Benjamin Söllner scite author profile

We study a discretization in space and time for a class of nonlinear diffusion equations with flux limitation. That class contains the so-called relativistic heat equation, as well as other gradient flows of Renyi entropies with respect to transportation metrics with finite maximal velocity. Discretization in time is performed with the JKO method, thus preserving the variational structure of the gradient flow. This is combined with an entropic regularization of the transport distance, which allows for an efficient numerical calculation of the JKO minimizers. Solutions to the fully discrete equations are entropy dissipating, mass conserving, and respect the finite speed of propagation of support.First, we give a proof of Γ-convergence of the infinite chain of JKO steps in the joint limit of infinitely refined spatial discretization and vanishing entropic regularization. The singularity of the cost function makes the construction of the recovery sequence significantly more difficult than in the L p -Wasserstein case. Second, we define a practical numerical method by combining the JKO time discretization with a "light speed" solver for the spatially discrete minimization problem using Dykstra's algorithm, and demonstrate its efficiency in a series of experiments.

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Discretization of Flux-Limited Gradient Flows: $Γ$-convergence and numerical schemes

Matthes¹,

Söllner²

2019

Preprint

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Benjamin Söllner

Convergent Lagrangian Discretization for Drift-Diffusion with Nonlocal Aggregation

Discretization of flux-limited gradient flows: $\Gamma $-convergence and numerical schemes

Discretization of Flux-Limited Gradient Flows: $Γ$-convergence and numerical schemes

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