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Discovering sparse interpretable dynamics from partial observations

Physics

Discovering sparse interpretable dynamics from partial observations

P. Y. Lu, J. A. Bernad, et al.

Understanding the governing equations of nonlinear dynamical systems is paramount, especially for those that are partially observed. This innovative research by Peter Y. Lu, Joan Ariño Bernad, and Marin Soljačić introduces a machine learning framework that seamlessly reconstructs system states and discovers governing equations, elevating the potential for accurate modeling in complex physical systems.... show more
Abstract
Identifying the governing equations of a nonlinear dynamical system enables physical understanding and accurate, generalizable modeling, but is challenging with partial observations. The authors propose a machine learning framework that discovers governing equations using only partial measurements by combining a learned encoder for hidden-state reconstruction with a sparse symbolic model for dynamics. The architecture is trained end-to-end by matching higher-order symbolic time derivatives of the model (via automatic differentiation) to finite-difference estimates from data. Across multiple ODE and PDE benchmarks, the method reconstructs full system states and identifies equations of motion from partial observations.
Publisher
Communications Physics
Published On
Aug 12, 2022
Authors
Peter Y. Lu, Joan Ariño Bernad, Marin Soljačić
DOI
https://doi.org/10.1038/s42005-022-00987-z
Tags
nonlinear dynamical systems
machine learning
state reconstruction
governing equations
partially observed systems
ODE
PDE

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