Efficiency of PRI and WRR DiffServ Scheduling Mechanisms for Real-Time Services on UMTS Environment

2008 New Technologies, Mobility and Security Pub Date : 2008-11-25 DOI:10.1109/NTMS.2008.ECP.40

N. Lopes, M. J. Nicolau, Alexandre J. T. Santos

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引用次数: 12

Abstract

The next generation of mobile phones will be probably all-IP based enabling users to access Internet services. In order to make this possible a satisfactory quality of service, at least equal to the fixed Internet, must be ensured. To achieve this goal an end-to-end QoS system must be constructed. Another fact is the dominance of IP over other technologies due, in large measure, to its characteristic of working with heterogeneous technologies. Consequently, being IP the common denominator on a heterogeneous environment, it is important to develop end-to-end IP QoS guarantees for the different applications over distinct access technologies. This is particularly important for cellular wireless networks due to the ever growing expansion of mobile phone users. One way to contribute to this goal is to apply DiffServ QoS mechanisms to UMTS technology in order to model an End-to-End QoS communication system. A mapping of DiffServ CodePoints into UMTS classes can be applied in order to get efficient PHB configurations. This paper proposes an architecture to support end-to-end quality of service to several application services running on mobile UMTS user agents and communicating with servers located in a wired internet. The proposed architecture is based on a DiffServ model, where QoS parameters are set either by the user agent or by the SGSN. In particular, RED queue management and PRI or WRR scheduling policies are enforced. Different UMTS traffic classes are mapped into different DiffServ parameters. The performance of this architecture has been evaluated by simulation using NS, assuming different network load scenarios. In particular, the delay and packet loss experienced by VoIP, Video, FTP and HTTP traffic are evaluated in the cases of PRI and WRR scheduling policies, and compared to those measured when DiffServ is not implemented. Finally, a revenue function to estimate the profits that an ISP could expect by using a DiffServ implementation on IP UMTS core routers is proposed.

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UMTS环境下实时业务的PRI和WRR DiffServ调度效率研究

下一代移动电话可能是全ip的，使用户能够访问互联网服务。为了使这成为可能，必须确保服务质量令人满意，至少与固定互联网相当。为了实现这一目标，必须构建端到端的QoS系统。另一个事实是IP在其他技术上的主导地位，在很大程度上是由于其使用异构技术的特性。因此，由于IP是异构环境中的公分母，因此为不同访问技术上的不同应用开发端到端IP QoS保证是很重要的。由于移动电话用户的不断增长，这对蜂窝无线网络尤其重要。实现这一目标的一种方法是将DiffServ QoS机制应用于UMTS技术，以便对端到端QoS通信系统进行建模。为了获得有效的PHB配置，可以应用DiffServ代码点到UMTS类的映射。本文提出了一种体系结构，以支持运行在移动UMTS用户代理上的多个应用服务的端到端服务质量，并与位于有线互联网中的服务器进行通信。所建议的体系结构基于DiffServ模型，其中QoS参数由用户代理或SGSN设置。特别是，RED队列管理和PRI或WRR调度策略被强制执行。不同的UMTS流量类映射到不同的DiffServ参数。在不同的网络负载情况下，使用NS对该体系结构的性能进行了仿真评估。特别地，评估了VoIP、Video、FTP和HTTP流量在PRI和WRR调度策略下的延迟和丢包情况，并与未实现DiffServ时的情况进行了比较。最后，提出了一个收益函数来估计ISP通过在IP UMTS核心路由器上使用DiffServ实现所期望的利润。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 New Technologies, Mobility and Security

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