Spectrally accelerated biconjugate gradient stabilized method for scattering from and propagation over electrically large inhomogeneous geometries
Date
2005
Authors
Babaoglu, B.
Altintas, A.
Ertürk, V. B.
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Abstract
Scattering from and propagation over rough-terrain profiles, as well as reentrant surfaces are investigated using an integral equation (IE)-based spectrally accelerated biconjugate gradient stabilized (SA-BiCGSTAB) method, with a storage requirement and a computational cost of O(N) per iteration, where N is the surface unknowns in the discretized IE. Numerical results in the form of current and path loss are presented and compared with previously published as well as measured results in order to assess the accuracy and efficiency of this method.
Source Title
Microwave and Optical Technology Letters
Publisher
John Wiley & Sons
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Keywords
Biconjugate gradient stabilized method, Electromagnetic rough-surface scattering, Propagation over terrain, Spectral acceleration, Acceleration, Electric current distribution, Electric currents, Electric impedance, Electromagnetic waves, Geometrical optics, Green's function, Integral equations, Iterative methods, Light propagation, Method of moments, Two dimensional, Light scattering
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Language
English