A fully actuated system approach: Desired compensation adaptive robust control for uncertain nonlinear systems

• Published in: Journal of the Franklin Institute Vol. 361; no. 9; p. 106855
• Main Authors: Chen, Zhijun, Duan, Guangren
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 01.06.2024
• Subjects: Adaptive robust control; Desired compensation; Fully actuated system approaches; Uncertain nonlinear systems; Uncertain nonlinear systems; Desired compensation; Fully actuated system approaches; Adaptive robust control
• ISSN: 0016-0032; 1879-2693
• DOI: 10.1016/j.jfranklin.2024.106855

A desired compensation adaptive robust control (DCARC) framework is presented for two types of fully actuated systems (FASs) subject to both parametric and nonlinear uncertainties based on the Lyapunov theory. The designed controller consists of three parts: (i) a fundamental linear state error feedback term; (ii) an adaptive feedforward compensation term; (iii) a robust compensation term. Different from the existing FAS approaches, the adaptive compensation in the proposed controller relies on the noise-free desired trajectory and online parameter estimate only. A better overall tracking performance with an accelerated transient response is expected, arising from significantly reducing interaction between the robustness part and the adaptation part. Through theoretical analysis, the proposed controller ensures that the estimation error of the unknown parameter vector and the tracking error finally converge to a bounded ellipsoid. The comparative simulation of a permanent magnet (PM) stepper motor demonstrates the effectiveness of the presented approach. •A FAS approach combined with ARC is designed to improve overall tracking performance.•The noise-free desired state is sufficiently utilized in the adaptive compensation.•The treatment of an uncertain multi-order FAS is addressed in details.