Bounds for the tail distribution in a queue with a superposition of general periodic Markov sources: Theory and application

Bounds for the tail distribution in a queue with a superposition of general periodic Markov sources: Theory and application

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Article ID: iaor20013049
Country: Netherlands
Volume: 34
Issue: 1/4
Start Page Number: 67
End Page Number: 100
Publication Date: Jan 2000
Journal: Queueing Systems
Authors: ,
Keywords: communication
Abstract:

An efficient yet accurate estimation of the tail distribution of the queue length has been considered as one of the most important issues in call admission and congestion controls in ATM networks. The arrival process in ATM networks is essentially a superposition of sources which are typically bursty and periodic either due to their origin or their periodic slot occupation after traffic shaping. In this paper, we consider a discrete-time queue where the arrival process is a superposition of general periodic Markov sources. The general periodic Markov source is rather general since it is assumed only to be irreducible, stationary and periodic. Note also that the source model can represent multiple time-scale correlations in arrivals. For this queue, we obtain upper and lower bounds for the asymptotic tail distribution of the queue length by bounding the asymptotic decay constant. The formulas can be applied to a queue having a huge number of states describing the arrival process. To show this, we consider an MPEG-like source which is a special case of general periodic Markov sources. The MPEG-like source has three time-scale correlations: peak rate, frame length and a group of pictures. We then apply our bound formulas to a queue with a superposition of MPEG-like sources, and provide some numerical examples to show the numerical feasibility of our bounds. Note that the number of states in a Markov chain describing the superposed arrival process is more than 1.4 × 1088. Even for such a queue, the numerical examples show that the order of the magnitude of the tail distribution can be readily obtained.

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