Title :
A backscattering model for ocean surface
Author :
Chen, K.S. ; Fung, A.K. ; Weissman, David E.
Author_Institution :
Dept. of Electr. Eng., Texas Univ., Arlington, TX, USA
fDate :
7/1/1992 12:00:00 AM
Abstract :
A surface scattering model based on an approximate solution of the integral equations for the surface tangential fields has been developed for non-Gaussian distributed, finitely conducting surfaces. It consists of two parts. One part is proportional to the surface roughness spectrum, and the other to the surface bispectrum. The bispectrum part comes into the model when the third-order surface statistics are included. While the second-order statistics account for the wind directional dependence, the third-order statistics account for the dependence on the sense of direction of the wind. Thus, it is the critical part for explaining the difference between upwind and downwind observations. In general, the bispectrum is a complex quantity and the asymmetric effect of the sea surface is represented by its imaginary part. The model characteristics, such as polarization and azimuthal dependence, are illustrated through numerical calculations. The predictions of the model are compared with field measurements, and excellent agreement is obtained
Keywords :
atmospheric techniques; backscatter; ocean waves; oceanographic techniques; remote sensing by radar; wind; approximate solution; atmosphere; azimuthal dependence; backscattering model; direction; geophysical measurement technique; integral equations; microwave; ocean wave; polarization; radar remote sensing; scattering model; sea surface; surface bispectrum; surface roughness spectrum; surface tangential fields; wind directional dependence; Backscatter; Integral equations; Oceans; Polarization; Rough surfaces; Scattering; Sea surface; Statistical distributions; Statistics; Surface roughness;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
