Optimal allocation of reliability improvement target based on multiple correlation failures and risk uncertainty

Eksploatacja i Niezawodność – Maintenance and Reliability Pub Date : 2023-01-27 DOI:10.17531/ein.2023.1.8

Shuoguo Jia, C. Yan, Jianxiong Kang, Heping Xie, Yongqiao Wei

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Abstract

Optimal allocation of the reliability improvement target is essential for the system optimization design. In order to solve the problems that the optimization model is with loss of generality and the validity of the optimal solution is weakened, an optimal allocation method is proposed by considering multiple correlation failures and risk uncertainty in this paper. Two new concepts are presented, such as independent failure results in basic risk, and correlation failure leads to disturbance risk. A risk assessment machinery of “actual risk = basic risk + disturbance risk” is proposed. The action mechanisms of the three correlation failures are studied based on the cooperation game theory, and the generalized risk models are given under probability measure. Considering the improvement cost, the expectation and the variance of the reduction of system risk, a multi-objective optimal allocation model is developed, which is solved by using the PSO algorithm. Finally, the proposed optimal allocation is implemented at the 2-stage NGW planetary reducer, and the results show that it is more efficient and feasible for engineering practice.

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基于多关联故障和风险不确定性的可靠性改进目标优化分配

可靠性改进目标的优化分配是系统优化设计的关键。针对优化模型缺乏通用性和优化解有效性减弱的问题，提出了一种考虑多重关联失效和风险不确定性的优化分配方法。提出了独立失效导致基本风险和相关失效导致扰动风险的两个新概念。提出了“实际风险=基本风险+扰动风险”的风险评估机制。基于合作博弈论研究了三种相关失效的作用机制，并给出了概率测度下的广义风险模型。考虑系统风险降低的改进成本、期望和方差，建立了多目标优化分配模型，并采用粒子群算法求解。最后，以2级NGW行星减速器为例进行了优化配置，结果表明该优化配置方法具有较高的效率和可行性。

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Eksploatacja i Niezawodność – Maintenance and Reliability

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