Combined node and span protection strategies with node-encircling p-cycles

DRCN 2005). Proceedings.5th International Workshop on Design of Reliable Communication Networks, 2005. Pub Date : 2005-12-27 DOI:10.1109/DRCN.2005.1563869

J. Doucette, Peter A. Giese, W. Grover

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引用次数: 31

Abstract

We develop three new design models for combined node and span protection with a single set of node-encircling p-cycles (NEPCs). In a simple reference model each node is protected by a single dedicated NEPC. In the second model NEPCs can be shared by multiple nodes as needed, and each node is allowed to make use of as many different NEPCs as needed for a capacity-efficient design. To manage the complexity, protection routing is assumed to be evenly split in both directions around the NEPC, resulting in a slight over-provisioning of NEPCs and spare capacity. The final model is the most capacity efficient by virtue of also determining in which direction protection routing should proceed around each NEPC for each light-path affected by a node failure. The models can also permit a specified level of restorability below 100% so that a carrier could offer node-failure restorability on a differentiated service basis. A significant finding is that in test case networks 25% node restorability can be achieved in addition to 100% span restorability with a single integrated set of p-cycles that require as little as 4.1% more spare capacity than for conventional protection only against span-failures.

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节点环p环的节点和跨度联合保护策略

本文提出了三种新的节点和跨度组合保护设计模型，该模型采用单组环节点p环(NEPCs)。在一个简单的参考模型中，每个节点都由一个专用的NEPC保护。在第二个模型中，nepc可以根据需要由多个节点共享，并且每个节点可以根据需要使用尽可能多的不同nepc，以实现容量效率设计。为了管理复杂性，假设保护路由在NEPC周围的两个方向上均匀分配，从而导致NEPC的略微过量供应和备用容量。最后的模型是容量效率最高的，因为它还确定了受节点故障影响的每个光路在每个NEPC周围沿哪个方向进行保护路由。该模型还允许低于100%的特定可恢复性水平，以便运营商可以在差异化服务的基础上提供节点故障可恢复性。一个重要的发现是，在测试用例网络中，除了100%的跨度可恢复性外，还可以实现25%的节点可恢复性，使用单个集成的p周期集，只需比传统的仅针对跨度故障的保护多4.1%的备用容量。

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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DRCN 2005). Proceedings.5th International Workshop on Design of Reliable Communication Networks, 2005.

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