Greedy Matching in Optimal Transport with concave cost

Abstract

We consider the optimal transport problem between a set of n red points and a set of n blue points subject to a concave cost function such as c(x,y) = \|x-y\|p for 0< p < 1. Our focus is on a particularly simple matching algorithm: match the closest red and blue point, remove them both and repeat. We prove that it provides good results in any metric space (X,d) when the cost function is c(x,y) = d(x,y)p with 0 < p < 1/2. Empirically, the algorithm produces results that are remarkably close to optimal -- especially as the cost function gets more concave; this suggests that greedy matching may be a good toy model for Optimal Transport for very concave transport cost.