Game theoretic outage compensation in next generation mobile networks
IEEE Transactions on Wireless Communications
A cross-layer elastic CAC and holistic opportunistic scheduling for QoS support in WiMAX
Computer Networks: The International Journal of Computer and Telecommunications Networking
Downlink resource management for QoS scheduling in IEEE 802.16 WiMAX networks
Computer Communications
Game-theoretic approach to joint transmitter adaptation and power control in wireless systems
IEEE Transactions on Systems, Man, and Cybernetics, Part B: Cybernetics - Special issue on game theory
Dynamic call admission control and bandwidth redistribution scheme for 802.16 systems
WD'09 Proceedings of the 2nd IFIP conference on Wireless days
Distributed resource reservation for beacon based MAC protocols
EUNICE'10 Proceedings of the 16th EUNICE/IFIP WG 6.6 conference on Networked services and applications: engineering, control and management
A survey on game theory applications in wireless networks
Computer Networks: The International Journal of Computer and Telecommunications Networking
Further analysis and tuning of registered multi-cycle polling in wireless medium access management
Proceedings of the 1st ACM workshop on High performance mobile opportunistic systems
A Cross-Layer Cognitive Radio-Based Framework and CAC Scheme in WiMAX Networks
Wireless Personal Communications: An International Journal
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Game theory is a mathematical tool developed to understand competitive situations in which rational decision makers interact to achieve their objectives. Game theory techniques have recently been applied to various engineering design problems in which the action of one component impacts (and perhaps conflicts with) that of any other component. In particular, game theory techniques have been successfully used for protocol design and optimization (e.g., radio resource management, power control) in wireless networks. In this article we present an overview of different game theory formulations. Then a survey on the game-theory-based resource management and admission control schemes in different wireless networks is presented, and several open research issues are outlined. To this end, we propose an adaptive bandwidth allocation and admission control scheme for polling service in an IEEE 802.16-based wireless metropolitan area network. A noncooperative game is formulated, and the solution of this game is determined by the Nash equilibrium for the amount of bandwidth offered to a new connection. The admission control policy ensures QoS for all connections in the system