Journal
IEEE TRANSACTIONS ON CYBERNETICS
Volume -, Issue -, Pages -Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TCYB.2023.3253171
Keywords
Robots; Uncertainty; Disturbance observers; Trajectory tracking; Gravity; Convergence; Vibrations; Adaptive control; disturbance observer; human support robots; sliding-mode control (SMC)
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This article investigates the tracking problem of the adaptive sliding-mode control (SMC) design for human support robots based on a disturbance observer. A finite-time controller using nonsingular fast terminal SMC is proposed, and a robust disturbance observer is developed to estimate system uncertainties and disturbances. An adaptive control technology is developed to deal with the unknown bounded disturbance observer error. The simulations demonstrate that human support robots employing the proposed controller can converge to the desired trajectory.
In this article, the tracking problem of the adaptive sliding-mode control (SMC) design for human support robots based on a disturbance observer is investigated. First, a finite-time controller using nonsingular fast terminal SMC is proposed. Then, a robust disturbance observer is developed to estimate system uncertainties and disturbances. Simultaneously, to deal with the unknown bounded disturbance observer error, an adaptive control technology is developed. Furthermore, the proposed controller is synthesized to ensure that the tracking errors can be stabilized in finite time. Finally, simulations are performed to demonstrate that human support robots employing the proposed controller can converge to the desired trajectory.
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