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A Multi-Critic Reinforcement Learning Method: An Application to Multi-Tank Water Systems

Juan Martinez-Piazuelo, Daniel E. Ochoa, Nicanor Quijano, Luis Felipe Giraldo

2020IEEE Access25 citationsDOIOpen Access PDF

Abstract

This paper investigates the combination of reinforcement learning and neural networks applied to the data-driven control of dynamical systems. In particular, we propose a multi-critic actor-critic architecture that eases the value function learning task by distributing it into multiple neural networks. We also propose a filtered multi-critic approach that offers further performance improvements as it eases the training process of the control policy. All the studied methods are evaluated with several numerical experiments on multi-tank water systems with nonlinear coupled dynamics, where control is known to be a challenging task. The simulation results show that the proposed multi-critic scheme is able to outperform the standard actor-critic approach in terms of speed and sensitivity of the learning process. Moreover, the results show that the filtered multi-critic strategy outperforms the unfiltered one under these same terms. This document highlights the benefits of the multi-critic methodology on a state of the art reinforcement learning algorithm, the deep deterministic policy gradient, and demonstrates its application to multi-tank water systems relevant for industrial process control.

Topics & Concepts

Reinforcement learningComputer scienceArtificial neural networkProcess (computing)Artificial intelligenceTask (project management)Optimal controlNonlinear systemMachine learningMathematical optimizationEngineeringMathematicsSystems engineeringPhysicsOperating systemQuantum mechanicsAdaptive Dynamic Programming ControlReinforcement Learning in Robotics
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