On the optimal assignment of customers to parallel servers

Weber, Richard

doi:10.2307/3213411

Cited by 303 publications

(123 citation statements)

References 3 publications

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“…En supposant que la distribution de temps de service est la même pour les deux files, Winston [15], Weber [12], Ephremides, Varaiya et Walrand [2] ont montré qu'envoyer les clients dans la file la moins chargée est une politique fortement optimale.…”

Section: Introductionunclassified

Contrôle dynamique de flux dans un système d'attente avec panne

Haqiq

Mikou

1999

RAIRO-Oper. Res.

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Section: Introductionunclassified

Contrôle dynamique de flux dans un système d'attente avec panne

Haqiq

Mikou

1999

RAIRO-Oper. Res.

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“…If this were possible each routing unit would at each time send an arriving task to the server with the shortest queue in case µ 1 =µ 2 . This minimizes the expected waiting time in the class of all policies which assign a task upon its arrival to a server [20,45,46]. Of course one can do even better if one postpones the assignment decision until a server becomes free, or equivalently if unlimited jockeying between the queues is possible (See [4] for a discussion on how much further improvement in performance this can give).…”

Section: Overflow Routing Strategiesmentioning

confidence: 99%

“…Again when all the routing units have the same information at all times and hence can be coordinated, then it does not matter that there is more than one arrival stream. Optimal control results such as "join the shortest queue" (JSQ) [45,46) can be used. Several extensions of this closed-loop optimal routing have been studied for more complicated systems [14,15,26,31,34).…”

Section: A1mentioning

confidence: 99%

Distributed routing for load balancing

Boel

Schuppen²

1989

Proc. IEEE

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This paper discusses some open-loop and closed-loop control algorithms for an example of a discreteevent system, viz. the routing of arriving tasks from different arrival streams among several possible service stations. We show that it is possible to design open-loop policies that give good performance in a way which is very robust with respect to large changes in the arrival rates. This is possible even though we assume that there is no on-line coordination between the routing algorithms for the different arrival streams. Some further improvements of the performance are possible when a simple feedback policy -overflow routing -is implemented. This also gives reasonable robustness of the performance with respect to changes in the service rates. Several different analysis techniques are needed to obtain the analytical and numerical solutions necessary to compare the performance of the different policies. (1985 Revision): 93E20, 90822, 68C15. Mathematics Subject Classification

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“…We will do so for the situation of shortest expected delay rQuting which means that the jobs of all customers are considered as consisting of r exponentially distributed subjobs and a new job is joining the queue with the lowest number of subjobs to be executed (in case the numbers of subjobs are equal, either queue is joined with probabilitỹ ). Hordijk and Koole [13] and Weber [16] have shown that, within certain constraints, this way of routing is optimal. For us, however, the important aspect is that the model can be represented by a two-dimensional random walk in the first quadrant of the plane: Define i and j as the numbers of subjobs in both queues and define the state (m, n) by m = min(i,j), n = Ii -jl.…”

Section: Introductionmentioning

confidence: 99%

Shortest expected delay routing for Erlang servers

Adan

Wessels

1996

Queueing Syst

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The queueing problem with a Poisson arrival stream and two identical Erlang servers is analysed for the queueing discipline based on shortest expected delay. This queueing problem may be represented as a random walk on the integer grid in the first quadrant of the plane. In the paper it is shown that the equilibrium distribution of this random walk can be written as a countable linear combination of product forms. This linear combination is constructed in a compensation procedure. In this case the compensation procedure is essentially more complicated than in other cases where the same idea was exploited. The reason for the complications is that in this case the boundary consists of several layers which in turn is caused by the fact that transitions starting in inner states are not restricted to end in neighbouring states.Good starting solutions for the compensation procedure are found by solving the shortest expected delay problem with the same service distributions but with instantaneous jockeying.It is also shown that the results can be used for an efficient computation of relevant performance criteria.

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On the optimal assignment of customers to parallel servers

Cited by 303 publications

References 3 publications

Contrôle dynamique de flux dans un système d'attente avec panne

Contrôle dynamique de flux dans un système d'attente avec panne

Distributed routing for load balancing

Shortest expected delay routing for Erlang servers

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