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Robust approximate constraint following control design for collaborative robots system and experimental validation

Haohua Liu, Shengchao Zhen, Xiaoli Liu, Hongmei Zheng, Liansheng Gao, Ye‐Hwa Chen

2024Robotica20 citationsDOI

Abstract

Abstract The paper presents a novel control method aimed at enhancing the trajectory tracking accuracy of two-link mechanical systems, particularly nonlinear systems that incorporate uncertainties such as time-varying parameters and external disturbances. Leveraging the Udwadia–Kalaba equation, the algorithm employs the desired system trajectory as a servo constraint. First, the system’s constraints to construct its dynamic equation and apply generalized constraints from the constraint equation to an unconstrained system. Second, we design a robust approximate constraint tracking controller for manipulator control and establish its stability using Lyapunov’s law. Finally, we numerically simulate and experimentally validate the controller on a collaborative platform using model-based design methods.

Topics & Concepts

Constraint (computer-aided design)RobotComputer scienceControl (management)Control engineeringSimulationEngineeringArtificial intelligenceMechanical engineeringAdvanced Control Systems OptimizationRobotic Mechanisms and DynamicsIterative Learning Control Systems
Robust approximate constraint following control design for collaborative robots system and experimental validation | Litcius