教师名录
professor, Dept. of Mechanical Engineering, Hong Kong University of Science and Technology, since July 2011
Associate Professor, Dept. of Mechanical Engineering, Hong Kong University of Science and Technology, July 2006 - June 2011
Assistant Professor, Dept. of Mechanical Engineering, Hong Kong University of Science and Technology, July 2001 - June 2006
Chief Engineer, Allvox Inc., Michigan, USA, 2001
Senior Software Specialist, Applicon Inc., Michigan, USA; May 1991-June 2001
Senior Engineer, Optimal CAE Inc., Michigan, USA; 1987-1990
MECH1901 Automotive Engineering
MECH4740 Numerical Methods in Engineering
1. Yong-Jin Liu, K. Tang, Wen-Yong Gong and Tie-Ru Wu, Industrial Design using Interpolatory Discrete Developable Surfaces, Computer-Aided Design, 2011 (accepted).
2. Yong-Jin Liu, Z. Chen, and K. Tang, Construction of Iso-contours, Bisectors and Voronoi Diagrams on Triangulated Surfaces, IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol. 33, No. 8, pp. 1502-1517, Aug., 2011.
3. Ming Chen and K. Tang, A Fully Geometric Approach for Developable Cloth Deformation, The Visual Computer, Vol. 26, No. 6-8, pp. 853-863, June 2010 (special issue of Computer Graphics International Conference, June 8-11, 2010, Singapore). (Citation)
4. Yong-Jin Liu, Wen-Qi Zhang, and K. Tang, Some Notes on Maximal Arc Intersection of Spherical Polygons: Its NP-Hardness and Approximation Algorithms, The Visual Computer, Vol. 26, No. 4, pp. 287-292, 2010.
5. Z. Chen and K. Tang, 3D Shape Classification Based on Spectral Function and MDS Mapping, ASME Journal of Computing and Information Science in Engineering, Vol. 10, No. 1, 2010.
6. Charlie Wang and K. Tang, Pattern Computation for Compression Garment by a Physical/Geometric Approach, Computer-Aided Design, Vol 42, No. 2, pp 78-86, 2010.
7. K. Tang and M. Chen, Quasi-developable mesh surface interpolation via mesh deformation, IEEE Trans. on Visualization and Computer Graphics, Vol. 15, No. 3, pp. 518-528, 2009. (Citation)
8. H. Wang and K. Tang, Biorthogonal Wavelet Construction for Hybrid Quad/Triangle Meshes, The Visual Computer, 25(4), pp. 349-366, April, 2009.
9. Nan Wang and K. Tang, Five-axis tool path generation for a flat-end tool based on iso-conic partitioning, Computer-Aided Design, Vol. 40, Dec., pp. 1067-1079, 2008. (Citation)
10. K. Chen and K. Tang, Interactive Haptic Refinement of a 5-axis Finishing Cut, ASME Journal of Computing and Information Science in Engineering, V(8), N(4), December, 2008.
11. H. Wang, K. Tang, and K. Qin, Biorthogonal Wavelets Based on Gradual Subdivision of Quadrilateral Meshes, Computer-Aided Geometric Design, Vol. 25, No. 9, pp. 816-836, 2008. (Citation)
12. Nan Wang and K. Tang, Automatic Generation of Gouge-free and Angular-velocity-compliant 5-axis Toolpath, Computer-Aided Design, Vol. 39, No. 10, pp. 841-852, 2007. (Citation)
13. Yong-jin Liu, K. Tang, and Ajay Joneja, Modeling Dynamic Developable Meshes by Hamilton Principle, Computer-Aided Design, Vol. 39, No. 9, pp. 719-731, 2007. (Citation)
14. Hongwei Lin, K. Tang, Ajay Joneja, and Hujun Bao, Generating strictly non-self-overlapping structured quadrilateral grid, Computer-Aided Design, Vol. 39, No. 9, pp. 709-718, 2007. (Citation)
15. Charlie Wang and K. Tang, “Woven model based geometric design of elastic medical braces”, Computer-Aided Design, Vol. 39, No. 1, pp. 67-69, 2007. (Citation)
16. H. Wang, K.H. Qin, K. Tang, Efficient wavelet construction with Catmull-Clark subdivision, The Visual Computer, Vol. 22, pp. 874-884, 2006 (special issue of Pacific Graphics 2006). (Citation)
17. K. Tang and Yong-jin Liu, Dynamic medial axes of planar shapes, Lecture Notes in Computer Science, Vol. 4503, pp. 460 - 468, 2006.
18. Kun Chen and K. Tang, Reliable haptic system for collision-free 5-axis toolpath generation, Computer-Aided Design & Applications, Vol. 3, No. 5, pp. 629-638, 2006.
19. Yong-jin Liu, K. Tang, and Ajay Joneja, An efficient implementation of RBF-based progressive point-sampled geometry, Lecture Notes in Computer Science, Vol. 4077, pp. 637-642, 2006.
20. Jinyuan Jia, Ajay Joneja, and K. Tang, New decomposition scheme of canal surfaces for planar sections computing, Computer-Aided Design & Applications, Vol. 3, No. 1-4, pp. 349-358, 2006.
21. Jinyuan Jia, Ajay Joneja, and K. Tang, Robustly computing intersection curves of two canal surfaces with quadric decomposition, Lecture Notes in Computer Science, Vol. 3992, pp. 342-349, 2006.
22. K. Tang, Charlie Wang, and Danny Z. Chen, Minimum area convex packing of two convex polygons, International Journal of Computational Geometry and Applications, Vol. 16, No. 1, pp. 41-74, Feb. 2006. (Citation)
23. Design of developable strips, CAD'11, Taipei, Taiwan, June 27-30, 2011.
Efficient Boolean Operations on Manifold Mesh Surfaces, CAD'10, Dubai, UAE, June 21-25, 2010.
24. Stabbing Convex Polygons with a Segment or a Polygon, Proceedings of the 16th Annual European Symposium on Algorithms, Karlsruhe, Germany, pp. 52-63, September 15-17, 2008. (Citation)
25. Pattern Computation for Compression Garment, Proceedings of ACM Solid and Physical Modeling Symposium (SPM), Stony Brook University, New York, pp. 203-211, June 2-4, 2008. (Citation)
26. An Efficient Implementation of RBF-Based Progressive Point-Sampled Geometry, Proceedings of Geometric Modeling and Processing, Pittsburgh, PA, USA, pp. 637-643, July 26-28, 2006.
1. Time-optimal five-axis machining system based on machine-dependent potential field”, PI, RGC-GRF/16209714, HK$500,000, 01/09/ 2014 – 31/08/ 2016.
2. “Optimized toolpaths for 5-axis finishing operation of freeform surface parts” (internship), PI, ITF InP/145/14, HK$282,500, July 25, 2014 – Jan. 31, 2016.
3. “Optimized toolpaths for 5-axis finishing operation of freeform surface parts” (internship), PI, ITF InP/324/13, HK$344,440, Feb. 17, 2014 – Jan. 31, 2016.
4. “Optimized toolpaths for 5-axis finishing operation of freeform surface parts”, PI, ITS/138/13FX, HK$2,000,000, Feb. 1, 2014 – Jan. 31, 2016.
5. “Efficient 5-axis CNC adaptive machining and measurement of hollow blisk blades (internship)”, PI, ITF InP/285/13, HK$175,925, 02/01/2014 - 31/12/2014.
6. “Efficient 5-axis CNC adaptive machining and measurement of hollow blisk blades (internship)”, PI, ITF InP/114/13, HK$284,000, 15/07/2013 - 31/05/2015.
7. Efficient 5-axis CNC adaptive machining and measurement of hollow blisk blades, PI, ITF GHP/057/12, HK$4,800,000, 01/06/2013 - 31/05/2015.
8. A comprehensive study of global collision avoidance for setup optimization and tool path generation in five-axis machining, PI, RGC-GRF/619212, HK$500,000, 01/09/2012 - 31/08/2015.
9. 5-axis tool path generation from the perspective of minimizing the dynamic loading on the machine’s rotary axes and local gouging, PI, RGC-GRF/620409, HK$733,000, 01/09/2009 - 31/08/2011.
10. A New MRG Algorithm for 3D Shape Matching, PI, RGC07/08 EG.620307, HK$382,000, 01/09/2007 - 31/08/2009.
11. A unified tool path planning algorithm for 5-axis sculptured surface machining based on variational energy minimization, PI, RGC05/06.EG.620105, HK$360,000, 01/09/2005 - 31/08/2007.
12. Optimal boundary triangulation of an interpolating ruled surface, PI, HKUST DAG04/05.EG.36, HK$69,000, 01/01/2005 - 31/12/2005.
13. Next generation online multimedia collaboration system, PI, HK ITF WebEx Project UIM103, HK$14,000,000, 01/12/2004 - 30/11/2006.
14. Design of a reliable interlocking system for the landing gates of material hoists, PI, HK OSHC Research Grant CM/4R/2004-01, HK$290,000, 01/07/2004 - 30/06/2005.
15. A geometric method for determining intersection relations in the plane and its applications, PI, HKUST DAG02/03.EG.33, HK$67,150, 01/02/2003 - 31/01/2004.
16. Optimal loop connection in laminated object manufacturing, PI, HKUST DAG01/02.EG.10, HK$100,000, 15/12/2001 - 14/12/2002.
