Deep learning enabled rapid nonlinear time history wind performance assessment

The ever-growing interest in performance-based wind engineering (PBWE) can be traced back to the potential to deliver more rational and economical designs. The computational effort involved in the probabilistic performance assessments underpinning PBWE is, however, a major barrier to wider applicabi...

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Published inStructures (Oxford) Vol. 66; p. 106810
Main Authors Li, Bowei, Spence, Seymour M.J.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.08.2024
Subjects
Deep learning
Metamodeling
Nonlinear dynamic wind response
Probabilistic wind performance assessment
Deep learning
Probabilistic wind performance assessment
Nonlinear dynamic wind response
Metamodeling
Online AccessGet full text
ISSN2352-0124
2352-0124
DOI10.1016/j.istruc.2024.106810

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Abstract The ever-growing interest in performance-based wind engineering (PBWE) can be traced back to the potential to deliver more rational and economical designs. The computational effort involved in the probabilistic performance assessments underpinning PBWE is, however, a major barrier to wider applicability. This is especially true in light of the reliance of PBWE on nonlinear dynamic analysis. This work is centered on alleviating this barrier through the development of a deep learning metamodeling technique for rapidly predicting the nonlinear dynamic response of structural systems subject to stochastic wind loads. The metamodeling technique is based on first identifying a reduced space by Galerkin projection that is subsequently learned through the application of long short-term memory (LSTM) neural networks. Methods are proposed that enable the training of the deep learning metamodel to multiple wind directions using short-duration segments of nonlinear dynamic response time histories. The potential of the framework is demonstrated through application to a 37-story steel frame modeled with fiber-based distributed plasticity and subject to stochastic wind excitation. The calibrated deep learning metamodel is seen to be capable of accurately reproducing both the displacement and fiber response simultaneously at all degrees of freedom with speedups of over four orders of magnitude.
AbstractList The ever-growing interest in performance-based wind engineering (PBWE) can be traced back to the potential to deliver more rational and economical designs. The computational effort involved in the probabilistic performance assessments underpinning PBWE is, however, a major barrier to wider applicability. This is especially true in light of the reliance of PBWE on nonlinear dynamic analysis. This work is centered on alleviating this barrier through the development of a deep learning metamodeling technique for rapidly predicting the nonlinear dynamic response of structural systems subject to stochastic wind loads. The metamodeling technique is based on first identifying a reduced space by Galerkin projection that is subsequently learned through the application of long short-term memory (LSTM) neural networks. Methods are proposed that enable the training of the deep learning metamodel to multiple wind directions using short-duration segments of nonlinear dynamic response time histories. The potential of the framework is demonstrated through application to a 37-story steel frame modeled with fiber-based distributed plasticity and subject to stochastic wind excitation. The calibrated deep learning metamodel is seen to be capable of accurately reproducing both the displacement and fiber response simultaneously at all degrees of freedom with speedups of over four orders of magnitude.
ArticleNumber 106810
Author Spence, Seymour M.J.
Li, Bowei
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Snippet The ever-growing interest in performance-based wind engineering (PBWE) can be traced back to the potential to deliver more rational and economical designs. The...
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SubjectTerms Deep learning
Metamodeling
Nonlinear dynamic wind response
Probabilistic wind performance assessment
Title Deep learning enabled rapid nonlinear time history wind performance assessment
URI https://dx.doi.org/10.1016/j.istruc.2024.106810
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