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Development of an autonomous surface vehicle with preliminary field tests for collision-free navigation수상로봇의 개발과 충돌 회피 자율 운항에 관한 예비 실험

Other Titles
수상로봇의 개발과 충돌 회피 자율 운항에 관한 예비 실험
Authors
Park, J.Jung, J.Lee, Y.Choi, H.-T.Choi, J.
Issue Date
2020
Publisher
Institute of Control, Robotics and Systems
Keywords
Autonomous surface vehicle (ASV); Collision probability; Collision-free path planning; Motion estimation
Citation
Journal of Institute of Control, Robotics and Systems, v.26, no.7, pp 555 - 563
Pages
9
Journal Title
Journal of Institute of Control, Robotics and Systems
Volume
26
Number
7
Start Page
555
End Page
563
URI
https://www.kriso.re.kr/sciwatch/handle/2021.sw.kriso/313
DOI
10.5302/J.ICROS.2020.20.0053
ISSN
1976-5622
Abstract
This paper presents the development and testing of an ASV (Autonomous Surface Vehicle) platform, as well as a collision-free path planning approach, for performing various tasks in maritime environments. The ASV is developed on a catamaran-type hull with integrated systems for navigation and control, electrical power and propulsion, sensing, onboard computing, and wireless communication. In addition, navigation algorithms for improving autonomous capabilities are also implemented on the ASV hardware. More specifically, in order to achieve reliable, collision-free maneuvering between the vehicle and an object, a collision probability is evaluated by considering their respective position uncertainties, which are estimated by a tracking filter based on the extended Kalman filter. Using this concept, a collision-free path planning approach is proposed, which takes into account the dynamic characteristics of the vehicle. To demonstrate the performance and practical feasibility of the developed ASV and the implemented algorithms, preliminary field tests were carried out in an inland water environment, and its results are discussed. ? ICROS 2020.
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