Amsterdam ; Boston : Elsevier/Academic Press, c2007.
xv, 282 p. : ill. ; 24 cm.
Includes bibliographical references (p. 277-282) and index.
Introduction-- Classical Surface Models-- Fractal Surface Models-- Analytical formulations of electromagnetic scattering-- Scattering From Weirstrass-Mandelbrot Surfaces-- Scattering from Fractional Brownian Surfaces-- Scattering from Weierstrass-Mandelbrot profiles-- Scattering from Fractional Brownian Surfaces-- Scattering from fractal profiles-- Fractal Surface Generation and Parameters Estimation-- App. A Mathematical Formulae-- App. B Glossary-- Index.
(source: Nielsen Book Data)
This book provides a comprehensive overview of electromagnetic scattering from natural surfaces, ranging from the classical to the more recent (fractal) approach. As remote sensing applications become increasingly important, this text provides readers with a solid background in interpretation, classification and thematization of microwave images. The 'scattering problem' is discussed in detail with emphasis on its application to electromagnetic wave propagation, remote sensing, radar detection, and electromagnetic diagnostics. Natural surface and fractals complete this treatise focusing on how the fractal model represents our natural environment and other planets in our solar system, most recently as used to research the planet Venus and Titan, one of the moons of Saturn. An example of how scattering, fractals, and natural surfaces are of great importance is the following: Natural oil slicks in the ocean have been found to be fractal while man-made ones (generated by illegal washing of oil carrying ships) are not. Processing of an ocean image from space may detect the latter by means of a fractal analysis. This title presents an elegant and clear treatment of a rigorous topic with informative prose and realistic illustrations of scattering. It provides readers with a solid background in interpretation, classification, and thematization of microwave images. It is the only book available on fractal models and their application to scattering. (source: Nielsen Book Data)