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Paper detail

A Model-Based Reinforcement Learning Approach for PID Design

Proportional-integral-derivative (PID) controller is widely used across various industrial process control applications because of its straightforward implementation. However, it can be challenging to fine-tune the PID parameters in practice to achieve robust performance. The paper proposes a model-based reinforcement learning (RL) framework to design PID controllers leveraging the probabilistic inference for learning control (PILCO) method and Kullback-Leibler divergence (KLD). Since PID controllers have a much more interpretable control structure than a network basis function, an optimal policy given by PILCO is transformed into a set of robust PID tuning parameters for underactuated mechanical systems. The presented method is general and can blend with several model-based and model-free algorithms. The performance of the devised PID controllers is demonstrated with simulation studies for a benchmark cart-pole system under disturbances and system parameter uncertainties.

preprint2022arXivOpen access
Hozefa JesawadaAmol YerudkarCarmen Del VecchioNavdeep Singh
Systems and Controleess.SY
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Hozefa JesawadaAmol YerudkarCarmen Del VecchioNavdeep Singh

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