计算所有节点对的距离有界节点不相交路径。在光核心网设计中的应用

2015 7th International Workshop on Reliable Networks Design and Modeling (RNDM) Pub Date : 2015-11-12 DOI:10.1109/RNDM.2015.7324311

D. Mehta, B. O’Sullivan, Cemalletin Ozturk, L. Quesada

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引用次数: 5

摘要

核心光网络需要所有对节点之间的连通性。如果光核心网络是透明的，那么每对核心节点之间的光纤长度必须在给定的阈值内。网络故障可能会影响成千上万的客户。因此，在尊重路径长度约束的情况下，通过至少两条节点不相交的路径确保所有节点对之间的多重连通性是很重要的。节点不连接允许在链路或节点发生故障时切换到另一条路径。最小化与光纤相关的成本，同时最大化给定网络的不连接性是一项非常具有挑战性的任务。我们对这个问题进行建模，并开发一种在时间和空间上都可扩展的方法，用于解决非常大规模的问题实例。

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Computing distance-bounded node-disjoint paths for all pairs of nodes — An application to optical core network design

Core optical networks require connectivity between all pairs of nodes. If the optical core network is transparent then the length of fibre between each pair of core nodes must be within a given threshold. A failure in the network could affect hundreds of thousands of customers. Therefore, it is important to ensure multiple connectivity between all pairs of nodes through at least two node-disjoint paths while respecting the path-length constraints. Node-disjointness allows switching to an alternative path whenever a link or a node fails. Minimising the cost associated with the fibre while maximising the disjointness for a given network is a very challenging task. We model this problem and develop an approach that is scalable both in terms of time and space for solving very large-sized problem instances.

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2015 7th International Workshop on Reliable Networks Design and Modeling (RNDM)

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