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Adaptive Optimal Discrete-Time Output-Feedback Using an Internal Model Principle and Adaptive Dynamic Programming

Zhongyang Wang, Youqing Wang, Zdzisław Kowalczuk

2024IEEE/CAA Journal of Automatica Sinica14 citationsDOI

Abstract

In order to address the output feedback issue for linear discrete-time systems, this work suggests a brand-new adaptive dynamic programming (ADP) technique based on the internal model principle (IMP). The proposed method, termed as IMP-ADP, does not require complete state feedback-merely the measurement of input and output data. More specifically, based on the IMP, the output control problem can first be converted into a stabilization problem. We then design an observer to reproduce the full state of the system by measuring the inputs and outputs. Moreover, this technique includes both a policy iteration algorithm and a value iteration algorithm to determine the optimal feedback gain without using a dynamic system model. It is important that with this concept one does not need to solve the regulator equation. Finally, this control method was tested on an inverter system of grid-connected LCLs to demonstrate that the proposed method provides the desired performance in terms of both tracking and disturbance rejection.

Topics & Concepts

Dynamic programmingControl theory (sociology)Internal modelObserver (physics)Computer scienceDiscrete time and continuous timeAdaptive controlBellman equationOptimal controlState (computer science)Control (management)Mathematical optimizationMathematicsAlgorithmArtificial intelligenceStatisticsPhysicsQuantum mechanicsAdaptive Dynamic Programming ControlMechanical Circulatory Support DevicesFrequency Control in Power Systems
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