路由层次的图论模型

2009 International Conference on Advanced Information Networking and Applications Workshops Pub Date : 2009-05-26 DOI:10.1109/WAINA.2009.94

Yvonne Lai, W. Lai

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引用次数: 8

摘要

我们提出了一个路由层次的图论模型，抽象了标准路由协议(如PNNI和OSPF/BGP)的一般属性。这些协议目前部署在业务网络中。我们的模型基于纯粹的拓扑结构，而不参考协议细节。通过图的划分和细化，得到了一个多层次的兄弟簇和子簇结构。通过对外部隐藏集群的拓扑结构，这种结构允许路由协议扩展以支持大型网络。在不透露集群内部细节的情况下，集群成本图是根据入口到出口的运输成本来定义的。此图将发布到其他集群。集群中的每个节点结合来自其他集群的代价图来构建路由流量的路由图。路由图的有限视图有时会导致次优路径选择。此外，兄弟集群之间的路由可能有环路;为了避免环路，需要协议限制。

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A Graph-Theoretic Model of Routing Hierarchies

We present a graph-theoretic model of routing hierarchies that abstracts the generic properties of standard routing protocols such as PNNI and OSPF/BGP. These protocols are currently deployed in operational networks. Our model is based on purely topological constructs, without referring to protocol details. Through graph partitioning and refinements, a multi-level hierarchy of sibling and child clusters is obtained. By hiding the topology of a cluster from outside, this structure allows routing protocols to scale to support large networks. Without revealing intra-cluster details, a cluster cost graph is defined in terms of entry-to-exit transit costs. This graph is advertised to other clusters. Each node within a cluster combines the cost graphs from other clusters to construct a routing graph for routing traffic. The limited view of a routing graph may sometimes lead to suboptimal path selection. Additionally, routing between sibling clusters may have loops; protocol restrictions are needed for loop avoidance.

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来源期刊

2009 International Conference on Advanced Information Networking and Applications Workshops

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