Energy Efficient Cooperative Network Coding with Joint Relay Scheduling and Power Allocation

The energy efficiency (EE) of a multi-user multi-relay system with the maximum diversity network coding (MDNC) is studied. We explicitly find the connection among the outage probability, energy consumption and EE and formulate the maximizing EE problem under the outage probability constraints. Relay...

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Veröffentlicht in:	arXiv.org 2016-08
Hauptverfasser:	Qi, Nan, Xiao, Ming, Tsiftsis, Theodoros A, Skoglund, Mikael, Cao, Phuong L, Li, Lixin
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Sprache:	eng
Schlagworte:	Algorithms Coding Energy consumption Energy conversion efficiency Iterative methods Mathematical programming Optimization Power consumption Power efficiency Power management Relay systems Schedules Scheduling Transmission
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description	The energy efficiency (EE) of a multi-user multi-relay system with the maximum diversity network coding (MDNC) is studied. We explicitly find the connection among the outage probability, energy consumption and EE and formulate the maximizing EE problem under the outage probability constraints. Relay scheduling (RS) and power allocation (PA) are applied to schedule the relay states (transmitting, sleeping, \emph{etc}) and optimize the transmitting power under the practical channel and power consumption models. Since the optimization problem is NP-hard, to reduce computational complexity, the outage probability is first tightly approximated to a log-convex form. Further, the EE is converted into a subtractive form based on the fractional programming. Then a convex mixed-integer nonlinear problem (MINLP) is eventually obtained. With a generalized outer approximation (GOA) algorithm, RS and PA are solved in an iterative manner. The Pareto-optimal curves between the EE and the target outage probability show the EE gains from PA and RS. Moreover, by comparing with the no network coding (NoNC) scenario, we conclude that with the same number of relays, MDNC can lead to EE gains. However, if RS is implemented, NoNC can outperform MDNC in terms of the EE when more relays are needed in the MDNC scheme.
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We explicitly find the connection among the outage probability, energy consumption and EE and formulate the maximizing EE problem under the outage probability constraints. Relay scheduling (RS) and power allocation (PA) are applied to schedule the relay states (transmitting, sleeping, \emph{etc}) and optimize the transmitting power under the practical channel and power consumption models. Since the optimization problem is NP-hard, to reduce computational complexity, the outage probability is first tightly approximated to a log-convex form. Further, the EE is converted into a subtractive form based on the fractional programming. Then a convex mixed-integer nonlinear problem (MINLP) is eventually obtained. With a generalized outer approximation (GOA) algorithm, RS and PA are solved in an iterative manner. The Pareto-optimal curves between the EE and the target outage probability show the EE gains from PA and RS. Moreover, by comparing with the no network coding (NoNC) scenario, we conclude that with the same number of relays, MDNC can lead to EE gains. However, if RS is implemented, NoNC can outperform MDNC in terms of the EE when more relays are needed in the MDNC scheme.</description><identifier>EISSN: 2331-8422</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Algorithms ; Coding ; Energy consumption ; Energy conversion efficiency ; Iterative methods ; Mathematical programming ; Optimization ; Power consumption ; Power efficiency ; Power management ; Relay systems ; Schedules ; Scheduling ; Transmission</subject><ispartof>arXiv.org, 2016-08</ispartof><rights>2016. This work is published under http://creativecommons.org/licenses/by-sa/4.0/ (the “License”). 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subjects	Algorithms Coding Energy consumption Energy conversion efficiency Iterative methods Mathematical programming Optimization Power consumption Power efficiency Power management Relay systems Schedules Scheduling Transmission
title	Energy Efficient Cooperative Network Coding with Joint Relay Scheduling and Power Allocation
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