A power control MAC protocol for ad hoc networks
Proceedings of the 8th annual international conference on Mobile computing and networking
Computer Networks: The International Journal of Computer and Telecommunications Networking
Energy-efficient broadcast and multicast trees in wireless networks
Mobile Networks and Applications
Energy-efficient broadcast and multicast trees in wireless networks
Mobile Networks and Applications
Computer Networks: The International Journal of Computer and Telecommunications Networking
Maximum Lifetime Broadcasting in Wireless Networks
IEEE Transactions on Computers
Power aware routing using power control in Ad Hoc networks
ACM SIGMOBILE Mobile Computing and Communications Review
A power control MAC protocol for ad hoc networks
Wireless Networks
Fair Coalitions for Power-Aware Routing in Wireless Networks
IEEE Transactions on Mobile Computing
Combination of a MANET data communication protocol with a MANET service discovery protocol
Journal of Computational Methods in Sciences and Engineering - Special Supplement Issue in Section A and B: Selected Papers from the ISCA International Conference on Software Engineering and Data Engineering, 2009
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In this paper, we address the impact of resource limitations on the operation and performance of the broadcasting and multicasting schemes developed for infrastructureless wireless networks in our earlier studies. These schemes, which provide energy-efficient operation for source-initiated session traffic, were previously studied without fully accounting for such limitations. We discuss the 驴node-based驴 nature of the all-wireless medium, and demonstrate that improved performance can be obtained when such properties are exploited by networking algorithms. Our broadcast and multicast algorithms involve the joint choice of transmitter power and tree construction, and thus depart from the conventional approach that makes design choices at each layer separately. We indicate how the impact of limited frequency resources can be addressed. Alternative schemes are developed for frequency assignment, and their performance is compared under different levels of traffic load, while also incorporating the impact of limited transceiver resources.