Title :
Spectral domain analysis of conducting patches of arbitrary geometry in multilayer media using the CG-FFT method
Author :
CÁtedra, Manuel F. ; Gago, Emilio
Author_Institution :
ESTI de Telecommun., Univ. Politecnica de Madrid, Spain
fDate :
10/1/1990 12:00:00 AM
Abstract :
A conjugate gradient-fast Fourier transform (CG-FFT) scheme for analyzing finite, flat, metallic patches in multilayer structures is presented. Rooftop and razor-blade functions are considered as basis and testing functions, respectively. An equivalent periodic problem in both domains (real and spectral) is obtained and solved. Aliasing problems are avoided by performing a window on the Green´s function. The spectral domain periodicity makes it feasible to take into account almost all the harmonics and to reduce the ripple in the computed current distributions. Nearly all the operations are performed in the spectral domain, including Green´s function computations. Several results of convergence rates, current distributions and radar cross-section (RCS) values are given and compare favorably with measurements or results obtained by other methods
Keywords :
Green´s function methods; antenna theory; conjugate gradient methods; convergence of numerical methods; current distribution; electromagnetic wave scattering; fast Fourier transforms; microstrip antennas; radar cross-sections; CG-FFT method; Green´s function computations; arbitrary geometry; basis functions; conducting patches; conjugate gradient-fast Fourier transform; convergence rates; current distributions; finite flat metallic patches; microstrip antennas; multilayer structures; radar cross-section; razor-blade functions; rooftop functions; spectral domain analysis; spectral domain periodicity; testing functions; Convergence; Current distribution; Current measurement; Distributed computing; Fourier transforms; Green´s function methods; Nonhomogeneous media; Radar cross section; Spectral analysis; Testing;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
