Geodesics and generalized geodesics: Difference between revisions

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: '''Definition.''' A curve <math> c:[0,1] \rightarrow X</math> is said to be geodesic in <math> X </math> if it minimizes the length <math> L(\omega)</math> of all  the curves <math> \omega:[0,1] \rightarrow X</math> <br> such that <math> c(0)=\omega(0)</math> and <math> c(1)=\omega(1)</math>.
: '''Definition.''' A curve <math> c:[0,1] \rightarrow X</math> is said to be geodesic in <math> X </math> if it minimizes the length <math> L(\omega)</math> of all  the curves <math> \omega:[0,1] \rightarrow X</math> <br> such that <math> c(0)=\omega(0)</math> and <math> c(1)=\omega(1)</math>.


Since we have a definition of a geodesic in the general space, it is natural to think of Riemannian structure. More about it can be seen in the [http://34.106.105.83/wiki/ Formal Riemannian Structure of the Wasserstein_metric].
Since we have a definition of a geodesic in the general space, it is natural to think of Riemannian structure. More about it can be seen in the following article [http://34.106.105.83/wiki/ Formal Riemannian Structure of the Wasserstein_metric].





Revision as of 12:58, 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 in general metric spaces

First, we will introduce definition of the geodesic in general metric space . We are going to follow ideas from the book by Santambrogio[1].

Definition. A curve is said to be geodesic in if it minimizes the length of all the curves
such that and .

Since we have a definition of a geodesic in the general space, it is natural to think of Riemannian structure. More about it can be seen in the following article Formal Riemannian Structure of the Wasserstein_metric.


Definition. A metric space is called a length space if it holds
                    
Definition. In a length space, a curve is said to be constant speed geodesic between and in if it satisfies
                     for all 

Statement of Theorem

Now, we can rephrase Wasserstein metrics in dynamic language. In special case:

Theorem.(Benamou-Brenier)[1] Let . Then we have
      

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