OJ Onno Boxma scite author profile

This paper considers single-server, multi-queue systems with cyclic service. Non-zero switch-over times of the server between consecutive queues are assumed. A stochastic decomposition for the amount of work in such systems is obtained. This decomposition allows a short derivation of a 'pseudoconservation law' for a weighted sum of the mean waiting times at the various queues. Thus several recently proved conservation laws are generalised and explained.

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The Workload in the M/G/1 Queue with Work Removal

Boucherie

Boxma

1996

Prob. Eng. Inf. Sci.

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We consider an MIG/ I queue with the special feature of additional negative customers, who arrive according to a Poisson process. Negative customers require no service, but at their arrival a stochastic amount of work is instantaneously removed from the system. We show that the workload distribution in this MIG/ 1 queue with negative customers equals the waiting time distribution in a GI/G/l queue with ordinary customers only; the effect of the negative customers is incorporated in the new arrival process.

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A New Look at Organ Transplantation Models and Double Matching Queues

Boxma¹,

David²,

Perry³

et al. 2011

Prob. Eng. Inf. Sci.

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In this paper we propose a prototype model for the problem of managing waiting lists for organ transplantations. Our model captures the double-queue nature of the problem: there is a queue of patients, but also a queue of organs. Both may suffer from "impatience": the health of a patient may deteriorate, and organs cannot be preserved longer than a certain amount of time. Using advanced tools from queueing theory, we derive explicit results for key performance criteria: the rate of unsatisfied demands and of organ outdatings, the steady-state distribution of the number of organs on the shelf, the waiting time of a patient, and the long-run fraction of time during which the shelf is empty of organs.

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The Compensation Approach Applied to a 2 × 2 Switch

Boxma

Houtum

1993

Prob. Eng. Inf. Sci.

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In this paper we analyze an asymmetric 2 x 2 buffered switch, fed by two independent Bernoulli input streams. We derive the joint equilibrium distribution of the numbers of messages waiting in the two output buffers. This joint distribution is presented explicitly, without the use of generating functions, in the form of a sum of two alternating series of product-form geometric distributions. The method used is the so-called compensation approach, developed by Adan,Wessels and Zijm.

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Approximations of the Mean Waiting Time in an M/G/s Queueing System

Boxma¹,

Cohen²,

Huffels³

1979

Operations Research

100

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This paper considers the problem of obtaining approximate expressions for the first moment WGs of the stationary waiting time distribution in an M/G/s queueing system. Special attention is paid to the case G ≡ D, i.e., constant service times. Most known approximations are in fact heavy traffic approximations which have rather large relative errors in the light traffic case. In the present study both the light traffic and heavy traffic behavior of WGs (WDs) are taken into account. In order to obtain mean waiting time approximations it appears to be useful to introduce a quantity (the “normed cooperation coefficient”) which is inversely proportional to WGs and which is in some sense a measure for the “cooperation” between the servers of the service facility. A part of the paper is devoted to the analysis of this normed cooperation coefficient.

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OJ Onno Boxma

Pseudo-conservation laws in cyclic-service systems

The Workload in the M/G/1 Queue with Work Removal

A New Look at Organ Transplantation Models and Double Matching Queues

The Compensation Approach Applied to a 2 × 2 Switch

Approximations of the Mean Waiting Time in an M/G/s Queueing System

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