DocumentCode
3206188
Title
Evolution of high spatial resolution spaceborne scatterometers
Author
Brown, Ronald A. ; Roeder, Robert S.
Author_Institution
Raytheon E-Syst. St. Petersburg, FL, USA
fYear
1998
fDate
24-26 Apr 1998
Firstpage
260
Lastpage
263
Abstract
Satellite scatterometer (microwave radar) normalized radar backscatter measurements (σ0) can be used to infer near-surface ocean wind speed and direction. The feasibility of scatterometer wind speed remote sensing was first proven with RADSCAT on SKYLAB in 1973. The technique was refined with the Seasat scatterometer in 1978 and work in the early 1990s by European and US space agencies has provided the foundation for continuous, global wind vector measurements. This paper discusses the need for improved scatterometer spatial resolution and the design evolution for planned future high resolution spaceborne scatterometers
Keywords
atmospheric boundary layer; atmospheric measuring apparatus; backscatter; electromagnetic wave scattering; ocean waves; remote sensing by radar; signal resolution; spaceborne radar; wind; European space agency; RADSCAT; SKYLAB; SeaWinds; Seasat scatterometer; US space agency; global wind vector measurements; high spatial resolution spaceborne scatterometers; microwave radar; near-surface ocean wind speed; normalized radar backscatter measurements; remote sensing; satellite scatterometer; wind direction; Backscatter; Microwave measurements; Radar measurements; Radar remote sensing; Radar scattering; Satellites; Sea measurements; Spaceborne radar; Spatial resolution; Wind speed;
fLanguage
English
Publisher
ieee
Conference_Titel
Southeastcon '98. Proceedings. IEEE
Conference_Location
Orlando, FL
Print_ISBN
0-7803-4391-3
Type
conf
DOI
10.1109/SECON.1998.673344
Filename
673344
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