CCSD3ZF0000100000001NJPL3IF0PDSX00000001 PDS_VERSION_ID = PDS3 OBJECT = COLUMN NAME = NJPL_LABEL START_BYTE = 1 DATA_TYPE = CHARACTER BYTES = 20 UNIT = 'N/A' DESCRIPTION = "An NJPL logical record label. The first 12 bytes contain the registered SFDU identifier 'NJPL1I000104', indicating that this is a Magellan BIDR parameter record. Bytes 13-20 contain the number of bytes in the remainder of this logical record, starting with the 21st byte, coded as an ASCII integer with leading zeroes. For processing parameter records, its value is always '00001295'." END_OBJECT = COLUMN OBJECT = COLUMN NAME = SECONDARY_LABEL_TYPE START_BYTE = 21 DATA_TYPE = LSB_INTEGER BYTES = 2 UNIT = 'N/A' DESCRIPTION = "Indicates the type of annotation label to follow. Its value is always '4' for processing parameter records." END_OBJECT = COLUMN OBJECT = COLUMN NAME = SECONDARY_LABEL_LENGTH START_BYTE = 23 DATA_TYPE = LSB_INTEGER BYTES = 2 UNIT = 'N/A' DESCRIPTION = "Number of bytes in the secondary header of this record. Its value is always '11' for processing parameter records." END_OBJECT = COLUMN OBJECT = COLUMN NAME = ORBIT_NUMBER START_BYTE = 25 DATA_TYPE = LSB_INTEGER BYTES = 2 UNIT = 'N/A' DESCRIPTION = "The orbit during which the data used to create this record were collected. For test C-BIDRs, this field will contain the test number." END_OBJECT = COLUMN OBJECT = COLUMN NAME = DATA_CLASS START_BYTE = 27 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 1 UNIT = 'N/A' DESCRIPTION = "An indication of the type of data in this logical record. The value is '4' for processing parameters, sinusoidal projection, and '68' for processing parameters, oblique sinusoidal projection." END_OBJECT = COLUMN OBJECT = COLUMN NAME = ANNOTATION_LABEL_LENGTH START_BYTE = 28 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 1 UNIT = 'N/A' DESCRIPTION = "The number of bytes in the data annotation label of this record. The value is always '7' for processing parameter records." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BURST_RADAR_CLOCK_TIME START_BYTE = 29 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 1 ITEMS = 7 UNIT = 'N/A' DESCRIPTION = "56-bit radar clock time (RCLK) at start of transmission of this burst." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BURST_COUNTER START_BYTE = 36 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "EDR burst counter (increments from 1 beginning with the first burst on the EDR)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BURST_START_SCET START_BYTE = 40 DATA_TYPE = VAX_REAL BYTES = 8 UNIT = SECONDS DESCRIPTION = "Burst start time in TDB since epoch J2000." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BURST_REFERENCE_SCET START_BYTE = 48 DATA_TYPE = VAX_REAL BYTES = 8 UNIT = SECONDS DESCRIPTION = "Burst reference time in TDB since epoch J2000." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BURST_CENTER_SCET START_BYTE = 56 DATA_TYPE = VAX_REAL BYTES = 8 UNIT = SECONDS DESCRIPTION = "Burst center time in TDB since epoch J2000." END_OBJECT = COLUMN OBJECT = COLUMN NAME = ECHO_DELAY_TIME START_BYTE = 64 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = SECONDS DESCRIPTION = "Echo delay time." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BURST_DATA_FLAG START_BYTE = 68 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "'Test' flag (1 = burst consists of test data, 0 = otherwise)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BAD_BURST_DATA_FLAG START_BYTE = 72 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "'Anomaly' flag (1 = burst is below data quality threshold and so was not processed, 0 = otherwise)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = PROCESSING_ERROR_FLAG START_BYTE = 76 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "'Error' flag (1 = an error occurred during processing which prevented this burst from being processed, 0 = otherwise)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = PROJECTION_TYPE START_BYTE = 80 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Projection used for this processing parameter record (1=sinusoidal; 2=oblique sinusoidal; 3=record is sinusoidal, burst is processed into both; 4=record is oblique sinusoidal, burst is processed into both)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = SC_POSITION_J2000 START_BYTE = 84 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 3 UNIT = METERS DESCRIPTION = "Spacecraft position vector in Venus-centered J2000 coordinates." END_OBJECT = COLUMN OBJECT = COLUMN NAME = SC_POSITION_VBF85 START_BYTE = 96 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 3 UNIT = METERS DESCRIPTION = "Spacecraft position vector in Venus-centered VBF85 coordinates." END_OBJECT = COLUMN OBJECT = COLUMN NAME = SC_VELOCITY_J2000 START_BYTE = 108 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 3 UNIT = "METERS/SECOND" DESCRIPTION = "Spacecraft velocity vector in J2000 coordinates." END_OBJECT = COLUMN OBJECT = COLUMN NAME = SC_VELOCITY_VBF85 START_BYTE = 120 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 3 UNIT = "METERS/SECOND" DESCRIPTION = "Spacecraft velocity vector in VBF85 coordinates." END_OBJECT = COLUMN OBJECT = COLUMN NAME = SC_ACCELERATION_J2000 START_BYTE = 132 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 3 UNIT = "METERS/SECOND/SECOND" DESCRIPTION = "Spacecraft acceleration vector in J2000 coordinates." END_OBJECT = COLUMN OBJECT = COLUMN NAME = SC_ACCELERATION_VBF85 START_BYTE = 144 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 3 UNIT = "METERS/SECOND/SECOND" DESCRIPTION = "Spacecraft acceleration vector in VBF85 coordinates." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BORESIGHT_QUATERNIONS START_BYTE = 156 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 4 UNIT = 'N/A' DESCRIPTION = "Boresight pointing quaternions (q1,q2,q3,q4) derived from the MQPC file." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BORESIGHT_QUATERNION_RATES START_BYTE = 172 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 4 UNIT = 'N/A' DESCRIPTION = "Differences between the uplinked and measured values of the boresight pointing quaternion elements (uplinked - measured), as reported in telemetry. Will be zero if not used." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BORESIGHT_VECTOR_J2000 START_BYTE = 188 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 3 UNIT = 'N/A' DESCRIPTION = "Boresight unit pointing vector in VME85 spacecraft-centered coordinates." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BORESIGHT_VECTOR_VBF85 START_BYTE = 200 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 3 UNIT = 'N/A' DESCRIPTION = "Boresight unit pointing vector in VBF85 spacecraft-centered coordinates." END_OBJECT = COLUMN OBJECT = COLUMN NAME = LOOK_ANGLE START_BYTE = 212 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES DESCRIPTION = "High-gain antenna look angle." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BORESIGHT_INTERCEPT_POINT START_BYTE = 216 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 3 UNIT = METERS DESCRIPTION = "Boresight Intercept Point (BIP) vector in VBF85 coordinates." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BIP_LONGITUDE START_BYTE = 228 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES DESCRIPTION = "East longitude of Boresight Intercept Point." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BIP_LATITUDE START_BYTE = 232 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES DESCRIPTION = "Boresight Intercept Point latitude." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BIP_ELEVATION START_BYTE = 236 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = METERS DESCRIPTION = "Terrain elevation at Boresight Intercept Point above a sphere of radius 6051 km." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BIP_INCIDENCE_ANGLE START_BYTE = 240 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES DESCRIPTION = "Boresight Intercept Point incidence angle." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RANGE_TO_BIP START_BYTE = 244 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = METERS DESCRIPTION = "Boresight Intercept Point apparent range." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BIP_DOPPLER_FREQUENCY START_BYTE = 248 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = HZ DESCRIPTION = "Boresight Intercept Point instantaneous Doppler frequency." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BIP_DOPPLER_RATE START_BYTE = 252 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = "HZ/METER" DESCRIPTION = "Doppler drift rate along range." END_OBJECT = COLUMN OBJECT = COLUMN NAME = MID_RANGE_POINT_INCIDENCE START_BYTE = 256 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES DESCRIPTION = "Mid_Range Point Incidence angle." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BIP_SIGMA_ZERO START_BYTE = 260 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Boresight Intercept Point backscattering coefficient expressed as a function of 'bip_incidence_angle - 0.5'." END_OBJECT = COLUMN OBJECT = COLUMN NAME = MRP_LATITUDE START_BYTE = 264 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES DESCRIPTION = "Mid_Range Point latitude." END_OBJECT = COLUMN OBJECT = COLUMN NAME = MRP_LONGITUDE START_BYTE = 268 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES DESCRIPTION = "Mid_Range Point east longitude." END_OBJECT = COLUMN OBJECT = COLUMN NAME = MRP_ELEVATION START_BYTE = 272 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = METERS DESCRIPTION = "Mid_Range Point elevation above a sphere of radius 6051 km." END_OBJECT = COLUMN OBJECT = COLUMN NAME = MRP_TRUNCATED_RANGE START_BYTE = 276 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = METERS DESCRIPTION = "Apparent range to the first range sample in the truncated framelet." END_OBJECT = COLUMN OBJECT = COLUMN NAME = MRP_RANGE START_BYTE = 280 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = METERS DESCRIPTION = "Mid_Range Point apparent range." END_OBJECT = COLUMN OBJECT = COLUMN NAME = MRP_DOPPLER_FREQUENCY START_BYTE = 284 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = HZ DESCRIPTION = "Mid_Range Point instantaneous Doppler frequency." END_OBJECT = COLUMN OBJECT = COLUMN NAME = MRP_DOPPLER_RATE START_BYTE = 288 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = "HZ/SECOND" DESCRIPTION = "Mid_Range Point instantaneous Doppler frequency rate." END_OBJECT = COLUMN OBJECT = COLUMN NAME = MRP_LOCATION_VBF85 START_BYTE = 292 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 3 UNIT = METERS DESCRIPTION = "Mid_Range Point position vector in VME85 coordinates." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RECEIVER_GAIN START_BYTE = 304 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Sensor-processor gain from calibration." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RANGE_FFT_LENGTH START_BYTE = 308 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Range FFT length in bins." END_OBJECT = COLUMN OBJECT = COLUMN NAME = DOPPLER_FFT_LENGTH START_BYTE = 312 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Azimuth FFT length in bins." END_OBJECT = COLUMN OBJECT = COLUMN NAME = NUMBER_PULSES_IN_BURST START_BYTE = 316 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Number of pulses in the burst." END_OBJECT = COLUMN OBJECT = COLUMN NAME = TIME_TO_GROUND_RANGE_FACTOR START_BYTE = 320 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = "METERS/SECOND" DESCRIPTION = "Time to ground range conversion factor." END_OBJECT = COLUMN OBJECT = COLUMN NAME = DOPPLER_TO_DISTANCE_FACTOR START_BYTE = 324 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = "METERS/HZ" DESCRIPTION = "Doppler to Along-Track distance conversion factor." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BAQ_RECONSTRUCTION_FACTOR START_BYTE = 328 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = 'N/A' DESCRIPTION = "BAQ reconstruction scaling factor." END_OBJECT = COLUMN OBJECT = COLUMN NAME = TRANSMITTER_POWER_COMPENSATION START_BYTE = 332 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Transmitter power correction factor." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RECEIVER_GAIN_COMPENSATION START_BYTE = 336 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Receiver gain correction factor." END_OBJECT = COLUMN OBJECT = COLUMN NAME = REDUNDANCY_GAIN_COMPENSATION START_BYTE = 340 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Gain correction factor for non-standard redundancy configuration." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RANGE_REFERENCE_INDEX START_BYTE = 344 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Range reference group index." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RANGE_WALK_INDEX START_BYTE = 348 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Absolute range walk across all pulses this burst (number of slant range samples)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RANGE_WALK_COEFF_1 START_BYTE = 352 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Range walk correction coefficient (order 0) in range bins." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RANGE_WALK_COEFF_2 START_BYTE = 356 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Range walk correction coefficient (order 1) in range bins per inter-pulse period." END_OBJECT = COLUMN OBJECT = COLUMN NAME = TRANSMITTER_STATE START_BYTE = 360 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Transmitter A state (0 = transmitter B on, 1 = transmitter A on)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RECEIVER_STATE START_BYTE = 364 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Receiver A state (0 = receiver B on, 1 = receiver A on)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = OUTPUT_NETWORK_STATE START_BYTE = 368 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "ONU A state (0 = ONU B on, 1 = ONU A on)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = TRANSMITTER_A_TEMPERATURE START_BYTE = 372 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES_C DESCRIPTION = "Transmitter A Temperature." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RECEIVER_A_TEMPERATURE START_BYTE = 376 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES_C DESCRIPTION = "Receiver A Temperature." END_OBJECT = COLUMN OBJECT = COLUMN NAME = OUTPUT_NETWORK_A_TEMP START_BYTE = 380 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES_C DESCRIPTION = "ONU A temperature." END_OBJECT = COLUMN OBJECT = COLUMN NAME = TRANSMITTER_B_TEMPERATURE START_BYTE = 384 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES_C DESCRIPTION = "Transmitter B stage 1 temperature." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RECEIVER_B_TEMPERATURE START_BYTE = 388 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES_C DESCRIPTION = "Receiver B Temperature." END_OBJECT = COLUMN OBJECT = COLUMN NAME = OUTPUT_NETWORK_B_TEMP START_BYTE = 392 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = DEGREES_C DESCRIPTION = "ONU B temperature." END_OBJECT = COLUMN OBJECT = COLUMN NAME = SAR_CABLE_TEMPERATURES START_BYTE = 396 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 5 UNIT = DEGREES_C DESCRIPTION = "Sensor-antenna Cable temperatures at 5 points." END_OBJECT = COLUMN OBJECT = COLUMN NAME = APPARENT_RANGE_TO_REFERENCE_PTS START_BYTE = 416 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = METERS DESCRIPTION = "A 3x3 array containing the apparent ranges of the 9 radiometric reference points, relative to that of the central reference point. The central element contains the apparent range to the central radiometric reference point." END_OBJECT = COLUMN OBJECT = COLUMN NAME = DOPPLER_SHIFTS_TO_REF_POINTS START_BYTE = 452 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = HZ DESCRIPTION = "A 3x3 array containing the Doppler shifts of the 9 radiometric reference points, relative to that of the central reference point. The central element contains the Doppler shift of the central radiometric reference point." END_OBJECT = COLUMN OBJECT = COLUMN NAME = COORDINATES_OF_REF_POINT_1 START_BYTE = 488 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = 'N/A' DESCRIPTION = "A 3x3 array containing the coordinate-1 values (in 75-meter pixel counts) of the 9 radiometric reference points. See [LEUNG1993] for a definition of the coordinate system." END_OBJECT = COLUMN OBJECT = COLUMN NAME = COORDINATES_OF_REF_POINT_2 START_BYTE = 524 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = 'N/A' DESCRIPTION = "A 3x3 array containing the coordinate-2 values (in 75-meter pixel counts) of the 9 radiometric reference points. See [LEUNG1993] for a definition of the coordinate system." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RANGE_TO_REF_POINTS START_BYTE = 560 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = METERS DESCRIPTION = "A 3x3 array containing the distance from the sensor to the 9 radiometric reference points." END_OBJECT = COLUMN OBJECT = COLUMN NAME = OFF_BORE_ELEV_ANGLE_OF_REF_POINT START_BYTE = 596 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = DEGREES DESCRIPTION = "A 3x3 array containing the off-boresight elevation angles of the 9 radiometric reference points." END_OBJECT = COLUMN OBJECT = COLUMN NAME = OFF_BORE_HORIZ_ANGLE_OF_REF_POINT START_BYTE = 632 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = DEGREES DESCRIPTION = "A 3x3 array containing the off-boresight horizontal angles of the 9 radiometric reference points." END_OBJECT = COLUMN OBJECT = COLUMN NAME = ANTENNA_GAIN_TO_REF_POINTS START_BYTE = 668 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = 'N/A' DESCRIPTION = "A 3x3 array containing the antenna gain to the 9 radiometric reference points." END_OBJECT = COLUMN OBJECT = COLUMN NAME = MRP_BACKSCATTER_COEFF_AT_REF_POINT START_BYTE = 704 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Mid_Range Point Backscatter coefficient at the central radiometric reference point expressed as a function of 'mrp_incidence_angle - 0.5 degree'." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RADIOMETRIC_COMPENSATION_AT_REF_POINT START_BYTE = 708 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = 'N/A' DESCRIPTION = "A 3x3 array containing the radiometric compensation factors of the 9 radiometric reference points." END_OBJECT = COLUMN OBJECT = COLUMN NAME = DOPPLER_WALK_AT_REF_POINTS START_BYTE = 744 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = 'N/A' DESCRIPTION = "Constant, linear, and quadratic compensation coefficients for generating Doppler walk for a given apparent range." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C1_AT_GEOMETRIC_REFERENCE_POINTS START_BYTE = 780 DATA_TYPE = LSB_INTEGER BYTES = 4 ITEMS = 9 UNIT = 'N/A' DESCRIPTION = "A 3x3 array containing the Coordinate-1 values (in 75-meter pixel counts) of the 9 geometric reference points. See [LEUNG1993] for a definition of the coordinate system." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C2_AT_GEOMETRIC_REFERENCE_POINTS START_BYTE = 816 DATA_TYPE = LSB_INTEGER BYTES = 4 ITEMS = 9 UNIT = 'N/A' DESCRIPTION = "A 3x3 array containing the Coordinate-2 values (in 75-meter pixel counts) of the 9 geometric reference points. See [LEUNG1993] for a definition of the coordinate system." END_OBJECT = COLUMN OBJECT = COLUMN NAME = ELEVATION_OF_REFERENCE_POINTS START_BYTE = 852 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = METERS DESCRIPTION = "A 3x3 array containing the terrain elevations of the 9 geometric reference points above a sphere of radius 6051 km." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RANGE_TO_REFERENCE_POINTS START_BYTE = 888 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = METERS DESCRIPTION = "A 3x3 array containing the apparent ranges of the 9 geometric reference points, relative to that of the central reference point. The central element contains the apparent range to the central geometric reference point." END_OBJECT = COLUMN OBJECT = COLUMN NAME = DOPPLER_TO_REFERENCE_POINTS START_BYTE = 924 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = HZ DESCRIPTION = "A 3x3 array containing the apparent Doppler shifts of the 9 geometric reference points, relative to that of the central reference point. The central element contains the apparent Doppler shift of the central geometric reference point." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C2_TO_DOPPLER_COEFFICIENTS START_BYTE = 960 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = 'N/A' DESCRIPTION = "Constant, linear, and quadratic compensation coefficients for generating range walk for a given Coordinate-2 value." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C1_TO_C2_COEFFICIENTS START_BYTE = 996 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 9 UNIT = 'N/A' DESCRIPTION = "Constant, linear, and quadratic compensation coefficients for generating Coordinate-2 correction for a given Coordinate-1 value. See [LEUNG1993] for a definition of the coordinate system." END_OBJECT = COLUMN OBJECT = COLUMN NAME = RANGE_TO_FRAMELET_CORNERS START_BYTE = 1032 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 4 UNIT = METERS DESCRIPTION = "A 2x2 array containing the apparent ranges to the framelet corners. In terms of Doppler (f) and range (r) coordinates, framelet corner (1,1) corresponds to (rsmallest, fsmallest); framelet corner (1,2) corresponds to (rsmallest, fgreatest); framelet corner (2,1) corresponds to (rgreatest, fsmallest); framelet corner (2,2) corresponds to (rgreatest, fgreatest)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = DOPPLER_TO_FRAMELET_CORNERS START_BYTE = 1048 DATA_TYPE = VAX_REAL BYTES = 4 ITEMS = 4 UNIT = HZ DESCRIPTION = "A 2x2 array containing the Doppler shifts of the framelet corners. In terms of Doppler (f) and range (r) coordinates, framelet corner (1,1) corresponds to (rsmallest, fsmallest); framelet corner (1,2) corresponds to (rsmallest, fgreatest); framelet corner (2,1) corresponds to (rgreatest, fsmallest); framelet corner (2,2) corresponds to (rgreatest, fgreatest)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C1_OF_FRAMELET_CORNERS START_BYTE = 1064 DATA_TYPE = LSB_INTEGER BYTES = 4 ITEMS = 4 UNIT = 'N/A' DESCRIPTION = "A 2x2 array containing the Coordinate-1 values (in 75-meter pixel counts) of the framelet corners. See [LEUNG1993] for a definition of the coordinate system." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C2_OF_FRAMELET_CORNERS START_BYTE = 1080 DATA_TYPE = LSB_INTEGER BYTES = 4 ITEMS = 4 UNIT = 'N/A' DESCRIPTION = "A 2x2 array containing the Coordinate-2 values (in 75-meter pixel counts) of the framelet corners. See [LEUNG1993] for a definition of the coordinate system." END_OBJECT = COLUMN OBJECT = COLUMN NAME = PULSE_REPETITION_FREQUENCY START_BYTE = 1096 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Pulse Repetition Frequency." END_OBJECT = COLUMN OBJECT = COLUMN NAME = PULSES_PER_BURST START_BYTE = 1100 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Number of pulses in burst." END_OBJECT = COLUMN OBJECT = COLUMN NAME = SAMPLES_PER_BURST START_BYTE = 1104 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Number of samples per pulse." END_OBJECT = COLUMN OBJECT = COLUMN NAME = PROCESSING_BANDWIDTH START_BYTE = 1108 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = HZ DESCRIPTION = "Processing Bandwith." END_OBJECT = COLUMN OBJECT = COLUMN NAME = PROCESSING_RANGE_SWATH START_BYTE = 1112 DATA_TYPE = VAX_REAL BYTES = 4 UNIT = METERS DESCRIPTION = "Processing range swath width." END_OBJECT = COLUMN OBJECT = COLUMN NAME = MIN_LOOKS_TO_FLAG_IN_OUTPUT START_BYTE = 1116 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Minimum number of looks to flag in output." END_OBJECT = COLUMN OBJECT = COLUMN NAME = BAQ_THRESHOLDS START_BYTE = 1120 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 1 ITEMS = 24 UNIT = 'N/A' DESCRIPTION = "An array of 24 Block Adaptive Quantization thresholds." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C1_OF_FRAME_EDGE_WITH_MAX_DOPPLER START_BYTE = 1144 DATA_TYPE = LSB_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "The C1 address of the frame edge associated with the greatest Doppler coordinate. (This is the smallest C1 coordinate for sinusoidal bursts, the greatest C1 coordinate for oblique sinusoidal bursts)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C2_OF_FRAME_EDGE_WITH_MIN_RANGE START_BYTE = 1148 DATA_TYPE = LSB_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "For left-looking bursts, the C2 address of the frame edge associated with the smallest range coordinate. For right-looking bursts, the C2 address of the frame edge associated with the greatest range coordinate. (This is the smallest C2 coordinate of the frame)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C2_OF_AZ_FRAME_EDGE_WITH_MIN_RANGE START_BYTE = 1152 DATA_TYPE = LSB_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "The C2 address of the azimuth-processed frame edge associated with the smallest range coordinate. (This is the smallest C2 coordinate of the azimuth-processed frame)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C1_OF_FRAME_EDGE_WITH_MIN_DOPPLER START_BYTE = 1156 DATA_TYPE = LSB_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "The C1 address of the frame edge associated with the smallest Doppler coordinate. (This is the greatest C1 coordinate for sinusoidal bursts, the smallest C1 coordinate for oblique sinusoidal bursts)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C2_OF_FRAME_EDGE_WITH_MAX_RANGE START_BYTE = 1160 DATA_TYPE = LSB_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "For left-looking bursts, the C2 address of the frame edge associated with the greatest range coordinate. For right-looking bursts, the C2 address of the frame edge associated with the smallest range coordinate. (This is the greatest C2 coordinate of the frame)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = C2_OF_AZ_FRAME_EDGE_WITH_MAX_RANGE START_BYTE = 1164 DATA_TYPE = LSB_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "The C2 address of the azimuth-processed frame edge associated with the greatest range coordinate. (This is the greatest C2 coordinate of the azimuth-processed frame)." END_OBJECT = COLUMN OBJECT = COLUMN NAME = ALONG_TRACK_FRAME_TO_FRAME_OFFSET START_BYTE = 1168 DATA_TYPE = LSB_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Along-track offset between the current and previous frame." END_OBJECT = COLUMN OBJECT = COLUMN NAME = CROSS_TRACK_FRAME_TO_FRAME_OFFSET START_BYTE = 1172 DATA_TYPE = LSB_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Cross-track offset between the current and previous frame." END_OBJECT = COLUMN OBJECT = COLUMN NAME = CROSS_TRACK_WEIGHTING_INDEX START_BYTE = 1176 DATA_TYPE = LSB_UNSIGNED_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Set number of cross-track (projection domain) weights. There are a total of 128 sets available." END_OBJECT = COLUMN OBJECT = COLUMN NAME = OFFSET_WITHIN_CROSS_TRACK_WEIGHT START_BYTE = 1180 DATA_TYPE = LSB_INTEGER BYTES = 4 UNIT = 'N/A' DESCRIPTION = "Offset within one set of cross-track weights." END_OBJECT = COLUMN END