Let $M$ be a smooth closed positively curved surface in Euclidean 3-space, $T$ be a geodesic triangulation of $M$, and $E$ be the edge graph of the convex hull of vertices of $T$. 

It is easy to see that $T$ may not always be isomorphic to $E$, because $E$ is determined by the vertices of $T$, while a set of points in $M$ may form vertices of different triangulations of $M$. For instance, one might take any pairs of adjacent acute triangles in $T$ and replace their common edge with a geodesic connecting the vertices of these triangles not on that edge.

<img src="https://i.sstatic.net/QkIGx.png" width="450">



**Question:** Are there some conditions which one may impose on $T$ as a subset of $M$ (e.g., involving edge lengths, angles, or curvatures of $M$) to ensure that $T$ is isomorphic to $E$?


  [1]: https://i.sstatic.net/QkIGx.png