A Link State Advertisement Protocol for Optical Transparency Islands

2007 Workshop on High Performance Switching and Routing Pub Date : 2007-07-30 DOI:10.1109/HPSR.2007.4281218

S. Das, R. Tabrizi, P. Monti, M. Tacca, A. Fumagalli

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引用次数: 4

Abstract

Plug and play optical (PPO) nodes enable fast, re-configurable, and flexible ad hoc deployment of optical networks. Once plugged, the PPO nodes provide all-optical circuits between client nodes to alleviate the electronic processing bottleneck of high speed networks. To offer these wavelength routing functionalities to client nodes the PPO nodes must self-adjust to possible changes of the optical physical topology and fiber propagation characteristics. To discover such changes the PPO nodes must make use of a link state advertisement (LSA) protocol that is scalable in the number of plugged PPO nodes. This paper describes a scalable LSA protocol with constrained message flooding to match the limited propagation reach of the optical signal, i.e., the PPO node transparency island (TI). Scalability is thus achieved naturally by limiting the link state advertisement scope to only those PPO nodes that need to receive the link updates. As discussed in the paper, the proposed protocol appears to be a viable solution when the TI size is relatively small, e.g., in optical networks without signal regeneration.

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光学透明岛的链路状态通告协议

即插即用光(PPO)节点支持快速、可重新配置和灵活的自组织光网络部署。一旦插入，PPO节点在客户端节点之间提供全光电路，以缓解高速网络的电子处理瓶颈。为了向客户端节点提供这些波长路由功能，PPO节点必须自我调整以适应光物理拓扑和光纤传播特性的可能变化。为了发现这种变化，PPO节点必须使用链路状态通告(LSA)协议，该协议可以根据插入的PPO节点数量进行扩展。本文描述了一种具有约束消息泛洪的可扩展LSA协议，以匹配光信号的有限传播范围，即PPO节点透明岛(TI)。因此，通过将链路状态发布范围限制为那些需要接收链路更新的PPO节点，可以自然地实现可伸缩性。正如本文所讨论的，当TI尺寸相对较小时，所提出的协议似乎是一个可行的解决方案，例如，在没有信号再生的光网络中。

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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2007 Workshop on High Performance Switching and Routing

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