Adaptive rational block Arnoldi methods for model reductions in large-scale MIMO dynamical systems

In recent years, a great interest has been shown towards Krylov subspace techniques applied to model order reduction of large-scale dynamical systems. A special interest has been devoted to single-input single-output (SISO) systems by using moment matching techniques based on Arnoldi or Lanczos algo...

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Main Authors: Khalide Jbilou, mustapha hached, oussama Abidi
Format: Article
Language:English
Published: BİSKA Bilisim Company 2016-04-01
Series:New Trends in Mathematical Sciences
Subjects:
Online Access:https://ntmsci.com/ajaxtool/GetArticleByPublishedArticleId?PublishedArticleId=7148
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spelling doaj-903dbda9e5ae4d379eb17eee147769d02020-11-25T00:14:20ZengBİSKA Bilisim CompanyNew Trends in Mathematical Sciences2147-55202147-55202016-04-014222723910.20852/ntmsci.20162182597148Adaptive rational block Arnoldi methods for model reductions in large-scale MIMO dynamical systemsKhalide Jbilou0mustapha hached1oussama Abidi2University Littoral Côte d'Opaleuniversity lille 1 Franceuniversity ulcoFranceIn recent years, a great interest has been shown towards Krylov subspace techniques applied to model order reduction of large-scale dynamical systems. A special interest has been devoted to single-input single-output (SISO) systems by using moment matching techniques based on Arnoldi or Lanczos algorithms. In this paper, we consider multiple-input multiple-output (MIMO) dynamical systems and introduce the rational block Arnoldi process to design low order dynamical systems that are close in some sense to the original MIMO dynamical system. Rational Krylov subspace methods are based on the choice of suitable shifts that are selected a priori or adaptively. In this paper, we propose an adaptive selection of those shifts and show the efficiency of this approach in our numerical tests. We also give some new block Arnoldi-like relations that are used to propose an upper bound for the norm of the error on the transfer function.https://ntmsci.com/ajaxtool/GetArticleByPublishedArticleId?PublishedArticleId=7148Dynamical systemsmodel reductionrational block Krylov subspacestransfer functions.
collection DOAJ
language English
format Article
sources DOAJ
author Khalide Jbilou
mustapha hached
oussama Abidi
spellingShingle Khalide Jbilou
mustapha hached
oussama Abidi
Adaptive rational block Arnoldi methods for model reductions in large-scale MIMO dynamical systems
New Trends in Mathematical Sciences
Dynamical systems
model reduction
rational block Krylov subspaces
transfer functions.
author_facet Khalide Jbilou
mustapha hached
oussama Abidi
author_sort Khalide Jbilou
title Adaptive rational block Arnoldi methods for model reductions in large-scale MIMO dynamical systems
title_short Adaptive rational block Arnoldi methods for model reductions in large-scale MIMO dynamical systems
title_full Adaptive rational block Arnoldi methods for model reductions in large-scale MIMO dynamical systems
title_fullStr Adaptive rational block Arnoldi methods for model reductions in large-scale MIMO dynamical systems
title_full_unstemmed Adaptive rational block Arnoldi methods for model reductions in large-scale MIMO dynamical systems
title_sort adaptive rational block arnoldi methods for model reductions in large-scale mimo dynamical systems
publisher BİSKA Bilisim Company
series New Trends in Mathematical Sciences
issn 2147-5520
2147-5520
publishDate 2016-04-01
description In recent years, a great interest has been shown towards Krylov subspace techniques applied to model order reduction of large-scale dynamical systems. A special interest has been devoted to single-input single-output (SISO) systems by using moment matching techniques based on Arnoldi or Lanczos algorithms. In this paper, we consider multiple-input multiple-output (MIMO) dynamical systems and introduce the rational block Arnoldi process to design low order dynamical systems that are close in some sense to the original MIMO dynamical system. Rational Krylov subspace methods are based on the choice of suitable shifts that are selected a priori or adaptively. In this paper, we propose an adaptive selection of those shifts and show the efficiency of this approach in our numerical tests. We also give some new block Arnoldi-like relations that are used to propose an upper bound for the norm of the error on the transfer function.
topic Dynamical systems
model reduction
rational block Krylov subspaces
transfer functions.
url https://ntmsci.com/ajaxtool/GetArticleByPublishedArticleId?PublishedArticleId=7148
work_keys_str_mv AT khalidejbilou adaptiverationalblockarnoldimethodsformodelreductionsinlargescalemimodynamicalsystems
AT mustaphahached adaptiverationalblockarnoldimethodsformodelreductionsinlargescalemimodynamicalsystems
AT oussamaabidi adaptiverationalblockarnoldimethodsformodelreductionsinlargescalemimodynamicalsystems
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