Conceptually, under restrictions, multiclass open queueing networks are positive Harris recurrent Markov processes, making them amenable to regenerative simulation for estimating the steady-state performance measures. However, regenerations in such networks are difficult to identify when the interarrival times are generally distributed. We assume that the interarrival times have exponential or heavier tails and show that such distributions can be decomposed into mixture of sums of independent random variables such that at least one of the components is exponentially distributed. This allows an implementable regenerative simulation for these networks. We show that the regenerative mean and standard deviation estimators are consistent and sat...
The special structure of regenerative processes is exploited to derive a new point estimate with ver...
One of the key performance measures in queueing systems is the exponential decay rate of the steady...
In this article, we develop a new method, called regenerative randomization, for the transient anal...
Conceptually, under restrictions, multiclass open queueing networks are positive Harris recurrent Ma...
Multiclass open queueing networks find wide applications in communication, computer and fabri-cation...
Multiclass open queueing networks find wide applications in communication, computer, and fabrication...
Time-sharing queueing systems in random environments allow only a limited-depth analytical study. In...
We discuss new possibilities which the weakly regenerative approach (when a dependence between two a...
We consider a single server queue with the interarrival times and the service times forming a regene...
We propose nonstandard simulation estimators of expected time averages over finite intervals [0, t],...
In this paper we generalize a method (called regenerative randomization) for the transient solution ...
Regenerative simulation (RS) is a method of stochastic steady-state simulation in which output data ...
We address performance issues associated with simulationbased algorithms for optimizing Markov rewar...
The standard regenerative method for estimating steady-state parameters is extended to permit cycles...
In this paper we develop a variant, regenerative randomization with Laplace transform inversion, of ...
The special structure of regenerative processes is exploited to derive a new point estimate with ver...
One of the key performance measures in queueing systems is the exponential decay rate of the steady...
In this article, we develop a new method, called regenerative randomization, for the transient anal...
Conceptually, under restrictions, multiclass open queueing networks are positive Harris recurrent Ma...
Multiclass open queueing networks find wide applications in communication, computer and fabri-cation...
Multiclass open queueing networks find wide applications in communication, computer, and fabrication...
Time-sharing queueing systems in random environments allow only a limited-depth analytical study. In...
We discuss new possibilities which the weakly regenerative approach (when a dependence between two a...
We consider a single server queue with the interarrival times and the service times forming a regene...
We propose nonstandard simulation estimators of expected time averages over finite intervals [0, t],...
In this paper we generalize a method (called regenerative randomization) for the transient solution ...
Regenerative simulation (RS) is a method of stochastic steady-state simulation in which output data ...
We address performance issues associated with simulationbased algorithms for optimizing Markov rewar...
The standard regenerative method for estimating steady-state parameters is extended to permit cycles...
In this paper we develop a variant, regenerative randomization with Laplace transform inversion, of ...
The special structure of regenerative processes is exploited to derive a new point estimate with ver...
One of the key performance measures in queueing systems is the exponential decay rate of the steady...
In this article, we develop a new method, called regenerative randomization, for the transient anal...