Spectrum utilization maximization in coarse granular optical routing networks that employ fine granular shared protection

2016 12th International Conference on the Design of Reliable Communication Networks (DRCN) Pub Date : 2016-03-15 DOI:10.1109/DRCN.2016.7470838

Tomohiro Ishikawa, Y. Mori, H. Hasegawa, Ken-ichi Sato

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引用次数: 3

Abstract

To offset the impairment caused by imperfect optical filtering at ROADMs/OXCs, guard bands must be inserted between optical channels. The resulting degradation in frequency utilization detracts from the benefit of next-generation elastic optical path networks. To overcome this problem and achieve an ICT infrastructure with the required level of resiliency, we add path-granularity-level shared protection to our coarse granular optical routing networks with fine granular add/drop. Optical paths are densely packed in coarse granular optical pipes, but the filtering impairment generated by the routing process is greatly mitigated, which results in enhanced fiber frequency utilization. The impairment caused by path dropping is carefully minimized for all possible backup paths, which is made possible by our newly developed network design algorithm. Numerical experiments show that the number of fibers in a network is substantially reduced over conventional shared protected networks.

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采用细粒度共享保护的粗粒度光路由网络中频谱利用率最大化

为了抵消roadm / oxc不完善的光滤波所造成的损害，必须在光通道之间插入保护带。由此导致的频率利用率下降影响了下一代弹性光路网络的优势。为了克服这个问题并实现具有所需弹性水平的ICT基础设施，我们在具有细粒度添加/丢弃的粗粒度光路由网络中添加路径粒度级共享保护。光路密集地分布在粗颗粒光管内，但大大减轻了路由过程中产生的滤波损伤，从而提高了光纤频率利用率。通过我们新开发的网络设计算法，对所有可能的备份路径仔细最小化路径丢失造成的损害。数值实验表明，与传统的共享保护网络相比，网络中的光纤数量大大减少。

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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来源期刊

2016 12th International Conference on the Design of Reliable Communication Networks (DRCN)

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