In this paper, we consider a proportional delay model for Internet differentiated services. Under this model, an ISP can control the "spacing" of waiting times between different classes of traffic. Specifically, the ISP tries to ensure that the average waiting time of class traffic relative to that of class traffic is consistently a specifiable ratio. If the ratio is less than one, the ISP can legitimately charge users of class traffic a higher tariff rate (compared to the rate for class traffic), since class users consistently enjoy better performance than class users. We use time-dependent priority scheduling to realize the proportional delay model. We formally characterize the feasible regions in which given delay ratios...
With the advent of diversified network applications and utilization, the services demanded by users...
This paper shows how the delay of jobs/packets using priority based scheduling mechanisms can be com...
Supporting different services with different Quality of Service (QoS) requirements is not an easy ta...
In this paper, we consider a proportional delay model for Internet differentiated services. Under th...
Proportional delay differentiation (PDD) model is an important approach to relative differentiated s...
Proportional Differentiated Services can be provisioned in terms of bandwidth, delay, or packet loss...
This article evaluates the use of Priority Queueing models to achieve delay differentiation in IP ne...
This article evaluates the use of Priority Queuing (PQ) Models to achieve delay differentiation in n...
Traditionally, the Internet has provided the same level of service (best effort service) to all user...
Differentiated Services (DiffServ) is a promising architecture for the next generation Internet due ...
Abstract—The single best-effort service of the Internet strug-gles to accommodate divergent needs of...
In this work, we define a novel Internet service, called ABE (Alternative Best-Effort), which allows...
The Proportional Differentiation Model (PDM) is currently one of the main service proposals for the ...
The Differentiated Services architecture provides router mechanisms for aggregate traffic, and edge ...
This article presents an hybrid priority queuing model based scheduler for real-time traffic differe...
With the advent of diversified network applications and utilization, the services demanded by users...
This paper shows how the delay of jobs/packets using priority based scheduling mechanisms can be com...
Supporting different services with different Quality of Service (QoS) requirements is not an easy ta...
In this paper, we consider a proportional delay model for Internet differentiated services. Under th...
Proportional delay differentiation (PDD) model is an important approach to relative differentiated s...
Proportional Differentiated Services can be provisioned in terms of bandwidth, delay, or packet loss...
This article evaluates the use of Priority Queueing models to achieve delay differentiation in IP ne...
This article evaluates the use of Priority Queuing (PQ) Models to achieve delay differentiation in n...
Traditionally, the Internet has provided the same level of service (best effort service) to all user...
Differentiated Services (DiffServ) is a promising architecture for the next generation Internet due ...
Abstract—The single best-effort service of the Internet strug-gles to accommodate divergent needs of...
In this work, we define a novel Internet service, called ABE (Alternative Best-Effort), which allows...
The Proportional Differentiation Model (PDM) is currently one of the main service proposals for the ...
The Differentiated Services architecture provides router mechanisms for aggregate traffic, and edge ...
This article presents an hybrid priority queuing model based scheduler for real-time traffic differe...
With the advent of diversified network applications and utilization, the services demanded by users...
This paper shows how the delay of jobs/packets using priority based scheduling mechanisms can be com...
Supporting different services with different Quality of Service (QoS) requirements is not an easy ta...