Optimal transport problems regularized by generic convex functions: A geometric and algorithmic approach (2011.13683v1)

Abstract: In order to circumvent the difficulties in solving numerically the discrete optimal transport problem, in which one minimizes the linear target function $P\mapsto\langle C,P\rangle:=\sum_{i,j}C_{ij}P_{ij}$, Cuturi introduced a variant of the problem in which the target function is altered by a convex one $\Phi(P)=\langle C,P\rangle-\lambda\mathcal{H}(P)$, where $\mathcal{H}$ is the Shannon entropy and $\lambda$ is a positive constant. We herein generalize their formulation to a target function of the form $\Phi(P)=\langle C,P\rangle+\lambda f(P)$, where $f$ is a generic strictly convex smooth function. We also propose an iterative method for finding a numerical solution, and clarify that the proposed method is particularly efficient when $f(P)=\frac{1}{2}|P|^2$.