NsCircle datasets from "Multi-scale rotation-equivariant graph neural networks for unsteady Eulerian fluid dynamics"

Mario Lino

doi:10.5281/zenodo.7870707

Published April 28, 2023 | Version 1.0.0

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NsCircle datasets from "Multi-scale rotation-equivariant graph neural networks for unsteady Eulerian fluid dynamics"

Mario Lino¹

1. Department of Aeronautics, Imperial College London

Datasets with the simulations of the incompressible flow around an elliptical as described by the incompressible Navier-Stokes equations. These simulations were used to train and test the MuS-GNN models in the paper:
Multi-scale rotation-equivariant graph neural networks for
unsteady Eulerian fluid dynamics (https://doi.org/10.1063/5.0097679)

The datasets are:
- train/NsEllipse
- test/NsEllipseLowRe
- test/NsEllipseHighRe
- test/NsEllipseThin
- test/NsEllipseThick
- test/NsEllipseNarrow
- test/NsEllipseWide
- test/NsEllipseAoA

To cite these datasets, use the following reference:

Mario Lino, Stathi Fotiadis, Anil A. Bharath, and Chris Cantwell. "Multi-scale rotation-equivariant graph neural networks for unsteady Eulerian fluid dynamics". Physics of Fluids, 34 (2022).

@article{lino2022multi,
author = {Lino, Mario and Fotiadis, Stathi and Bharath, Anil A. and Cantwell, Chris},
title = {{Multi-scale rotation-equivariant graph neural networks for unsteady Eulerian fluid dynamics}},
journal = {Physics of Fluids},
volume = {34},
year = {2022},
url = {https://doi.org/10.1063/5.0097679},
}

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NsCircle datasets from "Multi-scale rotation-equivariant graph neural networks for unsteady Eulerian fluid dynamics"

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NsCircle.zip

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