Approximation properties of Residual Neural Networks for Kolmogorov PDEs

no code implementations • 30 Oct 2021 • Jonas Baggenstos, Diyora Salimova

In this article we show that ResNets are able to approximate solutions of Kolmogorov partial differential equations (PDEs) with constant diffusion and possibly nonlinear drift coefficients without suffering the curse of dimensionality, which is to say the number of parameters of the approximating ResNets grows at most polynomially in the reciprocal of the approximation accuracy $\varepsilon > 0$ and the dimension of the considered PDE $d\in\mathbb{N}$.

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