TY - GEN
T1 - Mesh segmentation and model extraction
AU - DIGNE, Julie
AU - MOREL, Jean-Michel
AU - MEHDI-SOUZANI, Charyar
AU - LARTIGUE, Claire
PY - 2012
Y1 - 2012
N2 - High precision laser scanners deliver virtual surfaces of industrial objects whose accuracy must be evaluated. But this requires the automatic detection of reliable components such as facets, cylindric and spherical parts, etc. The method described here finds automatically parts in the surface to which geometric primitives can be fitted. Knowing certain properties of the input object, this primitive fitting helps quantifying the precision of an acquisition process and of the scanned mires. The method combines mesh segmentation with model fitting. The mesh segmentation method is based on the level set tree of a scalar function defined on the mesh. The method is applied with the simplest available intrinsic scalar function on the mesh, the mean curvature. In a first stage a fast algorithm extracts the level sets of the scalar function. Adapting to meshes a well known method for extracting Maximally Stable Extremal Regions from the level set tree on digital images, the method segments automatically the mesh into smooth parts separated by high curvature regions (the edges). This segmentation is followed by a model selection on each part permitting to fit planes, cylinders and spheres and to quantify the overall accuracy of the acquisition process. © 2012 Springer-Verlag.
AB - High precision laser scanners deliver virtual surfaces of industrial objects whose accuracy must be evaluated. But this requires the automatic detection of reliable components such as facets, cylindric and spherical parts, etc. The method described here finds automatically parts in the surface to which geometric primitives can be fitted. Knowing certain properties of the input object, this primitive fitting helps quantifying the precision of an acquisition process and of the scanned mires. The method combines mesh segmentation with model fitting. The mesh segmentation method is based on the level set tree of a scalar function defined on the mesh. The method is applied with the simplest available intrinsic scalar function on the mesh, the mean curvature. In a first stage a fast algorithm extracts the level sets of the scalar function. Adapting to meshes a well known method for extracting Maximally Stable Extremal Regions from the level set tree on digital images, the method segments automatically the mesh into smooth parts separated by high curvature regions (the edges). This segmentation is followed by a model selection on each part permitting to fit planes, cylinders and spheres and to quantify the overall accuracy of the acquisition process. © 2012 Springer-Verlag.
KW - Mesh segmentation
KW - mire accuracy
KW - model fitting
UR - https://www.scopus.com/pages/publications/84855647630
U2 - 10.1007/978-3-642-27413-8_15
DO - 10.1007/978-3-642-27413-8_15
M3 - Conference paper (refereed)
AN - SCOPUS:84855647630
SN - 9783642274121
T3 - Lecture Notes in Computer Science
SP - 236
EP - 252
BT - Curves and Surfaces: 7th International Conference, Curves and Surfaces 2010, Revised Selected Papers
A2 - BOISSONNAT, Jean-Daniel
A2 - CHENIN, Patrick
A2 - COHEN, Albert
A2 - GOUT, Christian
A2 - LYCHE, Tom
A2 - MAZURE, Marie-Laurence
A2 - SCHUMAKER, Larry
PB - Springer Berlin Heidelberg
T2 - 7th International Conference on Curves and Surfaces 2010
Y2 - 24 June 2010 through 30 June 2010
ER -