Analysis of microwave tomography systems using the wire-volume integral equations method

In this article, the microstrip circuit is analyzed in terms of the mixed-potential integral equation (MPIE) by means of the rooftop-function expansion and the blaze-function testing technique, and the integral equation is solved using the loose generalized minimal residual fast Fourier transform (L

A coupled structural-acoustical problem of vibrations for the spatial acoustic system is considered. The acoustic system is a rectangular box consisting of elastic plates. The interactions between the structure and the acoustic media both inside and outside of the structure are taken into account. O

This paper describes a boundary integral equation (boundary element) method for the solution of a variety of transient acoustic problems. The spatial and temporal discretization employs quadratic isoparametric elements with high-order Gauss quadrature, and the ensuing equations are implicit. The imp

## Abstract In practical applications, frequency‐selective surfaces (FSSs) are finite, and sometimes even curved. In this paper, we present a hybrid volume‐surface integral‐equation approach to analyze the transmission and reflection characteristics of finite and curved FFS structures. The hybrid i

## Abstract In this paper, the microstrip circuit is analyzed in terms of the mixed potential integral equation (MPIE) by using the rooftop‐function expansion and the blaze‐function testing technique. The integral equation is solved by the inner‐outer flexible generalized minimal residual fast Four

## Abstract A single integral equation (SIE) method is developed to analyze the electromagnetic scattering from 3D composite conducting and dielectric bodies. Compared with the conventional coupled integral equation (CIE) method, the SIE method reduces the number of unknowns by a factor of two for