Title :
Energy-Efficient Opportunistic Collaborative Sensing
Author :
Eberle, Julien ; Zhixian Yan ; Aberer, Karl
Author_Institution :
EPFL, Lausanne, Switzerland
Abstract :
This paper studies mobile sensing in a complete distributed and opportunistic scheme. We present a novel sensing strategy for sensing nodes without movement constraints. This strategy offers information sharing and sensor scheduling that maximizes the benefits from collaboration between the nodes. We evaluate the strategy with two real world datasets, where mobile devices sense the surroundings and share the information with nearby devices via Bluetooth. We show that data sharing of energy-hungry sensing (e.g., GPS) via nearby devices can save a substantial amount of energy. Moreover, we formulate the offline measurement scheduling as a non-linear optimization problem and compare the offline optimal results with our online scheduling performance.
Keywords :
Bluetooth; Global Positioning System; energy conservation; mobile radio; optimisation; scheduling; wireless sensor networks; Bluetooth; GPS; data sharing; distributed sensing scheme; energy-efficient opportunistic collaborative sensing scheme; energy-hungry sensing; information sharing strategy; mobile device; mobile sensing; nonlinear optimization problem; offline measurement scheduling; online scheduling performance; sensor scheduling strategy; Bluetooth; Collaboration; Mobile handsets; Mobile nodes; Peer-to-peer computing; Sensors; collaborative sensing; energy-efficient;
Conference_Titel :
Mobile Ad-Hoc and Sensor Systems (MASS), 2013 IEEE 10th International Conference on
Conference_Location :
Hangzhou
DOI :
10.1109/MASS.2013.57
