We consider a discrete-time queueing system with two queues and one server. The server is allocated in each slot to the first queue with probability alpha and to the second queue with probability 1-alpha. The service times are equal to one time slot. The queues have exponentially bounded, but general, arrival distributions. The mathematical description of this system leads to a single functional equation for the joint probability generating function of the stationary system contents. As the joint stochastic process of the system contents is not amenable for exact analysis, we focus on an efficient approximation of the joint probability generating function. In particular, first we prove that the partial probability generating functions, pres...
We consider a class of two-queue polling systems with exhaustive service, where the order in which t...
We consider a system consisting of two not necessarily identical exponential servers having a common...
In discrete-time queueing theory, the service process is traditionally modeled using the notion of s...
We consider a discrete-time queueing system with two queues and one server. The server is allocated ...
We analyze a discrete-time two-class queueing system with a single server which is alternately avail...
We consider a discrete-time queueing system with one server and two types of customers, say type-1 a...
We develop power series approximations for a discrete-time queueing system with two parallel queues ...
This paper studies a discrete-time single-server queueing system with correlated arrivals. Arrivals ...
The paper revisits the problem of the computation of the joint stationary probability distribution p...
The purpose of this paper is to provide a new approximation technique for describing the performance...
We consider a discrete-time queueing model whereby the service capacity of the system, i.e., the num...
In this work we look at a discrete-time multiserver queueing system where the number of available se...
The research program on this grant was to develop new asymptotic and perturbation methods for approx...
We consider a class of two-queue polling systems with exhaustive service, where the order in which t...
This paper compares two discrete-time single-server queueing models with two queues. In both models,...
We consider a class of two-queue polling systems with exhaustive service, where the order in which t...
We consider a system consisting of two not necessarily identical exponential servers having a common...
In discrete-time queueing theory, the service process is traditionally modeled using the notion of s...
We consider a discrete-time queueing system with two queues and one server. The server is allocated ...
We analyze a discrete-time two-class queueing system with a single server which is alternately avail...
We consider a discrete-time queueing system with one server and two types of customers, say type-1 a...
We develop power series approximations for a discrete-time queueing system with two parallel queues ...
This paper studies a discrete-time single-server queueing system with correlated arrivals. Arrivals ...
The paper revisits the problem of the computation of the joint stationary probability distribution p...
The purpose of this paper is to provide a new approximation technique for describing the performance...
We consider a discrete-time queueing model whereby the service capacity of the system, i.e., the num...
In this work we look at a discrete-time multiserver queueing system where the number of available se...
The research program on this grant was to develop new asymptotic and perturbation methods for approx...
We consider a class of two-queue polling systems with exhaustive service, where the order in which t...
This paper compares two discrete-time single-server queueing models with two queues. In both models,...
We consider a class of two-queue polling systems with exhaustive service, where the order in which t...
We consider a system consisting of two not necessarily identical exponential servers having a common...
In discrete-time queueing theory, the service process is traditionally modeled using the notion of s...