Geodesics and generalized geodesics: Difference between revisions

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It is possible to generalize the previous theorem and theory to <math>W_{p} </math> metrics. More about that could be seen in the book <ref name="Ambrosio" />. <br>  
It is possible to generalize the previous theorem and theory to <math>W_{p} </math> metrics. More about that could be seen in the book <ref name="Ambrosio" />. <br>  


However, it is possible to have a similar theorem for generalized geodesics <ref name="Santambrogio1" />.
However, it is possible to generalize theorem for a different kind of geodesics <ref name="Santambrogio1" />.


= References =
= References =

Revision as of 12:12, 11 June 2020

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 Namely, it is possible to see as an infimum of the lengts of curves that satisfy Continuity equation
().

Geodesics

Constant speed geodesic ...

Statement of Theorem

Theorem.(Benamow-Brenier)[1] Let ,

Generalization

It is possible to generalize the previous theorem and theory to metrics. More about that could be seen in the book [2].

However, it is possible to generalize theorem for a different kind of geodesics [3].

References