使用增强最小干扰路由的MPLS流量工程:一种基于字典最大流量的方法

2000 Eighth International Workshop on Quality of Service. IWQoS 2000 (Cat. No.00EX400) Pub Date : 2000-06-05 DOI:10.1109/IWQOS.2000.847943

K. Kar, M. Kodialam, T. V. Lakshman

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引用次数: 24

摘要

本文的主要贡献是提出了一种新的带宽保证隧道动态路由算法。该算法是对Kodialam和Lakshman(2000)提出的基于“最小干扰”的算法的推广。路由的目标是在这样的环境中满足尽可能多的潜在的未来请求，在这种环境中，请求一个接一个地到达，除了它们潜在的入口-出口点之外，不知道未来的到达。这些算法的一个应用是MPLS LSP (bandwidth-guaranteed label-switched paths)的路由。在拒绝请求的数量和链路故障时请求的成功重路由等几个指标上，该算法的性能优于先前的方案和其他先前提出的算法。此外，对于使用最短路径计算路由大多数请求的实现，新算法在性能上更加健壮，并且确定“最小干扰”所需的计算很少执行。

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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MPLS traffic engineering using enhanced minimum interference routing: an approach based on lexicographic max-flow

The main contribution of this paper is a new algorithm for dynamic routing of bandwidth guaranteed tunnels. The algorithm is a generalization of the "minimum-interference" based algorithm presented in Kodialam and Lakshman (2000). The routing objective is to satisfy as many potential future requests as possible in an environment where requests arrive one-by-one, and there is no knowledge of future arrivals other than their potential ingress-egress points. An application of these algorithms is for the routing of MPLS bandwidth-guaranteed label-switched paths (LSP). The presented algorithm performs better than the previous scheme, and other previously proposed algorithms, on several metrics like the number of rejected demands and successful re-routing of demands upon link failure. Also, the new algorithm is more robust in performance to implementations where most requests are routed with a shortest-path computation, and the computations required for determining "minimum-interference" are performed only infrequently.

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来源期刊

2000 Eighth International Workshop on Quality of Service. IWQoS 2000 (Cat. No.00EX400)

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