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@inproceedings{Willerton:2012,
author = {Willerton, M and Banavar, M and Zhang, X and Manikas, A and Tepedelenlioglu, C and Spanias, A and Thornton, T and Yeatman, E and Constantinides, AG},
title = {Sequential Wireless Sensor Network Discovery Using Wide Aperture Array Signal Processing},
year = {2012}
}

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TY  - CPAPER
AB  - In this paper, a novel wireless sensor network discovery algorithm is presented which estimates the position of a large number of low powered, randomly distributed sensor nodes. Initially, all nodes are at unknown locations except for a smallnumber which are termed the “anchor” nodes. The remaining nodes are to be located as part of the discovery procedure. As the locations of sensor nodes are estimated, they can be used in the localization of other nodes. Transmitting nodes in unknown locations are localized in a decentralized manner by using a set of receiving sensor nodes at known or estimated locations within its coverage area. This set of nodes forms an array which is used for localization. Initially a coarse localisation of all nodes is performed to identify their approximate positions. A fine grained localization procedure then follows for refinement. This paper will focus on the coarse localizationapproach. Simulations demonstrate the effectiveness of the proposed method.
AU  - Willerton,M
AU  - Banavar,M
AU  - Zhang,X
AU  - Manikas,A
AU  - Tepedelenlioglu,C
AU  - Spanias,A
AU  - Thornton,T
AU  - Yeatman,E
AU  - Constantinides,AG
PY  - 2012///
TI  - Sequential Wireless Sensor Network Discovery Using Wide Aperture Array Signal Processing
ER  -

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