Finite element-boundary integral formulation for electromagnetic scattering

## Abstract The “conventional” finite element‐boundary integral (FE‐BI) method suffers from two major drawbacks, one is the huge computer resources required by the dense BI submatrix; the other is the slow convergence rate of the resulting linear system of equations. In this article, both the drawb

Mixed sparse-dense, symmetrical-unsymmetrical direct equation solution algorithms are developed, and utilized to fully exploit the special characteristics of the coe cient matrix of system of linear (complex numbers) simultaneous equations. Numerical performance of the developed software is conducte

The standard hybrid finite-element boundary-integral ( ) FE᎐BI technique has been extended to deal with the problem of electromagnetic scattering from buried objects. The presence of the ground᎐air interface is taken into account by using the half-space Green's function, thus reducing the number of

Consider a time-harmonic electromagnetic plane wave incident on an inhomogeneity embedded in a two-layered medium. In this paper, a method of coupling of finite element and boundary integral equation methods is presented for the solutions of electromagnetic scattering in both transverse electric and