论文信息 - Costing a Finite Minimal Repair Replacement Policy

Costing a Finite Minimal Repair Replacement Policy

In this paper an integral equation technique is used to evaluate the expected cost for the period (0, t] of a policy involving minimal repair at failure with replacement after N failures. This cost function provides an appropriate criterion to determine the optimal replacement number N* for a system required for use over a finite time horizon. In an example, it is shown that significant cost savings can be achieved using N* from the new finite time horizon model rather than the value predicted by the usual asymptotic model.

N. Jack

[1] E. Muth. An Optimal Decision Rule for Repair vs Replacement , 1977, IEEE Transactions on Reliability.

[2] Toshio Nakagawa. A summary of discrete replacement policies , 1984 .

[3] Kyung S. Park. Optimal Number of Minimal Repairs before Replacement , 1979, IEEE Transactions on Reliability.

[4] Masashi Kowada,et al. Analysis of a system with minimal repair and its application to replacement policy , 1983 .

[5] Peter Linz,et al. Analytical and numerical methods for Volterra equations , 1985, SIAM studies in applied and numerical mathematics.

[6] A. H. Christer,et al. Comments on Finite-Period Applications of Age-Based Replacement Models , 1986 .

[7] R. I. Phelps. Replacement Policies under Minimal Repair , 1981 .

[8] N. Jack,et al. Repair Replacement Modelling over Finite Time Horizons , 1991 .