Title :
Hiding trajectory on the fly
Author :
Jin, Xinyu ; Pissinou, Niki ; Chesneau, Cody ; Pumpichet, Sitthapon ; Pan, Deng
Abstract :
The rapid development in micro-computing has allowed implementations of complex mobile Wireless Sensor Networks (mWSNs). Privacy invasion is becoming an indispensable issue along with the increasing range of applications of mWSNs. Private trajectory information not only indicates the movements of mobile sensors, but also reveals personal preferences and habits of users. In this paper, we propose the distributed Basic Trajectory Privacy (BTPriv) and Secondary Trajectory Privacy (STPriv) preservation algorithms to hide trajectory of data source nodes online. We set up various simulation environments for different applications. The effectiveness of our proposed algorithms is evaluated by the software implementation in simulation experiments.
Keywords :
data privacy; mobile radio; telecommunication security; wireless sensor networks; BTPriv preservation algorithm; STPriv preservation algorithms; complex mobile wireless sensor networks; data source node online trajectory hiding; distributed basic trajectory privacy preservation algorithm; mWSN; microcomputing; mobile sensors; privacy invasion; private trajectory information; secondary trajectory privacy preservation algorithm; Data privacy; Educational institutions; Mobile communication; Privacy; Routing; Trajectory; Wireless sensor networks; mobile sensor network; online algorithm; trajectory privacy;
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.2012.6364508
