Open Access

Generation Method and Application of Product-Oriented Medial Axis

Jianjun Peng
Jianjun Peng
, 
Hui Wang
Hui Wang
, 
Jiping Li
Jiping Li
 and 
Chuanming Song
Chuanming Song
   | Jan 25, 2017
Cybernetics and Information Technologies's Cover Image
Cybernetics and Information Technologies
Volume 16 (2016): Issue 6 (December 2016)
Special issue with selection of extended papers from 6th International Conference on Logistic, Informatics and Service Science LISS’2016
About this article
Previous Article
Next Article
Cite
Published Online: Jan 25, 2017
Page range: 160 - 174
DOI: https://doi.org/10.1515/cait-2016-0085
Keywords
© 2016 Jianjun Peng et al., published by De Gruyter Open
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

1. He, S., Y. Choi et al. A 3D Shape Descriptor Based on Spectral Analysis of Medial Axis. – Computer Aided Geometric Design, Vol. 39, 2015, pp. 50-66.10.1016/j.cagd.2015.08.004Search in Google Scholar

2. Nishino, K., G. Omori et al. Three-Dimensional Dynamic Analysis of Knee Joint During Gait in Medial Knee Osteoarthritis Using Loading Axis of Knee. – Gait & Posture, Vol. 42, 2015, No 2, pp. 127-132.10.1016/j.gaitpost.2015.04.018Search in Google Scholar

3. Saúde, A. V., M. Couprie, R. A. Lotufo. Discrete 2D and 3D Euclidean Medial Axis in Higher Resolution. – Image and Vision Computing, Vol. 27, 2009, No 4, pp. 354-363.10.1016/j.imavis.2008.05.007Search in Google Scholar

4. Quadros, W. R. LayTracks3D: A New Approach to Meshing General Solids Using Medial Axis Transform. – Procedia Engineering, Vol. 82, 2014, pp. 72-87.10.1016/j.proeng.2014.10.374Search in Google Scholar

5. Blum, H. A Transformation for Extracting New Descriptors of Shape. – Models for the Perception of Speech & Visual Form, Vol. 19, 1967, pp. 362-380.Search in Google Scholar

6. Teixeira, R. C. Medial Axes and Mean Curvature Motion I: Regular Points. – Journal of Visual Communication & Image Representation, Vol. 13, 2002, No 1, pp. 135-155.10.1006/jvci.2001.0483Search in Google Scholar

7. August, J., A. Tannenbaum, S. W. Zucker. On the Evolution of the Skeleton. – In: ICCV, 1999.10.1109/ICCV.1999.791236Search in Google Scholar

8. Held, M. VRONI: An Engineering Approach to the Reliable and Efficient Computation of Voronoi Diagrams of Points and Line Segments. – Computational Geometry, Vol. 18, 2001, No 2, pp. 95-123.10.1016/S0925-7721(01)00003-7Search in Google Scholar

9. Deza, M., M. D. Sikirić. Voronoi Polytopes for Polyhedral Norms on Lattices. – Discrete Applied Mathematics, Vol. 197, 2015, pp. 42-52.10.1016/j.dam.2014.09.007Search in Google Scholar

10. Cao, L., J. Liu. Computation of Medial Axis and Offset Curves of Curved Boundaries in Planar Domain. – Computer-Aided Design, Vol. 40, 2008, No 4, pp. 465-475.10.1016/j.cad.2008.01.002Search in Google Scholar

11. Boussuge, F., et al. Extraction of Generative Processes from B-Rep Shapes and Application to Idealization Transformations. – Computer-Aided Design, Vol. 46, 2014, pp. 79-89.10.1016/j.cad.2013.08.020Search in Google Scholar

12. Zhu, Y., et al., Computing a Compact Spline Representation of the Medial Axis Transform of a 2D Shape. – Graphical Models, Vol. 76, 2014, No 5, pp. 252-262.10.1016/j.gmod.2014.03.007Search in Google Scholar

13. Ahn, S., et al. Differentiation of Human Pluripotent Stem Cells into Medial Ganglionic Eminence vs Caudal Ganglionic Eminence Cells. – Methods, Vol. 101, 2016, pp. 103-112.10.1016/j.ymeth.2015.09.009478647226364591Search in Google Scholar

14. Peng, J., R. Guo et al., Research and Application of NC Machining Simulation System. – Journal of Chinese Computer Systems, Vol. 31, 2010, No 6, pp. 1240-1244.Search in Google Scholar

15. Kim, B. C., D. Mun. Feature-Based Simplification of Boundary Representation Models Using Sequential Iterative Volume Decomposition. – Computers & Graphics, 2014, No 38, pp. 97-107.10.1016/j.cag.2013.10.031Search in Google Scholar

16. Kwon, S., B. Kim et al. Simplification of Feature-Based 3D CAD Assembly Data of Ship and Offshore Equipment Using Quantitative Evaluation Metrics. – Computer-Aided Design, 2015, No 59, pp. 140-154.10.1016/j.cad.2014.03.003Search in Google Scholar

17. Li, J., G. Tong et al., Automatic Small Blend Recognition from B-Rep Models for Analysis. – Engineering with Computers, Vol. 25, 2009, No 3, pp. 279-285.10.1007/s00366-009-0127-4Search in Google Scholar

18. Yang, S., E. Dilay et al. Volume Element Model Mesh Generation Strategy and Its Application in Ship Thermal Analysis. – Advances in Engineering Software, 2015, No 90, pp. 107-118.10.1016/j.advengsoft.2015.08.003Search in Google Scholar

19. Fogg, H. J., C. G. Armstrong, T. T. Robinson. Enhanced Medial-Axis-Based Block-Structured Meshing in 2D. Computer-Aided Design, 2015.10.1016/j.cad.2015.07.001Search in Google Scholar

20. Wei, Q., Y. Hatori, K. Sakai. Neural Construction of 3D Medial Axis from the Binocular Fusion of 2D MAs. – Neurocomputing, 2015, No 149, pp. 546-558.10.1016/j.neucom.2014.08.019Search in Google Scholar

21. Zhang, X., Y. Xia et al. Medial Axis Tree – An Internal Supporting Structure for 3D Printing. – Computer Aided Geometric Design, 2015, No 35-36, pp. 149-162.10.1016/j.cagd.2015.03.012Search in Google Scholar

eISSN:
1314-4081
Language:
English
Publication timeframe:
4 times per year
Journal Subjects:
Computer Sciences, Information Technology
Journal RSS Feed