Title :
Costs and cost scaling in time-domain integral-equation analysis of electromagnetic scattering
Author :
Dodson, S.J. ; Walker, S.P. ; Bluck, M.J.
Author_Institution :
Dept. of Mech. Eng., Imperial Coll. of Sci., Technol. & Med., London, UK
fDate :
8/1/1998 12:00:00 AM
Abstract :
Computation of scattering from multi-wavelength bodies is expensive, and costs scale with up to the sixth power of the incident frequency. Conventional integral-equation time-domain methods have costs scaling with the fifth power. Here are described modifications to the IETD approach that offer the prospect of a reduction in cost scaling, to possibly the third power of frequency, and an associated large reduction in cost. The approach exploits the pulsed nature of the illumination, which results in surface fields that are small most of the time over most of the body, on bodies that are electrically large. Neglect of these produces some modest increase in error, but allows large reductions in cost and storage requirements. In the examples shown, cost reductions by amounts approaching two orders of magnitude are obtained, with the factor by which costs are reduced itself increasing with roughly the square of the body size; storage requirements are rendered essentially negligible
Keywords :
electric field integral equations; electromagnetic wave scattering; magnetic field integral equations; radar cross-sections; time-domain analysis; IETD approach; body size; cost scaling reduction; costs; electrically large bodies; electromagnetic scattering; incident frequency; mixed field integral equations; multi-wavelength bodies; pulsed illumination; radar cross sections; storage requirements; surface fields; time-domain integral-equation analysis; Costs; Educational institutions; Electromagnetic analysis; Electromagnetic scattering; Frequency; Integral equations; Mechanical engineering; Optical scattering; Power engineering computing; Time domain analysis;
Journal_Title :
Antennas and Propagation Magazine, IEEE
