Model-free active input–output feedback linearization of a single-link flexible joint manipulator: An improved active disturbance rejection control approach

Traditional input–output feedback linearization requires full knowledge of system dynamics and assumes no disturbance at the input channel and no system’s uncertainties. In this paper, a model-free active input–output feedback linearization technique based on an improved active disturbance rejection...

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Veröffentlicht in:	Measurement and control (London) Jg. 54; H. 5-6; S. 856 - 871
Hauptverfasser:	Abdul-Adheem, Wameedh Riyadh, Ibraheem, Ibraheem Kasim, Humaidi, Amjad J, Azar, Ahmad Taher
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	London, England SAGE Publications 01.05.2021 Sage Publications Ltd SAGE Publishing
Schlagworte:	Active control Control theory Disturbances Error feedback Feedback control Feedback linearization Integrators Liapunov functions Manipulators Nonlinear systems Output feedback Rejection Stability analysis State observers System dynamics Uncertainty flexible joint manipulator nonlinear state error feedback extended state observer generalized disturbance Active input–output feedback linearization
ISSN:	0020-2940, 2051-8730
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Abstract	Traditional input–output feedback linearization requires full knowledge of system dynamics and assumes no disturbance at the input channel and no system’s uncertainties. In this paper, a model-free active input–output feedback linearization technique based on an improved active disturbance rejection control paradigm is proposed to design feedback linearization control law for a generalized nonlinear system with a known relative degree. The linearization control law is composed of a scaled generalized disturbance estimated by an improved nonlinear extended state observer with saturation-like behavior and the nominal control signal produced by an improved nonlinear state error feedback. The proposed active input–output feedback linearization cancels in real-time fashion the generalized disturbances which represent all the unwanted dynamics, exogenous disturbances, and system uncertainties and transforms the system into a chain of integrators up to the relative degree of the system, which is the only information required about the nonlinear system. Stability analysis has been conducted based on the Lyapunov functions and revealed the convergence of the improved nonlinear extended state observer and the asymptotic stability of the closed-loop system. Verification of the outcomes has been achieved by applying the proposed active input–output feedback linearization technique on the single-link flexible joint manipulator. The simulations results validated the effectiveness of the proposed active input–output feedback linearization tool based on improved active disturbance rejection control as compared to the conventional active disturbance rejection control–based active input–output feedback linearization and the traditional input–output feedback linearization techniques.
AbstractList	Traditional input–output feedback linearization requires full knowledge of system dynamics and assumes no disturbance at the input channel and no system’s uncertainties. In this paper, a model-free active input–output feedback linearization technique based on an improved active disturbance rejection control paradigm is proposed to design feedback linearization control law for a generalized nonlinear system with a known relative degree. The linearization control law is composed of a scaled generalized disturbance estimated by an improved nonlinear extended state observer with saturation-like behavior and the nominal control signal produced by an improved nonlinear state error feedback. The proposed active input–output feedback linearization cancels in real-time fashion the generalized disturbances which represent all the unwanted dynamics, exogenous disturbances, and system uncertainties and transforms the system into a chain of integrators up to the relative degree of the system, which is the only information required about the nonlinear system. Stability analysis has been conducted based on the Lyapunov functions and revealed the convergence of the improved nonlinear extended state observer and the asymptotic stability of the closed-loop system. Verification of the outcomes has been achieved by applying the proposed active input–output feedback linearization technique on the single-link flexible joint manipulator. The simulations results validated the effectiveness of the proposed active input–output feedback linearization tool based on improved active disturbance rejection control as compared to the conventional active disturbance rejection control–based active input–output feedback linearization and the traditional input–output feedback linearization techniques.
Author	Azar, Ahmad Taher Abdul-Adheem, Wameedh Riyadh Ibraheem, Ibraheem Kasim Humaidi, Amjad J
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Keywords	flexible joint manipulator nonlinear state error feedback extended state observer generalized disturbance Active input–output feedback linearization
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StartPage	856
SubjectTerms	Active control Control theory Disturbances Error feedback Feedback control Feedback linearization Integrators Liapunov functions Manipulators Nonlinear systems Output feedback Rejection Stability analysis State observers System dynamics Uncertainty
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Title	Model-free active input–output feedback linearization of a single-link flexible joint manipulator: An improved active disturbance rejection control approach
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Volume	54
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