research-article

Dynamic bandwidth allocation for long-reach PON: overcoming performance degradation

Authors:

Biswanath MukherjeeAuthors Info & Claims

IEEE Communications Magazine, Volume 48, Issue 11

Pages 100 - 108

https://doi.org/10.1109/MCOM.2010.5621975

Published: 01 November 2010 Publication History

Abstract

A passive optical network, with its inherent point to multi-point structure, allows for centralized placement of active equipment and possible extension of its boundary towards core networks. This property of the PON can be exploited for node consolidation where multiple central offices are replaced by a single one covering a larger service area. Such node consolidation is being particularly driven by the need for network operational cost saving, and is offering significant challenges to PONs. The degree of node consolidation that can be achieved is limited by the reach of conventional PON systems. In order to achieve a larger degree of node consolidation, an extension of the PON reach, beyond the conventional 20 km, is required. This article addresses the challenges of the dynamic bandwidth allocation, where increased reach results in a degradation of DBA performance and quality of service support. This degradation is a consequence of the increased propagation delay of the DBA messages exchanged between different PON elements. A potential solution to the performance degradation is the introduction of a multi-threaded DBA. In this article, we examine for both Gigabit PON and Ethernet PON, the extent to which DBA performance degradation can be reduced by exploiting multi-threading. It is found that for both standards, multi-threading, if done properly, can be used to mitigate the performance degradation due to the increased reach. To make bandwidth allocation efficient, new schemes for coordinating the multiple threads are required in long reach PON.

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cover image IEEE Communications Magazine

IEEE Communications Magazine Volume 48, Issue 11

November 2010

148 pages

ISSN:0163-6804

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IEEE Press

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Published: 01 November 2010

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Liu JGuo HNishiyama HUjikawa HSuzuki KKato N(2016)New Perspectives on Future Smart FiWi Networks: Scalability, Reliability, and Energy EfficiencyIEEE Communications Surveys & Tutorials10.1109/COMST.2015.250096018:2(1045-1072)Online publication date: 1-Apr-2016
https://dl.acm.org/doi/10.1109/COMST.2015.2500960
Dashti YMercian AReisslein M(2016)Grouping by Cycle Length (GCL) for long-range FiWi networksOptical Switching and Networking10.1016/j.osn.2016.01.00121:C(43-57)Online publication date: 1-Jul-2016
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Jiménez TMerayo NDurán RFernández PDe Miguel IAguado JLorenzo RAbril E(2014)A PID-based algorithm to guarantee QoS delay requirements in LR-PONsOptical Switching and Networking10.1016/j.osn.2014.01.00514(78-92)Online publication date: 1-Aug-2014
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Reach Improvement of Spectrum-Sliced Dense WDM-PON System

Transmission impairments in long-reach WDM---TDM PON using EDFA and RSOA-based ONUs

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