Distributed relay-source matching for cooperative wireless networks using two-sided market games
GLOBECOM'09 Proceedings of the 28th IEEE conference on Global telecommunications
Price-based spectrum-allocation relay routing in cognitive radio networks
ICICS'09 Proceedings of the 7th international conference on Information, communications and signal processing
A game-theoretic multipath routing for video-streaming services over Mobile Ad Hoc Networks
Computer Networks: The International Journal of Computer and Telecommunications Networking
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In self-organized mobile ad hoc networks (MANETs) where each user is its own authority, fully cooperative behaviors, such as unconditionally forwarding packets for each other or honestly revealing its private information, cannot be directly assumed. The pricing mechanism is one way to provide incentives for the users to act cooperatively by awarding some payment for cooperative behaviors. In this paper, we consider efficient routing in self-organized MANETs and model it as multi-stage dynamic pricing games. A game theoretical framework for dynamic pricing-based routing in MANETs is proposed to maximize the sender/receiveriquests payoff by considering the dynamic nature of MANETs. Meanwhile, the forwarding incentives of the relay nodes can also be maintained by optimally pricing their packet-forwarding services based on the auction rules and introducing the cartel maintenance enforcing mechanism. The simulation results illustrate that the proposed dynamic pricing-based routing approach has significant performance gains over the existing static pricing approaches.