Assessing small failure probability by importance splitting method and its application to wind turbine extreme response prediction

•A simulation framework with importance splitting method is proposed.•It is used for estimating small failure probabilities of dynamic structures.•Its effectiveness is verified by a 5-story building, and a 5MW onshore wind turbine.•It is applied to validate extrapolation of wind turbine extreme resp...

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Published inEngineering structures Vol. 54; pp. 180 - 191
Main Authors Ding, Jie, Chen, Xinzhong
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.09.2013
Elsevier
Subjects
Applied sciences
Building failures (cracks, physical changes, etc.)
Building structure
Buildings. Public works
Construction (buildings and works)
Durability. Pathology. Repairing. Maintenance
Exact sciences and technology
Extreme response
Failure probability
High rise structure
Importance splitting method
Monte Carlo simulation
Multi-correlated excitations
Multivariate autoregressive model
Stresses. Safety
Structural analysis. Stresses
Wind turbines
Extreme response
Importance splitting method
Multi-correlated excitations
Failure probability
Wind turbines
Multivariate autoregressive model
Monte Carlo simulation
Monte Carlo method
Structural reliability
Probability
Wind generator
Multivariate analysis
Forecast model
Extreme value
Building dynamics
Excitation
Application
High rise building
Structural analysis
Damaging
Method study
Online AccessGet full text
ISSN0141-0296
1873-7323
DOI10.1016/j.engstruct.2013.03.051

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Abstract •A simulation framework with importance splitting method is proposed.•It is used for estimating small failure probabilities of dynamic structures.•Its effectiveness is verified by a 5-story building, and a 5MW onshore wind turbine.•It is applied to validate extrapolation of wind turbine extreme responses. This study presents an effective simulation framework with importance splitting (ISp) method for estimating small failure probabilities of dynamic structures with multi-correlated stochastic excitations, and addresses its application to predictions of large wind turbine extreme responses. The ISp method, also referred to as subset simulation with splitting, splits important sample paths into multiple branches at various stages in the simulation. It permits the estimation of a small failure probability of a rare event through estimations of conditional probabilities of intermediate subset events. The framework presented in this study combines the ISp method with multivariate autoregressive (MAR) modeling of stochastic excitations. The MAR model of excitations is established based on their cross power spectral density matrix, which transfers the stochastic excitations as the output of a loading system with a vector-valued uncorrelated white noise process as input. This scheme is very efficient in generating offsprings of loading and response time histories conditional on the intermediate events with very low rejection rate, which facilities the application of ISp method to different kinds of stochastic single and multiple excitations. The effectiveness and accuracy of the proposed new scheme are verified by a reliability problem of earthquake-excited 5-story building, and by the estimation of extreme responses of a 5MW onshore wind turbine with very small exceeding probabilities. Finally, this framework is applied to validate the extrapolation procedure of estimating wind turbine long-term extreme responses with various mean recurrence intervals from short-term simulations of turbine response histories, which is mandated by current wind turbine design standards.
AbstractList This study presents an effective simulation framework with importance splitting (ISp) method for estimating small failure probabilities of dynamic structures with multi-correlated stochastic excitations, and addresses its application to predictions of large wind turbine extreme responses. The ISp method, also referred to as subset simulation with splitting, splits important sample paths into multiple branches at various stages in the simulation. It permits the estimation of a small failure probability of a rare event through estimations of conditional probabilities of intermediate subset events. The framework presented in this study combines the ISp method with multivariate autoregressive (MAR) modeling of stochastic excitations. The MAR model of excitations is established based on their cross power spectral density matrix, which transfers the stochastic excitations as the output of a loading system with a vector-valued uncorrelated white noise process as input. This scheme is very efficient in generating offsprings of loading and response time histories conditional on the intermediate events with very low rejection rate, which facilities the application of ISp method to different kinds of stochastic single and multiple excitations. The effectiveness and accuracy of the proposed new scheme are verified by a reliability problem of earthquake-excited 5-story building, and by the estimation of extreme responses of a 5 MW onshore wind turbine with very small exceeding probabilities. Finally, this framework is applied to validate the extrapolation procedure of estimating wind turbine long-term extreme responses with various mean recurrence intervals from short-term simulations of turbine response histories, which is mandated by current wind turbine design standards.
•A simulation framework with importance splitting method is proposed.•It is used for estimating small failure probabilities of dynamic structures.•Its effectiveness is verified by a 5-story building, and a 5MW onshore wind turbine.•It is applied to validate extrapolation of wind turbine extreme responses. This study presents an effective simulation framework with importance splitting (ISp) method for estimating small failure probabilities of dynamic structures with multi-correlated stochastic excitations, and addresses its application to predictions of large wind turbine extreme responses. The ISp method, also referred to as subset simulation with splitting, splits important sample paths into multiple branches at various stages in the simulation. It permits the estimation of a small failure probability of a rare event through estimations of conditional probabilities of intermediate subset events. The framework presented in this study combines the ISp method with multivariate autoregressive (MAR) modeling of stochastic excitations. The MAR model of excitations is established based on their cross power spectral density matrix, which transfers the stochastic excitations as the output of a loading system with a vector-valued uncorrelated white noise process as input. This scheme is very efficient in generating offsprings of loading and response time histories conditional on the intermediate events with very low rejection rate, which facilities the application of ISp method to different kinds of stochastic single and multiple excitations. The effectiveness and accuracy of the proposed new scheme are verified by a reliability problem of earthquake-excited 5-story building, and by the estimation of extreme responses of a 5MW onshore wind turbine with very small exceeding probabilities. Finally, this framework is applied to validate the extrapolation procedure of estimating wind turbine long-term extreme responses with various mean recurrence intervals from short-term simulations of turbine response histories, which is mandated by current wind turbine design standards.
Author Ding, Jie
Chen, Xinzhong
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Keywords Extreme response
Importance splitting method
Multi-correlated excitations
Failure probability
Wind turbines
Multivariate autoregressive model
Monte Carlo simulation
Monte Carlo method
Structural reliability
Probability
Wind generator
Multivariate analysis
Forecast model
Extreme value
Building dynamics
Excitation
Application
High rise building
Structural analysis
Damaging
Method study
Language English
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Snippet •A simulation framework with importance splitting method is proposed.•It is used for estimating small failure probabilities of dynamic structures.•Its...
This study presents an effective simulation framework with importance splitting (ISp) method for estimating small failure probabilities of dynamic structures...
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SubjectTerms Applied sciences
Building failures (cracks, physical changes, etc.)
Building structure
Buildings. Public works
Construction (buildings and works)
Durability. Pathology. Repairing. Maintenance
Exact sciences and technology
Extreme response
Failure probability
High rise structure
Importance splitting method
Monte Carlo simulation
Multi-correlated excitations
Multivariate autoregressive model
Stresses. Safety
Structural analysis. Stresses
Wind turbines
Title Assessing small failure probability by importance splitting method and its application to wind turbine extreme response prediction
URI https://dx.doi.org/10.1016/j.engstruct.2013.03.051
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https://www.proquest.com/docview/1500778772
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