@ARTICLE{6777563,
author={S. Misra and S. Sarkar},
journal={IEEE Journal of Biomedical and Health Informatics},
title={Priority-Based Time-Slot Allocation in Wireless Body Area Networks During Medical Emergency Situations: An Evolutionary Game-Theoretic Perspective},
year={2015},
volume={19},
number={2},
pages={541-548},
keywords={biomedical telemetry;body area networks;body sensor networks;game theory;health care;medical diagnostic computing;patient monitoring;wireless LAN;average waiting time;constant model hawk-dove game;critical information;critical medical emergency situations;crucial LDPU properties;data packets;energy consumption rate;evolutionary game-theoretic perspective;fitness parameter characterization;health data criticality;local data processing units;medical emergency situations;priority-based allocation-of-time slots;priority-based time-slot allocation;priority-based wireless transmission;regular healthcare information;time-division-based techniques;transmission time slots;wireless body area network equipped health monitoring systems;Biomedical monitoring;Games;Medical services;Monitoring;Resource management;Sensors;Wireless sensor networks;Hawk–dove game;priority-based allocation of time slots;wireless body area network (WBAN);Algorithms;Computer Communication Networks;Emergency Medical Services;Game Theory;Health Status Indicators;Humans;Models, Theoretical;Remote Sensing Technology;Wireless Technology},
doi={10.1109/JBHI.2014.2313374},
ISSN={2168-2194},
month={March} }