Optimum backscatter cross section of the ocean as measured by synthetic aperture radars
Abstract
The interaction of the radar signals from Synthetic Aperture Radar (SAR) and Side Looking Airborne Radar (SLAR) is particularly important for the ocean surface where the radar modulation can yield information about the long ocean wave field. Radar modulation measurements from fixed platforms are made in wavetanks and the open oceans. The surfaces are described in terms of two scale models. The radar modulation is considered to be principally due to: (1) geometrical tilt due to the slope of the long ocean waves, and (2) the straining of the short waves (by hydrodynamic interaction). For application to moving platforms, this modulation needs to be described in terms of a general geometry for both like and cross polarization since the long ocean waves, in general, travel in arbitrary directions. The finite resolution of the radar is considered for tilt modulation with hydrodynamic effects neglected.
- Publication:
-
Frontiers of Remote Sensing of the Oceans and Troposphere from Air and Space Platforms
- Pub Date:
- May 1984
- Bibcode:
- 1984frso.nasa..149B
- Keywords:
-
- Backscattering;
- Ocean Models;
- Ocean Surface;
- Radar Cross Sections;
- Scale Models;
- Side-Looking Radar;
- Synthetic Aperture Radar;
- Coordinates;
- Cross Polarization;
- Problem Solving;
- Scattering Cross Sections;
- Signal Processing;
- Surface Roughness;
- Communications and Radar