Physics-Informed Neural Operator for Learning Partial Differential Equations

Author name not available (Why is that?)

Publication date: 5 November 2021

Abstract: In this paper, we propose physics-informed neural operators (PINO) that uses available data and/or physics constraints to learn the solution operator of a family of parametric Partial Differential Equation (PDE). This hybrid approach allows PINO to overcome the limitations of purely data-driven and physics-based methods. For instance, data-driven methods fail to learn when data is of limited quantity and/or quality, and physics-based approaches fail to optimize on challenging PDE constraints. By combining both data and PDE constraints, PINO overcomes all these challenges. Additionally, a unique property that PINO enjoys over other hybrid learning methods is its ability to incorporate data and PDE constraints at different resolutions. This allows us to combine coarse-resolution data, which is inexpensive to obtain from numerical solvers, with higher resolution PDE constraints, and the resulting PINO has no degradation in accuracy even on high-resolution test instances. This discretization-invariance property in PINO is due to neural-operator framework which learns mappings between function spaces and allows evaluation at different resolutions without the need for re-training. Moreover, PINO succeeds in the purely physics setting, where no data is available, while other approaches such as the Physics-Informed Neural Network (PINN) fail due to optimization challenges, e.g. in multi-scale dynamic systems such as Kolmogorov flows. This is because PINO learns the solution operator by optimizing PDE constraints on multiple instances while PINN optimizes PDE constraints of a single PDE instance. Further, in PINO, we incorporate the Fourier neural operator (FNO) architecture which achieves orders-of-magnitude speedup over numerical solvers and also allows us to compute explicit gradients on function spaces efficiently.

Has companion code repository: https://github.com/Hedawl/PINO-MBD

This page was built for publication: Physics-Informed Neural Operator for Learning Partial Differential Equations

Report a bug (only for logged in users!)Click here to report a bug for this page (MaRDI item Q6382362)