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Adaptive Path Planning for Randomly Deployed Wireless Sensor Networks

Authors
Kim, KyunghwiJung, ByunghyukLee, WonjunDu, Ding-Zhu
Issue Date
May-2011
Publisher
INST INFORMATION SCIENCE
Keywords
mobile beacon; adaptive path planning; energy efficiency; randomly deployed WSNs; candidate areas
Citation
JOURNAL OF INFORMATION SCIENCE AND ENGINEERING, v.27, no.3, pp 1091 - 1106
Pages
16
Indexed
SCIE
SCOPUS
Journal Title
JOURNAL OF INFORMATION SCIENCE AND ENGINEERING
Volume
27
Number
3
Start Page
1091
End Page
1106
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/112530
ISSN
1016-2364
Abstract
In this paper, we propose an adaptive path planning scheme considering the length of movement path and number of beacon messages of a mobile beacon for its energy efficiency, where the sensor nodes are randomly deployed. Contrary to the previous studies that utilize mobile beacons (nodes sending beacon messages) only on the basis of a random movement method or predefined static movement paths, the proposed scheme provides energy-efficient and adaptive movement path construction with low computational complexity. The movement path also includes beacon positions in which the mobile beacon broadcasts beacon messages containing the information of its current position. The random movement methods are not concerned about the energy of the mobile beacon. In randomly deployed environments, it is not easy to obtain precise field information for static movement path decisions. Thus, we propose the adaptive path planning scheme which can operate without this information in randomly deployed wireless sensor networks, and improve the energy efficiency of the mobile beacon. The candidate areas that limit the search space are devised so as to provide low complexity. The performance evaluation shows that the proposed scheme reduces the movement distance and number of beacon messages of the mobile beacon by comparison with other methods.
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