A backscattering trend in the range direction of\udthe signal received by Synthetic Aperture Radar (SAR) in\udWide Swath (WS) mode results in a progressive reduction\udof brightness over images from near to far range, which\udaffects the detection and classification of sea surface features on wide swath SARimages. The aim of the present paper is to investigate methods for limiting the issue of Normalized Radar Cross-Section (NRCS or 0) variation due to the incidence angle. Two sensor independent functions are investigated: a theoretical backscattering shape function derived from a minimum wind speed and an empirical range fit of NRCS against incidence angle . The former method exploits only the modeled NRCS values while the latter only the image content. The results were compared with the squared cosine correction, the most widely applied method for normalization, using six newly developed comparison factors. The results showed that the cosine squared normalization has the lowest efficiency while\udthe proposed methods have similar behaviors and comparable results. Nevertheless, after the log-transformation and summation of the comparison factors, it was clearly shown that theoretical normalization performance is superior to the empirical one since it has the highest accuracy and requires less computational time.
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