Efficient procedure for failure probability function estimation in augmented space

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Autoren

Externe Organisationen

  • Xiamen University
  • Universidad Adolfo Ibanez
  • The University of Liverpool
  • Tongji University
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Details

OriginalspracheEnglisch
Aufsatznummer102104
FachzeitschriftStructural Safety
Jahrgang92
Frühes Online-Datum24 Mai 2021
PublikationsstatusVeröffentlicht - Sept. 2021

Abstract

An efficient procedure is proposed to estimate the failure probability function (FPF) with respect to design variables, which correspond to distribution parameters of basic structural random variables. The proposed procedure is based on the concept of an augmented reliability problem, which assumes the design variables as uncertain by assigning a prior distribution, transforming the FPF into an expression that includes the posterior distribution of those design variables. The novel contribution of this work consists of expressing this target posterior distribution as an integral, allowing it to be estimated by means of sampling, and no distribution fitting is needed, leading to an efficient estimation of FPF. The proposed procedure is implemented within three different simulation strategies: Monte Carlo simulation, importance sampling and subset simulation; for each of these cases, expressions for the coefficient of variation of the FPF estimate are derived. Numerical examples illustrate performance of the proposed approaches.

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Efficient procedure for failure probability function estimation in augmented space. / Yuan, Xiukai; Liu, Shaolong; Valdebenito, M. A. et al.
in: Structural Safety, Jahrgang 92, 102104, 09.2021.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Yuan X, Liu S, Valdebenito MA, Gu J, Beer M. Efficient procedure for failure probability function estimation in augmented space. Structural Safety. 2021 Sep;92:102104. Epub 2021 Mai 24. doi: 10.1016/j.strusafe.2021.102104
Yuan, Xiukai ; Liu, Shaolong ; Valdebenito, M. A. et al. / Efficient procedure for failure probability function estimation in augmented space. in: Structural Safety. 2021 ; Jahrgang 92.
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title = "Efficient procedure for failure probability function estimation in augmented space",
abstract = "An efficient procedure is proposed to estimate the failure probability function (FPF) with respect to design variables, which correspond to distribution parameters of basic structural random variables. The proposed procedure is based on the concept of an augmented reliability problem, which assumes the design variables as uncertain by assigning a prior distribution, transforming the FPF into an expression that includes the posterior distribution of those design variables. The novel contribution of this work consists of expressing this target posterior distribution as an integral, allowing it to be estimated by means of sampling, and no distribution fitting is needed, leading to an efficient estimation of FPF. The proposed procedure is implemented within three different simulation strategies: Monte Carlo simulation, importance sampling and subset simulation; for each of these cases, expressions for the coefficient of variation of the FPF estimate are derived. Numerical examples illustrate performance of the proposed approaches.",
keywords = "Bayesian theory, Failure probability function, Reliability analysis, Reliability-based optimization",
author = "Xiukai Yuan and Shaolong Liu and Valdebenito, {M. A.} and Jian Gu and Michael Beer",
note = "Funding Information: The authors would like to acknowledge financial support from NSAF (Grant No. U1530122 ), the Aeronautical Science Foundation of China (Grant No. ASFC-20170968002 ), the Fundamental Research Funds for the Central Universities of China ( XMU-20720180072 ) and ANID (National Agency for Research and Development, Chile) under its program FONDECYT , grant number 1180271 . ",
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Download

TY - JOUR

T1 - Efficient procedure for failure probability function estimation in augmented space

AU - Yuan, Xiukai

AU - Liu, Shaolong

AU - Valdebenito, M. A.

AU - Gu, Jian

AU - Beer, Michael

N1 - Funding Information: The authors would like to acknowledge financial support from NSAF (Grant No. U1530122 ), the Aeronautical Science Foundation of China (Grant No. ASFC-20170968002 ), the Fundamental Research Funds for the Central Universities of China ( XMU-20720180072 ) and ANID (National Agency for Research and Development, Chile) under its program FONDECYT , grant number 1180271 .

PY - 2021/9

Y1 - 2021/9

N2 - An efficient procedure is proposed to estimate the failure probability function (FPF) with respect to design variables, which correspond to distribution parameters of basic structural random variables. The proposed procedure is based on the concept of an augmented reliability problem, which assumes the design variables as uncertain by assigning a prior distribution, transforming the FPF into an expression that includes the posterior distribution of those design variables. The novel contribution of this work consists of expressing this target posterior distribution as an integral, allowing it to be estimated by means of sampling, and no distribution fitting is needed, leading to an efficient estimation of FPF. The proposed procedure is implemented within three different simulation strategies: Monte Carlo simulation, importance sampling and subset simulation; for each of these cases, expressions for the coefficient of variation of the FPF estimate are derived. Numerical examples illustrate performance of the proposed approaches.

AB - An efficient procedure is proposed to estimate the failure probability function (FPF) with respect to design variables, which correspond to distribution parameters of basic structural random variables. The proposed procedure is based on the concept of an augmented reliability problem, which assumes the design variables as uncertain by assigning a prior distribution, transforming the FPF into an expression that includes the posterior distribution of those design variables. The novel contribution of this work consists of expressing this target posterior distribution as an integral, allowing it to be estimated by means of sampling, and no distribution fitting is needed, leading to an efficient estimation of FPF. The proposed procedure is implemented within three different simulation strategies: Monte Carlo simulation, importance sampling and subset simulation; for each of these cases, expressions for the coefficient of variation of the FPF estimate are derived. Numerical examples illustrate performance of the proposed approaches.

KW - Bayesian theory

KW - Failure probability function

KW - Reliability analysis

KW - Reliability-based optimization

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U2 - 10.1016/j.strusafe.2021.102104

DO - 10.1016/j.strusafe.2021.102104

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VL - 92

JO - Structural Safety

JF - Structural Safety

SN - 0167-4730

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ER -

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