Robust scheduling for target tracking using wireless sensor networks

•This work studies multi-target tracking under trajectory uncertainty.•A new upper bound on the stability radius for hop-communication networks is proposed.•Priority areas and long-term usage of the WSN are explicitly taken into account.•The proposed approach is based on a bisection method and on li...

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Published in	Computers & operations research Vol. 116; no. 116; p. 104873
Main Authors	Delavernhe, Florian, Lersteau, Charly, Rossi, André, Sevaux, Marc
Format	Journal Article
Language	English
Published	New York Elsevier Ltd 01.04.2020 Pergamon Press Inc Elsevier
Subjects	Boats Computer Science Data collection Energy consumption Linear programming Monitoring Operations Research Polynomials Robust optimization Robustness (mathematics) Schedules Sensor network Sensors Target tracking Tracking Trajectory analysis Upper bounds Wireless networks Wireless sensor networks Linear programming Target tracking Robust optimization Sensor network
Online Access	Get full text
ISSN	0305-0548 1873-765X 0305-0548
DOI	10.1016/j.cor.2019.104873

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Abstract	•This work studies multi-target tracking under trajectory uncertainty.•A new upper bound on the stability radius for hop-communication networks is proposed.•Priority areas and long-term usage of the WSN are explicitly taken into account.•The proposed approach is based on a bisection method and on linear programming.•The proposed algorithms have been implemented and the solutions have been analyzed. A wireless sensor network (WSN) is a group of sensors deployed in an area, with all of them working on a battery and with direct communications inside the network. A fairly common situation, addressed in this work, is to monitor and record data with a WSN about vehicles (planes, terrestrial vehicles, boats, etc) passing by an area with damaged infrastructures. In such a context, an activation schedule for the sensors ensuring a continuous coverage of all the targets is required. Furthermore, the collected data, in order to be treated, have to be transmitted to a base station in the area, near the sensors. In this work, the future monitoring missions of the network are also taken into account, as well as the energy consumption of the current mission. We also consider that the spatial trajectories of the targets are known, whereas the speed of the targets along their trajectories are estimated, and subject to uncertainty. Hence, the main objective is to seek solutions that can withstand earliness and tardiness from the previsions. We propose a formulation of the problem with three different objectives and a solution method with experiments and results. The objectives are treated in a lexicographic order as follows (i) maximize the robustness schedule to cope with the advances and delaqui leys of the targets, (ii) maximize the minimum of monitoring time we can guarantee in priority areas, (iii) maximize the amount of energy left in the sensor batteries. We propose new upper bounds on the robustness measure, that are exploited by the solution approach whose complexity is shown to be pseudo-polynomial. The solution approach is based on a preprocessing step called discretisation, and the resolution of a series of linear programs.
AbstractList	A wireless sensor network (WSN) is a group of sensors deployed in an area, with all of them working on a battery and with direct communications inside the network. A fairly common situation, addressed in this work, is to monitor and record data with a WSN about vehicles (planes, terrestrial vehicles, boats, etc) passing by an area with damaged infrastructures. In such a context, an activation schedule for the sensors ensuring a continuous coverage of all the targets is required. Furthermore, the collected data, in order to be treated, have to be transmitted to a base station in the area, near the sensors. In this work, the future monitoring missions of the network are also taken into account, as well as the energy consumption of the current mission. We also consider that the spatial trajectories of the targets are known, whereas the speed of the targets along their trajectories are estimated, and subject to uncertainty. Hence, the main objective is to seek solutions that can withstand earliness and tardiness from the previsions. We propose a formulation of the problem with three different objectives and a solution method with experiments and results. The objectives are treated in a lexicographic order as follows (i) maximize the robustness schedule to cope with the advances and delaqui leys of the targets, (ii) maximize the minimum of monitoring time we can guarantee in priority areas, (iii) maximize the amount of energy left in the sensor batteries. We propose new upper bounds on the robustness measure, that are exploited by the solution approach whose complexity is shown to be pseudo-polynomial. The solution approach is based on a preprocessing step called discretisation, and the resolution of a series of linear programs. •This work studies multi-target tracking under trajectory uncertainty.•A new upper bound on the stability radius for hop-communication networks is proposed.•Priority areas and long-term usage of the WSN are explicitly taken into account.•The proposed approach is based on a bisection method and on linear programming.•The proposed algorithms have been implemented and the solutions have been analyzed. A wireless sensor network (WSN) is a group of sensors deployed in an area, with all of them working on a battery and with direct communications inside the network. A fairly common situation, addressed in this work, is to monitor and record data with a WSN about vehicles (planes, terrestrial vehicles, boats, etc) passing by an area with damaged infrastructures. In such a context, an activation schedule for the sensors ensuring a continuous coverage of all the targets is required. Furthermore, the collected data, in order to be treated, have to be transmitted to a base station in the area, near the sensors. In this work, the future monitoring missions of the network are also taken into account, as well as the energy consumption of the current mission. We also consider that the spatial trajectories of the targets are known, whereas the speed of the targets along their trajectories are estimated, and subject to uncertainty. Hence, the main objective is to seek solutions that can withstand earliness and tardiness from the previsions. We propose a formulation of the problem with three different objectives and a solution method with experiments and results. The objectives are treated in a lexicographic order as follows (i) maximize the robustness schedule to cope with the advances and delaqui leys of the targets, (ii) maximize the minimum of monitoring time we can guarantee in priority areas, (iii) maximize the amount of energy left in the sensor batteries. We propose new upper bounds on the robustness measure, that are exploited by the solution approach whose complexity is shown to be pseudo-polynomial. The solution approach is based on a preprocessing step called discretisation, and the resolution of a series of linear programs.
ArticleNumber	104873
Author	Rossi, André Sevaux, Marc Delavernhe, Florian Lersteau, Charly
Author_xml	– sequence: 1 givenname: Florian orcidid: 0000-0002-0363-1065 surname: Delavernhe fullname: Delavernhe, Florian email: florian.delavernhe@univ-angers.fr organization: Université d’Angers, LERIA, Angers F-49045, France – sequence: 2 givenname: Charly surname: Lersteau fullname: Lersteau, Charly email: charly.lersteau@gmx.fr organization: Huazhong University of Science and Technology, State Key Laboratory of Digital Manufacturing Equipment & Technology, Wuhan 430074, China – sequence: 3 givenname: André surname: Rossi fullname: Rossi, André email: andre.rossi@dauphine.fr organization: Université Paris-Dauphine, LAMSADE CNRS UMR 7243, Paris F-75016, France – sequence: 4 givenname: Marc orcidid: 0000-0003-3855-9072 surname: Sevaux fullname: Sevaux, Marc email: marc.sevaux@univ-ubs.fr organization: Université Bretagne Sud, Lab-STICC CNRS UMR 6285, Lorient F-56321, France
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Snippet	•This work studies multi-target tracking under trajectory uncertainty.•A new upper bound on the stability radius for hop-communication networks is... A wireless sensor network (WSN) is a group of sensors deployed in an area, with all of them working on a battery and with direct communications inside the...
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StartPage	104873
SubjectTerms	Boats Computer Science Data collection Energy consumption Linear programming Monitoring Operations Research Polynomials Robust optimization Robustness (mathematics) Schedules Sensor network Sensors Target tracking Tracking Trajectory analysis Upper bounds Wireless networks Wireless sensor networks
Title	Robust scheduling for target tracking using wireless sensor networks
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