Opportunistic Maintenance for Heterogeneous Complex Systems Under Continuous Monitoring

ERN: Primary Taxonomy (Topic) Pub Date : 2019-08-21 DOI:10.2139/ssrn.3440745

I. Castro, R. Basten, G. van Houtum

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引用次数: 1

Abstract

We analyze the maintenance strategy for a complex system consisting of two types of components: non-monitored and monitored. Non-monitored components can only be maintained correctively upon failure. Monitored components are monitored continuously and are maintained when they become too degraded, i.e., just before its degradation level hits a threshold. There is an economic dependence between the components, which means that a maintenance intervention for one component can be used as an opportunity for preventive maintenance of monitored components: If the degradation level of a monitored component exceeds a preventive threshold at the time of another maintenance intervention, this component is maintained preventively. Evaluating the costs of a given maintenance strategy is time consuming, especially for a large number of monitored components. However, using semi-regenerative techniques instead of renewal techniques, we are able to drastically shorten the required computation time: For a system with ten monitored components, the computation time to evaluate the optimal maintenance strategy goes from more than a day to few seconds. We give numerical examples to illustrate our results.

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连续监测下异构复杂系统的机会维护

本文分析了由两类组件组成的复杂系统的维护策略:非监视和监视。非监控组件只有在发生故障时才能进行正确的维护。被监视的组件将被持续监视，并在它们退化过度时进行维护，也就是说，就在其退化程度达到阈值之前。组件之间存在经济依赖关系，这意味着对一个组件的维护干预可以用作对被监视组件进行预防性维护的机会:如果在另一次维护干预时被监视组件的退化程度超过预防性阈值，则对该组件进行预防性维护。评估给定维护策略的成本非常耗时，特别是对于大量被监视的组件。然而，使用半再生技术而不是更新技术，我们能够大大缩短所需的计算时间:对于具有十个监控组件的系统，评估最佳维护策略的计算时间从一天多减少到几秒钟。我们给出了数值例子来说明我们的结果。

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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ERN: Primary Taxonomy (Topic)

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