Statistics
Scientific paper
Mar 2009
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2009icar..200..240z&link_type=abstract
Icarus, Volume 200, Issue 1, p. 240-255.
Statistics
7
Scientific paper
The Cassini spacecraft has acquired 25 radar altimeter elevation profiles along Titan's surface as of April 2008, and we have analyzed 18 of these for which there are currently reconstructed ephemeris data. Altimeter measurements were collected at spatial footprint sizes from 6 60 km along ground tracks of length 400 3600 km. The elevation profiles yield topographic information at this resolution with a statistical height accuracy of 35 50 m and kilometer-scale errors several times greater. The data exhibit significant variations in terrain, from flat regions with little topographic expression to very rugged Titanscapes. The bandwidth of the transmitted waveform admits vertical resolution of the terrain height to 35 m at each observed location on the surface. Variations in antenna pointing and changes in surface statistics cause the range-compressed radar echoes to exhibit strong systematic and time-variable biases of hundreds of meters in delay. It is necessary to correct the received echoes for these changes, and we have derived correction algorithms such that the derived echo profiles are accurate at the 100 m level for off-nadir pointing errors of 0.3° and 0.6°, for leading edge and echo centroid estimators, respectively. The leading edge of the echo yields the elevation of the highest points on the surface, which we take to be the peaks of any terrain variation. The mean value of the echo delay is more representative of the mean elevation, so that the difference of these values gives an estimate of any local mountain heights. Finding locations where these values diverge indicates higher-relief terrain. Elevation features are readily seen in the height profiles. Several of the passes show mountains of several hundred m altitude, spread over 10's or even 100's of km in spatial extent, so that slopes are very small. Large expanses of sub-100 m topography are commonplace on Titan, so it is rather smooth in many locations. Other areas exhibit more relief, although the overall observed variation in surface height on any pass is less than about 1 km. Some elevation features correspond to observed changes in brightness in Cassini infrared images, but many do not. Correspondence between the imaging SAR ground tracks and the altimeter paths is limited, so that identifying elevation changes with higher resolution SAR features is premature at present.
Callahan Philip
Cassini RADAR Team
Gim Yonggyu
Hensley Scott
Lorenz Ralph
No associations
LandOfFree
Analysis and interpretation of Cassini Titan radar altimeter echoes does not yet have a rating. At this time, there are no reviews or comments for this scientific paper.
If you have personal experience with Analysis and interpretation of Cassini Titan radar altimeter echoes, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Analysis and interpretation of Cassini Titan radar altimeter echoes will most certainly appreciate the feedback.
Profile ID: LFWR-SCP-O-978620