Adaptive output feedback control of uncertain nonlinear systems based on dynamic surface control technique

Liu, Yan Jun; Wang, Wei

doi:10.1002/rnc.1737

Cited by 40 publications

(25 citation statements)

References 27 publications

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“…1. Unlike in other works, 3,7,8,[10][11][12][37][38][39] here, the prescribed transient and steady-state performance of output tracking can be guaranteed in terms of the overshoot, the convergence rate, and the steady-state error. 2.…”

Section: Introductionmentioning

confidence: 93%

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Adaptive prescribed performance control of nonlinear output‐feedback systems with unknown control direction

Zhang

Yang

2018

Intl J Robust & Nonlinear

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Summary This paper focuses on the output‐feedback tracking control problem for a class of nonlinear systems with both unknown nonlinearities and unknown control directions. An adaptive prescribed performance controller combined with a Nussbaum gain and a dividing line is proposed to solve the problem. Compared with the existing results, (i) both the convergence rate and the ultimate bound of the tracking error can be prescribed; (ii) no approximating structures such as neuro/fuzzy systems are used, regardless of unknown nonlinear functions; and (iii) the computational burden is alleviated in the sense that the iterative calculation of command derivatives is avoided and the number of online learning parameters is largely reduced. Simulation results are given to further illustrate the established theoretical findings.

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Section: Introductionmentioning

confidence: 93%

“…Remark The tracking control problem has been also studied in related literature . Although the ultimate tracking accuracy is permitted to be adjustable therein, the explicit value fails to be estimated in advance.…”

Section: Stability Analysismentioning

confidence: 99%

Adaptive prescribed performance control of nonlinear output‐feedback systems with unknown control direction

Zhang

Yang

2018

Intl J Robust & Nonlinear

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“…In [14], adaptive control based on Lyapunov's direct method was developed to deal with the uncertainties of the system parameters. In addition to the uncertainties, adaptive control is able to handle the nonlinearities in the system, e.g., a dynamic surface control method was integrated into an adaptive output feedback controller for the systems with uncertainties and nonlinearities [15]. Several updating laws were developed for estimation of the parameters of systems with nonlinearity [16].…”

Section: Introductionmentioning

confidence: 99%

Haptic Identification by ELM-Controlled Uncertain Manipulator

Yang

Huang

Cheng

et al. 2017

IEEE Trans. Syst. Man Cybern, Syst.

144

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Abstract-This paper presents an extreme learning machine (ELM) based control scheme for uncertain robot manipulators to perform haptic identification. ELM is used to compensate for the unknown nonlinearity in the manipulator dynamics. The ELM enhanced controller ensures that the closed-loop controlled manipulator follows a specified reference model, in which the reference point as well as the feedforward force is adjusted after each trial for haptic identification of geometry and stiffness of an unknown object. A neural learning law is designed to ensure finite-time convergence of the neural weight learning, such that exact matching with the reference model can be achieved after the initial iteration. The usefulness of the proposed method is tested and demonstrated by extensive simulation studies.

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“…Dynamic surface control idea was also extended to the adaptive control of output feedback systems. () Meanwhile, DSC methodologies have been successfully applied to many practical systems. ()…”

Section: Introductionmentioning

confidence: 99%

Adaptive dynamic surface asymptotic tracking for a class of uncertain nonlinear systems

Liu

2017

Intl J Robust & Nonlinear

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Summary This paper contributes to dynamic surface asymptotic tracking for a class of uncertain nonlinear systems in strict‐feedback form. By utilizing the nonlinear filters with a positive time‐varying integral function, an adaptive state feedback controller is explicitly designed via a dynamic surface approach, where the compensating term with the estimate of an unknown bound is introduced to eliminate the effect raised by the boundary layer error at each step. Compared with the existing results in the literature, the proposed control scheme not only avoids the issue of “explosion of complexity” inherent in the backstepping procedure but also holds the asymptotic output tracking. Finally, simulation results are presented to verify the effectiveness of the proposed methodology.

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Adaptive output feedback control of uncertain nonlinear systems based on dynamic surface control technique

Cited by 40 publications

References 27 publications

Adaptive prescribed performance control of nonlinear output‐feedback systems with unknown control direction

Adaptive prescribed performance control of nonlinear output‐feedback systems with unknown control direction

Haptic Identification by ELM-Controlled Uncertain Manipulator

Adaptive dynamic surface asymptotic tracking for a class of uncertain nonlinear systems

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