Laakmann, Fabian scite author profile

Laakmann, Fabian

4Publications

27Citation Statements Received

236Citation Statements Given

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University of Oxford

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Efficient approximation of solutions of parametric linear transport equations by ReLU DNNs

Fabian

Petersen

2021

Adv Comput Math

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We demonstrate that deep neural networks with the ReLU activation function can efficiently approximate the solutions of various types of parametric linear transport equations. For non-smooth initial conditions, the solutions of these PDEs are high-dimensional and non-smooth. Therefore, approximation of these functions suffers from a curse of dimension. We demonstrate that through their inherent compositionality deep neural networks can resolve the characteristic flow underlying the transport equations and thereby allow approximation rates independent of the parameter dimension.

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Efficient Approximation of Solutions of Parametric Linear Transport Equations by ReLU DNNs

Fabian¹,

Petersen²

2020

Preprint

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An Augmented Lagrangian Preconditioner for the Magnetohydrodynamics Equations at High Reynolds and Coupling Numbers

Fabian¹,

Farrell²,

Mitchell³

2022

SIAM J. Sci. Comput.

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Structure-Preserving and Helicity-Conserving Finite Element Approximations and Preconditioning for the Hall Mhd Equations

Fabian

Farrell

2022

SSRN Journal

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Laakmann, Fabian

Efficient approximation of solutions of parametric linear transport equations by ReLU DNNs

Efficient Approximation of Solutions of Parametric Linear Transport Equations by ReLU DNNs

An Augmented Lagrangian Preconditioner for the Magnetohydrodynamics Equations at High Reynolds and Coupling Numbers

Structure-Preserving and Helicity-Conserving Finite Element Approximations and Preconditioning for the Hall Mhd Equations

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