Optimal Maintenance Time for Repairable Systems Under Two Types of Failures |
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Authors: | Enrico A. Colosimo Gustavo L. Gilardoni Wagner B. Santos Sergio B. Motta |
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Affiliation: | 1. Statistics Department , Universidade Federal de Minas Gerais , Brazil enricoc@est.ufmg.br;3. Statistics Department , Universidade de Brasília , Brazil;4. Electrical Power Company of Minas Gerais (CEMIG) , Brazil |
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Abstract: | Determination of preventive maintenance is an important issue for systems under degradation. A typical maintenance policy calls for complete preventive repair actions at pre-scheduled times and minimal repair actions whenever a failure occurs. Under minimal repair, failures are modeled according to a non homogeneous Poisson process. A perfect preventive maintenance restores the system to the as good as new condition. The motivation for this article was a maintenance data set related to power switch disconnectors. Two different types of failures could be observed for these systems according to their causes. The major difference between these types of failures is their costs. Assuming that the system will be in operation for an infinite time, we find the expected cost per unit of time for each preventive maintenance policy and hence obtain the optimal strategy as a function of the processes intensities. Assuming a parametrical form for the intensity function, large sample estimates for the optimal maintenance check points are obtained and discussed. |
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Keywords: | Log-linear process Maximum likelihood estimate Minimal repair Non homogeneous Poisson process Power law process |
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