DocumentCode
275766
Title
Acceleration of TLM through signal processing and parallel computing
Author
Dubard, J.L. ; Benevello, O. ; Pompei, D. ; Le Roux, J. ; So, P.P.M. ; Hoefer, W.J.R.
Author_Institution
Nice Univ., France
fYear
1991
fDate
25-27 Nov 1991
Firstpage
71
Lastpage
74
Abstract
The transmission line matrix method (TLM) has been used extensively for modelling closed electromagnetic structures by authors such as by Johns (1986). Johns matrix techniques are now extending its applications to partially open structures, and the modelling of planar antenna configurations becomes feasible. The TLM process yields the time response of a structure to impulsive excitation, which must usually be transformed into the frequency domain using Fourier transform techniques. The authors propose and describe two complementary procedures designed to significantly reduce computational expenditure. The first exploits the localised nature of the TLM process through parallel processing (implementation on the connection machine), and the other is based on the numerical processing of the TLM output using the Prony-Pisarenko method. Both measures may be applied to accelerate other time domain methods such as FD-TD
Keywords
antennas; computerised signal processing; electrical engineering computing; matrix algebra; parallel algorithms; transmission line theory; FD-TD; Fourier transform; Prony-Pisarenko method; TLM; closed electromagnetic structures; connection machine; frequency domain; impulsive excitation; numerical processing; parallel computing; parallel processing; partially open structures; planar antenna; signal processing; time response; transmission line matrix method;
fLanguage
English
Publisher
iet
Conference_Titel
Computation in Electromagnetics, 1991., International Conference on
Conference_Location
London
Print_ISBN
0-85296-529-X
Type
conf
Filename
140119
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