Robust NN-based decentralized optimal tracking control for interconnected nonlinear systems via adaptive dynamic programming

This study presents a decentralized robust optimal tracking control scheme for a class of interconnected nonlinear systems with disturbances and actuator attacks. To save the computational energy resources, an adaptive event condition in the sensor channel and an estimated state-driven event conditi...

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Published inNonlinear dynamics Vol. 110; no. 4; pp. 3429 - 3446
Main Authors Guo, Bin, Dian, Songyi, Zhao, Tao
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Netherlands 01.12.2022
Springer Nature B.V
Subjects
Actuators
Adaptive systems
Automotive Engineering
Classical Mechanics
Control
Control systems design
Disturbances
Dynamic programming
Dynamic stability
Dynamical Systems
Energy sources
Engineering
Mechanical Engineering
Neural networks
Nonlinear control
Nonlinear systems
Optimal control
Original Paper
Proportional integral
Robust control
Tracking control
Tracking errors
Tracking systems
Vibration
Decentralized control
Optimal control
Actuator attack
Interconnected systems
Disturbances
Observer design
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Abstract This study presents a decentralized robust optimal tracking control scheme for a class of interconnected nonlinear systems with disturbances and actuator attacks. To save the computational energy resources, an adaptive event condition in the sensor channel and an estimated state-driven event condition in the control channel are established. Based on the output triggered information, a novel decentralized proportional-integral observer (PIO) is designed aided by the neighbor information, in which the system states and lumped disturbances are estimated. By utilizing the observer information, a reliable decentralized controller is designed. In the proposed control scheme, two control parts are included. An event-based discontinuous part is designed to force the tracking error to reach the sliding mode manifold, and an optimal control part is presented to release the effects of disturbance and minimize the control cost, the estimated disturbance values are also integrated into the control scheme as a compensation part. In addition, the optimal control problem is solved based on the neural network (NN) and adaptive dynamic programming (ADP), the stability and the weight vector of the tracking system are demonstrated, and finally, the application to the interconnected nonlinear power system verifies the merit of the presented control approach.
AbstractList This study presents a decentralized robust optimal tracking control scheme for a class of interconnected nonlinear systems with disturbances and actuator attacks. To save the computational energy resources, an adaptive event condition in the sensor channel and an estimated state-driven event condition in the control channel are established. Based on the output triggered information, a novel decentralized proportional-integral observer (PIO) is designed aided by the neighbor information, in which the system states and lumped disturbances are estimated. By utilizing the observer information, a reliable decentralized controller is designed. In the proposed control scheme, two control parts are included. An event-based discontinuous part is designed to force the tracking error to reach the sliding mode manifold, and an optimal control part is presented to release the effects of disturbance and minimize the control cost, the estimated disturbance values are also integrated into the control scheme as a compensation part. In addition, the optimal control problem is solved based on the neural network (NN) and adaptive dynamic programming (ADP), the stability and the weight vector of the tracking system are demonstrated, and finally, the application to the interconnected nonlinear power system verifies the merit of the presented control approach.
Author Guo, Bin
Zhao, Tao
Dian, Songyi
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  organization: College of Electrical Engineering, Sichuan University
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  surname: Zhao
  fullname: Zhao, Tao
  organization: College of Electrical Engineering, Sichuan University
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Keywords Decentralized control
Optimal control
Actuator attack
Interconnected systems
Disturbances
Observer design
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SubjectTerms Actuators
Adaptive systems
Automotive Engineering
Classical Mechanics
Control
Control systems design
Disturbances
Dynamic programming
Dynamic stability
Dynamical Systems
Energy sources
Engineering
Mechanical Engineering
Neural networks
Nonlinear control
Nonlinear systems
Optimal control
Original Paper
Proportional integral
Robust control
Tracking control
Tracking errors
Tracking systems
Vibration
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Title Robust NN-based decentralized optimal tracking control for interconnected nonlinear systems via adaptive dynamic programming
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