A Bayesian Game-Theoretic Approach for Distributed Resource Allocation in Fading Multiple Access Channels

A Bayesian Game-Theoretic Approach for Distributed Resource Allocation in Fading Multiple Access Channels

<p/> <p>A Bayesian game-theoretic model is developed to design and analyze the resource allocation problem in <inline-formula> <graphic file="1687-1499-2010-391684-i1.gif"/></inline-formula>-user fading multiple access channels (MACs), where the users are assu...

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Main Authors: Debbah M&#233;rouane, Altman Eitan, He Gaoning
Format: Article
Language:English
Published: SpringerOpen 2010-01-01
Series:EURASIP Journal on Wireless Communications and Networking
Online Access:http://jwcn.eurasipjournals.com/content/2010/391684
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spelling doaj-a8643359b89049e7a2aafa91a18e87962020-11-25T00:37:00ZengSpringerOpenEURASIP Journal on Wireless Communications and Networking1687-14721687-14992010-01-0120101391684A Bayesian Game-Theoretic Approach for Distributed Resource Allocation in Fading Multiple Access ChannelsDebbah M&#233;rouaneAltman EitanHe Gaoning<p/> <p>A Bayesian game-theoretic model is developed to design and analyze the resource allocation problem in <inline-formula> <graphic file="1687-1499-2010-391684-i1.gif"/></inline-formula>-user fading multiple access channels (MACs), where the users are assumed to selfishly maximize their average achievable rates with incomplete information about the fading channel gains. In such a game-theoretic study, the central question is whether a Bayesian equilibrium exists, and if so, whether the network operates efficiently at the equilibrium point. We prove that there exists exactly one Bayesian equilibrium in our game. Furthermore, we study the network sum-rate maximization problem by assuming that the users coordinate according to a symmetric strategy profile. This result also serves as an upper bound for the Bayesian equilibrium. Finally, simulation results are provided to show the network efficiency at the unique Bayesian equilibrium and to compare it with other strategies.</p>http://jwcn.eurasipjournals.com/content/2010/391684
collection DOAJ
language English
format Article
sources DOAJ
author Debbah M&#233;rouane
Altman Eitan
He Gaoning
spellingShingle Debbah M&#233;rouane
Altman Eitan
He Gaoning
A Bayesian Game-Theoretic Approach for Distributed Resource Allocation in Fading Multiple Access Channels
EURASIP Journal on Wireless Communications and Networking
author_facet Debbah M&#233;rouane
Altman Eitan
He Gaoning
author_sort Debbah M&#233;rouane
title A Bayesian Game-Theoretic Approach for Distributed Resource Allocation in Fading Multiple Access Channels
title_short A Bayesian Game-Theoretic Approach for Distributed Resource Allocation in Fading Multiple Access Channels
title_full A Bayesian Game-Theoretic Approach for Distributed Resource Allocation in Fading Multiple Access Channels
title_fullStr A Bayesian Game-Theoretic Approach for Distributed Resource Allocation in Fading Multiple Access Channels
title_full_unstemmed A Bayesian Game-Theoretic Approach for Distributed Resource Allocation in Fading Multiple Access Channels
title_sort bayesian game-theoretic approach for distributed resource allocation in fading multiple access channels
publisher SpringerOpen
series EURASIP Journal on Wireless Communications and Networking
issn 1687-1472
1687-1499
publishDate 2010-01-01
description <p/> <p>A Bayesian game-theoretic model is developed to design and analyze the resource allocation problem in <inline-formula> <graphic file="1687-1499-2010-391684-i1.gif"/></inline-formula>-user fading multiple access channels (MACs), where the users are assumed to selfishly maximize their average achievable rates with incomplete information about the fading channel gains. In such a game-theoretic study, the central question is whether a Bayesian equilibrium exists, and if so, whether the network operates efficiently at the equilibrium point. We prove that there exists exactly one Bayesian equilibrium in our game. Furthermore, we study the network sum-rate maximization problem by assuming that the users coordinate according to a symmetric strategy profile. This result also serves as an upper bound for the Bayesian equilibrium. Finally, simulation results are provided to show the network efficiency at the unique Bayesian equilibrium and to compare it with other strategies.</p>
url http://jwcn.eurasipjournals.com/content/2010/391684
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AT altmaneitan abayesiangametheoreticapproachfordistributedresourceallocationinfadingmultipleaccesschannels
AT hegaoning abayesiangametheoreticapproachfordistributedresourceallocationinfadingmultipleaccesschannels
AT debbahm233rouane bayesiangametheoreticapproachfordistributedresourceallocationinfadingmultipleaccesschannels
AT altmaneitan bayesiangametheoreticapproachfordistributedresourceallocationinfadingmultipleaccesschannels
AT hegaoning bayesiangametheoreticapproachfordistributedresourceallocationinfadingmultipleaccesschannels
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