Publication detail

Fast Frequency Sweep Technique in Envelope Finite Element Method with Absorbing Boundary Condition

MOTL, M., LÁČÍK, J., RAIDA, Z.

Original Title

Fast Frequency Sweep Technique in Envelope Finite Element Method with Absorbing Boundary Condition

English Title

Fast Frequency Sweep Technique in Envelope Finite Element Method with Absorbing Boundary Condition

Type

conference paper

Language

en

Original Abstract

In this paper, we apply the fast frequency sweep technique to the envelope finite element method. This hybridization is used in order to reduce computation time demands. Other advantage of this hybridization is, that it returns lower dispersion error compared to the envelope finite element method. The novel hybridization is used to analyze a two-dimensional model, and the accuracy is compared with the envelope finite element method.

English abstract

In this paper, we apply the fast frequency sweep technique to the envelope finite element method. This hybridization is used in order to reduce computation time demands. Other advantage of this hybridization is, that it returns lower dispersion error compared to the envelope finite element method. The novel hybridization is used to analyze a two-dimensional model, and the accuracy is compared with the envelope finite element method.

Keywords

Fast Frequency Sweep, Envelope Finite Element Method, Absorbing Boundary Condition

RIV year

2004

Released

12.12.2004

Publisher

The World Scientific and Engineering Academy and Society

Location

Tenerife

Pages from

156

Pages to

159

Pages count

4

BibTex


@inproceedings{BUT12161,
  author="Milan {Motl} and Jaroslav {Láčík} and Zbyněk {Raida}",
  title="Fast Frequency Sweep Technique in Envelope Finite Element Method with Absorbing Boundary Condition",
  annote="In this paper, we apply the fast frequency sweep technique to the envelope finite element method. This hybridization is used in order to reduce computation time demands. Other advantage of this hybridization is, that it returns lower dispersion error compared to the envelope finite element method. The novel hybridization is used to analyze a two-dimensional model, and the accuracy is compared with the envelope finite element method.",
  address="The World Scientific and Engineering Academy and Society",
  booktitle="Proceedings of the 4th WSEAS International Conference Applied Informatics and Communications",
  chapter="12161",
  institution="The World Scientific and Engineering Academy and Society",
  year="2004",
  month="december",
  pages="156",
  publisher="The World Scientific and Engineering Academy and Society",
  type="conference paper"
}