MODELLING OF VIBRATING SYSTEMS USING TIME-DOMAIN FINITE ELEMENT METHOD

## 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 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

## Abstract This Letter presents a method for extracting the lumped‐element equivalent‐circuit models of microstrip discontinuities by using the finite‐difference–time‐domain (FDTD) method. The cascading properties of the ABCD matrix are used to de‐embed the attachment lines, leading to the two‐por

## Abstract This paper presents the finite element time domain (FETD) model for numerical solution of the multi‐conductor transmission line (MTL) problem. Based on the finite element method (FEM) and the generalised trapezoidal rule, a novel numerical procedure for solution of a system of the teleg

In this paper, a Galerkin weighted residual finite element numerical solution method, with velocity material time derivative discretisation, is applied to solve for a classical fluid mechanics system of partial differential equations modelling two-dimensional stationary incompressible Newtonian flui

Scattering parameters of microstrip ring resonators with ) and without slits that are either edge or side coupled to the feedlines are simulated by the FDTD method. The strip conductors on the de¨ice can either be infinitely thin or finite in thickness. The simulations predict the occurrence of reso