Adaptive tracking control of uncertain Euler–Lagrange systems subject to external disturbances

This paper addresses the adaptive trajectory tracking problem of uncertain Euler–Lagrange systems subject to external disturbances. In comparison with existing literature, our work has its distinctive characteristics. First, a large class of persistent external disturbances with unbounded energy can...

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Published in	Automatica (Oxford) Vol. 104; pp. 207 - 219
Main Authors	Lu, Maobin, Liu, Lu, Feng, Gang
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.06.2019
Subjects	Adaptive control External disturbance Tracking control Uncertain Euler–Lagrange system Uncertain Euler–Lagrange system Tracking control External disturbance Adaptive control
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Abstract	This paper addresses the adaptive trajectory tracking problem of uncertain Euler–Lagrange systems subject to external disturbances. In comparison with existing literature, our work has its distinctive characteristics. First, a large class of persistent external disturbances with unbounded energy can be accommodated, which can be a combination of finite number of step signals with unknown magnitudes and sinusoidal signals with unknown frequencies, amplitudes and phase angles. Second, asymptotic trajectory tracking can be achieved, in other words, disturbance rejection, instead of disturbance attenuation, can be attained. Third, the proposed control law is sufficiently smooth and its design does not require a prior bound for either external disturbances or unknown system parameters. Last but not least, the obtained result is global in the sense that it does not depend on initial conditions of the system.
AbstractList	This paper addresses the adaptive trajectory tracking problem of uncertain Euler–Lagrange systems subject to external disturbances. In comparison with existing literature, our work has its distinctive characteristics. First, a large class of persistent external disturbances with unbounded energy can be accommodated, which can be a combination of finite number of step signals with unknown magnitudes and sinusoidal signals with unknown frequencies, amplitudes and phase angles. Second, asymptotic trajectory tracking can be achieved, in other words, disturbance rejection, instead of disturbance attenuation, can be attained. Third, the proposed control law is sufficiently smooth and its design does not require a prior bound for either external disturbances or unknown system parameters. Last but not least, the obtained result is global in the sense that it does not depend on initial conditions of the system.
Author	Lu, Maobin Liu, Lu Feng, Gang
Author_xml	– sequence: 1 givenname: Maobin surname: Lu fullname: Lu, Maobin email: lvmaobin@gmail.com – sequence: 2 givenname: Lu surname: Liu fullname: Liu, Lu email: luliu45@cityu.edu.hk – sequence: 3 givenname: Gang surname: Feng fullname: Feng, Gang email: megfeng@cityu.edu.hk
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Snippet	This paper addresses the adaptive trajectory tracking problem of uncertain Euler–Lagrange systems subject to external disturbances. In comparison with existing...
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SubjectTerms	Adaptive control External disturbance Tracking control Uncertain Euler–Lagrange system
Title	Adaptive tracking control of uncertain Euler–Lagrange systems subject to external disturbances
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