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Photonic Network Communications

Erschienen in:

01.08.2015

QoS-aware energy-efficient mechanism for sleeping mode ONUs in enhanced EPON

verfasst von: AliAkbar Nikoukar, I-Shyan Hwang, Andrew Tanny Liem, Chien-Jung Wang

Erschienen in: Photonic Network Communications | Ausgabe 1/2015

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Abstract

Ethernet passive optical network (EPON) is a broadband access time-division multiplexing passive optical network technology which can be referred to as green network, as it has less power consumption compared with other networks. The optical network unit (ONU) is the best candidate to implement energy-saving adjustments in EPON. Turning off the ONU transmitter (Tx)/receiver (Rx) for substantial time is a common method to achieve the energy saving. However, setting overlong sleep duration decreases the QoS, while short sleep duration increases the ONU power consumption. The challenging issue is how to balance the trade-off between achieving energy saving and guaranteeing QoS. In this paper, we introduce an enhanced EPON architecture and a QoS-aware energy-saving mechanism to reduce ONU energy consumption and guarantee an overall QoS metric based on the ITU-T standards requirements. To achieve the energy saving in the upstream/downstream direction, two sleep durations are defined for the ONU’s Tx/Rx to generate four ONU modes including active, transmission, doze, and sleep. Simulation results show that the proposed scheme improves the energy efficiency 44 % in average to fulfill the QoS metrics in terms of packet loss, delay and jitter, and the buffer requirement.

Vorheriger Artikel Energy-efficiency versus resilience: risk awareness view on dimensioning of optical networks with a sleep mode

Nächster Artikel Adaptive state transition control for energy-efficient gigabit-capable passive optical networks

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Titel: QoS-aware energy-efficient mechanism for sleeping mode ONUs in enhanced EPON
verfasst von: AliAkbar Nikoukar
I-Shyan Hwang
Andrew Tanny Liem
Chien-Jung Wang
Publikationsdatum: 01.08.2015
Verlag: Springer US
Erschienen in: Photonic Network Communications / Ausgabe 1/2015
Print ISSN: 1387-974X
Elektronische ISSN: 1572-8188
DOI: https://doi.org/10.1007/s11107-015-0499-x

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