Software-related energy footprint of a wireless broadband module
Proceedings of the 9th ACM international symposium on Mobility management and wireless access
Energy-aware cross-layer burst buffering for wireless communication
Proceedings of the 3rd International Conference on Future Energy Systems: Where Energy, Computing and Communication Meet
Modular anomaly detection for smartphone ad hoc communication
NordSec'11 Proceedings of the 16th Nordic conference on Information Security Technology for Applications
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Wireless communication is becoming the dominant form of communication and ad hoc wireless connections are posed to play a role in disaster area networks. However, research efforts on wireless ad hoc communication protocols do not pay enough attention to measurable and reproducible indications of the mobile footprint including power consumption. Protocols and applications are initially designed and studied in a simulation environment and are hard to test in in-field experiments. In this work we report a multi-platform implementation of Random-Walk Gossip, a many cast protocol designed for message dissemination in disaster areas. Our work is focused in studying the resource footprint and its impact on performance on commercially available devices. We show both how different aspects of the protocol contributes to the footprint and how this in turn affects the performance. The methodologies used here can be applied to other protocols and applications, aiding in future optimisations.