Chapter 2

Integral Equation Method

Boris Levin

Abstract

Integral equations for currents in one and two straight metal radiators with exact and approximate kernel and methods of solving these equations with the help of an iterative process, perturbation method and Moment Method are considered. Results are generalized to the case of radiators with constant and piecewise-constant impedance and with lumped loads. The Moment Method with piecewise-sinusoidal basic and weighting functions is shown to correspond to the physical content of a problem and be equivalent to division of the radiator into isolated dipoles, the self- and mutual impedances of which are calculated by the method of induced emf.

Total Pages: 33-67 (35)

Purchase Chapter  Book Details

RELATED BOOKS

.Analog Circuit Design for Communication SOC.
.Communication Theory and Signal Processing for Transform Coding.
.GIS – An Overview of Applications.
.Handbook of Mobile Application Development: A Guide to Selecting the Right Engineering and Quality Features.
.Mathematics Applied in Information Systems.