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Condition-based maintenance for multi-component systems: Modeling, structural properties, and algorithms

Zhicheng Zhu, Yisha Xiang

2020IISE Transactions45 citationsDOIOpen Access PDF

Abstract

Condition-Based Maintenance (CBM) is an effective maintenance strategy to improve system performance while lowering operating and maintenance costs. Real-world systems typically consist of a large number of components with various interactions among components. However, existing studies on CBM mainly focus on single-component systems. Multi-component CBM, which joins the components’ stochastic degradation processes and the combinatorial maintenance grouping problem, remains an open issue in the literature. In this article, we study the CBM optimization problem for multi-component systems. We first develop a multi-stage stochastic integer model with the objective of minimizing the total maintenance cost over a finite planning horizon. We then investigate the structural properties of a two-stage model. Based on the structural properties, two efficient algorithms are designed to solve the two-stage model. Algorithm 1 solves the problem to its optimality and Algorithm 2 heuristically searches for high-quality solutions based on Algorithm 1. Our computational studies show that Algorithm 1 obtains optimal solutions in a reasonable amount of time and Algorithm 2 can find high-quality solutions quickly. The multi-stage problem is solved using a rolling horizon approach based on the algorithms for the two-stage problem. Supplementary materials are available for this article. Go to the publisher’s online edition of IISE Transaction, datasets, additional tables, detailed proofs, etc.

Topics & Concepts

AlgorithmComputer scienceMathematical optimizationFocus (optics)JoinsTime horizonGreedy algorithmEfficient algorithmCondition-based maintenanceInteger (computer science)Algorithm designMaintenance engineeringOptimization problemOptimal maintenanceApproximation algorithmOnline algorithmStochastic processOptimization algorithmCluster analysisReliability and Maintenance OptimizationAdvanced Queuing Theory AnalysisTransportation Systems and Infrastructure
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