Time-domain combined field integral equation using Laguerre polynomials as temporal basis functions

## Abstract A novel numerical scheme that employs quadratic B‐spline functions as temporal basis functions is proposed for solving time‐domain integral equations (TDIE) of electromagnetic scattering. Because of the compact support of these new temporal basis functions, the resulting time‐domain int

## Abstract In this article, we propose a new stable solution for the time domain electric field integral equation (TD‐EFIE) for arbitrarily shaped conducting structures, which utilizes weighted Laguerre polynomials as temporal basis functions, which means that the unknown surface currents are expa

The advantage of the envelope finite-element time-domain (EFETD) method compared to the direct finite-element time-domain (FETD) method is that a much larger time step can be used. Although both approaches use the Newmark-Beta technique for time-stepping, it has recently been demonstrated for the FE

## Abstract In this article, the multilevel UV algorithm is utilized to reduce both the memory requirement and CPU time in the time‐domain combined field integral equation (TD‐CFIE) method to analyze transient electromagnetic scattering from conducting structures.The UV method is kernel‐independent

## Abstract This paper presents an alternative combined‐field integral equation (CFIE) for conducting scatterers to surmount the nonuniqueness problem around the interior resonance frequencies. The implementation of an alternative CFIE is simplified by transforming the integrals of electric‐field (