Open AccessInverse scattering code
Author(s) -
Amy Catherine Hale,
A. King
Publication year - 1997
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/537376
Subject(s) - physical optics , radar cross section , method of moments (probability theory) , computational electromagnetics , electromagnetics , range (aeronautics) , inverse problem , radar , computer science , code (set theory) , field (mathematics) , inverse , scattering , function (biology) , inverse scattering problem , algorithm , computational science , optics , electromagnetic field , physics , mathematics , electronic engineering , engineering , mathematical analysis , geometry , aerospace engineering , telecommunications , estimator , biology , quantum mechanics , evolutionary biology , programming language , statistics , set (abstract data type) , pure mathematics
A methodology for the evaluation of complex electromagnetics problems is presented. The methodology reduces the computational requirements for the analysis of large scale computational electromagnetics problems by hybridizing the method of moments and physical optics techniques. The target model is based on triangular facets and the incident field source by its system response function. Data which can be obtained from the analysis are radar cross section, power spectral density, and range profiles
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