Optimum replacement of a system subject to shocks

Mohamed Abdel-Hameed

doi:10.2307/3214120

Abstract

A system is subject to shocks. Each shock weakens the system and makes it more expensive to run. It is desirable to determine a replacement time for the system. Boland and Proschan [4] consider periodic replacement of the system and give sufficient conditions for the existence of an optimal finite period, assuming that the shock process is a non-homogeneous Poisson process and the cost structure does not depend on time. Block et al. [3] establish similar results assuming that cost structure is time dependent, still requiring that the shock process is a non-homogeneous Poisson process. We show via a sample path argument that the results of [3] and [4] hold for any counting process whose jump size is of one unit magnitude.

References

[1] Abdel-Hameed, M. S. (1984) Life distribution properties of devices subject to a Lévy wear process. Math. Operat. Res. 9, 606–614.CrossRef Google Scholar

[2] Abdel-Hameed, ?. S. and Proschan, F. (1975) Shock models with underlying birth process. J. Appl. Prob. 12, 18–28.Google Scholar

[3] Block, H. W., Borges, W. S. and Savits, T. H. (1983) A general minimal repair maintenance model. University of Pittsburgh Technical Report No. 83-17.Google Scholar

[4] Boland, P. J. and Proschan, F. (1983) Optimum replacement of a system subject to shocks. Operat. Res. 31, 697–704.Google Scholar

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