Relay sensor placement in wireless sensor networks

Xiuzhen Cheng; Ding-Zhu Du; Lusheng Wang; Baogang Xu

doi:10.1007/s11276-006-0724-8

Relay sensor placement in wireless sensor networks

Xiuzhen Cheng, Ding-Zhu Du, Lusheng Wang, Baogang Xu

Department of Computer Science

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

396 Citations (Scopus)

Abstract

This paper addresses the following relay sensor placement problem: given the set of duty sensors in the plane and the upper bound of the transmission range, compute the minimum number of relay sensors such that the induced topology by all sensors is globally connected. This problem is motivated by practically considering the tradeoff among performance, lifetime, and cost when designing sensor networks. In our study, this problem is modelled by a NP-hard network optimization problem named Steiner Minimum Tree with Minimum number of Steiner Points and bounded edge length (SMT-MSP). In this paper, we propose two approximate algorithms, and conduct detailed performance analysis. The first algorithm has a performance ratio of 3 and the second has a performance ratio of 2.5. © 2007 Springer Science + Business Media, LLC.

Original language	English
Pages (from-to)	347-355
Journal	Wireless Networks
Volume	14
Issue number	3
DOIs	https://doi.org/10.1007/s11276-006-0724-8
Publication status	Published - Jun 2008

Research Keywords

Relay sensor
SMT-MSP
Steiner point
Topology control
Wireless sensor networks

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10.1007/s11276-006-0724-8

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title = "Relay sensor placement in wireless sensor networks",

abstract = "This paper addresses the following relay sensor placement problem: given the set of duty sensors in the plane and the upper bound of the transmission range, compute the minimum number of relay sensors such that the induced topology by all sensors is globally connected. This problem is motivated by practically considering the tradeoff among performance, lifetime, and cost when designing sensor networks. In our study, this problem is modelled by a NP-hard network optimization problem named Steiner Minimum Tree with Minimum number of Steiner Points and bounded edge length (SMT-MSP). In this paper, we propose two approximate algorithms, and conduct detailed performance analysis. The first algorithm has a performance ratio of 3 and the second has a performance ratio of 2.5. {\textcopyright} 2007 Springer Science + Business Media, LLC.",

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T1 - Relay sensor placement in wireless sensor networks

AU - Cheng, Xiuzhen

AU - Du, Ding-Zhu

AU - Wang, Lusheng

AU - Xu, Baogang

PY - 2008/6

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N2 - This paper addresses the following relay sensor placement problem: given the set of duty sensors in the plane and the upper bound of the transmission range, compute the minimum number of relay sensors such that the induced topology by all sensors is globally connected. This problem is motivated by practically considering the tradeoff among performance, lifetime, and cost when designing sensor networks. In our study, this problem is modelled by a NP-hard network optimization problem named Steiner Minimum Tree with Minimum number of Steiner Points and bounded edge length (SMT-MSP). In this paper, we propose two approximate algorithms, and conduct detailed performance analysis. The first algorithm has a performance ratio of 3 and the second has a performance ratio of 2.5. © 2007 Springer Science + Business Media, LLC.

AB - This paper addresses the following relay sensor placement problem: given the set of duty sensors in the plane and the upper bound of the transmission range, compute the minimum number of relay sensors such that the induced topology by all sensors is globally connected. This problem is motivated by practically considering the tradeoff among performance, lifetime, and cost when designing sensor networks. In our study, this problem is modelled by a NP-hard network optimization problem named Steiner Minimum Tree with Minimum number of Steiner Points and bounded edge length (SMT-MSP). In this paper, we propose two approximate algorithms, and conduct detailed performance analysis. The first algorithm has a performance ratio of 3 and the second has a performance ratio of 2.5. © 2007 Springer Science + Business Media, LLC.

KW - Relay sensor

KW - SMT-MSP

KW - Steiner point

KW - Topology control

KW - Wireless sensor networks

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U2 - 10.1007/s11276-006-0724-8

DO - 10.1007/s11276-006-0724-8

M3 - RGC 21 - Publication in refereed journal

SN - 1022-0038

VL - 14

SP - 347

EP - 355

JO - Wireless Networks

JF - Wireless Networks

IS - 3

ER -

Relay sensor placement in wireless sensor networks

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