Reduced-order disturbance observer-based adaptive reaching law control for discretized MIMO systems with unmatched uncertainties

Wang, Cong; Xia, Hongwei; Wang, Yanmin; Ren, Shenqiang

doi:10.1007/s11071-021-06646-2

Cited by 6 publications

(2 citation statements)

References 35 publications

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“…To improve the robustness of SMC, a model reference DSMC combining two related switching variables is proposed in Latosinski and Bartoszewicz, 14 which solves the control problem of parameter mismatch and has good robustness, but the sliding mode surface design is too complex. To solve the disturbance problem of discrete systems, a degradation disturbance observer based on adaptive reaching law is designed in Wang et al, 15 achieving good disturbance suppression effect, but the adaptive process requires much computation. To achieve simple and practical control effects, the adaptive gain structure of sliding mode observer (SMO) has also received widespread attention.…”

Section: Introductionmentioning

confidence: 99%

Disturbance supression improved discrete sliding mode fast current tracking control of experimental advanced superconducting tokamak fast control power supply

Chen,

Huang,

Wang

2023

Circuit Theory & Apps

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SummaryThe output current of the fast control power supply for the Experimental Advanced Superconducting Tokamak (EAST) excites the load coil. Magnetic field can be quickly generated by the fast output current to control the balance of plasma vertical displacement. In order to improve the output current speed of EAST fast control power supply and its ability to resist external disturbance, an improved discrete integral sliding mode control method combining gray prediction and variable gain sliding mode observer is proposed. A sliding mode disturbance observer is used to observe the total disturbance on the load side, and feedforward compensation control is performed on the total disturbance. To further suppress chattering and accelerate convergence speed, a high‐order term is added to the traditional discrete exponential reach law, and a gain adaptive observer is designed to adaptively adjust the observer gain based on the observed current error and the tracking current error. In the current sampling process, an improved gray prediction structure is added, and the original current sequence of gray prediction is improved based on the principle of new information priority, improving the accuracy of predicted current, compensating for the inherent delay in digital control, and further improving the output current response speed. Simulation and experimental verification show that the proposed disturbance suppression improved discrete integral sliding mode fast current tracking control strategy has faster output current response speed and strong antidisturbance performance.

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Section: Introductionmentioning

confidence: 99%

Disturbance supression improved discrete sliding mode fast current tracking control of experimental advanced superconducting tokamak fast control power supply

Chen,

Huang,

Wang

2023

Circuit Theory & Apps

View full text Add to dashboard Cite

show abstract

“…Owing to its essential applications in fault diagnosis and state-based feedback control, observer design problem is a meaningful topic for scholars. Fruitful outcomes concerning with observer synthesis such as sliding-mode observer [1,2], unknown input observer [3,4] and reduced-order observer [5] have been well reported for various normal systems. As an extension of the normal systems, singular systems (also referred to as descriptor systems) can model engineering plants more accurately.…”

Section: Introductionmentioning

confidence: 99%

Robust observer design for T-S fuzzy singular systems with unmeasurable premise variables and partially decoupled disturbances

Cai

et al. 2022

Preprint

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This article makes some efforts towards discussing the problem of observer design for a kind of discrete-time T-S fuzzy singular systems corrupted by process disturbances and measurement noises. To situate our design scheme in a more practical context, the premise variables of fuzzy systems under consideration are unmeasurable, and the process disturbances are only partially decoupled rather than completely decoupled. By integrating the fuzzy Lyapunov function method and the linear matrix inequality technique, an unknown input observer which can not only decouple partial process disturbances, but also attenuate the influence of measurement noises and non-decoupled process disturbances is proposed to achieve state reconstruction. Particularly, to reduce the conservatism, some slack matrices and scalars are utilized in observer design to obtain extra degrees of freedom. Finally, the performance of theoretical results is fully verified via two numerical simulations.

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Robust observer design for T-S fuzzy singular systems with unmeasurable premise variables and partially decoupled disturbances

Cai

et al. 2023

Nonlinear Dyn

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Reduced-order disturbance observer-based adaptive reaching law control for discretized MIMO systems with unmatched uncertainties

Cited by 6 publications

References 35 publications

Disturbance supression improved discrete sliding mode fast current tracking control of experimental advanced superconducting tokamak fast control power supply

Disturbance supression improved discrete sliding mode fast current tracking control of experimental advanced superconducting tokamak fast control power supply

Robust observer design for T-S fuzzy singular systems with unmeasurable premise variables and partially decoupled disturbances

Robust observer design for T-S fuzzy singular systems with unmeasurable premise variables and partially decoupled disturbances

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