Evaluation of OCDM-Switching and Code Conversion for All-Optical End-to-End Path Provisioning in Multi-granularity Networks

2006 3rd International Conference on Broadband Communications, Networks and Systems Pub Date : 2006-10-01 DOI:10.1109/BROADNETS.2006.4374417

Shaowei Huang, K. Baba, M. Murata, K. Kitayama

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引用次数: 7

Abstract

In this paper, an OCDM-based multi- granularity optical cross-connect (MG-OXC) is proposed to enable the optical path switching in bandwidth granularity finer than the wavelength-based path. Such an optical path switched by OCDM-based MG-OXC is called OCDM label-switched path (OCDM-LSP), which is capable of hybrid optical code (OC)/wavelength conversion along the path from a source to destination. With distinct OCs, OCDM-LSPs can share a single wavelength without any synchronization mechanism and be discriminated by ultra- fast optical correlation. The asynchronous ability and OC conversion distinguish the OCDM-LSP from Packet-LSP or TDM-LSP in resolving granularity problem in wavelength- based path. Based upon our proposal, all-optical optical path provisioning including F-LSP, WB-LSP, L-LSP and OCDM- LSP can be realized in the transport layer. Simulation is conducted and the results show the proposed OCDM-switching has gained a 2 order of blocking probability reduction even though only 5 OCs are employed. Furthermore, OC conversion in OCDM-LSP is proved to be another benefit for high flexibility in optical path provisioning and blocking performance improvement comparing to TDM-LSP.

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多粒度网络中全光端到端路径配置的ocdm交换和码转换评估

本文提出了一种基于ocdm的多粒度光交叉连接(MG-OXC)，以实现比基于波长的光路更细的带宽粒度光路交换。这种由基于OCDM的MG-OXC交换的光路称为OCDM标签交换光路(OCDM- lsp)，它能够在从源到目的的路径上进行混合光码/波长转换。由于ocdm - lsp具有不同的oc，因此无需任何同步机制即可共享单个波长，并可通过超快速光相关进行识别。OCDM-LSP与Packet-LSP、TDM-LSP在解决基于波长路径的粒度问题时，OCDM-LSP的区别在于其异步能力和OC转换能力。根据我们的方案，可以在传输层实现包括F-LSP、WB-LSP、L-LSP和OCDM- LSP在内的全光光路分发。仿真结果表明，在只使用5个ocdm的情况下，所提出的ocdm切换的阻塞概率降低了2个数量级。此外，与TDM-LSP相比，OCDM-LSP中的OC转换具有更高的光路分配灵活性和更高的阻塞性能。

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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2006 3rd International Conference on Broadband Communications, Networks and Systems

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