QoS enabled broadband access through optical rings

29th Annual IEEE International Conference on Local Computer Networks Pub Date : 2004-11-16 DOI:10.1109/LCN.2004.100

S. Singh, V. L. Do, K. W. James, K. Yun, R. Cruz, Manish Amde

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Abstract

We describe an optical ring media access architecture, a media access (MAC) protocol, and a test bed implementation. The optical ring media access architecture is designed to facilitate high-speed broadband access for small business, residential, and mobile users. In our scheme, users can access a wide area network (WAN), such as the Internet, through a media access node (assumed to be a short distance away from the user). The transmission of data from the access node to the destination is done via an optical ring to a central office residing on the ring and from the central office via WAN to the destination, which may be hosted by a media access node on another optical ring. The MAC protocol is based on the earliest deadline first (EDF) scheduling to provide quality of service (QoS) for traffic flows on the ring. The test bed implementation consists of four media access nodes connected by an optical ring. Each node is implemented as a board which consists of an FPGA, an SRAM chip, optical interface modules, etc. Finally, we describe bandwidth and latency measurements showing differentiated performance for prioritized flows.

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QoS通过光环实现宽带接入

我们描述了一个光环媒体访问架构、一个媒体访问(MAC)协议和一个测试平台的实现。光环媒体接入架构旨在为小型企业、住宅和移动用户提供高速宽带接入。在我们的方案中，用户可以通过媒体访问节点(假设离用户很近)访问广域网(WAN)，例如Internet。从接入节点到目的地的数据传输通过光环到驻留在该环上的中央局，并从中央局通过WAN到目的地，其可由另一光环上的媒体接入节点承载。MAC协议基于EDF (early deadline first)调度，为环上的流量流提供QoS (quality of service)服务。测试平台实现由四个通过光环连接的媒体接入节点组成。每个节点被实现为一个由FPGA、SRAM芯片、光接口模块等组成的板。最后，我们描述了带宽和延迟测量，显示了优先级流的不同性能。

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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29th Annual IEEE International Conference on Local Computer Networks

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