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Touch-Based Haptics for Interactive Editing on Point Set Surfaces
November/December 2004 (vol. 24 no. 6)
pp. 31-39
Xiaohu Guo, State University of New York at Stony Brook
Jing Hua, State University of New York at Stony Brook
Hong Qin, State University of New York at Stony Brook
A modeling paradigm for haptics-based editing on point set surfaces exploits implicit surfaces, physics-based modeling, point-sampled surfaces, and haptic feedback.
1. 31 J. Hua and H. Qin, "Haptics-Based Volumetric Modeling Using Dynamic Spline-Based Implicit Functions," Proc. 2002 IEEE Symp. Volume Visualization and Graphics, IEEE Press, 2002, pp. 55-64.2. M. Alexa et al., "Computing and Rendering Point Set Surfaces," IEEE Trans. Visualization and Computer Graphics, vol. 9, no. 1, 2003, pp. 3-15.3. J. Hua and H. Qin, "Haptic Sculpting of Volumetric Implicit Functions," Proc. 9th Pacific Conf. Computer Graphics and Applications, IEEE CS Press, 2001, pp. 254-264.4. A.D. Gregory, S.A. Ehmann, and M.C. Lin, "Intouch: Interactive Multiresolution Modeling and 3D Painting with a Haptic Interface," Proc. IEEE Virtual Reality 2000 Conf., IEEE CS Press, 2000, pp. 45-52.5. L. Kim et al., "An Implicit-Based Haptic Rendering Technique," Proc. IEEE/RSJ Int'l Conf. Intelligent Robots and Systems, IEEE CS Press, 2002, pp. 2943-2948.6. L. Ren, H. Pfister, and M. Zwicker, "Object Space EWA Surface Splatting: A Hardware Accelerated Approach to High-Quality Point Rendering," Proc. Eurographics, Blackwell, 2002, pp. 461-470.1. M. Levoy and T. Whitted, The Use of Points as a Display Primitive, tech. report 85-022, Univ. of North Carolina at Chapel Hill, 1995.2. S. Rusinkiewicz and M. Levoy, "Qsplat: A Multiresolution Point Rendering System for Large Meshes," Proc. 27th Ann. Conf. Computer Graphics and Interactive Techniques, ACM Press/Addison-Wesley, 2000, pp. 343-352.3. M. Zwicker et al., "Surface Splatting," Proc 28th Ann. Conf. Computer Graphics and Interactive Techniques, ACM Press, 2001, pp. 371-378.4. M. Zwicker et al., "Pointshop 3D: An Interactive System for Point-Based Surface Editing," Proc. 29th Ann. Conf. Computer Graphics and Interactive Techniques, ACM Press, 2002, pp. 322-329.5. M. Alexa et al., "Computing and Rendering Point Set Surfaces," IEEE Trans. Visualization and Computer Graphics, vol. 9, no. 1, 2003, pp. 3-15.6. M. Pauly et al., "Shape Modeling with Point-Sampled Geometry," ACM Trans. Graphics, vol. 22, no. 3, 2003, pp. 641-650.7. J.K. Salisbury and C. Tarr, "Haptic Rendering of Surfaces Defined by Implicit Functions," Proc. ASME 6th Ann. Symp. Haptic Interfaces for Virtual Environment and Teleoperator Systems, ASME, 1997, pp. 61-68.8. L. Kim et al., "An Implicit-based Haptic Rendering Technique," Proc. IEEE/RSJ Int'l Conf. Robotics and Intelligent Systems, IEEE CS Press, 2002, pp. 2943-2948.9. T. Igarashi and J.F. Hughes, "Smooth Meshes for Sketch-based Freeform Modeling," Proc. 2003 Symp. Interactive 3D Graphics, ACM Press, 2003, pp. 139-142.10. Y. Ohtake et al., "Multi-level Partition of Unity Implicits," ACM Trans. Graphics, vol. 22, no. 3, 2003, pp. 463-470.
Citation:
Xiaohu Guo, Jing Hua, Hong Qin, "Touch-Based Haptics for Interactive Editing on Point Set Surfaces," IEEE Computer Graphics and Applications, vol. 24, no. 6, pp. 31-39, Nov./Dec. 2004, doi:10.1109/MCG.2004.63
