Energy‐efficient multiple‐domain bidirectional scheme for G.hn applications

Summary This paper presents an energy‐efficient relaying scheme for G.hn standard. We propose a multi‐domain bidirectional communication network with network coding at the physical layer in order to increase network coverage. The logical link control stack was also modified and supplemented with add...

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Bibliographic Details
Published in:International journal of communication systems 2017-02, Vol.30 (3), p.np-n/a
Main Authors: Gacanin, Haris, Adebisi, Bamidele, Ligata, Amir
Format: Article
Language:English
Subjects:
Bidirectional
Channels
Coding
energy efficiency
Energy management
G.hn
Links
Networks
Performance enhancement
PLC
theoretical analysis
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Summary:Summary This paper presents an energy‐efficient relaying scheme for G.hn standard. We propose a multi‐domain bidirectional communication network with network coding at the physical layer in order to increase network coverage. The logical link control stack was also modified and supplemented with additional functionality. This reduces the power consumption in the network and enhances the performance while reducing collisions for inter‐domain network access. We consider domain selection to minimize the total energy consumption of the network and present optimal power allocation for the given QoS of each end node. Energy efficiency is evaluated in terms of transmit energy per bit for relay networks with bidirectional symmetric and asymmetric traffic flows. Simulation results show that the proposed multi‐domain bidirectional communication provides improved performance and higher energy savings than the single‐domain unidirectional network, especially in powerline communication channel, which is the worst medium of the three G.hn media. Finally, it was demonstrated that improved energy efficiency can be achieved with appropriate domain selection. Copyright © 2015 John Wiley & Sons, Ltd. This paper presents an energy‐efficient relaying scheme for G.hn standard. We propose a multi‐domain bidirectional communication network with network coding at the physical layer in order to increase network coverage. The logical link control stack was also modified and supplemented with additional functionality. Simulation results show that the proposed multi‐domain bidirectional communication provides improved performance and higher energy savings than the single‐domain unidirectional network, especially in programmable logic controller channel, which is the worst medium of the three G.hn media.
ISSN:1074-5351
1099-1131
DOI:10.1002/dac.2978