期刊
IEEE ROBOTICS AND AUTOMATION LETTERS
卷 6, 期 2, 页码 2311-2318出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/LRA.2021.3060379
关键词
Distributed robot systems; manipulation planning; mobile manipulation; redundant robots; robust/adaptive control
类别
资金
- EPSRC U.K. RAI Hub in Future AI and Robotics for Space [FAIR-SPACE: EP/R026092/1]
- Shenzhen Institute of Artificial Intelligence and Robotics for Society
- Honda Research Institute Europe
Multi-robot teams can achieve more complex tasks, but face challenges such as limited communication and uncertain system parameters. A Decentralized Ability-Aware Adaptive Control method is proposed to address these challenges, enabling decentralized coordination and load distribution among robots in collaborative manipulation tasks.
Multi-robot teams can achieve more dexterous, complex and heavier payload tasks than a single robot, yet effective collaboration is required. Multi-robot collaboration is extremely challenging due to the different kinematic and dynamics capabilities of the robots, the limited communication between them,and the uncertainty of the system parameters. In this letter, a Decentralized Ability-Aware Adaptive Control (DA(3)C) is proposed to address these challenges based on two key features. Firstly, the common manipulation task is represented by the proposed nominal task ellipsoid, which is used to maximize each robot's force capability online via optimizing its configuration. Secondly, a decentralized adaptive controller is designed to be Lyapunov stable in spite of heterogeneous actuation constraints of the robots and uncertain physical parameters of the object and environment. In the proposed framework, decentralized coordination and load distribution between the robots is achieved without communication, while only the control deficiency is broadcast if any of the robots reaches its force limits. In this case, the object's reference trajectory is modified in a decentralized manner to guarantee stable interaction. Finally, we perform several numerical and physical simulations to analyse and verify the proposed method with heterogeneous multi-robot teams in collaborative manipulation tasks.
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