Publication detail
Filtering Technique for Stabilization of Marching-on-in-Time Method
LÁČÍK, J.
Original Title
Filtering Technique for Stabilization of Marching-on-in-Time Method
English Title
Filtering Technique for Stabilization of Marching-on-in-Time Method
Type
journal article in Web of Science
Language
en
Original Abstract
In this paper, digital filters are used for the stabilization of the marching-on-in-time (MOT) method. A methodology of designing a proper filter using optimization techniques is proposed here. Since the proposed procedure considers the important part of the spectrum of the excitation signal, the designed filter does not degrade the accuracy of the MOT method. Further, the procedure for the efficient stabilization of the MOT method by a set of filters is proposed and verified on the examples.
English abstract
In this paper, digital filters are used for the stabilization of the marching-on-in-time (MOT) method. A methodology of designing a proper filter using optimization techniques is proposed here. Since the proposed procedure considers the important part of the spectrum of the excitation signal, the designed filter does not degrade the accuracy of the MOT method. Further, the procedure for the efficient stabilization of the MOT method by a set of filters is proposed and verified on the examples.
Keywords
Time domain electric field integral equation, method of moments, marching on in time method; stability, filtering technique.
RIV year
2010
Released
01.06.2010
Location
Brno
ISBN
1210-2512
Periodical
Radioengineering
Year of study
19
Number
2
State
CZ
Pages from
290
Pages to
298
Pages count
9
Documents
BibTex
@article{BUT47700,
author="Jaroslav {Láčík}",
title="Filtering Technique for Stabilization of Marching-on-in-Time Method",
annote="In this paper, digital filters are used for the stabilization of the marching-on-in-time (MOT) method. A methodology of designing a proper filter using optimization techniques is proposed here. Since the proposed procedure considers the important part of the spectrum of the excitation signal, the designed filter does not degrade the accuracy of the MOT method. Further, the procedure for the efficient stabilization of the MOT method by a set of filters is proposed and verified on the examples.",
chapter="47700",
journal="Radioengineering [IF 0,312]",
number="2",
volume="19",
year="2010",
month="june",
pages="290--298",
type="journal article in Web of Science"
}