Wireless internet wireless + internet
Wireless internet handbook
Nash Equilibria of Packet Forwarding Strategies in Wireless Ad Hoc Networks
IEEE Transactions on Mobile Computing
A cooperative uplink power control scheme for elastic data services in wireless CDMA systems
ACM SIGCOMM Computer Communication Review
Adaptive channel allocation spectrum etiquette for cognitive radio networks
Mobile Networks and Applications
Best neighbor strategy to enforce cooperation among selfish nodes in wireless ad hoc network
Computer Communications
Trust-based evolutionary game model assisting AODV routing against selfishness
Journal of Network and Computer Applications
IEEE/ACM Transactions on Networking (TON)
Distributed power control using non-monotonic reaction curves
GameNets'09 Proceedings of the First ICST international conference on Game Theory for Networks
IEEE Transactions on Communications
A repeated game formulation of energy-efficient decentralized power control
IEEE Transactions on Wireless Communications
A Power Control Based Admission Algorithm for Maximizing Throughput in a CDMA Network
Wireless Personal Communications: An International Journal
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The cellular telephone success story prompts the wireless communications community to turn its attention to other information services, many of them in the category of “wireless data” communications. One lesson of cellular telephone network operation is that effective power control is essential to promote system quality and efficiency. In recent we have applied microeconomic theories to power control taking into account motions of utility and pricing. Our earlier work has shown that this new approach to power control for wireless data performs better than traditional techniques applied for voice signals. However, the operating points of such a strategy result in an unfair equilibrium in that users operate with unequal signal-to-interface ratios. Further, the power control algorithms required to achieve such operating points are more complex than the simple signal-to-interference ratio balancing algorithms for voice,. In this paper, we introduce a new concept, Network Assisted Power Control (NAPC) that maximizes utilities for users while maintaining equal signal-to-interference ratios for all users. The power control algorithm is easily implemented via signal-to-interference ratio balancing with the assistance of the network that broadcasts the common signal-to-interference ratio target.