research-article

Distributed Energy Optimization for Target Tracking in Wireless Sensor Networks

Authors:

Xue Wang,

Junjie Ma,

Sheng Wang,

Daowei BiAuthors Info & Claims

IEEE Transactions on Mobile Computing, Volume 9, Issue 1

Pages 73 - 86

https://doi.org/10.1109/TMC.2009.99

Published: 01 January 2010 Publication History

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Abstract

Energy constraint is an important issue in wireless sensor networks. This paper proposes a distributed energy optimization method for target tracking applications. Sensor nodes are clustered by maximum entropy clustering. Then, the sensing field is divided for parallel sensor deployment optimization. For each cluster, the coverage and energy metrics are calculated by grid exclusion algorithm and Dijkstra's algorithm, respectively. Cluster heads perform parallel particle swarm optimization to maximize the coverage metric and minimize the energy metric. Particle filter is improved by combining the radial basis function network, which constructs the process model. Thus, the target position is predicted by the improved particle filter. Dynamic awakening and optimal sensing scheme are then discussed in dynamic energy management mechanism. A group of sensor nodes which are located in the vicinity of the target will be awakened up and have the opportunity to report their data. The selection of sensor node is optimized considering sensing accuracy and energy consumption. Experimental results verify that energy efficiency of wireless sensor network is enhanced by parallel particle swarm optimization, dynamic awakening approach, and sensor node selection.

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Sadeghi Ghahroudi MShahrabi AGhoreyshi SAlfouzan F(2023)Distributed Node Deployment Algorithms in Mobile Wireless Sensor Networks: Survey and ChallengesACM Transactions on Sensor Networks10.1145/357903419:4(1-26)Online publication date: 10-Jul-2023
https://dl.acm.org/doi/10.1145/3579034
Bhagat D(2022)Tracking of Moving Target in Wireless Sensor Network with Improved Network Life Time Using PSOWireless Personal Communications: An International Journal10.1007/s11277-021-08574-1127:2(1225-1239)Online publication date: 1-Nov-2022
https://dl.acm.org/doi/10.1007/s11277-021-08574-1
Parsavand HGhaffari A(2018)Controlling Congestion in Wireless Sensor Networks Through Imperialist Competitive AlgorithmWireless Personal Communications: An International Journal10.1007/s11277-018-5752-z101:2(1123-1142)Online publication date: 1-Jul-2018
https://dl.acm.org/doi/10.1007/s11277-018-5752-z
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Index Terms

Distributed Energy Optimization for Target Tracking in Wireless Sensor Networks
1. Hardware
  1. Communication hardware, interfaces and storage
    1. Signal processing systems
2. Networks
  1. Network types
    1. Mobile networks

Index terms have been assigned to the content through auto-classification.

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cover image IEEE Transactions on Mobile Computing

IEEE Transactions on Mobile Computing Volume 9, Issue 1

January 2010

144 pages

ISSN:1536-1233

Issue’s Table of Contents

Publisher

IEEE Educational Activities Department

United States

Publication History

Published: 01 January 2010

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Sadeghi Ghahroudi MShahrabi AGhoreyshi SAlfouzan F(2023)Distributed Node Deployment Algorithms in Mobile Wireless Sensor Networks: Survey and ChallengesACM Transactions on Sensor Networks10.1145/357903419:4(1-26)Online publication date: 10-Jul-2023
https://dl.acm.org/doi/10.1145/3579034
Bhagat D(2022)Tracking of Moving Target in Wireless Sensor Network with Improved Network Life Time Using PSOWireless Personal Communications: An International Journal10.1007/s11277-021-08574-1127:2(1225-1239)Online publication date: 1-Nov-2022
https://dl.acm.org/doi/10.1007/s11277-021-08574-1
Parsavand HGhaffari A(2018)Controlling Congestion in Wireless Sensor Networks Through Imperialist Competitive AlgorithmWireless Personal Communications: An International Journal10.1007/s11277-018-5752-z101:2(1123-1142)Online publication date: 1-Jul-2018
https://dl.acm.org/doi/10.1007/s11277-018-5752-z
Roselin JLatha PBenitta S(2017)Maximizing the wireless sensor networks lifetime through energy efficient connected coverageAd Hoc Networks10.1016/j.adhoc.2017.04.00162:C(1-10)Online publication date: 1-Jul-2017
https://dl.acm.org/doi/10.1016/j.adhoc.2017.04.001
Rajasekar RPrakasam P(2015)Proposed Coordinating Multiple Sampling Tasks in Sensor Field Using Geometric Progression Algorithm for Efficient Data Collection in Wireless Sensor NetworksWireless Personal Communications: An International Journal10.1007/s11277-015-2315-482:3(1809-1824)Online publication date: 1-Jun-2015
https://dl.acm.org/doi/10.1007/s11277-015-2315-4
Jin YDing YHao KJin Y(2015)An endocrine-based intelligent distributed cooperative algorithm for target tracking in wireless sensor networksSoft Computing - A Fusion of Foundations, Methodologies and Applications10.1007/s00500-014-1352-319:5(1427-1441)Online publication date: 1-May-2015
https://dl.acm.org/doi/10.1007/s00500-014-1352-3
Pino-Povedano SArroyo-Valles RCid-Sueiro J(2014)Selective forwarding for energy-efficient target tracking in sensor networksSignal Processing10.1016/j.sigpro.2013.07.01894(557-569)Online publication date: 1-Jan-2014
https://dl.acm.org/doi/10.1016/j.sigpro.2013.07.018
Mansouri MNounou HNounou M(2014)Genetic Algorithm-based Adaptive Optimization for Target Tracking in Wireless Sensor NetworksJournal of Signal Processing Systems10.1007/s11265-013-0758-y74:2(189-202)Online publication date: 1-Feb-2014
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Wang YZhao QZheng DGuan X(2013)On optimisation of cluster-based sensor network tracking systemInternational Journal of Ad Hoc and Ubiquitous Computing10.1504/IJAHUC.2013.05823414:3(145-157)Online publication date: 1-Dec-2013
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Forte DSrivastava A(2013)Resource-aware architectures for adaptive particle filter based visual target trackingACM Transactions on Design Automation of Electronic Systems10.1145/2442087.244209318:2(1-27)Online publication date: 11-Apr-2013
https://dl.acm.org/doi/10.1145/2442087.2442093
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Energy-Balanced Scheduling for Target Tracking in Wireless Sensor Networks

Localized policy-based target tracking using wireless sensor networks

Target Tracking Using Wireless Sensor Networks: Survey

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