The HSLO(3)-FDTD with direct-domain and temporary-domain approaches on infinite space wave propagation

Author

Hasan, Mohammad Khatim ; Othman, Mohamed ; Johari, Rozita ; Abbas, Zulkifly ; Sulaiman, Jumat

Author_Institution

Dept. of Ind. Comput., Univ. Kebangsaan Malaysia, Selangor, Malaysia

Volume

2

fYear

2005

fDate

16-18 Nov. 2005

Abstract

In this paper, some numerical simulations by a new high-speed low order (3)-finite difference time domain (HSLO (S)-FDTD) method with direct-domain (DD) and temporary-domain (TD) approaches are conducted to simulate one dimensional free space wave propagation represented by a Gaussian pulse. The simulation is conducted on 2 meter of solution domain truncated by a simple absorbing boundary condition. The efficiency of the new schemes are analyzed and compared with the standard finite difference time domain (FDTD) method in terms of processing time, amplitude and global error. The new schemes (HSLO (S)-FDTD by both approaches) solve the problem faster and produce similar result to the output simulated by the standard FDTD.

Keywords

computational electromagnetics; electromagnetic wave propagation; finite difference time-domain analysis; Gaussian pulse; HSLO(3)-FDTD; direct-domain approach; high-speed low order (3)-finite difference time domain; infinite space wave propagation; one dimensional free space wave propagation; temporary-domain approach; Computational electromagnetics; Computer industry; Finite difference methods; Finite element methods; Integral equations; Iterative methods; Maxwell equations; Numerical simulation; Space technology; Time domain analysis; FDTD; HSLO-FDTD; direct-domain approach; numerical simulation of wave propagation; temporary-domain approach;

fLanguage

English

Publisher

ieee

Conference_Titel

Networks, 2005. Jointly held with the 2005 IEEE 7th Malaysia International Conference on Communication., 2005 13th IEEE International Conference on

ISSN

1531-2216

Print_ISBN

1-4244-0000-7

Type

conf

DOI

10.1109/ICON.2005.1635659

Filename

1635659