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Output‐feedback Q‐learning for discrete‐time linear <i>H</i><sup>∞</sup> tracking control: A Stackelberg game approach

Yunxiao Ren, Qishao Wang, Zhisheng Duan

2022International Journal of Robust and Nonlinear Control15 citationsDOI

Abstract

Abstract In this article, an output‐feedback Q‐learning algorithm is proposed for the discrete‐time linear system to deal with the tracking control problem. The problem is formulated as a zero‐sum game in the Stackelberg game framework with a discount factor to make the value function bounded. According to the principle of optimality, the game algebraic Riccati equation (GARE) is derived and solved by the Q‐learning algorithm to get the optimal solution of the Stackelberg game without requiring the knowledge of system dynamics and state. It is proved that the solution of the algorithm converges to the optimal control input and the worst‐case disturbance with excitation noises during training, and the Stackelberg strategy can achieve a lower disturbance attenuation level than the Nash one. Moreover, the impacts of the discount factor on the stability of the closed‐loop system and solvability of the GARE are analyzed to provide some criteria for the choice of the discount factor. Simulation examples are provided to validate the effectiveness of the algorithm.

Topics & Concepts

Stackelberg competitionControl theory (sociology)Algebraic Riccati equationBounded functionMathematical optimizationRiccati equationDiscrete time and continuous timeNash equilibriumComputer scienceQ-learningController (irrigation)Stability (learning theory)Optimal controlMathematicsControl (management)Reinforcement learningMathematical economicsArtificial intelligenceDifferential equationMathematical analysisMachine learningBiologyAgronomyStatisticsAdaptive Dynamic Programming ControlAdaptive Control of Nonlinear SystemsOptimization and Variational Analysis
Output‐feedback Q‐learning for discrete‐time linear <i>H</i><sup>∞</sup> tracking control: A Stackelberg game approach | Litcius