Detail publikace
Finite Element Analysis of Composite Objects: Time Domain Versus Frequency Domain
CIGÁNEK, J. KADLEC, P. RAIDA, Z. ŠEDĚNKA, V.
Originální název
Finite Element Analysis of Composite Objects: Time Domain Versus Frequency Domain
Anglický název
Finite Element Analysis of Composite Objects: Time Domain Versus Frequency Domain
Jazyk
en
Originální abstrakt
In the paper, a survey of finite-element techniques developed for the numerical analysis of composite objects is presented. The computations are performed both in time domain and in frequency domain in parallel. For both the domains, perfectly matched layers have been developed to analyze open problems. In order to model sharp pulses followed by a long tail, adaptive time sampling has been proposed. In order to characterize electromagnetic systems in the time domain directly, potential time-domain parameters are discussed.
Anglický abstrakt
In the paper, a survey of finite-element techniques developed for the numerical analysis of composite objects is presented. The computations are performed both in time domain and in frequency domain in parallel. For both the domains, perfectly matched layers have been developed to analyze open problems. In order to model sharp pulses followed by a long tail, adaptive time sampling has been proposed. In order to characterize electromagnetic systems in the time domain directly, potential time-domain parameters are discussed.
Dokumenty
BibTex
@inproceedings{BUT22151,
author="Jan {Cigánek} and Petr {Kadlec} and Zbyněk {Raida} and Vladimír {Šeděnka}",
title="Finite Element Analysis of Composite Objects: Time Domain Versus Frequency Domain",
annote="In the paper, a survey of finite-element techniques developed for the numerical analysis of composite objects is presented. The computations are performed both in time domain and in frequency domain in parallel. For both the domains, perfectly matched layers have been developed to analyze open problems. In order to model sharp pulses followed by a long tail, adaptive time sampling has been proposed. In order to characterize electromagnetic systems in the time domain directly, potential time-domain parameters are discussed.",
address="IEEE",
booktitle="2010 International Conference on Electromagnetics in Advanced Applications",
chapter="22151",
howpublished="electronic, physical medium",
institution="IEEE",
year="2010",
month="september",
pages="164--167",
publisher="IEEE",
type="conference paper"
}