A Method for Registration of 3-D Shapes
IEEE Transactions on Pattern Analysis and Machine Intelligence - Special issue on interpretation of 3-D scenes—part II
Surface reconstruction from unorganized points
SIGGRAPH '92 Proceedings of the 19th annual conference on Computer graphics and interactive techniques
Filling gaps in the boundary of a polyhedron
Computer Aided Geometric Design
The NURBS book (2nd ed.)
A new Voronoi-based surface reconstruction algorithm
Proceedings of the 25th annual conference on Computer graphics and interactive techniques
Computational geometry in C (2nd ed.)
Computational geometry in C (2nd ed.)
Proceedings of the 27th annual conference on Computer graphics and interactive techniques
A Surgery Simulation Supporting Cuts and Finite Element Deformation
MICCAI '01 Proceedings of the 4th International Conference on Medical Image Computing and Computer-Assisted Intervention
Interactive Simulation of Surgical Cuts
PG '00 Proceedings of the 8th Pacific Conference on Computer Graphics and Applications
A state machine for real-time cutting of tetrahedral meshes
Graphical Models - Special issue on pacific graphics 2003
A Contour-Based Approach to 3D Text Labeling on Triangulated Surfaces
3DIM '05 Proceedings of the Fifth International Conference on 3-D Digital Imaging and Modeling
Mesh Editing with an Embedded Network of Curves
SMI '05 Proceedings of the International Conference on Shape Modeling and Applications 2005
An Algorithm for Cutting 3D Surface Meshes
ICPR '06 Proceedings of the 18th International Conference on Pattern Recognition - Volume 04
3D paper-cut modeling and animation
Computer Animation and Virtual Worlds - CASA 2007
Mesh repair with user-friendly topology control
Computer-Aided Design
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Most rapid prototyping machines accept the .STL format as the universal format of the geometric model, where the substance of the .STL format is essentially a triangular model. A partial replacement of the meshes in such a model is practically necessary, but has been received little attention. The purpose of this study is to develop a partial mesh replacement technique for replacing a region of meshes along a closed region of profile. The proposed method is primarily composed of three steps: cutting path computation, mesh segmentation and mesh stitching. The cutting path computation is employed to evaluate the intersecting points of all meshes lying under the projection of the boundary curve. Mesh segmentation is employed to divide the original meshes into two parts: preserved and replaced meshes. Mesh stitching is finally employed to sew the boundaries of the preserved and new meshes. Several examples are presented to demonstrate the feasibility and application of the proposed method.