We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traffic flows are served in accordance with the generalized processor sharing (GPS) discipline. GPS-based scheduling algorithms, such as weighted fair queueing, have emerged as an important mechanism for achieving service differentiation in integrated networks. We derive the asymptotic workload behavior of the light-tailed traffic flow under the assumption that its GPS weight is larger than its traffic intensity. The GPS mechanism ensures that the workload is bounded above by that in an isolated system with the light-tailed flow served in isolation at a constant rate equal to its GPS weight. We show that the workload distribution is in fact asymptotically...
We consider networks where traffic is served according to the generalised processor sharing (GPS) pr...
We analyze the queueing behavior of long-tailed traffic flows under the Generalized Processor Sharin...
textabstractWe consider networks where traffic is served according to the Generalised Processor Shar...
We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traffic flows...
We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traffic flows...
We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traffic flows...
We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traffic flows...
We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traffic class...
Abstract—We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traf...
We analyze the queueing behavior of longtailed traffic sources under the Generalized Processor Shari...
We analyze the asymptotic behavior of long-tailed traffic flows under the Generalized Processor Shar...
We analyze the queueing behavior of long-tailed traffic flows under the Generalized Processor Sharin...
We analyze the asymptotic behavior of long-tailed traffic sources under the generalized processor sh...
We analyze the asymptotic behavior of long-tailed traffic sources under the Generalized Processor Sh...
We consider networks where traffic is served according to the generalised processor sharing (GPS) pr...
We analyze the queueing behavior of long-tailed traffic flows under the Generalized Processor Sharin...
textabstractWe consider networks where traffic is served according to the Generalised Processor Shar...
We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traffic flows...
We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traffic flows...
We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traffic flows...
We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traffic flows...
We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traffic class...
Abstract—We consider a queue fed by a mixture of light-tailed and heavy-tailed traffic. The two traf...
We analyze the queueing behavior of longtailed traffic sources under the Generalized Processor Shari...
We analyze the asymptotic behavior of long-tailed traffic flows under the Generalized Processor Shar...
We analyze the queueing behavior of long-tailed traffic flows under the Generalized Processor Sharin...
We analyze the asymptotic behavior of long-tailed traffic sources under the generalized processor sh...
We analyze the asymptotic behavior of long-tailed traffic sources under the Generalized Processor Sh...
We consider networks where traffic is served according to the generalised processor sharing (GPS) pr...
We analyze the queueing behavior of long-tailed traffic flows under the Generalized Processor Sharin...
textabstractWe consider networks where traffic is served according to the Generalised Processor Shar...