For several specific queueing models with a vacation policy, the stationary system occupancy at the beginning of a rantdom slot is distributed as the sum of two independent random variables. One of these variables is the stationary number of customers in an equivalent queueing system with no vacations. For models in continuous time with Poissonian arrivals, this result is well-known, and referred to as stochastic decomposition, with proof provided by Fuhrmann and Cooper. For models in discrete time, this result received less attention, with no proof available to date. In this paper, we first establish a proof of the decomposition result in discrete time. When compared to the proof in continuous time, conditions for the proof in discrete tim...
We consider a discrete-time queueing system having two distinct servers: one server, the "regular" s...
This article is devoted to the study of an M/G/1 queue with a particular vacation discipline. The se...
This paper analyzes a single-server discrete-time queueing model with general independent arrivals, ...
For several specific queueing models with a vacation policy, the stationary system occupancy at the ...
For several specific discrete-time queueing models with a vacation policy, the stationary system occ...
We study the Markov chain underlying the considered queueing system obtaining the gen- erating funct...
AbstractThis paper is concerned with the analysis of a single-server queue with Bernoulli vacation s...
SUMMARY. Recently many authors have obtained various steady state results of batch arrival queues wi...
AbstractIn this paper we consider a discrete-time GeoX/G/1 queue with unreliable server and multiple...
We consider a discrete-time gated vacation system. The available buffer space is divided into two su...
A class of single server vacation queues, which have batch arrivals and single server, is considered...
A vast amount of literature has appeared on vacation queues. In the well-known number- and time-limi...
This paper centers on a discrete-time retrial queue where the server experiences breakdowns and repa...
We consider single-server queueing systems, known as vacation models, where at every service complet...
The paper studies an M/M/2 queueing system in which each server is equipped with a stand-by. The sta...
We consider a discrete-time queueing system having two distinct servers: one server, the "regular" s...
This article is devoted to the study of an M/G/1 queue with a particular vacation discipline. The se...
This paper analyzes a single-server discrete-time queueing model with general independent arrivals, ...
For several specific queueing models with a vacation policy, the stationary system occupancy at the ...
For several specific discrete-time queueing models with a vacation policy, the stationary system occ...
We study the Markov chain underlying the considered queueing system obtaining the gen- erating funct...
AbstractThis paper is concerned with the analysis of a single-server queue with Bernoulli vacation s...
SUMMARY. Recently many authors have obtained various steady state results of batch arrival queues wi...
AbstractIn this paper we consider a discrete-time GeoX/G/1 queue with unreliable server and multiple...
We consider a discrete-time gated vacation system. The available buffer space is divided into two su...
A class of single server vacation queues, which have batch arrivals and single server, is considered...
A vast amount of literature has appeared on vacation queues. In the well-known number- and time-limi...
This paper centers on a discrete-time retrial queue where the server experiences breakdowns and repa...
We consider single-server queueing systems, known as vacation models, where at every service complet...
The paper studies an M/M/2 queueing system in which each server is equipped with a stand-by. The sta...
We consider a discrete-time queueing system having two distinct servers: one server, the "regular" s...
This article is devoted to the study of an M/G/1 queue with a particular vacation discipline. The se...
This paper analyzes a single-server discrete-time queueing model with general independent arrivals, ...