Title :
Sparse wavelet approximations to transient space-time electromagnetic wave fields
Author :
Ngoly, Adrian ; McFee, Steve
Author_Institution :
Dept. of Electr. & Comput. Eng., McGill Univ., Montreal, QC, Canada
Abstract :
The purpose of this contribution is to introduce a method for constructing sparse, efficient, accurate and reliable representations of large-scale, discretely sampled transient space-time electromagnetic wave fields, through the use of sparse wavelet approximations. The sparse wavelet approximations are achieved by performing a three step computational process that involves a forward Fast Wavelet Transform (FWT) step, a wavelet coefficient truncation step, and an inverse FWT (IFWT) step. Numerical results that demonstrate the applicability and versatility of the approach are provided. Rigorous error analyses are also provided to demonstrate the accuracy of the method.
Keywords :
computational electromagnetics; electromagnetic waves; error analysis; wavelet transforms; IFWT step; error analyses; forward fast wavelet transform; inverse FWT step; sparse wavelet approximations; transient space-time electromagnetic wave fields; wavelet coefficient truncation step; Discrete wavelet transforms; Electromagnetic analysis; Electromagnetic compatibility; Electromagnetic fields; Electromagnetic scattering; Electromagnetic transients; Error analysis; Large-scale systems; Linear approximation; Wavelet coefficients;
Conference_Titel :
Electromagnetic Field Computation (CEFC), 2010 14th Biennial IEEE Conference on
Conference_Location :
Chicago, IL
Print_ISBN :
978-1-4244-7059-4
DOI :
10.1109/CEFC.2010.5481282
