urn:nasa:pds:cassini-coradar:coradr_0195.data:sartopo_t056s01_b12_v03_170315
1.0
co-ssa-radar-5-stdr-v1.0 sartopo_t056s01_b12_v03_170315
1.13.0.0
Product_Observational
Elachi, C.; Allison, M. D.; Borgarelli, L.; Encrenaz, P.; Im, E.; Janssen, M. A.; Johnson, W. T. K.; Kirk, R. L.; Lorenz, R. D.; Lunine, J. I.; Muhleman, D. O.; Ostro, S. J.; Picardi, G.; Posa, F.; Rapley, C. G.; Roth, L. E.; Seu, R.; Soderblom, L. A.; Vetrella, S.; Wall, S. D. Wood, C. A.; Zebker, H. A.
2004
Title: "Radar: The Cassini Titan Radar Mapper"
Publication: The Cassini-Huygens Mission, by Russell, Christopher T., ISBN 978-1-4020-3147-2. Kluwer Academic Publishers, 2004, p. 71
DOI: 10.1007/1-4020-3874-7_2
Abstract: The Cassini RADAR instrument is a multimode 13.8 GHz multiple-beam sensor that can operate as a synthetic-aperture radar (SAR) imager, altimeter, scatterometer, and radiometer. The principal objective of the RADAR is to map the surface of Titan. This will be done in the imaging, scatterometer, and radiometer modes. The RADAR altimeter data will provide information on relative elevations in selected areas. Surfaces of the Saturn's icy satellites will be explored utilizing the RADAR radiometer and scatterometer modes. Saturn's atmosphere and rings will be probed in the radiometer mode only. The instrument is a joint development by JPL/NASA and ASI. The RADAR design features significant autonomy and data compression capabilities. It is expected that the instrument will detect surfaces with backscatter coefficient as low as -40 dB.
2021-03-18
1.0
Velocity template for CORADR SARTOPO (STDR) data.
2009-06-06T19:41:44.522Z 2009-06-06T20:18:16.986Z
cassini-huygens
Mission
urn:nasa:pds:context:investigation:mission.cassini-huygens
data_to_investigation
cassini orbiter
Spacecraft
cassini radar
Instrument
TITAN
Satellite
SARTOPO_T056S01_B12_V03_170315.CSV
0
PDS DSV 1
31628
Carriage-Return Line-Feed
Comma
18
0
west longitude
ASCII_Real
8
latitude
ASCII_Real
7
incidence angle
ASCII_Real
6
width of measurement in cross track
ASCII_Real
7
width of measurement in along track
ASCII_Real
7
height above reference sphere
ASCII_Integer
8
random height error
ASCII_Integer
8
quality flag
ASCII_Integer
8
bidr line number
ASCII_Integer
8
bidr sample number
ASCII_Integer
8
time from closest approach
ASCII_Real
12
systematic height error
ASCII_Integer
8
raw surface height
ASCII_Integer
8
height above geiod
ASCII_Integer
8
geoid height
ASCII_Integer
8
derivative of height error wrt error in
noise floor
ASCII_Integer
8
derivative of height error wrt attitude
error
ASCII_Integer
8
category number
ASCII_Integer
2