Title :
Multibeam radar altimetry: spaceborne feasibility
Author :
Miller, Lee S. ; Brown, Gary S. ; Choy, Lawrence W.
Author_Institution :
Dept. of Phys. & Astron., Clemson Univ., SC, USA
fDate :
5/1/1991 12:00:00 AM
Abstract :
An analysis of the inherent height and spatial resolution of an off-nadir radar altimeter is presented. For the general case, mean-square height uncertainty is shown to be proportional to the cross-track beamwidth divided by the along-track beamwidth. Thus, the cross-track beamwidth should be minimized and the along-track beamwidth maximized, subject to resolution and other constraints. A pure multibeam system with a 50-km beam offset, an altitude of 800 km, a 13.5-GHz frequency, and a 4.5-m-diameter antenna is found to yield a height random error of less than 5 cm. For the same conditions, errors decrease with increasing frequency: however, rain attenuation becomes a factor
Keywords :
oceanographic techniques; remote sensing by radar; 13.5 GHz; 800 km; SHF; along-track beamwidth; cross-track beamwidth; dynamics; height determination; height uncertainty; measurement; multibeam radar altimetry; ocean; off-nadir radar; remote sensing; spatial resolution; technique; Altimetry; Frequency; Laboratories; Oceans; Physics; Satellites; Sea surface; Shape; Spaceborne radar; Spatial resolution;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
