The SeaSat-A satellite scatterometer
Abstract
This paper describes the methods used to develop performance requirements and design characteristics for the microwave scatterometer (SASS) ocean-surface wind sensor on the NASA SeaSat-A satellite. Wind vector measurement requirements from the SeaSat user community (wind speed and direction accuracy, resolution cell size, grid spacing, and swath width) define instrument characteristics. The resulting scatterometer is designed for 14.6 GHz using four fan beam antennas to measure wind speed and direction over a 1000-km swath width with a resolution cell size 50 x 50 km. Results show scatterometer accuracy satisfies user requirements for wind speed from 4 m/s to greater than 24 m/s for the nominal SeaSat-A orbit of 790 km altitude, 108 deg inclination, and 0.001 eccentricity.
- Publication:
-
IEEE Journal of Oceanic Engineering
- Pub Date:
- April 1977
- DOI:
- 10.1109/JOE.1977.1145338
- Bibcode:
- 1977IJOE....2..200G
- Keywords:
-
- Microwave Scattering;
- Satellite-Borne Instruments;
- Scatterometers;
- Sea States;
- Seasat 1;
- Ocean Surface;
- Remote Sensors;
- Wind Direction;
- Wind Measurement;
- Wind Velocity Measurement