Energy-efficient opportunistic forwarding in multi-hop cellular networks using device-to-device communications

Energy-efficient opportunistic forwarding in multi-hop cellular networks using device-to-device communications

Cellular networks face significant capacity, efficiency and quality challenges because of the exponential growth of cellular data traffic. Multi‐hop cellular networks (MCNs) have been proposed to address these challenges through the integration of cellular and device‐to‐device communications. This w...

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Bibliographic Details
Published in:Transactions on emerging telecommunications technologies Vol. 27; no. 2; pp. 249 - 265
Main Authors: Coll-Perales, B., Gozalvez, J., Friderikos, V.
Format: Journal Article
Language:English
Published: Blackwell Publishing Ltd 01-02-2016
Online Access:Get full text
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Summary:Cellular networks face significant capacity, efficiency and quality challenges because of the exponential growth of cellular data traffic. Multi‐hop cellular networks (MCNs) have been proposed to address these challenges through the integration of cellular and device‐to‐device communications. This work investigates how the adoption and design of opportunistic store, carry and forward mechanisms in MCNs can help importantly decrease the energy consumption for delay tolerant traffic. To this aim, the study first derives an analytical framework to identify in two‐hop scenarios the optimum mobile relay location and the location from which the mobile relay should start forwarding the information to the cellular base station in order to minimise the overall energy consumption. The derived optimum configuration is then used as a benchmark for the proposal and design of a novel context‐based opportunistic MCN forwarding scheme that exploits context information provided at low cost by the cellular network. Numerical and simulation results demonstrate that the proposed context‐based opportunistic forwarding can achieve a performance close to that obtain with the optimum configuration and reduce the energy consumption by more than 90% compared with traditional single‐hop cellular communications. Copyright © 2014 John Wiley & Sons, Ltd. This work investigates how the adoption and design of opportunistic store, carry and forward mechanisms in multi‐hop cellular networks (MCNs) can help importantly decrease the energy consumption for delay tolerant traffic. The study derives an analytical framework to identify optimum configurations of opportunistic MCN forwarding, which is used as a benchmark for the design of a novel context‐based opportunistic MCN forwarding scheme that exploits context information provided at low cost by the cellular network.
Bibliography:istex:E127AC1CA3FA9B8F2870C99FE76BDF060D75B432
ark:/67375/WNG-J2V0M7QR-9
ArticleID:ETT2855
ISSN:2161-3915
2161-3915
DOI:10.1002/ett.2855