We devise an approximation of the marginal queue length distribution in discrete-time polling systems with batch arrivals and fixed packet sizes. The polling server uses the Bernoulli service discipline and Markovian routing. The 1-limited and exhaustive service disciplines are special cases of the Bernoulli service discipline, and traditional cyclic routing is a special case of Markovian routing. The key step of our approximation is the translation of the polling system to a structured Markov chain, while truncating all but one queue. Numerical experiments show that the approximation is very accurate in general. Our study is motivated by networks on chips with multiple masters (e.g., processors) sharing a single slave (e.g., memory)
Abstract. In this paper, we will develop a general framework to analyze polling systems with either ...
We consider a class of two-queue polling systems with exhaustive service, where the order in which t...
In this paper we consider a single-server, cyclic polling system with switch-over times. A distingui...
We devise an approximation of the marginal queue length distribution in discrete-time polling system...
Motivated by an application in wireless random-access networks, we study a class of polling systems ...
This study is devoted to a queueing analysis of polling systems with a probabilistic server routing ...
This paper analyzes a finite buffer polling system with routing. Finite buffers are used to model th...
A state-dependent 1-limited polling model with N queues is analyzed. The routing strategy generalize...
We consider a class of two-queue polling systems with exhaustive service, where the order in which t...
A state-dependent 1-limited polling model with N queues is analyzed. The routing strategy generalize...
In this paper, we will develop a tool to analyze polling systems with the autonomous-server, the tim...
In this paper, we will develop a tool to analyze polling systems with the autonomous-server, the tim...
In this paper, we will develop a general framework to analyze polling systems with either the autono...
Abstract. In this paper, we will develop a general framework to analyze polling systems with either ...
We consider a class of two-queue polling systems with exhaustive service, where the order in which t...
In this paper we consider a single-server, cyclic polling system with switch-over times. A distingui...
We devise an approximation of the marginal queue length distribution in discrete-time polling system...
Motivated by an application in wireless random-access networks, we study a class of polling systems ...
This study is devoted to a queueing analysis of polling systems with a probabilistic server routing ...
This paper analyzes a finite buffer polling system with routing. Finite buffers are used to model th...
A state-dependent 1-limited polling model with N queues is analyzed. The routing strategy generalize...
We consider a class of two-queue polling systems with exhaustive service, where the order in which t...
A state-dependent 1-limited polling model with N queues is analyzed. The routing strategy generalize...
In this paper, we will develop a tool to analyze polling systems with the autonomous-server, the tim...
In this paper, we will develop a tool to analyze polling systems with the autonomous-server, the tim...
In this paper, we will develop a general framework to analyze polling systems with either the autono...
Abstract. In this paper, we will develop a general framework to analyze polling systems with either ...
We consider a class of two-queue polling systems with exhaustive service, where the order in which t...
In this paper we consider a single-server, cyclic polling system with switch-over times. A distingui...