Active fault-tolerant control for the dual-valve hydraulic system with unknown dead-zone

This paper proposes a method for high-performance motion control of the dual-valve hydraulic system subject to parameter and model uncertainties, unknown proportional valve dead-zone, and servo valve fault. By constructing a detailed dual-valve fault system model (DFSM), a disturbance observer-based...

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Published inISA transactions Vol. 145; pp. 399 - 411
Main Authors Wang, Tianzhu, Zhang, Qiang, Fang, Jinhui, Lai, Zhenyu, Feng, Ruilin, Wei, Jianhua
Format Journal Article
LanguageEnglish
Published United States Elsevier Ltd 01.02.2024
Subjects
Active fault-tolerant control
Adaptive robust control
Dead-zone compensation
Dual-valve hydraulic system
Nonlinear disturbance observer
Dual-valve hydraulic system
Dead-zone compensation
Active fault-tolerant control
Adaptive robust control
Nonlinear disturbance observer
Online AccessGet full text
ISSN0019-0578
1879-2022
1879-2022
DOI10.1016/j.isatra.2023.11.038

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Abstract This paper proposes a method for high-performance motion control of the dual-valve hydraulic system subject to parameter and model uncertainties, unknown proportional valve dead-zone, and servo valve fault. By constructing a detailed dual-valve fault system model (DFSM), a disturbance observer-based adaptive robust fault-tolerant controller is proposed via the backstepping method. This controller integrates a model-based fault detection algorithm for real-time fault monitoring and subsequent controller reconfiguration. Additionally, the DFSM-based adaptive robust control (ARC) technique is applied to handle the unknown dead-zone problem and other nonlinearities, ensuring precise control. Once the servo valve fault occurs, a nonlinear observer estimates the fault and collaborates with the ARC to establish a reconfigured controller, thereby maintaining motion control. The effectiveness of the proposed method has been experimentally verified. •The novel fault-tolerant control algorithm for dual-valve hydraulic system is investigated.•The novel dual-valve faults system model is proposed.•The model-based fault detection algorithm and nonlinear disturbance observer are established.•The advanced adaptive robust fault-tolerant controller is designed.
AbstractList This paper proposes a method for high-performance motion control of the dual-valve hydraulic system subject to parameter and model uncertainties, unknown proportional valve dead-zone, and servo valve fault. By constructing a detailed dual-valve fault system model (DFSM), a disturbance observer-based adaptive robust fault-tolerant controller is proposed via the backstepping method. This controller integrates a model-based fault detection algorithm for real-time fault monitoring and subsequent controller reconfiguration. Additionally, the DFSM-based adaptive robust control (ARC) technique is applied to handle the unknown dead-zone problem and other nonlinearities, ensuring precise control. Once the servo valve fault occurs, a nonlinear observer estimates the fault and collaborates with the ARC to establish a reconfigured controller, thereby maintaining motion control. The effectiveness of the proposed method has been experimentally verified.This paper proposes a method for high-performance motion control of the dual-valve hydraulic system subject to parameter and model uncertainties, unknown proportional valve dead-zone, and servo valve fault. By constructing a detailed dual-valve fault system model (DFSM), a disturbance observer-based adaptive robust fault-tolerant controller is proposed via the backstepping method. This controller integrates a model-based fault detection algorithm for real-time fault monitoring and subsequent controller reconfiguration. Additionally, the DFSM-based adaptive robust control (ARC) technique is applied to handle the unknown dead-zone problem and other nonlinearities, ensuring precise control. Once the servo valve fault occurs, a nonlinear observer estimates the fault and collaborates with the ARC to establish a reconfigured controller, thereby maintaining motion control. The effectiveness of the proposed method has been experimentally verified.
This paper proposes a method for high-performance motion control of the dual-valve hydraulic system subject to parameter and model uncertainties, unknown proportional valve dead-zone, and servo valve fault. By constructing a detailed dual-valve fault system model (DFSM), a disturbance observer-based adaptive robust fault-tolerant controller is proposed via the backstepping method. This controller integrates a model-based fault detection algorithm for real-time fault monitoring and subsequent controller reconfiguration. Additionally, the DFSM-based adaptive robust control (ARC) technique is applied to handle the unknown dead-zone problem and other nonlinearities, ensuring precise control. Once the servo valve fault occurs, a nonlinear observer estimates the fault and collaborates with the ARC to establish a reconfigured controller, thereby maintaining motion control. The effectiveness of the proposed method has been experimentally verified.
This paper proposes a method for high-performance motion control of the dual-valve hydraulic system subject to parameter and model uncertainties, unknown proportional valve dead-zone, and servo valve fault. By constructing a detailed dual-valve fault system model (DFSM), a disturbance observer-based adaptive robust fault-tolerant controller is proposed via the backstepping method. This controller integrates a model-based fault detection algorithm for real-time fault monitoring and subsequent controller reconfiguration. Additionally, the DFSM-based adaptive robust control (ARC) technique is applied to handle the unknown dead-zone problem and other nonlinearities, ensuring precise control. Once the servo valve fault occurs, a nonlinear observer estimates the fault and collaborates with the ARC to establish a reconfigured controller, thereby maintaining motion control. The effectiveness of the proposed method has been experimentally verified. •The novel fault-tolerant control algorithm for dual-valve hydraulic system is investigated.•The novel dual-valve faults system model is proposed.•The model-based fault detection algorithm and nonlinear disturbance observer are established.•The advanced adaptive robust fault-tolerant controller is designed.
Author Feng, Ruilin
Lai, Zhenyu
Fang, Jinhui
Wang, Tianzhu
Zhang, Qiang
Wei, Jianhua
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Keywords Dual-valve hydraulic system
Dead-zone compensation
Active fault-tolerant control
Adaptive robust control
Nonlinear disturbance observer
Language English
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Snippet This paper proposes a method for high-performance motion control of the dual-valve hydraulic system subject to parameter and model uncertainties, unknown...
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SubjectTerms Active fault-tolerant control
Adaptive robust control
Dead-zone compensation
Dual-valve hydraulic system
Nonlinear disturbance observer
Title Active fault-tolerant control for the dual-valve hydraulic system with unknown dead-zone
URI https://dx.doi.org/10.1016/j.isatra.2023.11.038
https://www.ncbi.nlm.nih.gov/pubmed/38142174
https://www.proquest.com/docview/2905516784
Volume 145
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