Survey: mobile sensor networks for target searching and tracking

被引:9
作者
Albert A. [1 ]
Imsland L. [1 ]
机构
[1] Department of Engineering Cybernetics, Norwegian University of Science and Technology, Trondheim
来源
Cyber-Physical Systems | 2018年 / 4卷 / 02期
关键词
Mobile sensor network; target searching; target searching and tracking; target tracking;
D O I
10.1080/23335777.2018.1483969
中图分类号
学科分类号
摘要
Mobile sensor networks can be employed in multiple applications, such as search and rescue, border patrol, battle scenarios and environmental monitoring. In this survey, we review the literature utilising mobile sensor networks in applications classified as target searching and/or tracking. Our contribution is threefold. First, we focus on the diverse types of filters applied to estimating the state of the targets. Second, we present the most common approaches to high-level trajectory planning for the sensors in the network to do target searching and/or tracking. Finally, we classify the literature based on the problem formulation used and solution characteristics. At the end of the survey, we discuss the current state of the literature and possible directions for future research efforts. © 2018, © 2018 Taylor & FrancisInforma UK Limited, trading as Taylor & Francis Group.
引用
收藏
页码:57 / 98
页数:41
相关论文
共 147 条
[1]  
Zhang J., Jia L., Niu S., A space-time network-based modeling framework for dynamic unmanned aerial vehicle routing in traffic incident monitoring applications, Sensors, 15, 6, pp. 13 874-13 898, (2015)
[2]  
Lesinskis I., Pavlovics A., The aspects of implementation of unmanned aerial vehicles for ice situation awareness in maritime traffic, Transport Means - Proceedings of the International Conference, pp. 65-68, (2011)
[3]  
Latif T., Whitmire E., Novak T., Et al., Sound localization sensors for search and rescue biobots, IEEE Sens J, 16, 10, pp. 3444-3453, (2016)
[4]  
Zhao W., Tang Z., Yang Y., Et al., Cooperative search and rescue with artificial fishes based on fish-swarm algorithm for underwater wireless sensor networks, Sci World J, (2014)
[5]  
Pereira E., Bencatel R., Correia J., Et al., Unmanned air vehicles for coastal and environmental research, J Coast Res, 2, pp. 1557-1561, (2009)
[6]  
Juang P., Oki H., Wang Y., Et al., Energy-efficient computing for wildlife tracking: design tradeoffs and early experiences with zebranet, ACM SIGARCH Comput Arch News, 30, 5, pp. 96-107, (2002)
[7]  
Jadaliha M., Choi J., Environmental monitoring using autonomous aquatic robots: Sampling algorithms and experiments, IEEE Trans Control Syst Technol, 21, 3, pp. 899-905, (2013)
[8]  
Lalooses F., Susanto H., Chang C.H., Recovery target tracking in wildlife, Wireless Opti Commun, (2005)
[9]  
Prox dynamics home [Internet, (2008)
[10]  
Aeryon [Internet, (2007)
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