Target location estimation in sensor networks using range information

We consider the problem of target location estimation in the context of large scale, dense sensor networks. We model the probability of detection in each sensor, p/sub d/ as a function of the distance between the sensor and the target. Based on a binary (detection vs. no detection) information from...

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Bibliographic Details
Published in2004 IEEE Sensor Array and Multichannel Signal Processing Workshop pp. 608 - 612
Main Authors Artes-Rodriguez, A., Lazaro, M., Tong, L.
Format Conference Proceeding
LanguageEnglish
Published IEEE 2004
Subjects
Computer networks
Intelligent networks
Large scale integration
Large-scale systems
Maximum likelihood detection
Risk management
Sensor fusion
Target tracking
Wireless communication
Wireless sensor networks
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Summary:We consider the problem of target location estimation in the context of large scale, dense sensor networks. We model the probability of detection in each sensor, p/sub d/ as a function of the distance between the sensor and the target. Based on a binary (detection vs. no detection) information from each sensor and the model of p/sub d/, we propose two different fusion rules for estimating the target location: a maximum likelihood estimate and an empirical risk minimization method. Moreover, we also consider the case where only sensors with a positive detection transmit their reading. This can be helpful to economize the power of sensor units. By employing Gaussian like p/sub d/ models, we develop versions of both methods based on simple initialization procedures and a gradient search. We compare and discuss both algorithms in terms of complexity and accuracy.
ISBN:9780780385450
0780385454
DOI:10.1109/SAM.2004.1503021