We study sojourn times of customers in a processor sharing model with a service rate that varies over time, depending on the number of customers and on the state of a random environment. An explicit expression is derived for the Laplace-Stieltjes transform of the sojourn time conditional on the state upon arrival and the amount of work brought into the system. Particular attention is given to the conditional mean sojourn time of a customer as a function of his required amount of work, and we establish the existence of an asymptote as the amount of work tends to infinity. The method of random time change is then extended to include the possibility of a varying service rate. By means of this method, we explain the well-established proportiona...
We consider a processor sharing queue with several customer classes. For an arbitrary customer of cl...
Moments of sojourn times conditioned on the length of an admitted job are derived for a finite capac...
We study an M/G/1 processor sharing queue with multiple vacations. The server only takes a vacation ...
textabstractWe study sojourn times of customers in a processor sharing model with a service rate tha...
We study the sojourn time of customers in an $M/M/1$ queue with processor sharing service discipline...
We investigate the tail behavior of the sojourn-time distribution for a request of a given length in...
We show for the M/G/1 processor sharing queue that the service time distribution is regularly varyin...
International audienceWe study a multi-class time-sharing discipline with relative priorities known ...
This paper addresses the sojourn time asymptotics for a GI/GI/• queue operating under the Processor...
Over the past few decades, the Processor-Sharing (PS) discipline has attracted a great deal of atten...
We provide an approximate analysis of the transient sojourn time for a processor sharing queue with ...
Abstract This paper addresses the sojourn time asymptotics for a GI/GI/⋅ queue operating under the P...
This paper addresses the sojourn time asymptotics for a GI/GI/· queue operating under the Processor ...
We study a multi-class time-sharing discipline with relative priorities known as Discriminatory Proc...
We provide an approximate analysis of the transient sojourn time for a processor sharing queue with ...
We consider a processor sharing queue with several customer classes. For an arbitrary customer of cl...
Moments of sojourn times conditioned on the length of an admitted job are derived for a finite capac...
We study an M/G/1 processor sharing queue with multiple vacations. The server only takes a vacation ...
textabstractWe study sojourn times of customers in a processor sharing model with a service rate tha...
We study the sojourn time of customers in an $M/M/1$ queue with processor sharing service discipline...
We investigate the tail behavior of the sojourn-time distribution for a request of a given length in...
We show for the M/G/1 processor sharing queue that the service time distribution is regularly varyin...
International audienceWe study a multi-class time-sharing discipline with relative priorities known ...
This paper addresses the sojourn time asymptotics for a GI/GI/• queue operating under the Processor...
Over the past few decades, the Processor-Sharing (PS) discipline has attracted a great deal of atten...
We provide an approximate analysis of the transient sojourn time for a processor sharing queue with ...
Abstract This paper addresses the sojourn time asymptotics for a GI/GI/⋅ queue operating under the P...
This paper addresses the sojourn time asymptotics for a GI/GI/· queue operating under the Processor ...
We study a multi-class time-sharing discipline with relative priorities known as Discriminatory Proc...
We provide an approximate analysis of the transient sojourn time for a processor sharing queue with ...
We consider a processor sharing queue with several customer classes. For an arbitrary customer of cl...
Moments of sojourn times conditioned on the length of an admitted job are derived for a finite capac...
We study an M/G/1 processor sharing queue with multiple vacations. The server only takes a vacation ...