Erratum: Integral equation-based overlapped domain decomposition method for the analysis of electromagnetic scattering of 3D conducting objects

## Abstract An integral equation‐based overlapped domain decomposition method (IE‐ODDM) is presented for the analysis of three‐dimensional (3D) electromagnetic scattering problems. Compared with the forward and backward buffer region iterative method proposed by Brennan et al., the convergence of t

A domain decomposition method (DDM) is presented for the solution of the timeharmonic electromagnetic scattering problem by inhomogeneous 3-D objects. The computational domain is partitioned into concentric subdomains on the interfaces of which Robin-type transmission conditions are prescribed. On t

## Abstract A time‐domain combined field integral equation (CFIE) is presented to obtain the transient scattering response from arbitrarily shaped three‐dimensional (3D) conducting bodies. This formulation is based on a linear combination of the time‐domain electric field integral equation (EFIE) w

## Abstract A method for modeling singular electric currents near conducting edges within marching‐on‐in‐time (MOT) simulators is presented. The use of singular basis functions in MOT simulators presents unique challenges not encountered in frequency‐domain implementations. Numerical results demons

## Abstract In this paper, we present an analysis of electromagnetic scattering from arbitrarily shaped three‐dimensional (3D) conducting objects coated with dielectric materials. The integral equation treated here is the combined field integral equation (CFIE). The objective of this paper is to il