Formally Verified Neural Lyapunov Function for Incremental Input-to-State Stability of Unknown Systems

Abstract

This work presents an approach to synthesize a Lyapunov-like function to ensure incrementally input-to-state stability (δ-ISS) property for an unknown discrete-time system. To deal with challenges posed by unknown system dynamics, we parameterize the Lyapunov-like function as a neural network, which we train using the data samples collected from the unknown system along with appropriately designed loss functions. We propose a validity condition to test the obtained function and incorporate it into the training framework to ensure provable correctness at the end of the training. Finally, the usefulness of the proposed technique is proved using two case studies: a scalar non-linear dynamical system and a permanent magnet DC motor.