组播技术及其在光层的实现

Multicast Technology and Its Realization at Optical Layer

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摘要带宽密集型的多媒体应用对现有网络提出了新的要求,组播技术有助于解决其在网络带宽和服务质量方面的问题,而在光层实现组播具有更简单、高效的特点。然而,光层组播由于光缓存、光分束和光波长变换等光器件的限制,呈现出和IP层组播不同的特点。对IP层和光层组播进行了讨论,分析了光层组播模型。 Since bandwidth-intensive multimedia applications have raised new request on existing networks, multicast technology can contribute to solve the issues of network bandwidth and quality of service, especially, multicast at optical layer is more simple and efficient. However, owing to some limitations on optical buffer, light splitter, and wavelength converter, optical multicast at optical layer offers different characteristics from those at IP layer. Consequently, the IP multicast and optical layer multicast are discussed, the model of optical layer multicast is analyzed, and two reroute approaches for multicast route in an optical network with sparse splitting and sparse wavelength conversion are proposed. Of which, one is reroute-to-source, and the other is reroute-to-relative.

作者谢胡范戈许毅

机构地区上海交通大学"区域光纤通信网与新型光通信系统"国家重点实验室

出处《光纤与电缆及其应用技术》 2006年第5期27-31,共5页 Optical Fiber & Electric Cable and Their Applications

关键词 IP组播光层组播波分复用组播路由稀疏光分柬稀疏波长变换 IP multicast optical layer multicast WDM multicast muting sparse light splitting sparse wavelength conversion

分类号 TN948.6 [电子电信—信号与信息处理] TN929.1 [电子电信—通信与信息系统]

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光纤与电缆及其应用技术

2006年第5期

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组播技术及其在光层的实现

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