Filling Holes in Triangular Meshes of Plant Organs
Résumé
Data missing was always when scanning plant organs by using 3D laser
scanner, and this could lead to holes appearing in the mesh surface
generated from the scanned point cloud. Basing on the analyzing to the
geometrical features of different types of plant organs, a hole-filling
algorithm was proposed which based on the normal vector of the mesh to
make the repair area as close as possible to the original model of the
organs mesh. The algorithm firstly extracts the hole boundary in the
surface mesh, and compute the positions of new points based on the
normal vector and normal curvature of the mesh boundary, then connects
the new points and boundary points to generate a new triangular mesh.
Experiments on different plant organs of geometric shapes were taken and
new triangular mesh qualities were evaluated. Results show that the
algorithm can fill holes in several kinds of scanned plant organs mesh
quickly and efficiently.
Domaines
Informatique [cs]Origine | Fichiers produits par l'(les) auteur(s) |
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