A comparison of marching-on-in-time method with marching-on-in-degree method for the TD-EFIE solver

Zhong Ji, Tapan K. Sarkar, Baek Ho Jung, Magdalena Salazar-Palma, Mengtao Yuan

Research output: Chapter in Book/Report/Conference proceedingConference contribution

5 Scopus citations

Abstract

One of the most popular methods to solve a time domain electric field integral equation (TD-EFIE) is the marching-on-in-time(MOT) method. Recently, a new method called marching-on-in-degree(MOD) that uses Laguerre polynomials as temporal basis functions has been developed to eliminate the late time instability of the MOT method. A comparison is presented between these two methods from the standpoint of formulation, stability, cost and accuracy. Numerical results are presented to illustrate these features in the comparison.

Original languageEnglish (US)
Title of host publication2005 IEEE/ACES International Conference on Wireless Communications and Applied Computational Electromagnetics
Pages297-300
Number of pages4
StatePublished - 2005
Event2005 IEEE/ACES International Conference on Wireless Communications and Applied Computational Electromagnetics - Honolulu, HI, United States
Duration: Apr 3 2005Apr 7 2005

Publication series

Name2005 IEEE/ACES International Conference on Wireless Communications and Applied Computational Electromagnetics
Volume2005

Other

Other2005 IEEE/ACES International Conference on Wireless Communications and Applied Computational Electromagnetics
CountryUnited States
CityHonolulu, HI
Period4/3/054/7/05

Keywords

  • Laguerre polynomials
  • MOD
  • MOT
  • TD-EFIE

ASJC Scopus subject areas

  • Engineering(all)

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    Ji, Z., Sarkar, T. K., Jung, B. H., Salazar-Palma, M., & Yuan, M. (2005). A comparison of marching-on-in-time method with marching-on-in-degree method for the TD-EFIE solver. In 2005 IEEE/ACES International Conference on Wireless Communications and Applied Computational Electromagnetics (pp. 297-300). [1469585] (2005 IEEE/ACES International Conference on Wireless Communications and Applied Computational Electromagnetics; Vol. 2005).