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Individually optimal routing in parallel systems

Published online by Cambridge University Press:  14 July 2016

P. R. Kumar  and
J. Walrand
P. R. Kumar*
Affiliation:
University of Illinois
J. Walrand*
Affiliation:
University of California, Berkeley
*
Dept. of Electrical Engineering and Coordinated Science Laboratory, University of Illinois, 1101 W. Springfield Avenue, Urbana, IL 61801, USA.
∗∗ Dept. of EECS, University of California, Berkeley, CA 94720, USA.
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Abstract

Jobs arrive at a buffer from which there are several parallel routes to a destination. A socially optimal policy is one which minimizes the average delay of all jobs, whereas an individually optimal policy is one which, for each job, minimizes its own delay, with route preference given to jobs at the head of the buffer. If there is a socially optimal policy for a system with no arrivals, which can be implemented by each job following a policy γ in such a way that no job ever utilizes a previously declined route, then we show that such a γ is an individually optimal policy for each job. Moreover γ continues to be individually optimal even if the system has an arbitrary arrival process, subject only to the restriction that past arrivals are independent of future route-traversal times. Thus, γ is an individually optimal policy which is insensitive to the nature of the arrival process. In the particular case where the times to traverse the routes are exponentially distributed with a possibly different mean time for each of the parallel routes, then such an insensitive individually optimal policy does in fact exist and is moreover trivially determined by certain threshold numbers. A conjecture is also made about more general situations where such individually optimal policies exist.

Keywords

CONTROL OF QUEUESMULTISERVER SYSTEMSINDIVIDUAL OPTIMALITY
Type
Short Communications
Information
Journal of Applied Probability , Volume 22 , Issue 4 , December 1985 , pp. 989 - 995
Copyright
Copyright © Applied Probability Trust 1985 

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Footnotes

Research supported by the U.S.A.R.O. under Contract No. DAAG-29-84-K0005 (administered through LIDS at MIT) and Contract No. DAAG-29-85-K-0094.

References

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