A Novel Distributed Sensor Positioning System Using the Dual of Target Tracking

As one of the fundamental issues in wireless sensor networks (WSNs), the sensor localization problem has recently received extensive attention. In this work, we investigate this problem from a novel perspective by treating it as a functional dual of target tracking. In traditional tracking problems,...

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Vydané v:IEEE transactions on computers Ročník 57; číslo 2; s. 246 - 260
Hlavní autori: Liqiang Zhang, Qiang Cheng, Yingge Wang, Zeadally, S.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: New York IEEE 01.02.2008
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Predmet:
Aircraft
Algorithm/protocol design and analysis
Antenna measurements
Beacons
Computer simulation
Electronic mail
Estimation
Global Positioning System
Landscapes
Networks
Position (location)
Robot sensing systems
Satellite navigation systems
Sensor networks
Sensors
Studies
Target tracking
Time measurement
Wireless
Wireless sensor networks
Wireless
Sensor networks
Algorithm/protocol design and analysis
ISSN:0018-9340, 1557-9956
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Shrnutí:As one of the fundamental issues in wireless sensor networks (WSNs), the sensor localization problem has recently received extensive attention. In this work, we investigate this problem from a novel perspective by treating it as a functional dual of target tracking. In traditional tracking problems, static location-aware sensors track and predict the position and/or velocity of a moving target. As a dual, we utilize a moving location assistant (LA) (with a global positioning system (GPS) or a predefined moving path) to help location-unaware sensors to accurately discover their positions. We call our proposed system Landscape. In Landscape, an LA (an aircraft, for example) periodically broadcasts its current location (we call it a beacon) while it moves around or through a sensor field. Each sensor collects the location beacons, measures the distance between itself and the LA based on the received signal strength (RSS), and individually calculates their locations via an Unscented Kalman Filter (UKF)-based algorithm. Landscape has several features that are favorable to WSNs, such as high scalability, no intersensor communication overhead, moderate computation cost, robustness to range errors and network connectivity, etc. Extensive simulations demonstrate that Landscape is an efficient sensor positioning scheme for outdoor sensor networks.
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ISSN:0018-9340
1557-9956
DOI:10.1109/TC.2007.70792