Tim De Ryck scite author profile

We prove rigorous bounds on the errors resulting from the approximation of the incompressible Navier-Stokes equations with (extended) physics informed neural networks. We show that the underlying PDE residual can be made arbitrarily small for tanh neural networks with two hidden layers. Moreover, the total error can be estimated in terms of the training error, network size and number of quadrature points. The theory is illustrated with numerical experiments.

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Error analysis for physics informed neural networks (PINNs) approximating Kolmogorov PDEs

Ryck¹,

Mishra²

2021

Preprint

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Change Point Detection in Time Series Data Using Autoencoders With a Time-Invariant Representation

Ryck

Vos

Bertrand

2021

IEEE Trans. Signal Process.

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Error estimates for physics-informed neural networks approximating the Navier–Stokes equations

Ryck

Jagtap

Mishra

2023

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We prove rigorous bounds on the errors resulting from the approximation of the incompressible Navier–Stokes equations with (extended) physics-informed neural networks. We show that the underlying partial differential equation residual can be made arbitrarily small for tanh neural networks with two hidden layers. Moreover, the total error can be estimated in terms of the training error, network size and number of quadrature points. The theory is illustrated with numerical experiments.

show abstract

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Tim De Ryck

On the approximation of functions by tanh neural networks

Error estimates for physics informed neural networks approximating the Navier-Stokes equations

Error analysis for physics informed neural networks (PINNs) approximating Kolmogorov PDEs

Change Point Detection in Time Series Data Using Autoencoders With a Time-Invariant Representation

Error estimates for physics-informed neural networks approximating the Navier–Stokes equations

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