Approximating geodesic distances on 2-manifolds in image \(\mathbb R^3\) (Q390105)
From MaRDI portal
 | This is the item page for this Wikibase entity, intended for internal use and editing purposes. Please use this page instead for the normal view: Approximating geodesic distances on 2-manifolds in image \(\mathbb R^3\) |
scientific article; zbMATH DE number 6249138
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Approximating geodesic distances on 2-manifolds in image \(\mathbb R^3\) |
scientific article; zbMATH DE number 6249138 |
Statements
Approximating geodesic distances on 2-manifolds in image \(\mathbb R^3\) (English)
0 references
22 January 2014
0 references
The geodesic distance between two points \(p\) and \(q\) of a connected set \(X\) is the length of the shortest path(s) linking this two points. In general, the geodesic distance is denoted by \(d_{X}(p,q)\). In this paper, the authors present an algorithm which approximates geodesic distances between points sampled from a 2 manifold in \(\mathbb{R}^{3}\) such that the approximation error is multiplicative. They use technics from computational geometry such as the Delaunay tetrahedrization and also they use Schreiber's optimal algorithm to compute exact geodesic distances. The paper contains important results and can be considered as a linking bridge between Riemannian geometry and computational geometry.
0 references
geodesic distances
0 references
manifold reconstruction
0 references
approximation algorithm
0 references
0 references
