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A Hole-Filling Model with Triangular Meshing Based on Reverse Engineering


Affiliations
1 Al-Quds Open University, Ramallah, Palestinian Territory, Occupied
2 Ramallah, Palestinian Territory, Occupied
     

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This paper presents a hole-filling model that implements triangular meshing based on reverse engineering using grey system prediction. The main objective is to improve the performance of this process in terms of execution time and average error. We made some modifications on this system based on parallel processing. In order to do so, we classified the hole-filling methods into geometric and volumetric methods. We also compared all methods of both classes in terms of pros and cons in order to select the best methods that fit the data models. Finally, we implemented our proposed model, and provided our results compared with previous results. Our proposed model proved better performance with lees execution time and average error.


Keywords

Boundary, Detection, Edge, Geometric, Gap, Grey System, Hole-Filling, Meshing, Vertices, Volumetric.
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  • A Hole-Filling Model with Triangular Meshing Based on Reverse Engineering

Abstract Views: 234  |  PDF Views: 4

Authors

Yousef Sabbah
Al-Quds Open University, Ramallah, Palestinian Territory, Occupied
Kifaya Sabbah
Ramallah, Palestinian Territory, Occupied

Abstract


This paper presents a hole-filling model that implements triangular meshing based on reverse engineering using grey system prediction. The main objective is to improve the performance of this process in terms of execution time and average error. We made some modifications on this system based on parallel processing. In order to do so, we classified the hole-filling methods into geometric and volumetric methods. We also compared all methods of both classes in terms of pros and cons in order to select the best methods that fit the data models. Finally, we implemented our proposed model, and provided our results compared with previous results. Our proposed model proved better performance with lees execution time and average error.


Keywords


Boundary, Detection, Edge, Geometric, Gap, Grey System, Hole-Filling, Meshing, Vertices, Volumetric.