Title :
FFT Accelerated Marching-on-in-Order Methods
Author :
Geranmayeh, Amir ; Ackermann, Wolfgang ; Weiland, Thomas
Author_Institution :
Inst. fuer Theor. Elektromagn. Felder, Tech. Univ. Darmstadt, Darmstadt
Abstract :
A fast, yet unconditionally stable, solution of time-domain electric field integral equations (EFIE) pertinent to the scattering analysis of uniformly meshed conducting structures is introduced. A discrete fast Fourier transform (FFT)-based algorithm is proffered to expedite the recursive spatial convolution products of the Toeplitz-block-Toeplitz retarded interaction matrices in a new marching-without-time-variable scheme. The total computational cost and storage requirements of the proposed method scales as O(Nt 2 Nslog(Ns)) and O(NtNs), respectively, as opposed to O(Nt 2 Ns 2) and O(NtN2 s) for classical marching-on-in-order methods, where Nt and Ns are the number of temporal and spatial unknowns, respectively. Simulation results for long strip, platelike, and cylindrical scatterers demonstrate the accuracy and efficiency of the technique.
Keywords :
Toeplitz matrices; computational electromagnetics; convolution; electric field integral equations; electromagnetic field theory; fast Fourier transforms; discrete fast Fourier transform; marching-on-in-order methods; recursive spatial convolution; time-domain electric field integral equations; Acceleration; Computational efficiency; Convolution; Electromagnetic radiation; Electromagnetic scattering; Electromagnetic transients; Fast Fourier transforms; Integral equations; Testing; Transmission line matrix methods;
Conference_Titel :
Microwave Conference, 2008. EuMC 2008. 38th European
Conference_Location :
Amsterdam
Print_ISBN :
978-2-87487-006-4
DOI :
10.1109/EUMC.2008.4751501
