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Paper detail

Data-driven discovery of Green's functions with human-understandable deep learning

There is an opportunity for deep learning to revolutionize science and technology by revealing its findings in a human interpretable manner. To do this, we develop a novel data-driven approach for creating a human-machine partnership to accelerate scientific discovery. By collecting physical system responses under excitations drawn from a Gaussian process, we train rational neural networks to learn Green's functions of hidden linear partial differential equations. These functions reveal human-understandable properties and features, such as linear conservation laws and symmetries, along with shock and singularity locations, boundary effects, and dominant modes. We illustrate the technique on several examples and capture a range of physics, including advection-diffusion, viscous shocks, and Stokes flow in a lid-driven cavity.

preprint2022arXivOpen access
Nicolas BoulléChristopher J. EarlsAlex Townsend
Machine LearningArtificial Intelligencemath.NANumerical Analysis
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Nicolas BoulléChristopher J. EarlsAlex Townsend

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