Fast Fourier Transform Based Iterative Method for Electromagnetic Scattering From 1D Flat Surfaces

Authors :: Dung Trinh-Xuan
Patrick Bradley
Conor Brennan
Source :: IEEE Transactions on Antennas and Propagation. 60:5464-5467
Publication Year :: 2012
Publisher :: Institute of Electrical and Electronics Engineers (IEEE), 2012.
Abstract: An efficient iterative method is proposed for computing the electromagnetic fields scattered from a one dimensional (1D) flat surface. The new iterative method is based on a similar implementation to the Conjugate Gradient Fast Fourier Transform (CG-FFT), where acceleration of the matrix-vector multiplications is achieved using fast Fourier transforms (FFT). However, the iterative method proposed is not based on Krylov subspace expansions and is shown to converge faster than GMRES-FFT and CGNE-FFT while maintaining the computational complexity and memory usage of those methods. Analysis is presented deriving an explicit convergence criterion.

Subjects :: Iterative method
Conjugate gradient method
Mathematical analysis
Fast Fourier transform
Computational electromagnetics
Krylov subspace
Pseudo-spectral method
Electrical and Electronic Engineering
Algorithm
Discrete Fourier transform
Mathematics
Local convergence

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