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Sliding Mode-based Integral Reinforcement Learning Event Triggered Control
Sliding Mode-based Integral Reinforcement Learning Event Triggered Control
by Jia, Chao , Li, Xinyu , Song, Zijian , Wang, Hongkun
in Asymptotic properties / Bellman theory / Closed loops / Communication / Control / Control algorithms / Controllers / Dynamic programming / Engineering / Event triggered control / Feedback control / Hamiltonian functions / Intelligent Control and Applications / Iterative algorithms / Machine learning / Mechatronics / Neural networks / Nonlinear systems / Performance indices / Robotics / Systems stability / 제어계측공학
2025
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Sliding Mode-based Integral Reinforcement Learning Event Triggered Control
by Jia, Chao , Li, Xinyu , Song, Zijian , Wang, Hongkun
in Asymptotic properties / Bellman theory / Closed loops / Communication / Control / Control algorithms / Controllers / Dynamic programming / Engineering / Event triggered control / Feedback control / Hamiltonian functions / Intelligent Control and Applications / Iterative algorithms / Machine learning / Mechatronics / Neural networks / Nonlinear systems / Performance indices / Robotics / Systems stability / 제어계측공학
2025
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Sliding Mode-based Integral Reinforcement Learning Event Triggered Control
Sliding Mode-based Integral Reinforcement Learning Event Triggered Control
by Jia, Chao , Li, Xinyu , Song, Zijian , Wang, Hongkun
in Asymptotic properties / Bellman theory / Closed loops / Communication / Control / Control algorithms / Controllers / Dynamic programming / Engineering / Event triggered control / Feedback control / Hamiltonian functions / Intelligent Control and Applications / Iterative algorithms / Machine learning / Mechatronics / Neural networks / Nonlinear systems / Performance indices / Robotics / Systems stability / 제어계측공학
2025

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Sliding Mode-based Integral Reinforcement Learning Event Triggered Control
Sliding Mode-based Integral Reinforcement Learning Event Triggered Control
Journal Article

Sliding Mode-based Integral Reinforcement Learning Event Triggered Control

Jia, Chao,
Li, Xinyu,
Song, Zijian,
Wang, Hongkun
2025
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Overview
For a class of continuous-time nonlinear systems with input constraints, a novel event triggered control (ETC) of integral reinforcement learning (IRL) based on sliding mode (SM) is proposed in this paper. Firstly, a SM surface-based performance index function is designed and the Hamiltonian equation is solved by the policy iteration algorithm. Secondly, the IRL technique is utilized to obtain the integral Bellman equation, which makes the controller do not need to know the drift dynamics. Thirdly, the ETC is introduced to reduce the communication burden and a triggering condition is designed to ensure the asymptotic stability of the system. Then, a critic neural network (NN) is used to learn the optimal value function to obtain the optimal tracking controller. Finally, the asymptotic stability of the whole closed-loop system and uniformly ultimately bounded of the critic NN weights are proved based on the Lyapunov theory. Simulation and comparison results demonstrate the effectiveness of the proposed method.
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Publisher
Institute of Control, Robotics and Systems and The Korean Institute of Electrical Engineers,Springer Nature B.V,제어·로봇·시스템학회
Subject

Asymptotic properties

/ Bellman theory

/ Closed loops

/ Communication

/ Control

/ Control algorithms

/ Controllers

/ Dynamic programming

/ Engineering

/ Event triggered control

/ Feedback control

/ Hamiltonian functions

/ Intelligent Control and Applications

/ Iterative algorithms

/ Machine learning

/ Mechatronics

/ Neural networks

/ Nonlinear systems

/ Performance indices

/ Robotics

/ Systems stability

/ 제어계측공학

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