Introduction

There are many ways that we can describe Wasserstein metric. One of them is to characterize absolutely continuos curves (AC)(p.188^[1]) and provide a dynamic formulation of the special case ${\displaystyle W_{2}^{2}}$ Namely, it is possible to see ${\displaystyle W_{2}^{2}(\mu ,\nu )}$ as an infimum of the lengts of curves that satisfy Continuity equation
(${\displaystyle \partial _{t}\mu +\nabla (v\mu )=0}$).

Geodesics

Constant speed geodesic ...

Statement of Theorem

Theorem.(Benamow-Brenier)^[1] Let ${\displaystyle \mu ,\nu \in P_{2}(R^{d})}$,

${\displaystyle W_{2}^{2}(\mu ,\nu )=\inf _{(\mu (t).\nu (t))}\{\int _{0}^{1}|v(,t)|_{L^{2}(\mu (t))}^{2}dt,\quad \partial _{t}\mu +\nabla (v\mu )=0,\mu (0)=\mu ,\mu (1)=\nu \}}$

Generalization

${\displaystyle W_{p}}$ case from ...^[2]

References