Using Sinkhorn in the JKO scheme adds linear diffusion

Abstract

The JKO scheme is a time-discrete scheme of implicit Euler type that allows to construct weak solutions of evolution PDEs which have a Wasserstein gradient structure. The purpose of this work is to study the effect of replacing the classical quadratic optimal transport problem by the Schr\"odinger problem (a.k.a.\ the entropic regularization of optimal transport, efficiently computed by the Sinkhorn algorithm) at each step of this scheme. We find that if ε is the regularization parameter of the Schr\"odinger problem, and τ is the time step parameter, considering the limit τ,ε 0 with ετ α ∈ R+ results in adding the term α2 on the right-hand side of the limiting PDE. In the case α = 0 we improve a previous result by Carlier, Duval, Peyr\'e and Schmitzer (2017).

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