Controlling alternate routing in general-mesh packet flow networks

Proceedings of the conference on Communications architectures, protocols and applications Pub Date : 1994-10-01 DOI:10.1145/190314.190330

S. Sibal, A. DeSimone

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引用次数: 49

Abstract

High-speed packet networks will begin to support services that need Quality-of-Service (QoS) guarantees. Guaranteeing QoS typically translates to reserving resources for the duration of a call. We propose a state-dependent routing scheme that builds on any base state-independent routing scheme, by routing flows which are blocked on their primary paths (as selected by the state-independent scheme) onto alternate paths in a manner that is guaranteed—under certain Poisson assumptions— to improve on the performance of the base state-independent scheme. Our scheme only requires each node to have state information of those links that are incident on it. Such a scheme is of value when either the base state-independent scheme is already in place and a complete overhaul of the routing algorithm is undesirable, or when the state (reserved flows) of a link changes fast enough that the timely update of state information is infeasible to all possible call-originators. The performance improvements due to our controlled alternate routing scheme are borne out from simulations conducted on a fully-connected 4-node network, as well as on a sparsely-connected 12-node network modeled on the NSFNet T3 Backbone.

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控制通用网格包流网络中的备用路由

高速分组网络将开始支持需要服务质量(QoS)保证的业务。保证QoS通常转化为在调用期间保留资源。我们提出了一种基于任何基本状态独立路由方案的状态依赖路由方案，通过将阻塞在其主路径(由状态独立方案选择)上的流路由到备用路径上，以保证在某些泊松假设下提高基本状态独立方案的性能。我们的方案只要求每个节点拥有与它相关的那些链接的状态信息。当基本状态独立的方案已经到位并且不希望对路由算法进行彻底检查时，或者当链路的状态(保留流)变化得足够快以至于对所有可能的呼叫发起者都无法及时更新状态信息时，这种方案是有价值的。通过在全连接的4节点网络以及在NSFNet T3骨干网上模拟的稀疏连接的12节点网络上进行的模拟，可以证明我们的受控替代路由方案所带来的性能改进。

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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Proceedings of the conference on Communications architectures, protocols and applications

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