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http://dx.doi.org/10.1109/JCN.2013.000029

Secure and Robust Clustering for Quantized Target Tracking in Wireless Sensor Networks  

Mansouri, Majdi (Electrical and Computer Engineering Program, Texas A&M University at Qatar)
Khoukhi, Lyes (ERA/ICD, University of Technology of Troyes)
Nounou, Hazem (Electrical and Computer Engineering Program, Texas A&M University at Qatar)
Nounou, Mohamed (Electrical and Computer Engineering Program, Texas A&M University at Qatar)
Publication Information
Journal of Communications and Networks / v.15, no.2, 2013 , pp. 164-172 More about this Journal
Abstract
We consider the problem of secure and robust clustering for quantized target tracking in wireless sensor networks (WSN) where the observed system is assumed to evolve according to a probabilistic state space model. We propose a new method for jointly activating the best group of candidate sensors that participate in data aggregation, detecting the malicious sensors and estimating the target position. Firstly, we select the appropriate group in order to balance the energy dissipation and to provide the required data of the target in the WSN. This selection is also based on the transmission power between a sensor node and a cluster head. Secondly, we detect the malicious sensor nodes based on the information relevance of their measurements. Then, we estimate the target position using quantized variational filtering (QVF) algorithm. The selection of the candidate sensors group is based on multi-criteria function, which is computed by using the predicted target position provided by the QVF algorithm, while the malicious sensor nodes detection is based on Kullback-Leibler distance between the current target position distribution and the predicted sensor observation. The performance of the proposed method is validated by simulation results in target tracking for WSN.
Keywords
Malicious sensor detection; multi-criteria function; quantized variational filtering (QVF); sensors selection; target tracking; wireless sensor networks (WSN);
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