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A novel opportunistic maintenance strategy for systems with dependent main and auxiliary components

Jingyuan Shen, Yanjing Zhang, Yizhong Ma, Cong Lin

2020IMA Journal of Management Mathematics25 citationsDOI

Abstract

Abstract The complexity of dependence between different types of components results in many challenges to estimate system reliability and to optimize maintenance plans. In this paper, we develop a reliability model to study the failure dependence of a system with a main component and several protective auxiliary components. Damage to the main component caused by random environmental shocks depends on the number of auxiliary components in operation. When the execution of inspection and maintenance actions during system operation is difficult, failures of the main component provide opportunities to inspect and replace the auxiliary components. We derive the system reliability using Laplace transforms and the matrix method. The optimization problem is solved by an enumeration method. A numerical example and sensitivity studies of cost parameters show how the evolution of the parameters influences the optimal maintenance strategy. The results show that a high replacement threshold of the auxiliary components is required when the replacement cost of the main component is high. Conversely, the threshold could be adjusted to a lower level when the replacement cost of the auxiliary components and the downtime cost increase.

Topics & Concepts

DowntimeComponent (thermodynamics)Reliability engineeringReliability (semiconductor)Computer scienceMathematical optimizationMaintenance actionsMathematicsEngineeringPhysicsThermodynamicsQuantum mechanicsPower (physics)Reliability and Maintenance OptimizationStatistical Distribution Estimation and ApplicationsSoftware Reliability and Analysis Research
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