Paper Info
Title
Energy-efficient cascaded bit-interleaving protocol for integrated optical access/in-building networks
Abstract
This paper proposes and experimentally evaluates the Cascaded Bit-interleaving architecture and protocol, an energy-efficient solution that aims to reduce the power consumption of integrated optical access/in-building networks, while offering high-speed Internet service to end-users. In the new architecture, optical-electrical-optical (OED) regeneration is employed at the interface between the access and in-building networks, and downstream frames are generated at the central office using the two-stage bit-interleaving scheme. The users' network nodes only process the data destined for them without any buffering at a lower clock rate than the aggregate PON rate, thereby significantly reducing their energy consumption. Simulation and experimental results demonstrate the proof of concept and show that the power consumption of the access/in-building network can be significantly reduced when the proposed cascaded bit-interleaving protocol is employed.
Year
DOI
Venue
2013
10.1109/OnlineGreenCom.2013.6731049
Online Conference Green Communications
Keywords
Field
DocType
Internet,clocks,electro-optical effects,integrated optics,optical communication,protocols,clock rate,downstream frames,energy-efficient cascaded bit-interleaving protocol,high-speed Internet service,in-building networks,integrated optical access,optical-electrical-optical regeneration,power consumption,Energy Efficiency,Optical Networks,PONs,Protocols
Efficient energy use,Node (networking),Computer network,Optical performance monitoring,Engineering,10G-PON,Energy consumption,Interleaving,Clock rate,The Internet
Conference
Citations 
PageRank 
References 
2
0.48
3
Authors
5
Name
Order
Citations
PageRank
Tolga Ayhan161.33
Ahmad R. Dhaini211414.09
Leonid G. Kazovsky37316.89
Dusan Suvakovic4174.96
Hungkei Keith Chow5143.03