Routing in multi-radio, multi-hop wireless mesh networks
Proceedings of the 10th annual international conference on Mobile computing and networking
Price-based rate control in random access networks
IEEE/ACM Transactions on Networking (TON)
Nash Equilibria of Packet Forwarding Strategies in Wireless Ad Hoc Networks
IEEE Transactions on Mobile Computing
Multi-radio channel allocation in competitive wireless networks
ICDCSW '06 Proceedings of the 26th IEEE International ConferenceWorkshops on Distributed Computing Systems
A game-theoretic look at simple relay channel
Wireless Networks
Adaptive channel allocation spectrum etiquette for cognitive radio networks
Mobile Networks and Applications
Channel assignment and link scheduling in multi-radio multi-channel wireless mesh networks
Mobile Networks and Applications
Wireless Networking
Using game theory to analyze wireless ad hoc networks
IEEE Communications Surveys & Tutorials
Cognitive radio: brain-empowered wireless communications
IEEE Journal on Selected Areas in Communications
Atomic congestion games on graphs and their applications in networking
IEEE/ACM Transactions on Networking (TON)
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We consider a resource allocation problem in a multichannel wireless access system being shared by several users for uplink transfer of elastic traffic. Each user can allocate its resources (e.g., radios, antennas or power) to one or more of the carriers. In this network scenario we consider a problem of noncooperative allocation of resources by the users, with each user's objective being to maximize its own utility. We apply the theory of potential games to solve this problem by transforming it into an equivalent global optimization one. We obtain structural properties of the equilibrium policies using tools from Schur concave stochastic orders. Finally, we propose a totally distributed algorithm that converges to a Nash Equilibrium of the system.