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Reinforcement Learning-based Control of Nonlinear Systems using Carleman Approximation

We develop data-driven reinforcement learning (RL) control designs for input-affine nonlinear systems. We use Carleman linearization to express the state-space representation of the nonlinear dynamical model in the Carleman space, and develop a real-time algorithm that can learn nonlinear state-feedback controllers using state and input measurements in the infinite-dimensional Carleman space.

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Jishnudeep Kar, He Bai, Aranya Chakrabortty (2024). Dataset: Reinforcement Learning-based Control of Nonlinear Systems using Carleman Approximation. https://doi.org/10.57702/uly22pp3

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Additional Info

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Created December 3, 2024
Last update December 3, 2024
Defined In https://doi.org/10.48550/arXiv.2302.10864
Author Jishnudeep Kar
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He Bai
Aranya Chakrabortty