Title :
An efficient wavelet preconditioner for iterative solution of three-dimensional electromagnetic integral equations
Author :
Deng, Hai ; Ling, Hao
Author_Institution :
Dept. of Electr. Eng., Univ. of New Orleans, LA, USA
fDate :
3/1/2003 12:00:00 AM
Abstract :
A wavelet-based preconditioning method is proposed to facilitate the iterative solution of three-dimensional (3-D) electromagnetic integral equations. The preconditioner is derived from the wavelet transform of the moment matrix. It is based on the observation that both the moment matrix and its inverse exhibit a sparse, multilevel finger structure. A method based on the Forbenius-norm minimization is used to solve the inverse of the matrix under the multilevel finger structure. Numerical results on a 3-D cavity show that the iteration numbers are significantly reduced with the wavelet-preconditioned system. The computational cost of the preconditioner is kept under O(NlogN).
Keywords :
computational complexity; electromagnetic wave polarisation; integral equations; iterative methods; matrix inversion; method of moments; sparse matrices; 3D EM integral equations; 3D cavity; Forbenius-norm minimization; computational cost; efficient wavelet preconditioner; horizontally polarized EM wave; inverse matrix; iterative solution; moment matrix; multilevel finger structure matrix; sparse matrix; three-dimensional electromagnetic integral equations; wavelet transform; Acceleration; Computational complexity; Computational efficiency; Electromagnetic scattering; Fingers; Integral equations; Iterative methods; Minimization methods; Sparse matrices; Wavelet transforms;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2003.809868
