Computer Science – Sound
Scientific paper
Apr 2006
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2006jgre..11106s07s&link_type=abstract
Journal of Geophysical Research, Volume 111, Issue E6, CiteID E06S07
Computer Science
Sound
4
Biogeosciences: Remote Sensing
Scientific paper
Hagfors' scattering law, σ°H($\theta$), is in wide use in connection with the study of backscatter data from planetary surfaces because it provides good agreement with a variety of observations. The surface root-mean-square slope inferred on the basis of σ°H($\theta$) is customarily taken as C-1/2, where C is the shape parameter in σ°H($\theta$). The relationship between the surface slope and C is indefinite, however, because of the indeterminateness of the surface scales contributing to the scattering process. Moreover, the horizontal scale of the inferred slope obtained is not specified. As a consequence of limitations in the Kirchhoff approximation on which it is predicated, σ°H($\theta$) does not conserve energy. The use of a fractional Brownian fractal surface model leads to a scattering law with the same functional form as σ°H($\theta$) when the Hurst exponent characterizing the fractal model is 1/2. Fractal-based scattering laws, derived by applying the Kirchhoff approximation, suffer the same deficiency with regard to conservation of energy. In contrast to σ°H($\theta$), slope information for fractal-based laws is explicit with respect to horizontal scale. Both σ°H($\theta$) and fractal-based laws require that the illuminated surface area exceeds a certain value, which is a function of the electromagnetic wavelength and surface parameters, in order to reduce the surface radar cross section overestimation error, introduced by a mathematical approximation, below some specified value. This requirement may be necessary to take into account in experiments where the radar resolution cells are comparable in size to the wavelength, such as in Mars Advanced Radar for Subsurface and Ionosphere Sounding (MARSIS).
Sultan-Salem Ahmed K.
Tyler Leonard G.
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