A low-energy rate-adaptive bit-interleaved passive optical network

Energy consumption of customer premises equipment (CPE) has become a serious issue in the new generations of time-division multiplexing passive optical networks, which operate at 10 Gb/s or higher. It is becoming a major factor in global network energy consumption, and it poses problems during emerg...

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Hauptverfasser:	Suvakovic, Dusan, Chow, Hungkei, Anthapadmanabhan, N. Prasanth, van Veen, Doutje T, van Wijngaarden, Adriaan J, Ayhan, Tolga, Van Praet, Christophe, Torfs, Guy, Yin, Xin, Vetter, Peter
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Sprache:	eng
Schlagworte:	access protocols green design Optical fiber networks PON POWER power dissipation Technology and Engineering time-division multiplexing
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creator	Suvakovic, Dusan Chow, Hungkei Anthapadmanabhan, N. Prasanth van Veen, Doutje T van Wijngaarden, Adriaan J Ayhan, Tolga Van Praet, Christophe Torfs, Guy Yin, Xin Vetter, Peter
description	Energy consumption of customer premises equipment (CPE) has become a serious issue in the new generations of time-division multiplexing passive optical networks, which operate at 10 Gb/s or higher. It is becoming a major factor in global network energy consumption, and it poses problems during emergencies when CPE is battery-operated. In this paper, a low-energy passive optical network (PON) that uses a novel bit-interleaving downstream protocol is proposed. The details about the network architecture, protocol, and the key enabling implementation aspects, including dynamic traffic interleaving, rate-adaptive descrambling of decimated traffic, and the design and implementation of a downsampling clock and data recovery circuit, are described. The proposed concept is shown to reduce the energy consumption for protocol processing by a factor of 30. A detailed analysis of the energy consumption in the CPE shows that the interleaving protocol reduces the total energy consumption of the CPE significantly in comparison to the standard 10 Gb/s PON CPE. Experimental results obtained from measurements on the implemented CPE prototype confirm that the CPE consumes significantly less energy than the standard 10 Gb/s PON CPE.
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Prasanth ; van Veen, Doutje T ; van Wijngaarden, Adriaan J ; Ayhan, Tolga ; Van Praet, Christophe ; Torfs, Guy ; Yin, Xin ; Vetter, Peter</creator><creatorcontrib>Suvakovic, Dusan ; Chow, Hungkei ; Anthapadmanabhan, N. Prasanth ; van Veen, Doutje T ; van Wijngaarden, Adriaan J ; Ayhan, Tolga ; Van Praet, Christophe ; Torfs, Guy ; Yin, Xin ; Vetter, Peter</creatorcontrib><description>Energy consumption of customer premises equipment (CPE) has become a serious issue in the new generations of time-division multiplexing passive optical networks, which operate at 10 Gb/s or higher. It is becoming a major factor in global network energy consumption, and it poses problems during emergencies when CPE is battery-operated. In this paper, a low-energy passive optical network (PON) that uses a novel bit-interleaving downstream protocol is proposed. The details about the network architecture, protocol, and the key enabling implementation aspects, including dynamic traffic interleaving, rate-adaptive descrambling of decimated traffic, and the design and implementation of a downsampling clock and data recovery circuit, are described. The proposed concept is shown to reduce the energy consumption for protocol processing by a factor of 30. A detailed analysis of the energy consumption in the CPE shows that the interleaving protocol reduces the total energy consumption of the CPE significantly in comparison to the standard 10 Gb/s PON CPE. 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source	Ghent University Academic Bibliography; IEEE Electronic Library (IEL)
subjects	access protocols green design Optical fiber networks PON POWER power dissipation Technology and Engineering time-division multiplexing
title	A low-energy rate-adaptive bit-interleaved passive optical network
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