Lightpath rerouting in wavelength-routed WDM networks

Journal of Optical Networking Pub Date : 2008-08-01 DOI:10.1364/JON.7.000721

Xiaowen Chu, H. Yin, Xiangyang Li

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引用次数: 13

Abstract

Rerouting is a viable and cost-effective approach to decrease the blocking probability in legacy circuit-switched networks. We study lightpath rerouting in optical WDM networks in this paper. First, we investigate two different lightpath-rerouting strategies, namely, passive rerouting and intentional rerouting. Passive rerouting means the rerouting of existing lightpaths to accommodate new lightpath requests that will otherwise be blocked. Intentional rerouting is intentionally rerouting existing lightpaths during their life period to achieve better load balancing. Second, we investigate the hybrid rerouting scheme, which combines passive rerouting and intentional rerouting. Through extensive simulation studies, we draw the following conclusions: (1) when there is wavelength conversion, passive rerouting works much better than intentional rerouting, and hybrid rerouting can only improve the performance over passive rerouting slightly, and (2) when there is no wavelength conversion, a naive-wavelength-retuning algorithm can achieve the most benefit of passive rerouting, whereas path adjusting does not help any further; however, the hybrid rerouting scheme can improve the blocking performance significantly.

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波长路由波分复用网络中的光路重路由

在传统电路交换网络中，重路由是降低阻塞概率的一种可行且经济有效的方法。本文主要研究WDM光网络中的光路重路由问题。首先，我们研究了两种不同的光路重路由策略，即被动重路由和有意重路由。被动重路由是指现有光路的重路由，以适应新的光路请求，否则将被阻塞。有意重路由是指在现有光路的生命周期内有意重路由现有光路，以实现更好的负载平衡。其次，我们研究了一种混合重路由方案，它结合了被动重路由和有意重路由。通过大量的仿真研究，我们得出以下结论:(1)当存在波长转换时，被动重路由的性能明显优于有意重路由，混合重路由仅能比被动重路由稍微提高性能;(2)当不存在波长转换时，单纯波长返回算法可以获得被动重路由的最大效益，而路径调整则没有任何帮助;然而，混合重路由方案可以显著提高阻塞性能。

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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Journal of Optical Networking

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