Hierarchically distributed PCE for backup strategies on an optical network

2006 First International Conference on Communications and Electronics Pub Date : 2006-10-01 DOI:10.1109/CCE.2006.350841

H. Matsuura, N. Morita, T. Murakami, K. Takami

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引用次数: 3

Abstract

The application of path computation elements (PCEs) has been widely discussed to reduce route calculation burden from GMPLS nodes. Current PCE proposals, however, have not yet covered path backup schemes, which is prerequisite for providing tremendous capacity such as core optical networks. We already presented a hierarchically distributed path computation element (HDPCE) architecture to improve existing PCE techniques. In this paper, we describe detailed path backup methods performed by HDPCEs to demonstrate the promising potential of HDPCE architecture. The key idea is the interdomain HDPCE, which manages the bridging optical domains, stores shared risk link group (SRLG) information, and discovers accurate disjointed SRLG backups. The proposed technique is sufficiently flexible to allow three variants of path backup methods that are commonly required in commercial networks. We analyze the features and performance of three types of path-backup methods. We also show the superiority of the proposed HDPCE-based backup methods compared to legacy OSPF-based backup methods in terms of path accommodation and processing time.

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分层分布的PCE用于光网络备份策略

路径计算单元(pce)的应用已被广泛讨论，以减少GMPLS节点的路由计算负担。然而，目前的PCE提案尚未涵盖路径备份方案，而路径备份方案是提供核心光网络等巨大容量的先决条件。我们已经提出了一种层次分布路径计算元素(HDPCE)架构来改进现有的PCE技术。在本文中，我们详细描述了HDPCE执行的路径备份方法，以展示HDPCE架构的潜力。关键思想是域间HDPCE，它管理桥接光域，存储共享风险链路组(SRLG)信息，并发现准确的分离SRLG备份。所提出的技术具有足够的灵活性，允许商业网络中通常需要的三种路径备份方法的变体。分析了三种路径备份方法的特点和性能。我们还展示了与传统的基于ospf的备份方法相比，所提出的基于hdpce的备份方法在路径容纳和处理时间方面的优越性。

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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2006 First International Conference on Communications and Electronics

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