Low-frequency microwave radiometer for N-ROSS
Abstract
The all weather, global determination of sea surface temperature (SST) has been identified as a requirement needed to support naval operations. The target SST accuracy is + or - 1.0 K with a surface resolution of 10 km. Investigations of the phenomenology and technology of remote passive microwave sensing of the ocean environment over the past decade have demonstrated that this objective is presently attainable. Preliminary specification and trade off studies were conducted to define the frequency, polarization, scan geometry, antenna size, and other esstential parameters of the low frequency microwave radiometer (LFMR). It will be a dual polarized, dual frequency system at 5.2 and 10.4 GHz using a 4.9 meter deployable mesh surface antenna. It is to be flown on the Navy-Remote Ocean Sensing System (N-ROSS) satellite scheduled to be launched in late 1988.
- Publication:
-
In NASA. Langley Research Center Large Space Antenna Systems Technol
- Pub Date:
- April 1985
- Bibcode:
- 1985lsas.rept...87H
- Keywords:
-
- Large Space Structures;
- Microwave Antennas;
- Microwave Radiometers;
- Remote Sensing;
- Sea Surface Temperature;
- Brightness Temperature;
- Faraday Effect;
- Glint;
- Radio Frequency Interference;
- Communications and Radar