = TARGET_NAME START_BYTE = 385 BYTES = 10 DATA_TYPE = CHARACTER FORMAT = "A10" DESCRIPTION = "The TARGET_NAME element provides the name of an observed target. The target might be a planet, satellite, ring, region, feature, asteroid, comet, etc.." UNIT = "none" END_OBJECT = COLUMN OBJECT = COLUMN NAME = LOCAL_TRUE_SOLAR_TIME START_BYTE = 397 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The LOCAL_TRUE_SOLAR_TIME element provides a measure of the instantaneous apparent sun position at the center of the observation. The LOCAL_TRUE_SOLAR_TIME is the angle between the extension of the vector from the Sun to the target body and the projection on the target body's ecliptic plane of a vector from the target body's planetocentric center to the spacecraft. This angle is measured in a counterclockwise direction when viewed from north of the ecliptic plane." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = START_POINT_LATITUDE START_BYTE = 405 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "none" UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = START_POINT_LONGITUDE START_BYTE = 413 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "none" UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = END_POINT_LATITUDE START_BYTE = 421 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "none" UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = END_POINT_LONGITUDE START_BYTE = 429 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "none" UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = CENTER_LATITUDE START_BYTE = 437 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The CENTER_LATITUDE element provides the reference latitude for the observation. This is the latitude that corresponds with the central point of the observation" UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = CENTER_LONGITUDE START_BYTE = 445 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The CENTER_LONGITUDE element provides the reference longitude for the observation. This is the longitude that corresponds with the central point of the observation" UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = PHASE_ANGLE START_BYTE = 453 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The PHASE_ANGLE element provides a measure of the relationship between the instrument viewing position and incident illumination (such as solar light). Phase angle is measured at the target; it is the angle between a vector to the illumination source and a vector to the instrument." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = INCIDENCE_ANGLE START_BYTE = 461 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The INCIDENCE_ANGLE element provides a mesaure of the lighting condition at the intercept point. Incidence angle is the angle between the local vertical at the intercept point (surface) and a vector from the intercept point to the sun. The incidence angle varies from 0 degrees when the intercept point coincides with the sub-solar point to 90 degrees when the intercept point is at the terminator (i.e. in the shadowed, or dark, portion of the target body)." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = EMISSION_ANGLE START_BYTE = 469 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The EMISSION_ANGLE element provides the value of the angle between the surface normal vector at the intercept point and a vector from the intercept point to the spacecraft. This angle varies from 0 degrees when the spacecraft is viewing the sub-spacecraft point (nadir viewing) to 90 degrees when the intercept is tangent to the surface of the target body." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SLANT_DISTANCE START_BYTE = 477 BYTES = 8 DATA_TYPE = ASCII_REAL FORMAT = "F8.3" DESCRIPTION = "The SLANT_DISTANCE element provides a measure of the distance from the spacecraft to the center of the observation on the target." UNIT = "KM" END_OBJECT = COLUMN OBJECT = COLUMN NAME = NORTH_POLE_AZIMUTH_ANGLE START_BYTE = 486 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The NORTH_POLE_AZIMUTH_ANGLE element provides the value of the angle between a line from the image center to the north pole and a reference line in the image plane. The reference line is a horizontal line from the image center to the middle right edge of the image. This angle increases in a clockwise direction." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SUB_SC_AZIMUTH_ANGLE START_BYTE = 494 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The SUB_SC_AZIMUTH_ANGLE element provides the value of the angle between the line from the center of an image to the sub-spacecraft point and a horizontal reference line (in the image plane) extending from the image center to the middle right edge of the image. The values of this angle increase in a clockwise direction." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = SUB_SOLAR_AZIMUTH_ANGLE START_BYTE = 502 BYTES = 7 DATA_TYPE = ASCII_REAL FORMAT = "F7.3" DESCRIPTION = "The SUB_SOLAR_AZIMUTH_ANGLE element provides the value of the angle between the line from the center of an image to the sub-solar point and a horizontal reference line (in the image plane) extending from the image center to the middle right edge of the image. The values of this angle increase in a clockwise direction." UNIT = "DEGREES" END_OBJECT = COLUMN OBJECT = COLUMN NAME = HORIZONTAL_PIXEL_SCALE START_BYTE = 510 BYTES = 8 DATA_TYPE = ASCII_REAL FORMAT = "F8.3" DESCRIPTION = "none" UNIT = "METER" END_OBJECT = COLUMN OBJECT = COLUMN NAME = VERTICAL_PIXEL_SCALE START_BYTE = 519 BYTES = 8 DATA_TYPE = ASCII_REAL FORMAT = "F8.3" DESCRIPTION = "none" UNIT = "METER" END_OBJECT = COLUMN END_OBJECT = INDEX_TABLE END