On a hierarchical adaptive and robust inverse dynamic control strategy with experiment for robot manipulators under uncertainties

• Published in: Control engineering practice Vol. 138; p. 105604
• Main Authors: Liu, Yueyue, Li, Tong, Duan, Jianghua, Wu, Xiaoyu, Wang, Haoyu, Fan, Qigao, Lin, Jianjie, Hu, Yingbai
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.09.2023
• Subjects: Barrier Lyapunov function; Hierarchical adaptive control; Manipulation force; Push-manipulation; Robust inverse dynamic controller; Hierarchical adaptive control; Barrier Lyapunov function; Push-manipulation; Manipulation force; Robust inverse dynamic controller
• ISSN: 0967-0661; 1873-6939
• DOI: 10.1016/j.conengprac.2023.105604

This paper proposes a hierarchical robot manipulation control scheme for the manipulator pushing task. Considering the contact surface and the object mass parameters are generally unknown to the pushing task, a hierarchical control strategy is designed that enables the robot manipulator to perform the manipulation pushing task without any prior knowledge of the objects mass and friction. Specifically, we first present an adaptive controller to achieve the desired interaction force exerted on the end of the manipulator even without knowing the object mass and friction contact surface. We then introduce a unified robust adaptive controller that takes into account the desired interaction manipulation force in our robot manipulator dynamics. A robust inverse dynamic controller combining a barrier Lyapunov function is included to prevent constraint violation, which can effectively keep the object motion along the desired trajectory while regulating the interaction force between the robot manipulator and the object. Furthermore, an adaptive unit control gain is designed to make the manipulator adapt to follow the perturbation variations without being overestimated. An experiment has been performed to test the effectiveness and to demonstrate the guaranteed performance of the proposed methods.