Distributed Detection/Isolation Procedures for Quickest Event Detection in Large Extent Wireless Sensor Networks
Abstract
We study a problem of distributed detection of a stationary point event in a large extent wireless sensor network (), where the event influences the observations of the sensors only in the vicinity of where it occurs. An event occurs at an unknown time and at a random location in the coverage region (or region of interest ()) of the . We consider a general sensing model in which the effect of the event at a sensor node depends on the distance between the event and the sensor node; in particular, in the Boolean sensing model, all sensors in a disk of a given radius around the event are equally affected. Following the prior work reported in \cite{nikiforov95change_isolation}, \cite{nikiforov03lower-bound-for-det-isolation}, \cite{tartakovsky08multi-decision}, {\em the problem is formulated as that of detecting the event and locating it to a subregion of the as early as possible under the constraints that the average run length to false alarm () is bounded below by , and the probability of false isolation () is bounded above by }, where and are target performance requirements. In this setting, we propose distributed procedures for event detection and isolation (namely , , and ), based on the local fusion of s at the sensors. For these procedures, we obtain bounds on the maximum mean detection/isolation delay (), and on and , and thus provide an upper bound on as . For the Boolean sensing model, we show that an asymptotic upper bound on the maximum mean detection/isolation delay of our distributed procedure scales with and in the same way as the asymptotically optimal centralised procedure \cite{nikiforov03lower-bound-for-det-isolation}.
Cite
@article{arxiv.1105.6061,
title = {Distributed Detection/Isolation Procedures for Quickest Event Detection in Large Extent Wireless Sensor Networks},
author = {Premkumar Karumbu and Anurag Kumar and Joy Kuri},
journal= {arXiv preprint arXiv:1105.6061},
year = {2011}
}
Comments
Submitted to IEEE Transactions on Signal Processing, Mar. 10, 2011. Revised on Jul. 17, 2011. A part of this work was presented in Forty-Seventh Annual Allerton Conference on Communication, Control, and Computing, Monticello, IL, USA, Sep. - Oct. 2009