Energy-Based Optimal Ranking of the Interior Modes for Reduced-Order Models under Periodic Excitation

Energy-Based Optimal Ranking of the Interior Modes for Reduced-Order Models under Periodic Excitation

This paper introduces a novel method for ranking and selecting the interior modes to be retained in the Craig-Bampton model reduction, in the case of linear vibrating systems under periodic excitation. The aim of the method is to provide an effective ranking of such modes and hence an optimal sequen...

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Main Authors: Ilaria Palomba, Dario Richiedei, Alberto Trevisani
Format: Article
Language:English
Published: Hindawi Limited 2015-01-01
Series:Shock and Vibration
Online Access:http://dx.doi.org/10.1155/2015/348106
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spelling doaj-4421c223afd745f99ca9445a3e51ee292020-11-24T23:08:56ZengHindawi LimitedShock and Vibration1070-96221875-92032015-01-01201510.1155/2015/348106348106Energy-Based Optimal Ranking of the Interior Modes for Reduced-Order Models under Periodic ExcitationIlaria Palomba0Dario Richiedei1Alberto Trevisani2Department of Management and Engineering (DTG), University of Padova, 36100 Vicenza, ItalyDepartment of Management and Engineering (DTG), University of Padova, 36100 Vicenza, ItalyDepartment of Management and Engineering (DTG), University of Padova, 36100 Vicenza, ItalyThis paper introduces a novel method for ranking and selecting the interior modes to be retained in the Craig-Bampton model reduction, in the case of linear vibrating systems under periodic excitation. The aim of the method is to provide an effective ranking of such modes and hence an optimal sequence according to which the interior modes should be progressively included to achieve a desired accuracy of the reduced-order model at the frequencies of interest, while keeping model dimensions to a minimum. An energy-based ranking (EBR) method is proposed, which exploits analytical coefficients to evaluate the contribution of each interior mode to the forced response of the full-order system. The application of the method to two representative systems is discussed: an ultrasonic horn and a vibratory feeder. The results show that the EBR method provides a very effective ranking of the most important interior modes and that it outperforms other state-of-the-art benchmark techniques.http://dx.doi.org/10.1155/2015/348106
collection DOAJ
language English
format Article
sources DOAJ
author Ilaria Palomba
Dario Richiedei
Alberto Trevisani
spellingShingle Ilaria Palomba
Dario Richiedei
Alberto Trevisani
Energy-Based Optimal Ranking of the Interior Modes for Reduced-Order Models under Periodic Excitation
Shock and Vibration
author_facet Ilaria Palomba
Dario Richiedei
Alberto Trevisani
author_sort Ilaria Palomba
title Energy-Based Optimal Ranking of the Interior Modes for Reduced-Order Models under Periodic Excitation
title_short Energy-Based Optimal Ranking of the Interior Modes for Reduced-Order Models under Periodic Excitation
title_full Energy-Based Optimal Ranking of the Interior Modes for Reduced-Order Models under Periodic Excitation
title_fullStr Energy-Based Optimal Ranking of the Interior Modes for Reduced-Order Models under Periodic Excitation
title_full_unstemmed Energy-Based Optimal Ranking of the Interior Modes for Reduced-Order Models under Periodic Excitation
title_sort energy-based optimal ranking of the interior modes for reduced-order models under periodic excitation
publisher Hindawi Limited
series Shock and Vibration
issn 1070-9622
1875-9203
publishDate 2015-01-01
description This paper introduces a novel method for ranking and selecting the interior modes to be retained in the Craig-Bampton model reduction, in the case of linear vibrating systems under periodic excitation. The aim of the method is to provide an effective ranking of such modes and hence an optimal sequence according to which the interior modes should be progressively included to achieve a desired accuracy of the reduced-order model at the frequencies of interest, while keeping model dimensions to a minimum. An energy-based ranking (EBR) method is proposed, which exploits analytical coefficients to evaluate the contribution of each interior mode to the forced response of the full-order system. The application of the method to two representative systems is discussed: an ultrasonic horn and a vibratory feeder. The results show that the EBR method provides a very effective ranking of the most important interior modes and that it outperforms other state-of-the-art benchmark techniques.
url http://dx.doi.org/10.1155/2015/348106
work_keys_str_mv AT ilariapalomba energybasedoptimalrankingoftheinteriormodesforreducedordermodelsunderperiodicexcitation
AT dariorichiedei energybasedoptimalrankingoftheinteriormodesforreducedordermodelsunderperiodicexcitation
AT albertotrevisani energybasedoptimalrankingoftheinteriormodesforreducedordermodelsunderperiodicexcitation
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