The Community for Technology Leaders
RSS Icon
Issue No.05 - September (1996 vol.16)
pp: 28-41
This survey presents an up-to-date overview of cloth modeling in computer graphics. The techniques are classified into three categories according to the nature of the main theory or method used in each technique. Each technique is examined and particular attention has been paid to the main method used and the computing time. At the end of the survey, a table summarizing the main features in given. To conclude, the different goals in the textile engineering and the computer graphics field are highlighted and recommendations for future work are given.
Cloth modeling, survey
Hing N. Ng, "Computer Graphics Techniques for Modeling Cloth", IEEE Computer Graphics and Applications, vol.16, no. 5, pp. 28-41, September 1996, doi:10.1109/38.536273
1. D.E. Breen, A Particle-Based Model for Simulating the Draping Behavior of Woven Cloth, doctoral dissertation, Rensselaer Polytechnic Inst., Apr. 1993.
2. D.E. Breen, A Survey of Cloth Modeling Research, Tech. Report TR-92030, Center for Advanced Technology, Rensselaer Polytechnic Inst., July 1993.
3. J. Nisselson, "Computer Graphics and the Fashion Industry," Proc. of Graphics Interface, 1986, pp. 1-6.
4. J. Nisselson et al., "Computer Graphics in Fashion," Computer Graphics (Proc. Siggraph), Vol. 21, No. 4, July 1987, pp. 333-334.
5. J. Weil,“The synthesis of cloth objects,” Computer Graphics (SIGGRAPH’86 Proc.), D.C. Evans and R.J. Athay, eds., vol. 20, pp. 49-54, Aug. 1986.
6. T. Agui, Y. Nagao, and M. Nakajma, "An Expression Method of Cylindrical Cloth Objects—An Expression of Folds of a Sleeve using Computer Graphics," Trans. Soc. of Electronics, Information and Communications, Vol. J73-D-II, No. 7, 1990, pp. 1,095-1,097. (In Japanese.)
7. B.K. Hinds and J. McCartney, "Interactive Garment Design," Visual Computer, Vol. 6, 1990, pp. 53-61.
8. B.K. Hinds, J. McCartney, and G. Woods, "Pattern Developments for 3D Surfaces," Computer-Aided Design, Vol. 23, No. 8, Aug. 1991, pp. 583-592.
9. C.R. Calladine, "Gaussian Curvature and Shell Structures," Proc. Conf. on Mathematics of Surfaces, 1984, pp. 179-196.
10. B.K. Hinds and J. McCartney, "Computer Aided Design of Garments Using Digitized 3D Surfaces," J. Engineering Manufacture: Part B, Vol. 206, 1992, pp. 199-206.
11. H. Ng and R.L. Grimsdale, "GEOFF—A Geometrical Editor for Fold Formation," Lecture Notes in Computer Science Vol. 1024: Image Analysis Applications and Computer Graphics, R. Chin et al., eds., Springer-Verlag, Berlin, 1995, pp. 124-131.
12. H. Ng, Fast Techniques for the Modeling and Visualization of Cloth, doctoral dissertation, Centre for VLSI and Computer Graphics, University of Sussex, UK, May 1996.
13. C. Feynman, Modeling the Appearance of Cloth, master's thesis, Dept. of EECS, Massachusetts Inst. of Tech nology, Cambridge, Mass., 1986.
14. D. Terzopoulos, J. Platt, A. Barr, and K. Fleischer, “Elastically Deformable Models,” Proc. ACM SIGGRAPH, pp. 205-214, 1987.
15. D. Terzopoulos and K. Fleischer, "Deformable Models," Visual Computer, Vol. 4, 1988, pp. 306-331.
16. M. Aono M., "A Wrinkle Propagation Model for Cloth," Proc. CG Int'l, Springer-Verlag, Berlin, 1990, pp. 95-115.
17. Y. Sakaguchi, M. Minoh, and K. Ikeda, "PARTY: Physical Environment of Artificial Reality for Dress Simulation (I)—A Dynamically Deformable Model of Dress," Trans. Soc. of Electronics, Information and Communications, Dec. 1991, pp. 25-32. (In Japanese.)
18. N. M-Thalmann and Y. Yang, "Techniques for Cloth Animation," in New Trends in Animation and Visualization, N. M-Thalmann and D. Thalmann, eds., John Wiley&Sons, UK, 1991, pp. 243-256.
19. B. Lafleur, N. M-Thalmann, and D. Thalmann, "Cloth Animating with Self-collision Detection," in Modeling in Computer Graphics, T.L. Kunii, ed., Springer-Verlag, Berlin, 1991, pp. 179-187.
20. M. Moore and J. Wilhelms, "Collision Detection and Response for Computer Animation," Computer Graphics, vol. 22, no. 4, pp. 289-298, 1988.
21. Y. Yang and N. Magnenat Thalmann, "An Improved Algorithm for Collision Detection in Cloth Animation with Human Body," Proc. of Pacific Graphics, World Scientific Press, Singapore, 1993, pp. 237-251.
22. M. Carignan et al., "Dressing Animated Synthetic Actors with Complex Deformable Clothes," Proc. Siggraph 92, ACM, New York, July 1992, Vol. 26, pp. 99-104.
23. H.M. Werner, N. Magnenat Thalmann, and D. Thalmann, "User Interface for Fashion Design," Proc. IFIP Int'l Conf. on Computer Graphics, North-Holland, Amsterdam, 1993, pp. 197-204.
24. Y. Yang, N. Magnenat Thalmann, and D. Thalmann, "Three-Dimensional Garment Design and Animation—A New Design Tool for the Garment Industry," Computers in Industry, Vol. 19, 1992, pp. 185-191.
25. N. Magnenat Thalmann, "Tailoring Clothes for Virtual Actors," in Interactive with Virtual Environments, L. MacDonald and J. Vince, eds., John Wiley&Sons, UK, 1994, pp. 205-216.
26. Y. Yang, Cloth Modeling and Animation Using Viscoelastic Surfaces, doctoral dissertation, MIRAlab, Univ. of Geneva, 1994.
27. P. Volino, M. Courshesnes, and N. Magnenat-Thalmann, "Versatile and Efficient Techniques for Simulating Cloth and Other Deformable Objects," Proc. Siggraph 95, ACM, New York, Aug. 1995, pp. 137-144.
28. P. Volino and N. Magnenat Thalmann, "Efficient Self-collision Detection on Smoothly Discretized Surface Animations using Geometrical Shape Regularity," Proc. Eurographics, Blackwell, UK, 1994, pp. 155-166.
29. D.E. Breen, D.H. House, and P.H. Getto, "A Physical-Based Particle Model of Woven Cloth," Visual Computer, Vol. 8, 1992, pp. 264-277.
30. W. Reeves, "Particle Systems—A Technique for Modeling a Class of Fuzzy Objects," Computer Graphics, vol. 17, no. 3, July 1983, pp. 359-376.
31. D.E. Breen,D.H. House,, and M. J. Wozny,“Predicting the drape of woven cloth using interacting particles,” Computer Graphics (SIGGRAPH’94 Proc.), A. Glassner, ed., vol. 28, pp. 365-372, July 1994.
32. G. Anderson, "A Particle-Based Model of the Draping Behavior of Woven Cloth," internal report, Edinburgh Parallel Computer Center, Univ. of Edinburgh, UK, Sept 1993.
33. H. Okabe et al., "Three-Dimensional Apparel CAD System," Computer Graphics (Proc. Siggraph), Vol. 26, No. 2, July 1992, pp. 105-110.
34. H. Imaoka et al., "Prediction of 3D Shapes of Garment from 2D Paper Patterns," Sen-i Gakkaishi, Vol. 45, No. 10, 1989, pp. 420-426. (In Japanese.)
35. H. Okabe Personal communication, Feb. 1993.
36. L. Li, M. Damodaran, R.K.L. Gay, "A Quasi-Steady Force Model for Animating Cloth Motion," Proc. IFIP Int'l Conf. on Computer Graphics, North-Holland, Amsterdam, 1993, pp. 357-363.
37. L. Li, M. Damodaran, and R.K.L. Gay, "Physical Modeling for Animating Cloth Motion," in Computer Graphics: Developments in Virtual Environments (Proc. CGI), R. Earnshaw and J. Vince, eds., Academic Press, UK, 1995, pp. 461-474.
38. L. Li, Modeling and Computer Animation of Cloth Motion in Air Flow, doctoral dissertation, School of Applied Science, Nanyang Technological Univ., Singapore, June 1994.
39. L. Li, M. Damodaran, and R.K.L. Gay, "Aerodynamic Force Models for Animating Cloth Motion in Air Flow," Visual Computer, Vol. 12, 1996, pp. 84-104.
40. X. Provot, "Deformation Constraints in a Mass-spring Model to Describe Rigid Cloth Behavior," Proc. of Graphics Interface, 1995, pp. 147-154.
41. X. Provot, Personal communication, April 1995.
42. H.N. Ng, R.L. Grimsdale, and W.G. Allen, "A System for Modeling and Visualization of Cloth Materials," Computers and Graphics, Vol. 19, No. 3, 1995, pp. 423-430.
43. I.J. Rudomin, Simulating Cloth Using a Mixed Geometry-Physical Method, doctoral dissertation, Dept. of Computer and Information Science, Univ. of Pennsylvania, 1990.
44. T.L. Kunii and H. Gotoda, "Singularity Theoretical Modeling and Animation of Garment Wrinkle Formation Process," Visual Computer, Vol. 6, No. 6, 1990, pp. 326-336.
45. T.L. Kunii and H. Gotoda, "Modeling and Animation of Garment Wrinkle Formation Processes," Proc. Computer Animation, Springer-Verlag, Berlin, 1990, pp. 131-147.
46. F. Taillefer, "Mixed Modeling," Proc. Compugraphics, 1991, pp. 467-478.
47. N. Tsopelas, "Animating the Crumpling Behavior of Garments," Proc. 2nd Eurographics Workshop on Animation and Simulation, Blackwell, UK, 1991, pp. 11-24.
48. S.G. Dhande et al., "Geometric Modeling of Draped Fabric Surface," Proc. IFIP Int'l Conf. on Computer Graphics, NorthHolland, Amsterdam, 1993, pp. 349-356.
49. J.R. Collier et al., "Drape Prediction by Means of Finite-Element Analysis," J. Textile Institute, Vol. 82, No. 1, 1991, pp. 96-107.
50. B. Chen and M. Govindaraj, "A Physically Based Model of Fabric Drape Using Flexible Shell Theory," Textile Research J., Vol. 65, No. 6, 1995, pp. 324-330.
51. L. Gan and N.G. Ly, "A Study of Fabric Deformation Using Nonlinear Finite Elements," Textile Research J., Vol. 65, No. 11, 1995, pp. 660-668.
52. T.J. Kang and W.R. Yu, "Drape Simulation of Woven Fabric by Using the Finite-Element Method," J. of the Textile Institute, Vol. 86, No. 4, 1995, pp. 635-648.
53. J. Ascough, H.E. Bez, and A.M. Bricis, "A Simple Beam Element, Large Displacement Model for the Finite Element Simulation of Cloth Drape," J. Textile Institute, Vol. 87, Part 1, No. 1, 1996, pp. 152-165.
14 ms
(Ver 2.0)

Marketing Automation Platform Marketing Automation Tool