Allocating bandwidth in the resilient packet ring networks by PI controller

34th IEEE Sarnoff Symposium Pub Date : 2011-05-03 DOI:10.1109/SARNOF.2011.5876463

Fahd Alharbi, N. Ansari

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引用次数: 3

Abstract

The Resilient Packet Ring (RPR), defined under IEEE 802.17, has been proposed as a high-speed backbone technology for metropolitan area networks. RPR is introduced to mitigate the underutilization and unfairness problems associated with the current technologies, SONET and Ethernet, respectively. The key performance objectives of RPR are to achieve high bandwidth utilization, optimum spatial reuse on the dual rings, and fairness. The challenge is to design an algorithm that can react dynamically to the traffics in achieving these objectives. The RPR fairness algorithm is comparatively simple, but it poses some critical limitations that require further investigation and remedy. One of the major problems is that the amount of bandwidth allocated by the algorithm oscillates severely under unbalanced traffic scenarios. These oscillations are barrier to achieving spatial reuse and high bandwidth utilization. Moreover, the performance of the RPR fairness algorithm is very sensitive to the algorithm parameter settings. In this paper, we apply Control Theory to solve the fairness issue. We construct a PI controller to dynamically adjust the fair rate in order to eliminate the state of congestion and to converge to the optimal fair rate.

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利用PI控制器在弹性分组环网中分配带宽

弹性分组环(RPR)是IEEE 802.17标准下定义的一种城域网高速骨干技术。引入RPR是为了缓解与当前技术(SONET和以太网)相关的未充分利用和不公平问题。RPR的关键性能目标是实现高带宽利用率、双环空间复用和公平性。我们面临的挑战是设计一种算法，可以动态地对流量做出反应，以实现这些目标。RPR公平性算法相对简单，但存在一些严重的局限性，需要进一步研究和补救。其中一个主要问题是，在流量不平衡的情况下，算法分配的带宽量振荡严重。这些振荡是实现空间复用和高带宽利用率的障碍。此外，RPR公平性算法的性能对算法参数的设置非常敏感。本文运用控制理论来解决公平问题。为了消除拥塞状态并收敛到最优公平速率，我们构造了一个PI控制器来动态调整公平速率。

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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34th IEEE Sarnoff Symposium

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