Adaptive robust tracking control for an offshore ship-mounted crane subject to unmatched sea wave disturbances

•The paper firstly achieves adaptive robust tracking control for offshore ship-mounted cranes.•Unmatched sea wave disturbances are taken into consideration.•Comparative hardware experiments verify the effectiveness of the proposed method. An offshore ship-mounted crane consisting of a trolley, a wir...

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Published inMechanical systems and signal processing Vol. 114; pp. 556 - 570
Main Authors Qian, Yuzhe, Fang, Yongchun, Lu, Biao
Format Journal Article
LanguageEnglish
Published Berlin Elsevier Ltd 01.01.2019
Elsevier BV
Subjects
Adaptive control
Adaptive robust control (ARC)
Computer simulation
Disturbances
Mechanical properties
Nonlinear systems
Offshore
Offshore crane systems
Parameter robustness
Parameter uncertainty
Robust control
Sea currents
Tracking control
Tracking control systems
Unmatched disturbances
Vertical orientation
Offshore crane systems
Unmatched disturbances
Tracking control
Adaptive robust control (ARC)
Online AccessGet full text
ISSN0888-3270
1096-1216
DOI10.1016/j.ymssp.2018.05.009

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Abstract •The paper firstly achieves adaptive robust tracking control for offshore ship-mounted cranes.•Unmatched sea wave disturbances are taken into consideration.•Comparative hardware experiments verify the effectiveness of the proposed method. An offshore ship-mounted crane consisting of a trolley, a wire, and a payload, is a typical nonlinear underactuated system, which suffers from unmatched disturbances mainly caused by sea waves and currents. Besides, unknown or uncertain parameters may cause vertical positioning errors or make accurate gravity compensation impossible, which may induce various risks during the transportation process. In terms of the aforementioned problems, this paper studies the adaptive robust tracking control problem for an offshore ship-mounted crane. In particular, a new adaptive robust coupling control approach, with adaptive laws included to deal with unknown parameters, and robust terms included to handle unknown disturbances, especially unmatched disturbances, is constructed in this paper, which achieves simultaneous load swing suppression and disturbances elimination. Without any approximation to the original nonlinear model, it is rigorously proven that the proposed method can ensure the stability of the overall crane system’s equilibrium point, as supported by Lyapunov techniques. Finally, some contrast simulations and experimental results are collected to verify the superior performance of the proposed controller.
AbstractList •The paper firstly achieves adaptive robust tracking control for offshore ship-mounted cranes.•Unmatched sea wave disturbances are taken into consideration.•Comparative hardware experiments verify the effectiveness of the proposed method. An offshore ship-mounted crane consisting of a trolley, a wire, and a payload, is a typical nonlinear underactuated system, which suffers from unmatched disturbances mainly caused by sea waves and currents. Besides, unknown or uncertain parameters may cause vertical positioning errors or make accurate gravity compensation impossible, which may induce various risks during the transportation process. In terms of the aforementioned problems, this paper studies the adaptive robust tracking control problem for an offshore ship-mounted crane. In particular, a new adaptive robust coupling control approach, with adaptive laws included to deal with unknown parameters, and robust terms included to handle unknown disturbances, especially unmatched disturbances, is constructed in this paper, which achieves simultaneous load swing suppression and disturbances elimination. Without any approximation to the original nonlinear model, it is rigorously proven that the proposed method can ensure the stability of the overall crane system’s equilibrium point, as supported by Lyapunov techniques. Finally, some contrast simulations and experimental results are collected to verify the superior performance of the proposed controller.
An offshore ship-mounted crane consisting of a trolley, a wire, and a payload, is a typical nonlinear underactuated system, which suffers from unmatched disturbances mainly caused by sea waves and currents. Besides, unknown or uncertain parameters may cause vertical positioning errors or make accurate gravity compensation impossible, which may induce various risks during the transportation process. In terms of the aforementioned problems, this paper studies the adaptive robust tracking control problem for an offshore ship-mounted crane. In particular, a new adaptive robust coupling control approach, with adaptive laws included to deal with unknown parameters, and robust terms included to handle unknown disturbances, especially unmatched disturbances, is constructed in this paper, which achieves simultaneous load swing suppression and disturbances elimination. Without any approximation to the original nonlinear model, it is rigorously proven that the proposed method can ensure the stability of the overall crane system’s equilibrium point, as supported by Lyapunov techniques. Finally, some contrast simulations and experimental results are collected to verify the superior performance of the proposed controller.
Author Lu, Biao
Fang, Yongchun
Qian, Yuzhe
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Keywords Offshore crane systems
Unmatched disturbances
Tracking control
Adaptive robust control (ARC)
Language English
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Snippet •The paper firstly achieves adaptive robust tracking control for offshore ship-mounted cranes.•Unmatched sea wave disturbances are taken into...
An offshore ship-mounted crane consisting of a trolley, a wire, and a payload, is a typical nonlinear underactuated system, which suffers from unmatched...
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SubjectTerms Adaptive control
Adaptive robust control (ARC)
Computer simulation
Disturbances
Mechanical properties
Nonlinear systems
Offshore
Offshore crane systems
Parameter robustness
Parameter uncertainty
Robust control
Sea currents
Tracking control
Tracking control systems
Unmatched disturbances
Vertical orientation
Title Adaptive robust tracking control for an offshore ship-mounted crane subject to unmatched sea wave disturbances
URI https://dx.doi.org/10.1016/j.ymssp.2018.05.009
https://www.proquest.com/docview/2124111994
Volume 114
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