Optimal maintenance of deteriorating equipment using semi-Markov decision processes and linear programming
Published 2024-03-11
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Keywords
- Semi-Markov decision processes,
- Preventive maintenance,
- Condition-based maintenance,
- Optimal policy,
- Linear programming
How to Cite
Copyright (c) 2024 International Journal of Industrial Engineering and Management
This work is licensed under a Creative Commons Attribution 4.0 International License.
Abstract
This paper considers a mathematical model analysing the deterioration of system equipment and available maintenance options. Under specific conditions on costs and transition probabilities of the model, the issue of ideal maintenance of the equipment by assuming that preventive maintenance, condition-based maintenance, and the replacement times of the equipment follow known continuous probability distributions is explored. A semi-Markov decision process formulation is provided for this model and computational analysis is possible by applying well-known Markov decision algorithms. A linear programming approach is also presented with appropriate constraints established for the equipment's maintenance and repair times. Various numerical results are also presented for the validation of the model. The motivation for this paper is to develop a realistic framework for determining decisions about the type of maintenance, possible replacement, or the continuation of operation of deteriorating equipment. The above decisions are taken within a framework of time constraints for equipment maintenance and replacement. Such limitations in the implementation of these actions are very crucial for all maintenance management systems.
Article history: Received (July 8, 2023); Revised (February 19, 2024); Accepted (February 26, 2024); Published online (March 8, 2024)