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Paper detail

Constrained Attractor Selection Using Deep Reinforcement Learning

This paper describes an approach for attractor selection (or multi-stability control) in nonlinear dynamical systems with constrained actuation. Attractor selection is obtained using two different deep reinforcement learning methods: 1) the cross-entropy method (CEM) and 2) the deep deterministic policy gradient (DDPG) method. The framework and algorithms for applying these control methods are presented. Experiments were performed on a Duffing oscillator, as it is a classic nonlinear dynamical system with multiple attractors. Both methods achieve attractor selection under various control constraints. While these methods have nearly identical success rates, the DDPG method has the advantages of a high learning rate, low performance variance, and a smooth control approach. This study demonstrates the ability of two reinforcement learning approaches to achieve constrained attractor selection.

preprint2020arXivOpen access
Xue-She WangJames D. TurnerBrian P. Mann
Systems and Controleess.SYMachine Learningnlin.CD
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Xue-She WangJames D. TurnerBrian P. Mann

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