M. L. Chaudhry scite author profile

We consider a batch arrival infinite-buffer single-server queue with generally distributed inter-batch arrival times with arrivals occurring in batches of random sizes. The service process is correlated and its structure is governed by a Markovian service process in continuous time. The proposed analysis is based on roots of the associated characteristic equation of the vector-generating function of system-length distribution at a pre-arrival epoch. We also obtain the steady-state probability distribution at an arbitrary epoch using the classical argument based on Markov renewal theory. Some important performance measures such as the average number of customers in the system and the mean sojourn time have also been obtained. Later, we have established heavy-and light-traffic approximations as well as an approximation for the tail probabilities at pre-arrival epoch based on one root of the characteristic equation. Numerical results for some cases have been presented to show the effect of model parameters on the performance measures.

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Robustness of Rootfinding in Single-Server Queueing Models

Chaudhry

Harris

Marchal

1990

ORSA Journal on Computing

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There has been frequent controversy over the years regarding the use of numerical rootfinding for the solution of queueing problems. It has been said that such problems quite often present computational difficulties. However, it turns out that rootfinding in queueing is so well structured that problems rarely occur. There are fundamental properties possessed by the well-known queueing models that eliminate classical rootfinding problems. Most importantly, we show that distinctness of roots is common within simply determined regions in the complex plane and provide conditions under which the characteristic equations for the G/EK/1 and EK/G/1 models have easily found, distinct roots. Furthermore, we show that the characteristic equation for the more general G/GEK/1 model has a collection of real and complex roots which are effectively distinct and located in clearly defined regions of the complex domain. Extensive computational results are given to support our contentions. INFORMS Journal on Computing, ISSN 1091-9856, was published as ORSA Journal on Computing from 1989 to 1995 under ISSN 0899-1499.

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A complete and simple solution for a discrete-time multi-server queue with bulk arrivals and deterministic service times

Chaudhry

Kim

2003

Operations Research Letters

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A Simple and Complete Computational Analysis of MAP/R/1 Queue Using Roots

Chaudhry

Singh

Gupta

2011

Methodol Comput Appl Probab

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The queueing system M^X/G/1 and its ramifications

Chaudhry

1979

Naval Research Logistics

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This paper deals with the bulk arrival queueing system MX/G/1 and its ramifications. In the system MX/G/1, customers arrive in groups of size X (a random variable) by a Poisson process, the service times distribution is general, and there is a single server. Although some results for this queueing system have appeared in various books, no unified account of these, as is being presented here, appears to have been reported so far. The chief objectives of the paper are (i) to unify by an elegant procedure the relationships between the p.g.f.'smagnified imagewhere Pn and Pn+ are the limiting probabilities of queue lengths being n at random and departure epochs respectively, (ii) to correct an error in the paper by Krakowski and generalize his results and (iii) to discuss some other interesting cases of the system MX/G/1 and its special cases.

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M. L. Chaudhry

A simple analysis of the batch arrival queue with infinite-buffer and Markovian service process using roots method: $$ GI ^{[X]}/C$$ G I [ X ] / C - $$ MSP /1/\infty $$ M S P / 1 / ∞

Robustness of Rootfinding in Single-Server Queueing Models

A complete and simple solution for a discrete-time multi-server queue with bulk arrivals and deterministic service times

A Simple and Complete Computational Analysis of MAP/R/1 Queue Using Roots

The queueing system M^X/G/1 and its ramifications

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M. L. Chaudhry

A simple analysis of the batch arrival queue with infinite-buffer and Markovian service process using roots method: $$ GI ^{[X]}/C$$ G I [ X ] / C - $$ MSP /1/\infty $$ M S P / 1 / ∞

Robustness of Rootfinding in Single-Server Queueing Models

A complete and simple solution for a discrete-time multi-server queue with bulk arrivals and deterministic service times

A Simple and Complete Computational Analysis of MAP/R/1 Queue Using Roots

The queueing system MX/G/1 and its ramifications

Contact Info

Product

Resources

About

The queueing system M^X/G/1 and its ramifications