A ROBUST CONDENSATION STRATEGY FOR STOCHASTIC DYNAMIC SYSTEMS
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2017 |
| Outros Autores: | , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Revista Interdisciplinar de Pesquisa em Engenharia |
| Texto Completo: | https://periodicos.unb.br/index.php/ripe/article/view/21619 |
Resumo: | In traditional design of engineering systems, it is normally assumed the mean values of the physical and mechanical properties. However, in real-world applications it may not characterize with reasonable accuracy the modifications on the dynamic behavior of the resulting systems induced by small changes on their design variables. Thus, it is interesting to perform a stochastic modeling strategy in order to take into account the presence of uncertainties. However, the stochastic finite element modeling of a more complex engineering structure composed by a large number of degrees of freedom, or its use in dynamic analyses requiring several evaluations such as in optimization and model updating, the computational cost can be prohibited or sometimes unfeasible. In these situations, the proposition of condensation strategy especially adapted for the resulting stochastic systems is interesting. This paper is devoted to the investigation of a robust model condensation strategy to reduce the random matrices of the stochastic system. The basis to be used is formed by a nominal basis evaluated by performing firstly an eigenvalue problem of the mean model enriched by static residues due to the small modifications introduced. To illustrate the main features and capabilities of the proposed strategy, numerical simulations were performed for a plate model in which the stochastic mass and stiffness matrices were generated by applying the so-called Karhunen-Loève expansion. The stochastic results are presented in terms frequency response function envelopes for the full and reduced stochastic dynamic systems subjected to a deterministic excitation. |
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A ROBUST CONDENSATION STRATEGY FOR STOCHASTIC DYNAMIC SYSTEMSParametric uncertainties. Robust condensation. Stochastic finite elements method. Dynamics.In traditional design of engineering systems, it is normally assumed the mean values of the physical and mechanical properties. However, in real-world applications it may not characterize with reasonable accuracy the modifications on the dynamic behavior of the resulting systems induced by small changes on their design variables. Thus, it is interesting to perform a stochastic modeling strategy in order to take into account the presence of uncertainties. However, the stochastic finite element modeling of a more complex engineering structure composed by a large number of degrees of freedom, or its use in dynamic analyses requiring several evaluations such as in optimization and model updating, the computational cost can be prohibited or sometimes unfeasible. In these situations, the proposition of condensation strategy especially adapted for the resulting stochastic systems is interesting. This paper is devoted to the investigation of a robust model condensation strategy to reduce the random matrices of the stochastic system. The basis to be used is formed by a nominal basis evaluated by performing firstly an eigenvalue problem of the mean model enriched by static residues due to the small modifications introduced. To illustrate the main features and capabilities of the proposed strategy, numerical simulations were performed for a plate model in which the stochastic mass and stiffness matrices were generated by applying the so-called Karhunen-Loève expansion. The stochastic results are presented in terms frequency response function envelopes for the full and reduced stochastic dynamic systems subjected to a deterministic excitation.Programa de Pós-Graduação em Integridade de Materiais da Engenharia2017-01-30info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://periodicos.unb.br/index.php/ripe/article/view/2161910.26512/ripe.v2i16.21619Revista Interdisciplinar de Pesquisa em Engenharia; Vol. 2 No. 16 (2016): STOCHASTIC MODELING AND UNCERTAINTY QUANTIFICATION; 90-100Revista Interdisciplinar de Pesquisa em Engenharia; v. 2 n. 16 (2016): STOCHASTIC MODELING AND UNCERTAINTY QUANTIFICATION; 90-1002447-6102reponame:Revista Interdisciplinar de Pesquisa em Engenhariainstname:Universidade de Brasília (UnB)instacron:UNBenghttps://periodicos.unb.br/index.php/ripe/article/view/21619/19936Copyright (c) 2019 Revista Interdisciplinar de Pesquisa em Engenharia - RIPEinfo:eu-repo/semantics/openAccessL. Rosa, UlissesK.S. Gonçalves, LaurenM.G. de Lima, A.2019-06-16T03:06:43Zoai:ojs.pkp.sfu.ca:article/21619Revistahttps://periodicos.unb.br/index.php/ripePUBhttps://periodicos.unb.br/index.php/ripe/oaianflor@unb.br2447-61022447-6102opendoar:2019-06-16T03:06:43Revista Interdisciplinar de Pesquisa em Engenharia - Universidade de Brasília (UnB)false |
| dc.title.none.fl_str_mv |
A ROBUST CONDENSATION STRATEGY FOR STOCHASTIC DYNAMIC SYSTEMS |
| title |
A ROBUST CONDENSATION STRATEGY FOR STOCHASTIC DYNAMIC SYSTEMS |
| spellingShingle |
A ROBUST CONDENSATION STRATEGY FOR STOCHASTIC DYNAMIC SYSTEMS L. Rosa, Ulisses Parametric uncertainties. Robust condensation. Stochastic finite elements method. Dynamics. |
| title_short |
A ROBUST CONDENSATION STRATEGY FOR STOCHASTIC DYNAMIC SYSTEMS |
| title_full |
A ROBUST CONDENSATION STRATEGY FOR STOCHASTIC DYNAMIC SYSTEMS |
| title_fullStr |
A ROBUST CONDENSATION STRATEGY FOR STOCHASTIC DYNAMIC SYSTEMS |
| title_full_unstemmed |
A ROBUST CONDENSATION STRATEGY FOR STOCHASTIC DYNAMIC SYSTEMS |
| title_sort |
A ROBUST CONDENSATION STRATEGY FOR STOCHASTIC DYNAMIC SYSTEMS |
| author |
L. Rosa, Ulisses |
| author_facet |
L. Rosa, Ulisses K.S. Gonçalves, Lauren M.G. de Lima, A. |
| author_role |
author |
| author2 |
K.S. Gonçalves, Lauren M.G. de Lima, A. |
| author2_role |
author author |
| dc.contributor.author.fl_str_mv |
L. Rosa, Ulisses K.S. Gonçalves, Lauren M.G. de Lima, A. |
| dc.subject.por.fl_str_mv |
Parametric uncertainties. Robust condensation. Stochastic finite elements method. Dynamics. |
| topic |
Parametric uncertainties. Robust condensation. Stochastic finite elements method. Dynamics. |
| description |
In traditional design of engineering systems, it is normally assumed the mean values of the physical and mechanical properties. However, in real-world applications it may not characterize with reasonable accuracy the modifications on the dynamic behavior of the resulting systems induced by small changes on their design variables. Thus, it is interesting to perform a stochastic modeling strategy in order to take into account the presence of uncertainties. However, the stochastic finite element modeling of a more complex engineering structure composed by a large number of degrees of freedom, or its use in dynamic analyses requiring several evaluations such as in optimization and model updating, the computational cost can be prohibited or sometimes unfeasible. In these situations, the proposition of condensation strategy especially adapted for the resulting stochastic systems is interesting. This paper is devoted to the investigation of a robust model condensation strategy to reduce the random matrices of the stochastic system. The basis to be used is formed by a nominal basis evaluated by performing firstly an eigenvalue problem of the mean model enriched by static residues due to the small modifications introduced. To illustrate the main features and capabilities of the proposed strategy, numerical simulations were performed for a plate model in which the stochastic mass and stiffness matrices were generated by applying the so-called Karhunen-Loève expansion. The stochastic results are presented in terms frequency response function envelopes for the full and reduced stochastic dynamic systems subjected to a deterministic excitation. |
| publishDate |
2017 |
| dc.date.none.fl_str_mv |
2017-01-30 |
| dc.type.driver.fl_str_mv |
info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion |
| format |
article |
| status_str |
publishedVersion |
| dc.identifier.uri.fl_str_mv |
https://periodicos.unb.br/index.php/ripe/article/view/21619 10.26512/ripe.v2i16.21619 |
| url |
https://periodicos.unb.br/index.php/ripe/article/view/21619 |
| identifier_str_mv |
10.26512/ripe.v2i16.21619 |
| dc.language.iso.fl_str_mv |
eng |
| language |
eng |
| dc.relation.none.fl_str_mv |
https://periodicos.unb.br/index.php/ripe/article/view/21619/19936 |
| dc.rights.driver.fl_str_mv |
Copyright (c) 2019 Revista Interdisciplinar de Pesquisa em Engenharia - RIPE info:eu-repo/semantics/openAccess |
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Copyright (c) 2019 Revista Interdisciplinar de Pesquisa em Engenharia - RIPE |
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openAccess |
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application/pdf |
| dc.publisher.none.fl_str_mv |
Programa de Pós-Graduação em Integridade de Materiais da Engenharia |
| publisher.none.fl_str_mv |
Programa de Pós-Graduação em Integridade de Materiais da Engenharia |
| dc.source.none.fl_str_mv |
Revista Interdisciplinar de Pesquisa em Engenharia; Vol. 2 No. 16 (2016): STOCHASTIC MODELING AND UNCERTAINTY QUANTIFICATION; 90-100 Revista Interdisciplinar de Pesquisa em Engenharia; v. 2 n. 16 (2016): STOCHASTIC MODELING AND UNCERTAINTY QUANTIFICATION; 90-100 2447-6102 reponame:Revista Interdisciplinar de Pesquisa em Engenharia instname:Universidade de Brasília (UnB) instacron:UNB |
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Universidade de Brasília (UnB) |
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UNB |
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UNB |
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Revista Interdisciplinar de Pesquisa em Engenharia |
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Revista Interdisciplinar de Pesquisa em Engenharia |
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Revista Interdisciplinar de Pesquisa em Engenharia - Universidade de Brasília (UnB) |
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anflor@unb.br |
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