Envelope Method for Time- and Space-Dependent Reliability Prediction

IF 1.8 Q2 ENGINEERING, MULTIDISCIPLINARY
Wu Hao, Xiaoping Du
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引用次数: 2

Abstract

Reliability can be predicted by a limit-state function, which may vary with time and space. This work extends the envelope method for a time-dependent limit-state function to a time- and space-dependent limit-state function. The proposed method uses the envelope function of time- and space-dependent limit-state function. It at first searches for the most probable point (MPP) of the envelope function using the sequential efficient global optimization in the domain of the space and time under consideration. Then the envelope function is approximated by a quadratic function at the MPP, for which analytic gradient and Hessian matrix of the envelope function are derived. Subsequently, the second-order saddlepoint approximation method is employed to estimate the probability of failure. Three examples demonstrate the effectiveness of the proposed method. The method can efficiently produce an accurate reliability prediction when the MPP is within the domain of the space and time under consideration.
时空相关可靠性预测的包络法
可靠性可以用极限状态函数来预测,而极限状态函数可能随时间和空间而变化。本文将包络法扩展到时空相关的极限状态函数。该方法采用时空相关极限状态函数的包络函数。首先在考虑的空间和时间范围内,利用序贯高效全局优化方法寻找包络函数的最可能点(MPP);然后在MPP处用二次函数逼近包络函数,推导出包络函数的解析梯度和Hessian矩阵。然后,采用二阶鞍点逼近法对失效概率进行估计。三个算例验证了该方法的有效性。该方法能有效地在考虑的空间和时间范围内对系统进行准确的可靠性预测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
5.20
自引率
13.60%
发文量
34
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