Graphical properties of easily localizable sensor networks

Brian D.O. Anderson; Peter N. Belhumeur; Tolga Eren; David K. Goldenberg; A. Stephen Morse; Walter Whiteley; Y. Richard Yang

doi:10.1007/s11276-007-0034-9

Graphical properties of easily localizable sensor networks

Brian D.O. Anderson, Peter N. Belhumeur, Tolga Eren, David K. Goldenberg, A. Stephen Morse, Walter Whiteley, Y. Richard Yang

Research output: Contribution to journal › Article › peer-review

78 Citations (Scopus)

Abstract

The sensor network localization problem is one of determining the Euclidean positions of all sensors in a network given knowledge of the Euclidean positions of some, and knowledge of a number of inter-sensor distances. This paper identifies graphical properties which can ensure unique localizability, and further sets of properties which can ensure not only unique localizability but also provide guarantees on the associated computational complexity, which can even be linear in the number of sensors on occasions. Sensor networks with minimal connectedness properties in which sensor transmit powers can be increased to increase the sensing radius lend themselves to the acquiring of the needed graphical properties. Results are presented for networks in both two and three dimensions.

Original language	English
Pages (from-to)	177-191
Number of pages	15
Journal	Wireless Networks
Volume	15
Issue number	2
DOIs	https://doi.org/10.1007/s11276-007-0034-9
Publication status	Published - Feb 2009

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title = "Graphical properties of easily localizable sensor networks",

abstract = "The sensor network localization problem is one of determining the Euclidean positions of all sensors in a network given knowledge of the Euclidean positions of some, and knowledge of a number of inter-sensor distances. This paper identifies graphical properties which can ensure unique localizability, and further sets of properties which can ensure not only unique localizability but also provide guarantees on the associated computational complexity, which can even be linear in the number of sensors on occasions. Sensor networks with minimal connectedness properties in which sensor transmit powers can be increased to increase the sensing radius lend themselves to the acquiring of the needed graphical properties. Results are presented for networks in both two and three dimensions.",

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AU - Anderson, Brian D.O.

AU - Belhumeur, Peter N.

AU - Eren, Tolga

AU - Goldenberg, David K.

AU - Morse, A. Stephen

AU - Whiteley, Walter

AU - Yang, Y. Richard

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N2 - The sensor network localization problem is one of determining the Euclidean positions of all sensors in a network given knowledge of the Euclidean positions of some, and knowledge of a number of inter-sensor distances. This paper identifies graphical properties which can ensure unique localizability, and further sets of properties which can ensure not only unique localizability but also provide guarantees on the associated computational complexity, which can even be linear in the number of sensors on occasions. Sensor networks with minimal connectedness properties in which sensor transmit powers can be increased to increase the sensing radius lend themselves to the acquiring of the needed graphical properties. Results are presented for networks in both two and three dimensions.

AB - The sensor network localization problem is one of determining the Euclidean positions of all sensors in a network given knowledge of the Euclidean positions of some, and knowledge of a number of inter-sensor distances. This paper identifies graphical properties which can ensure unique localizability, and further sets of properties which can ensure not only unique localizability but also provide guarantees on the associated computational complexity, which can even be linear in the number of sensors on occasions. Sensor networks with minimal connectedness properties in which sensor transmit powers can be increased to increase the sensing radius lend themselves to the acquiring of the needed graphical properties. Results are presented for networks in both two and three dimensions.

KW - Global rigidity

KW - Graph theory

KW - Localization

KW - Sensor networks

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EP - 191

JO - Wireless Networks

JF - Wireless Networks

IS - 2

ER -

Graphical properties of easily localizable sensor networks

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