Optimal replacement with semi-Markov shock models

Richard M. Feldman

doi:10.2307/3212670

Abstract

Consider a system that is subject to a sequence of randomly occurring shocks; each shock causes some damage of random magnitude to the system. Any of the shocks might cause the system to fail, and the probability of such a failure is a function of the sum of the magnitudes of damage caused from all previous shocks.

The purpose of this paper is to derive the optimal replacement rule for such a system whose cumulative damage process is a semi-Markov process. This allows for both the time between shocks and the damage due to the next shock to be dependent on the present cumulative damage level.

Only policies within the class of control-limit policies will be considered; namely, policies with which no action is taken if the damage is below a fixed level, and a replacement is made if the damage is above that.

An example will be given illustrating the use of the optimal replacement rule.

Footnotes

Research supported by the Air Force Office of Scientific Research through their Grant No. AFOSR–74–2733.

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Optimal replacement with semi-Markov shock models

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Optimal replacement with semi-Markov shock models

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