A stable control method for planar robot with underactuated constraints via motion planning and intelligent optimization

Measurement and Control Pub Date : 2023-07-29 DOI:10.1177/00202940231189306
Zixin Huang, Xinpeng Li, Ziang Wei, Xiao Wan, Lejun Wang
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Abstract

For the planar robot with underactuated constraints, a stable control method is presented on the foundation of motion planning method and intelligent optimization, which includes two stages. (1) Designing the controllers to control the actuated manipulators to given target states. (2) Planning the motion trajectory combined with the underactuated constraints between all links, using the intelligent algorithm to find the adaptable trajectory parameters, and tracking such planned trajectories to control full manipulators to the given states simultaneously. At last, multigroup simulations demonstrate the validity of the proposed method.
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基于运动规划和智能优化的平面欠驱动机器人稳定控制方法
针对具有欠驱动约束的平面机器人,提出了一种基于运动规划和智能优化的稳定控制方法。(1)设计控制器,控制被驱动机械臂达到给定的目标状态。(2)结合各环节之间的欠驱动约束进行运动轨迹规划,利用智能算法寻找自适应的运动轨迹参数,并跟踪规划的运动轨迹,控制全机械手同时达到给定状态。最后,通过多组仿真验证了该方法的有效性。
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Measurement and Control
Measurement and Control
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