Add to ORKGThe object of this paper is to study joint and marginal distributions of the system states at any arbitrary time moment for a single server, finite source retrial queue, in which the server can sustain breakdowns during service times. The server life times as well as the intervals between repetitions are exponentially distributed, while the repair and the service times are generally distributed. Unlike the unreliable model studied by J. Wang et al. [23], in which the interrupted customer waits for the server back from repair, to accomplish the remaining service, in our model this customer goes to the orbit, losing the service time, elapsed before the breakdown occurs
The goal of the present paper is to analyze the steady-state distribution of the waiting time in a f...
This paper deals with the performance analysis of multiple server retrial queueing systems with a fi...
We consider a single server retrial queueing system in which arrivals occur according to a Markovian...
The object of this paper is to study joint and marginal distributions of the system states at any ar...
In this paper retrial queuing systems with a finite number of sources and collisions of the customer...
In this work, we consider an M/G/1 retrial queue where the customer service is subject to interrupti...
In this work, we consider an M/G/1 retrial queue where the customer service is subject to interrupti...
The aim of the present paper is to investigate a finite-source M/GI/1 retrial queuing system with co...
The aim of the present paper is to investigate a finite-source M/GI/1 retrial queuing system with co...
This paper centers on a discrete-time retrial queue where the server experiences breakdowns and repa...
This paper centers on a discrete-time retrial queue where the server experiences breakdowns and repa...
AFIT/GOR/ENS/07-05 This thesis considers the performance evaluation of an M/M/2 retrial queue for wh...
An M/G/1 retrial queueing system with disasters and unreliable server is investigated in this paper....
In this paper, we consider a single-server retrial queue with unreliable server and two-way communic...
Batch arrival retrial queue with positive and negative customers is considered. Server provides M ty...
The goal of the present paper is to analyze the steady-state distribution of the waiting time in a f...
This paper deals with the performance analysis of multiple server retrial queueing systems with a fi...
We consider a single server retrial queueing system in which arrivals occur according to a Markovian...
The object of this paper is to study joint and marginal distributions of the system states at any ar...
In this paper retrial queuing systems with a finite number of sources and collisions of the customer...
In this work, we consider an M/G/1 retrial queue where the customer service is subject to interrupti...
In this work, we consider an M/G/1 retrial queue where the customer service is subject to interrupti...
The aim of the present paper is to investigate a finite-source M/GI/1 retrial queuing system with co...
The aim of the present paper is to investigate a finite-source M/GI/1 retrial queuing system with co...
This paper centers on a discrete-time retrial queue where the server experiences breakdowns and repa...
This paper centers on a discrete-time retrial queue where the server experiences breakdowns and repa...
AFIT/GOR/ENS/07-05 This thesis considers the performance evaluation of an M/M/2 retrial queue for wh...
An M/G/1 retrial queueing system with disasters and unreliable server is investigated in this paper....
In this paper, we consider a single-server retrial queue with unreliable server and two-way communic...
Batch arrival retrial queue with positive and negative customers is considered. Server provides M ty...
The goal of the present paper is to analyze the steady-state distribution of the waiting time in a f...
This paper deals with the performance analysis of multiple server retrial queueing systems with a fi...
We consider a single server retrial queueing system in which arrivals occur according to a Markovian...