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>A genetic algorithm-based approach for solving the target Q-coverage problem in over and under provisioned directional sensor networks
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A genetic algorithm-based approach for solving the target Q-coverage problem in over and under provisioned directional sensor networks
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机译:A genetic algorithm-based approach for solving the target Q-coverage problem in over and under provisioned directional sensor networks
Target coverage and network lifetime extension have been addressed as two major research topics over the last two decades. This paper focuses on "target Q-Coverage"in Directional Sensor Networks (DSNs) where coverage requirement of each target in the environment differs from that of the others. In such network, how to achieve the coverage requirement and simultaneously prolong the network lifetime is a major problem. In this study, two target-oriented genetic-based algorithms were developed to solve the problem. The first algorithm was developed to cover the targets in an over-provisioned environment, and the second algorithm was developed in an under-provisioned environment. The main objective of the first algorithm is satisfying the coverage requirement of targets by activating minimal sensors, while the second algorithm was developed to achieve a maximum balanced coverage for all the targets in the network. To evaluate the performance of the developed algorithms, they were compared with some state-of-the-art algorithms presented in recent studies. In this regard, several parameters, including Distance Index, Q-Balancing Index, Coverage Quality, Power Consumption, and Activate Sensors were taken into account. The comparative results indicated that the developed algorithms performed efficiently in solving the Q-coverage problem in both environments.(c) 2022 Elsevier B.V. All rights reserved.
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