Analysis of Queueing Systems with an Infinite Number of Servers and a Small Parameter
Journal: Discrete and Continuous Models and Applied Computational Science (Vol.26, No. 2)Publication Date: 2018-04-21
Authors : S Vasilyev; G Tsareva;
Page : 167-175
Keywords : countable Markov chains; large-scale queueing systems; singular perturbed systems of differential equations; differential equations of infinite order; small parameter;
Abstract
In this paper we consider the dynamics of large-scale queueing systems with an infinite number of servers. We assume that there is a Poisson input flow of requests with intensity . We suppose that each incoming request selects two any servers randomly and at the next step of an algorithm is sending this request to the server with the shorter queue instantly. A share () of the servers that have the queues lengths with not less than can be described using a system of ordinary differential equations of infinite order. We investigate this system of ordinary differential equations of infinite order with a small real parameter. A small real parameter allows us to describe the processes of rapid changes in large-scale queueing systems. We use the simulation methods for this large-scale queueing systems analysis. The numerical simulation show that the solution of the singularly perturbed systems of differential equations have an area of rapid change of the solutions, which is usually located in the initial point of the problem. This area of rapid function change is called the area of the mathematical boundary layer. The thickness of the boundary layer depends on the value of a small parameter, and when the small parameter decreases, the thickness of the boundary layer decreases. The paper presents the numerical examples of the existence of steady state conditions for evolutions () and quasi-periodic conditions with boundary layers for evolutions ().
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