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APPLICATION OF THE COSINE WINDOW FUNCTION WITH THE PARAMETERS OPTIMIZED BY GENETIC ALGORITHM IN BISTATIC PLANAR NEAR-FIELD SCATTERING MEASUREMENTS
Author(s) -
Yu Ding,
Weigang Zhai,
Guitao Xie,
Fu Demin
Publication year - 2012
Publication title -
progress in electromagnetics research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.245
H-Index - 33
ISSN - 1937-6480
DOI - 10.2528/pierl11101505
Subject(s) - planar , window function , window (computing) , trigonometric functions , algorithm , field (mathematics) , function (biology) , bistatic radar , scattering , computer science , mathematics , physics , optics , radar , geometry , telecommunications , biology , evolutionary biology , radar imaging , computer graphics (images) , spectral density , operating system , pure mathematics
The cosine window function with the parameters optimized by Genetic Algorithm (GA) is applied in bistatic planar near-field scattering measurements so as to effectively improve the measurement precision. With the infinitely long ideal conductor cylinder as the target under test, the bistatic planar near-field scattering measurement technique is studied by the method of computer simulation and some useful results and basic laws are obtained. The calculation results show that the truncation errors caused by finite scan plane in the far-field Radar Cross Section (RCS) of the target under test obtained by near-field to far-field transformation can be reduced greatly by the weighting process of the measured scattered near-field data by means of the cosine window function with the parameters optimized by GA.

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