Add to ORKGA digital image may contain objects that can be made up of multiple regions concerning different material properties, physical or chemical attributes. Thus, segmented simplicial meshes with non-manifold boundaries are generated to represent the partitioned regions. We focus on repairing non-manifold boundaries. Current methods modify the topology, geometry or both, using their own data structures. The problem of modifying the topology is that if the mesh has to be post-processed, for instance with the Delaunay refinement, the mesh becomes unsuitable. In this paper, we propose alternatives to repair non-manifold boundaries of segmented simplicial meshes, among them is the Delaunay based one, we use common data structures and only consider 2 ...
In the field of reverse engineering one often faces the problem of repairing triangulations with hol...
Abstract. This paper surveys Delaunay-based meshing techniques for curved objects, and their applica...
The preservation of topological properties during digitization is a hard problem in 3 and higher dim...
In this paper, we investigate boundary recovery, the problem that has troubled researchers ever sinc...
Three‐dimensional boundary recovery is a fundamental problem in mesh generation. In this paper, we p...
We address the problem of representing and processing non-regular, non-manifold two-dimensional simp...
Delaunay refinement is a mesh generation paradigm noted for offering theoretical guarantees regardin...
Recently a Delaunay refinement algorithm has been proposed that can mesh domains as general as piece...
International audienceIn this paper we propose a method to remesh non-manifold surfaces with triangl...
When designing novel algorithms for geometric processing and analysis, researchers often assume that...
International audienceGenerating realistic geometric models from 3D segmented images is an important...
International audienceWe propose a purely discrete deformable partition model for segmenting 3D imag...
Abstract—Active contour and surface models, also known as deformable models, are powerful image segm...
Boundary representation models reconstructed from 3D range data suffer from various inaccuracies cau...
This paper presents an extended surface boundary representation (B-rep), where each topology entity ...
In the field of reverse engineering one often faces the problem of repairing triangulations with hol...
Abstract. This paper surveys Delaunay-based meshing techniques for curved objects, and their applica...
The preservation of topological properties during digitization is a hard problem in 3 and higher dim...
In this paper, we investigate boundary recovery, the problem that has troubled researchers ever sinc...
Three‐dimensional boundary recovery is a fundamental problem in mesh generation. In this paper, we p...
We address the problem of representing and processing non-regular, non-manifold two-dimensional simp...
Delaunay refinement is a mesh generation paradigm noted for offering theoretical guarantees regardin...
Recently a Delaunay refinement algorithm has been proposed that can mesh domains as general as piece...
International audienceIn this paper we propose a method to remesh non-manifold surfaces with triangl...
When designing novel algorithms for geometric processing and analysis, researchers often assume that...
International audienceGenerating realistic geometric models from 3D segmented images is an important...
International audienceWe propose a purely discrete deformable partition model for segmenting 3D imag...
Abstract—Active contour and surface models, also known as deformable models, are powerful image segm...
Boundary representation models reconstructed from 3D range data suffer from various inaccuracies cau...
This paper presents an extended surface boundary representation (B-rep), where each topology entity ...
In the field of reverse engineering one often faces the problem of repairing triangulations with hol...
Abstract. This paper surveys Delaunay-based meshing techniques for curved objects, and their applica...
The preservation of topological properties during digitization is a hard problem in 3 and higher dim...