REMuS-GNN: A Rotation-Equivariant Model for Simulating Continuum Dynamics
Keywords: graph neural network, equivariance, continuum dynamics
TL;DR: A rotation-equivariant multi-resolution GNN for simulating the Eulerian dynamics of continuous physical systems
Abstract: Numerical simulation is an essential tool in many areas of science and engineering, but its performance often limits application in practice, or when used to explore large parameter spaces. On the other hand, surrogate deep learning models, while accelerating simulations, often exhibit poor accuracy and ability to generalise. In order to improve these two factors, we introduce REMuS-GNN, a rotation-equivariant multi-scale model for simulating continuum dynamical systems encompassing a range of length scales. REMuS-GNN is designed to predict an output vector field from an input vector field on a physical domain discredited into an unstructured set of nodes. Equivariance to rotations of the domain is a desirable inductive bias that allows the network to learn the underlying physics more efficiently, leading to improved accuracy and generalisation compared with similar architectures that lack such symmetry. We demonstrate and evaluate this method on the incompressible flow around elliptical cylinders.
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