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arxiv: 2503.15629 · v1 · pith:4UKVRHX2 · submitted 2025-03-19 · cs.RO · cs.AI· cs.CG· cs.LG

Neural Lyapunov Function Approximation with Self-Supervised Reinforcement Learning

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classification cs.RO cs.AIcs.CGcs.LG
keywords lyapunovapproximationfunctionsneuralconvergencelearningmethodnonlinear
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Control Lyapunov functions are traditionally used to design a controller which ensures convergence to a desired state, yet deriving these functions for nonlinear systems remains a complex challenge. This paper presents a novel, sample-efficient method for neural approximation of nonlinear Lyapunov functions, leveraging self-supervised Reinforcement Learning (RL) to enhance training data generation, particularly for inaccurately represented regions of the state space. The proposed approach employs a data-driven World Model to train Lyapunov functions from off-policy trajectories. The method is validated on both standard and goal-conditioned robotic tasks, demonstrating faster convergence and higher approximation accuracy compared to the state-of-the-art neural Lyapunov approximation baseline. The code is available at: https://github.com/CAV-Research-Lab/SACLA.git

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