Operator learning regularization for macroscopic permeability prediction in dual-scale flow problem

November 30, 2024 Β· Declared Dead Β· πŸ› arXiv.org

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Authors Christina Runkel, Sinan Xiao, Nicolas BoullΓ©, Yang Chen arXiv ID 2412.00579 Category physics.flu-dyn Cross-listed cs.LG, math.NA, physics.comp-ph Citations 1 Venue arXiv.org Last Checked 3 months ago
Abstract
Liquid composites moulding is an important manufacturing technology for fibre reinforced composites, due to its cost-effectiveness. Challenges lie in the optimisation of the process due to the lack of understanding of key characteristic of textile fabrics - permeability. The problem of computing the permeability coefficient can be modelled as the well-known Stokes-Brinkman equation, which introduces a heterogeneous parameter $Ξ²$ distinguishing macropore regions and fibre-bundle regions. In the present work, we train a Fourier neural operator to learn the nonlinear map from the heterogeneous coefficient $Ξ²$ to the velocity field $u$, and recover the corresponding macroscopic permeability $K$. This is a challenging inverse problem since both the input and output fields span several order of magnitudes, we introduce different regularization techniques for the loss function and perform a quantitative comparison between them.
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