A novel solution to marching-on-in-order time-domain integral equations using order-independent temporal basis functions

Author

Wang, Q.Q. ; Shi, Y.F. ; Chen, R.S.

Author_Institution

Dept. of Commun. Eng., Nanjing Univ. of Sci. & Technol., Nanjing, China

Volume

1

fYear

2010

fDate

17-20 Sept. 2010

Firstpage

1

Lastpage

3

Abstract

In this paper, a novel solution to marching-on-in-order (MOO) time-domain integral equations (TDIE) are introduced using order-independent temporal (OIT) basis functions to analyze transient electromagnetic scattering from perfect electrically conducting (PEC) structures. The OIT basis function is based on the Laguerre polynomials and generated via a singular value decomposition (SVD). It can considerably reduce the matrix size and also the memory requirement. The RWG basis function is used as the spatial basis function for its flexibility in modeling arbitrary geometries. The temporal and spatial testing procedures are separate, and both of them are carried on with the Galerkin´s method. Numerical results are given to verify the proposed method.

Keywords

Galerkin method; electromagnetic wave scattering; geometry; integral equations; polynomials; singular value decomposition; Galerkin method; Laguerre polynomials; arbitrary geometries; marching-on-in-order time-domain integral equations; order-independent temporal basis functions; perfect electrically conducting structures; singular value decomposition; transient electromagnetic scattering; Antennas; Electromagnetic scattering; Integral equations; Mathematical model; Moment methods; Polynomials; Time domain analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Signals Systems and Electronics (ISSSE), 2010 International Symposium on

Conference_Location

Nanjing

Print_ISBN

978-1-4244-6352-7

Type

conf

DOI

10.1109/ISSSE.2010.5607091

Filename

5607091