Dominik Forkert scite author profile

Dominik Forkert

4Publications

15Citation Statements Received

33Citation Statements Given

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Affiliations

Institute of Science and Technology Austria

Publications

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Evolutionary $Γ$-convergence of entropic gradient flow structures for Fokker-Planck equations in multiple dimensions

Forkert¹,

Maas²,

Portinale³

2020

Preprint

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We consider finite-volume approximations of Fokker-Planck equations on bounded convex domains in R d and study the corresponding gradient flow structures. We reprove the convergence of the discrete to continuous Fokker-Planck equation via the method of Evolutionary Γ-convergence, i.e., we pass to the limit at the level of the gradient flow structures, generalising the one-dimensional result obtained by Disser and Liero. The proof is of variational nature and relies on a Mosco convergence result for functionals in the discrete-to-continuum limit that is of independent interest. Our results apply to arbitrary regular meshes, even though the associated discrete transport distances may fail to converge to the Wasserstein distance in this generality.

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Gradient flow formulation of diffusion equations in the Wasserstein space over a metric graph

Erbar¹,

Forkert²,

Maas³

et al. 2021

Preprint

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Evolutionary $\Gamma$-Convergence of Entropic Gradient Flow Structures for Fokker--Planck Equations in Multiple Dimensions

Forkert¹,

Maas²,

Portinale³

2022

SIAM J. Math. Anal.

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Gradient flow formulation of diffusion equations in the Wasserstein space over a Metric graph

Erbar

Forkert

Maas

et al. 2022

NHM

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<p style='text-indent:20px;'>This paper contains two contributions in the study of optimal transport on metric graphs. Firstly, we prove a Benamou–Brenier formula for the Wasserstein distance, which establishes the equivalence of static and dynamical optimal transport. Secondly, in the spirit of Jordan–Kinderlehrer–Otto, we show that McKean–Vlasov equations can be formulated as gradient flow of the free energy in the Wasserstein space of probability measures. The proofs of these results are based on careful regularisation arguments to circumvent some of the difficulties arising in metric graphs, namely, branching of geodesics and the failure of semi-convexity of entropy functionals in the Wasserstein space.</p>

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Dominik Forkert

Evolutionary $Γ$-convergence of entropic gradient flow structures for Fokker-Planck equations in multiple dimensions

Gradient flow formulation of diffusion equations in the Wasserstein space over a metric graph

Evolutionary $\Gamma$-Convergence of Entropic Gradient Flow Structures for Fokker--Planck Equations in Multiple Dimensions

Gradient flow formulation of diffusion equations in the Wasserstein space over a Metric graph

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