Title :
Model-driven adaptive wireless sensing for environmental healthcare feedback systems
Author :
Nikzad, Nima ; Yang, Jinseok ; Zappi, Piero ; Rosing, Tajana Simunic ; Krishnaswamy, Dilip
Abstract :
While the connectivity, sensing, and computational capabilities of today´s smartphones have increased, congestion in wireless channels and energy consumption remain major issues. We present a technique for model-driven adaptive environmental sensing, designed to reduce the amount of data that is communicated over the cellular network. In simulations of an exposure monitoring system, our technique reduced the number of messages sent by 85%, obtained power savings of 80% while generating a global model of pollution with error of maximum 0.5 ppm, a negligible amount for the application of interest.
Keywords :
biomedical telemetry; cellular radio; health care; radiotelemetry; smart phones; wireless channels; cellular network; energy consumption; environmental healthcare feedback systems; exposure monitoring system; model-driven adaptive environmental sensing; model-driven adaptive wireless sensing; power savings; smart phones; wireless channels; Adaptation models; Mobile handsets; Pollution; Power demand; Predictive models; Sensors; Servers; Energy-efficiency; adaptive sensing; environmental sensing; wireless healthcare;
Conference_Titel :
Communications (ICC), 2012 IEEE International Conference on
Conference_Location :
Ottawa, ON
Print_ISBN :
978-1-4577-2052-9
Electronic_ISBN :
1550-3607
DOI :
10.1109/ICC.2012.6364575
