An efficient reservation MAC protocol with preallocation for high-speed WDM passive optical networks

Proceedings IEEE 24th Annual Joint Conference of the IEEE Computer and Communications Societies. Pub Date : 2005-03-13 DOI:10.1109/INFCOM.2005.1497913

C. Xiao, B. Bing, G. Chang

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引用次数: 15

Abstract

Wavelength division multiplexing passive optical networks (WDM PONs) can dynamically offer each end user a unique optical wavelength for data transmission as well as the possibility of wavelength reuse and aggregation, thereby ensuring scalability in bandwidth assignment. In this paper, we propose a new byte size clock (BSC) reservation MAC scheme that not only arbitrates upstream transmission and prevents optical collisions, but also varies bandwidth according to demand and priority, reduces request delay using pre-allocation and delta compression, and handles the addition/reconfiguration of network nodes efficiently. The new access scheme exploits both WDM and TDM to cater for both light and heavy bandwidth requirements and supports both Ethernet and ATM packets without segmenting or aggregating them. Our proposed protocol is not only backward compatible with APON and EPON, but also provides a better utilization of the access link in terms of the throughput and delay. In addition, the amount of pre-allocated bandwidth can be minimized using delta compression, which in turns reduces the latency due to the request and grant mechanism. We analyzed, evaluated, and simulated the performance and practicality of the proposed scheme.

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高速WDM无源光网络中一种高效的预分配预约MAC协议

波分复用无源光网络(WDM pon)可以动态地为每个终端用户提供唯一的光波长进行数据传输，并具有波长复用和聚合的可能性，从而保证了带宽分配的可扩展性。本文提出了一种新的BSC (byte size clock)预留MAC方案，该方案不仅可以仲裁上行传输和防止光冲突，还可以根据需求和优先级改变带宽，利用预分配和增量压缩减少请求延迟，并有效地处理网络节点的添加/重新配置。新的接入方案利用WDM和TDM来满足轻型和重型带宽需求，并支持以太网和ATM数据包，而不需要对它们进行分段或聚合。我们提出的协议不仅向后兼容APON和EPON，而且在吞吐量和延迟方面更好地利用了接入链路。此外，可以使用增量压缩最小化预分配带宽的数量，这反过来又减少了由于请求和授予机制造成的延迟。我们对所提出方案的性能和实用性进行了分析、评估和仿真。

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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Proceedings IEEE 24th Annual Joint Conference of the IEEE Computer and Communications Societies.

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