Observer-based fault-tolerant control design for a class of sampled-data nonlinear systems with bounded disturbances

This paper presents an observer-based fault-tolerant control design for a class of sampled-data nonlinear systems with the multiplicative fault of actuators and bounded disturbances. In addition, a generalized Lipschitz condition on system nonlinearities is considered to acquire less conservative re...

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Veröffentlicht in:	International journal of dynamics and control 2024-10, Vol.12 (10), p.3640-3651
Hauptverfasser:	Papi, Javad, Khosrowjerdi, Mohammad Javad
Format:	Artikel
Sprache:	eng
Schlagworte:	Actuators Complexity Continuous time systems Control Control and Systems Theory Control systems Control theory Data systems Discrete time systems Disturbances Dynamical Systems Engineering Fault tolerance Lipschitz condition Nonlinear control Nonlinear systems Nonlinearity Sampled data systems Vibration
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creator	Papi, Javad Khosrowjerdi, Mohammad Javad
description	This paper presents an observer-based fault-tolerant control design for a class of sampled-data nonlinear systems with the multiplicative fault of actuators and bounded disturbances. In addition, a generalized Lipschitz condition on system nonlinearities is considered to acquire less conservative results. First, the continuous-time system is discretized by Euler approximate discrete-time model. Next, based on this discrete-time model, an observer for the estimation of continuous time states is proposed. Then, sufficient conditions are derived for constructing a nonlinear observer-based fault-tolerant controller for sampled-data system. It is worth to note that the observer and control gains are achieved by LMI-based methods. Furthermore, the control law depends on a constant gain that is easy to set and implement in practice. Finally, the effectiveness of proposed approach is illustrated by a single-link manipulator system.
doi_str_mv	10.1007/s40435-024-01439-y
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J. Dynam. Control</stitle><date>2024-10-01</date><risdate>2024</risdate><volume>12</volume><issue>10</issue><spage>3640</spage><epage>3651</epage><pages>3640-3651</pages><issn>2195-268X</issn><eissn>2195-2698</eissn><abstract>This paper presents an observer-based fault-tolerant control design for a class of sampled-data nonlinear systems with the multiplicative fault of actuators and bounded disturbances. In addition, a generalized Lipschitz condition on system nonlinearities is considered to acquire less conservative results. First, the continuous-time system is discretized by Euler approximate discrete-time model. Next, based on this discrete-time model, an observer for the estimation of continuous time states is proposed. Then, sufficient conditions are derived for constructing a nonlinear observer-based fault-tolerant controller for sampled-data system. It is worth to note that the observer and control gains are achieved by LMI-based methods. 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subjects	Actuators Complexity Continuous time systems Control Control and Systems Theory Control systems Control theory Data systems Discrete time systems Disturbances Dynamical Systems Engineering Fault tolerance Lipschitz condition Nonlinear control Nonlinear systems Nonlinearity Sampled data systems Vibration
title	Observer-based fault-tolerant control design for a class of sampled-data nonlinear systems with bounded disturbances
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