Title :
A new general method for numerical solution of linear integral equations in numerical electromagnetics
Author :
Kolundzija, B.M.
Author_Institution :
Belgrade Univ.
Abstract :
The method minimizes mean square error of the approximate solution. It is different from classical least square method which minimizes the residual of integral equations. The method is presented for the general, one-dimensional case, and in the case of surface integral equations, which are of particular interest in electromagnetics. Typical results presented for charge distribution over a prolate ellipsoid and current distribution along a wire scatterer show that, by proper choice of the integral equation and basis functions, the method converges very fast to the exact solution
Keywords :
current distribution; electromagnetism; integral equations; numerical methods; approximate solution; basis functions; charge distribution; convergence; current distribution; exact solution; linear integral equations; mean square error; numerical electromagnetics; numerical solution; prolate ellipsoid; surface integral equations; wire scatterer;
Conference_Titel :
Computation in Electromagnetics, 1991., International Conference on
Conference_Location :
London
Print_ISBN :
0-85296-529-X
