Efficient Learning Control of Uncertain Fractional-Order Chaotic Systems with Disturbance

Xia Wang; Bin Xu; Peng Shi; Shuai Li

doi:10.1109/TNNLS.2020.3028902

Efficient Learning Control of Uncertain Fractional-Order Chaotic Systems with Disturbance

Xia Wang, Bin Xu, Peng Shi, Shuai Li

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

In this brief, the problem of synchronization control is investigated for a class of fractional-order chaotic systems with unknown dynamics and disturbance. The controller is constructed using neural approximation and disturbance estimation where the system uncertainty is modeled by neural network (NN) and the time-varying disturbance is handled using disturbance observer (DOB). To evaluate the estimation performance quantitatively, the serial-parallel estimation model is constructed based on the compound uncertainty estimation derived from NN and DOB. Then, the prediction error is constructed and employed to design the composite fractional-order updating law. The boundedness of the system signals is analyzed. The simulation results show that the proposed new design scheme can achieve higher synchronization accuracy and better estimation performance.

Original language	English
Pages (from-to)	445-450
Number of pages	6
Journal	IEEE Transactions on Neural Networks and Learning Systems
Volume	33
Issue number	1
DOIs	https://doi.org/10.1109/TNNLS.2020.3028902
State	Published - 1 Jan 2022
Externally published	Yes

Keywords

Compound uncertainty estimation
efficient learning
fractional-order chaotic systems (FOCSs)
synchronization control

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10.1109/TNNLS.2020.3028902

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abstract = "In this brief, the problem of synchronization control is investigated for a class of fractional-order chaotic systems with unknown dynamics and disturbance. The controller is constructed using neural approximation and disturbance estimation where the system uncertainty is modeled by neural network (NN) and the time-varying disturbance is handled using disturbance observer (DOB). To evaluate the estimation performance quantitatively, the serial-parallel estimation model is constructed based on the compound uncertainty estimation derived from NN and DOB. Then, the prediction error is constructed and employed to design the composite fractional-order updating law. The boundedness of the system signals is analyzed. The simulation results show that the proposed new design scheme can achieve higher synchronization accuracy and better estimation performance.",

keywords = "Compound uncertainty estimation, efficient learning, fractional-order chaotic systems (FOCSs), synchronization control",

author = "Xia Wang and Bin Xu and Peng Shi and Shuai Li",

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AU - Wang, Xia

AU - Xu, Bin

AU - Shi, Peng

AU - Li, Shuai

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Y1 - 2022/1/1

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AB - In this brief, the problem of synchronization control is investigated for a class of fractional-order chaotic systems with unknown dynamics and disturbance. The controller is constructed using neural approximation and disturbance estimation where the system uncertainty is modeled by neural network (NN) and the time-varying disturbance is handled using disturbance observer (DOB). To evaluate the estimation performance quantitatively, the serial-parallel estimation model is constructed based on the compound uncertainty estimation derived from NN and DOB. Then, the prediction error is constructed and employed to design the composite fractional-order updating law. The boundedness of the system signals is analyzed. The simulation results show that the proposed new design scheme can achieve higher synchronization accuracy and better estimation performance.

KW - Compound uncertainty estimation

KW - efficient learning

KW - fractional-order chaotic systems (FOCSs)

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Efficient Learning Control of Uncertain Fractional-Order Chaotic Systems with Disturbance

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