Fault-Tolerant Control of Double-Rope Winding Hoists Combining Neural-Based Adaptive Technique and Iterative Learning Method

Chen, Xiao; Zhu, Zhencai; Li, Wei; Shen, Gang

doi:10.1109/access.2019.2911024

Cited by 4 publications

(1 citation statement)

References 41 publications

(52 reference statements)

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“…A neural-based adaptive control strategy is developed in Ref. 14 to deal with the problem of tension coordination control against actuator faults and disturbances for a mine hoist. Thus, it is very important to consider the response characteristics of the system under various fault conditions and to design corresponding measures to prevent the occurrence of dangerous distresses, in particular, the sensor fault conditions that researchers pay less attention to.…”

Section: Introductionmentioning

confidence: 99%

Model-based sensor fault detection, isolation and tolerant control for a mine hoist

Chen

Zhu

et al. 2022

Measurement and Control

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Encoder is essential for speed control and very valuable in condition monitoring for a mine hoist and the failure in sensor measurements can lead to serious accidents. In this paper, a novel encoder fault detection, isolation and tolerant control strategy based on finite time observers and constrained fault-tolerant controller is proposed for a mine hoist. The hybrid nonlinear observers which can converge to the origin in finite time are employed to detect and isolate faulty sensors, a residuals evaluation unit is then used to provide reconstructed signals. The constrained fault tolerant controller is presented to guarantee steady and safe running of the mine hoist when sensor fails. This approach is feasible and practical because it does not require a complicated update process, and the fault tolerance controller also makes the hoist run more reliably. Compared with traditional ways, the proposed method has superior performance and can be more effective, which are verified by experimental results.

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Section: Introductionmentioning

confidence: 99%

Model-based sensor fault detection, isolation and tolerant control for a mine hoist

Chen

Zhu

et al. 2022

Measurement and Control

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Improved Iterative Learning Direct Torque Control for Torque Ripple Minimization of Surface-Mounted Permanent Magnet Synchronous Motor Drives

Mohammed

Choi

Jung

2021

IEEE Trans. Ind. Inf.

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An Adaptive Dynamic Surface Technology-Based Electromechanical Actuator Fault-Tolerant Scheme for Blair Mine Hoist Wire Rope Tension Control System

Chen

Zhu

et al. 2022

Actuators

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As an important equipment for deep well hoisting, the safe and stable operation of the Blair mine hoist is vital for the development and utilization of deep mineral resources. However, it is always a challenging task to keep consistent wire rope tension in the event of an actuator fault. In this study, an adaptive dynamic surface technology-based actuator fault-tolerant scheme is proposed. A fault observer with a neural network adaptation term is designed to estimate the loss of actuator efficiency caused by faults. Considering the redundant characteristic of the two actuators, a novel dynamic surface technology-based controller with a fuzzy assignment and state constraints is developed to eliminate the impact of fault. The stability of the closed-loop system under the proposed strategy is theoretically proved by rigorous Lyapunov analysis. Comparative experiments under various conditions are carried out on a xPC based mine hoist platform, and the results show the applicability together with the superiority of the proposed scheme.

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Fault-Tolerant Control of Double-Rope Winding Hoists Combining Neural-Based Adaptive Technique and Iterative Learning Method

Cited by 4 publications

References 41 publications

Model-based sensor fault detection, isolation and tolerant control for a mine hoist

Model-based sensor fault detection, isolation and tolerant control for a mine hoist

Improved Iterative Learning Direct Torque Control for Torque Ripple Minimization of Surface-Mounted Permanent Magnet Synchronous Motor Drives

An Adaptive Dynamic Surface Technology-Based Electromechanical Actuator Fault-Tolerant Scheme for Blair Mine Hoist Wire Rope Tension Control System

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