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Approximations in Renewal Theory

Published online by Cambridge University Press:  27 July 2009

Sheldon M. Ross
Sheldon M. Ross
Affiliation:
Department of Industrial Engineering and Operations Research University of California Berkeley, California 94720
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A renewal process [N(t), t ≥ 0] with interarrival times Xi, for i ≥ 1 and renewal function m (t) is considered. Let Gn, λ denote the gamma distribution with parameters n and λ–that is, dGn, λ(x) = λε–λx(λx)n-1/(n – 1)

In Section 1 we show how m(t) can be approximated by f m(s) dGn, n/t(s). In addition, we show that these approximations constitute an increasing sequence of lower bounds when the interarrival distribution has the decreasing failure rate property. In Section 2 we show how the integrated renewal function can be approximated in a similar fashion by a decreasing sequence of upper bounds. In Section 3 we consider the problem of approximating the residual life (also called excess life) and the renewal age distribution and their means, and in Section 4 we consider the distribution of N(t). Finally, in Section 5 we remark on the relationship between our approximations and the Feller technique for inverting a Laplace transform.

Type
Articles
Information
Probability in the Engineering and Informational Sciences , Volume 1 , Issue 2 , April 1987 , pp. 163 - 173
Copyright
Copyright © Cambridge University Press 1987

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References

Barlow, R. and Proschan, F. (1975). Statistical Theory of Reliability and Life Testing. New York: Holt.Google Scholar
Breiman, L. (1968). Probability. Reading, MA: Addison-Wesley.Google Scholar
Brown, M. (1980). Bounds, inequalities and monotonicity properties for some specialized renewal processes. Annals of Probability 8: 227240.CrossRefGoogle Scholar
Feller, W. (1971). An Introduction to Probability Theory and Its Applications, Vol. 2. New York: Wiley.Google Scholar
Ross, S. (1983). Stochastic Processes. New York: Wiley.Google Scholar
Van, Zwet W. (1964). Convex Transformations of Random Variables. Amsterdam: Mathematische Centrum.Google Scholar