A genetic algorithm method for improving suboptimal sensor arrangements in coverage and connectivity problems

This paper is concerned with the solution of a Coverage and Connectivity Problem (CCP). The proposed method performs the placement of sensors forming a connected Wireless Sensor Network (WSN) to fully cover a Field of Interest (FoI). Full coverage is attained despite the presence of opaque obstacles...

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Vydáno v:Applied soft computing Ročník 166; s. 112047
Hlavní autoři: de Assis, Pedro A.Q., Rodrigues, Leonardo R., Galvão, Roberto K.H., Afonso, Rubens J.M.
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier B.V 01.11.2024
Témata:
Computational geometry
Coverage and connectivity problem (CCP)
Genetic algorithm (GA)
Integer Linear Programming (ILP)
Wireless Sensor Network (WSN)
Wireless Sensor Network (WSN)
Computational geometry
Genetic algorithm (GA)
Coverage and connectivity problem (CCP)
Integer Linear Programming (ILP)
ISSN:1568-4946
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Abstract This paper is concerned with the solution of a Coverage and Connectivity Problem (CCP). The proposed method performs the placement of sensors forming a connected Wireless Sensor Network (WSN) to fully cover a Field of Interest (FoI). Full coverage is attained despite the presence of opaque obstacles that impair both sensing and communication. To this end, we leverage set operations involving polygons to tessellate the free space. Moreover, we propose the concept of CR-visibility to assess the total area coverage of a polygon by a sensor. The deployment of the minimal number of sensors to completely cover the FoI is cast into the form of an Integer Linear Program (ILP). Two different formulations of connectivity constraints are appended to the ILP. The first one is necessary and sufficient for connectivity, whereas the second alternative is only sufficient. While the number of inequalities in the former grows combinatorially with the number of sensors, the growth is linear in the latter, rendering it more computationally appealing for real-sized FoI. Lastly, we formulate an unconstrained version of the CCP, which is solved by a Genetic Algorithm (GA) with integer variables. We present a small simulation scenario for initial illustration of the proposed method, and a larger, real-life scenario based on the map of an actual urban setting. The results obtained with the real-life scenario show that: (i) high-quality solutions can be obtained in short computation times by imposing the sufficient constraints for connectivity; (ii) the large number of inequalities associated to the necessary and sufficient constraints render the numerical solution impractical; (iii) by using random initialization, the GA solution of the unconstrained problem requires more sensors than the ILP solution with the sufficient connectivity constraint; (iv) including that ILP solution in the initial population of the GA enables it to find a sensor placement that requires fewer sensors. [Display omitted] •Sensor placement for full coverage under line of sight and sensor range limitations.•Determination of the minimal number of sensors to fully cover the Field of Interest.•Addition of connectivity constraints based on sensor Line of Sight limitations.•Definition of sufficient constraints for application in large-scale scenarios.•Refinement of the solution with sufficient constraints using a Genetic Algorithm.
AbstractList This paper is concerned with the solution of a Coverage and Connectivity Problem (CCP). The proposed method performs the placement of sensors forming a connected Wireless Sensor Network (WSN) to fully cover a Field of Interest (FoI). Full coverage is attained despite the presence of opaque obstacles that impair both sensing and communication. To this end, we leverage set operations involving polygons to tessellate the free space. Moreover, we propose the concept of CR-visibility to assess the total area coverage of a polygon by a sensor. The deployment of the minimal number of sensors to completely cover the FoI is cast into the form of an Integer Linear Program (ILP). Two different formulations of connectivity constraints are appended to the ILP. The first one is necessary and sufficient for connectivity, whereas the second alternative is only sufficient. While the number of inequalities in the former grows combinatorially with the number of sensors, the growth is linear in the latter, rendering it more computationally appealing for real-sized FoI. Lastly, we formulate an unconstrained version of the CCP, which is solved by a Genetic Algorithm (GA) with integer variables. We present a small simulation scenario for initial illustration of the proposed method, and a larger, real-life scenario based on the map of an actual urban setting. The results obtained with the real-life scenario show that: (i) high-quality solutions can be obtained in short computation times by imposing the sufficient constraints for connectivity; (ii) the large number of inequalities associated to the necessary and sufficient constraints render the numerical solution impractical; (iii) by using random initialization, the GA solution of the unconstrained problem requires more sensors than the ILP solution with the sufficient connectivity constraint; (iv) including that ILP solution in the initial population of the GA enables it to find a sensor placement that requires fewer sensors. [Display omitted] •Sensor placement for full coverage under line of sight and sensor range limitations.•Determination of the minimal number of sensors to fully cover the Field of Interest.•Addition of connectivity constraints based on sensor Line of Sight limitations.•Definition of sufficient constraints for application in large-scale scenarios.•Refinement of the solution with sufficient constraints using a Genetic Algorithm.
ArticleNumber 112047
Author Afonso, Rubens J.M.
Galvão, Roberto K.H.
Rodrigues, Leonardo R.
de Assis, Pedro A.Q.
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  email: rubensjm@ita.br
  organization: Electronic Engineering Division, Instituto Tecnológico de Aeronáutica, Praça Mal. Eduardo Gomes, 50, São José dos Campos, 12228-900, São Paulo, Brazil
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Keywords Wireless Sensor Network (WSN)
Computational geometry
Genetic algorithm (GA)
Coverage and connectivity problem (CCP)
Integer Linear Programming (ILP)
Language English
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Snippet This paper is concerned with the solution of a Coverage and Connectivity Problem (CCP). The proposed method performs the placement of sensors forming a...
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StartPage 112047
SubjectTerms Computational geometry
Coverage and connectivity problem (CCP)
Genetic algorithm (GA)
Integer Linear Programming (ILP)
Wireless Sensor Network (WSN)
Title A genetic algorithm method for improving suboptimal sensor arrangements in coverage and connectivity problems
URI https://dx.doi.org/10.1016/j.asoc.2024.112047
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