Multivariable routh-approximant model reduction method in the time domain

The modeling of magnetically lossy media in the finiteelement time-domain (FETD) method is substantially different from the simple treatment in the frequency-domain finite-element method. Two FETD formulations are presented and their numerical implementations are discussed. One is applicable to the

The paper is concerned with modelling the dynamic behaviour of a structure with damping. Hysteretic damping is commonly accepted to be reasonably accurate in some circumstances, but can only be applied directly in the frequency domain. Dynamic (time) behaviour, however, is most conveniently predicte

## Abstract A subcell model for arbitrarily located thin wires in the finite‐element time‐domain (FETD) method using modified telegraphers equations has been developed by Edelvik __et al__. Recently a dual set of equations has been proposed for modelling of thin slots. In this paper, we show that u

The novel method of Adapted Radiating Boundaries (ARB) is presented for numerical time domain modelling of transient electromagnetic interference between objects separated by the free space. These objects may be of complex shape and of compound structure containing various conducting, dielectric and

## Abstract An alternative analytical reduction scheme was proposed in the time‐domain layered finite element reduction recovery (LAFE‐RR) method for the analysis of high‐frequency integrated circuits. This alternative reduction scheme permits the use of general absorbing boundary conditions in the

## Abstract This article deals with a fast numerical method for GPR simulation of great scenes. Electromagnetic wave propagation in heterogeneous media is analyzed using a finite‐difference time‐domain (FDTD)‐based method. The use of a moving subdomain allows dealing with large scale and realistic