AI-Driven Control of Chaos: A Transformer-Based Approach for Dynamical Systems
Abstract
Chaotic behavior in dynamical systems poses a significant challenge in trajectory control, traditionally relying on computationally intensive physical models. We present a machine learning-based algorithm to compute the minimum control bounds required to confine particles within a region indefinitely, using only samples of orbits that iterate within the region before diverging. This model-free approach achieves high accuracy, with a mean squared error of 2.88 × 10-4 and computation times in the range of seconds. The results highlight its efficiency and potential for real-time control of chaotic systems.
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