Pose detection and docking control for autonomous dynamic docking mechanism with non-cooperative targets
ISSN: 0143-991X
Article publication date: 21 May 2024
Issue publication date: 13 September 2024
Abstract
Purpose
This study aims to address the issue of random movement and non coordination between docking mechanisms and locking mechanisms, and proposes a comprehensive dynamic docking control architecture that integrates perception, planning, and motion control.
Design/methodology/approach
Firstly, the proposed dynamic docking control architecture uses laser sensors and a charge-coupled device camera to perceive the pose of the target. The sensor data are mapped to a high-dimensional potential field space and fused to reduce interference caused by detection noise. Next, a new potential function based on multi-dimensional space is developed for docking path planning, which enables the docking mechanism based on Stewart platform to rapidly converge to the target axis of the locking mechanism, which improves the adaptability and terminal docking accuracy of the docking state. Finally, to achieve precise tracking and flexible docking in the final stage, the system combines a self-impedance controller and an impedance control algorithm based on the planned trajectory.
Findings
Extensive simulations and experiments have been conducted to validate the effectiveness of the dynamic docking system and its control architecture. The results indicate that even if the target moves randomly, the system can successfully achieve accurate, stable and flexible dynamic docking.
Originality/value
This research can provide technical guidance and reference for docking task of unmanned vehicles under the ground conditions. It can also provide ideas for space docking missions, such as space simulator docking.
Keywords
Acknowledgements
Finally, the control method framework combines active disturbance rejection controller, impedance control algorithm, and APF based docking trajectory planning method to achieve precise tracking and flexible docking between docking mechanism and locking mechanism.
Funding: Jiangxi Natural Science Foundation; 20232BAB212028; The National Natural Science Foundation of China; 62203176; the Foundation of Science and Technology of Jiangxi Provincial Education Department; GJJ2201128; the Foundation of Key Laboratory of Jiangxi Province for Image Processing and Pattern Recognition; ET202204304; the Doctor’s Foundation of Nanchang Hangkong University; EA202204257.
Citation
Zhan, G., Chen, Z., Zhang, Z., Zhan, J., Yu, W. and Li, J. (2024), "Pose detection and docking control for autonomous dynamic docking mechanism with non-cooperative targets", Industrial Robot, Vol. 51 No. 5, pp. 715-728. https://doi.org/10.1108/IR-11-2023-0287
Publisher
:Emerald Publishing Limited
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