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References [1] P., Volino, N. Magnenat-Thalmann. Virtual garment, theory and practice. Springer 2000. [2] De Aguiar E, et al. Stable spaces for real-time garment [J]. ACM Transactions on Graphics, 2010, 29 (4):106. [3] Wang H, Hecht F et al. Example-based wrinkle synthesis for garment animation [J]. ACM Transactions on Graphics, 2010, 29(4):101-107. [4] Choi, K., And Lo, T. An energy model of plain knitted fabric. [J]. Textile Research Jour. 2003, 73:739–748. [5] Gabriel Cirio, Jorge Lopez-Moreno Efficient Simulation of knitted garment using persistent contacts

References [1] Liu T, Bargteil A W, O’Brien J F, et al. Fast simulation of mass-spring systems[J]. ACM Transactions on Graphics (TOG), 2013, 32(6), 214. [2] Wong T H, Leach G, Zambetta F. Modelling Bending Behaviour in Cloth Simulation Using Hysteresis[C]. Computer Graphics Forum. 2013, 32(8), 183-194. [3] Kavan L, Gerszewski D, Bargteil A W, et al. Physics-inspired upsampling for cloth simulation in games[C]. ACM Transactions on Graphics (TOG). ACM, 2011, 30(4), 93. [4] Provot X. Deformation constraints in a mass-spring model to describe rigid cloth behaviour [C

modeling process and implementation based on the features points; Southwest Jiaotong University 2007. [10] Dong Z; Jiang G; Wu Z; Cong H; 3D parametric human modeling for warp-knitted seamless garment. International Journal of Clothing Science & Technology 2015,27(4):532-48. [11] Sun S; Xu A; Study on parameterized mannequin modeling in 3-D garment simulation. Journal of Textile Research 2007,28(12):89-93. [12] Pargas R; Automating Information Extraction From 3D Scan Data. Automating Information Extraction Fromd Scan Data 1998. [13] Lazarus F; Coquillart S; Jancène P

automation for customized apparel products. Computer-Aided Design. 2005; 37: 675-91. [14] Volino P, Cordier F and Magnenat-Thalmann N. From early virtual garment simulation to interactive fashion design. Computer-Aided Design. 2005; 37: 593-608. [15] Goldstein Y, Robinet P, Kartsounis G-A, et al. Virtual prototyping: from concept to 3D design and prototyping in hours. Transforming Clothing Production into a Demand-Driven, Knowledge-Based, High-Tech Industry. Springer, 2009, p. 95-139. [16] WOOD F, Archibald L and Ewing W. THE LINRA SUNRAY CREASE-RECOVERY TEST. Journal of

References [1] Magnenat-Thalmann N., Cordier F., et al. (2004). Modeling of bodies and clothes for virtual environments. Proceedings of International Conference of Cyberworlds, CW 2004, Nov. 18th - 24th 2004, Tokyo, pp. 201-208. [2]Volino P., Cordier F., Magnenat - Thalman N. (2005). From early virtual garment simulation to interactive fashion design. Computer-aided design, Vol. 37, No. 6, pp. 593- 608. [3]Lim H.S. (2009). Three Dimensional Virtual Try-on Technologies in the Achievement and Testing of Fit for Mass Customization. North Carolina State University

References [1] Yin Ling, et al.: Review and analysis of pressure comfort of garment, Journal of Textile Research, Vol. 29, No. 3, pp. 137–142, 2008. [2] Ikuta, N.: Hygienic studies of foundation garments effects on subjective observations clothing climate and clothing observation, Japanese Journal of Hygiene, Vol. 25, No. 4, pp. 344–349, 1970. [3] Makabe, H.: A study of clothing pressure developed by the girdle, Journal of the Japan Research Association for Textile End-Uses, Vol. 32, No. 9, pp. 424–438, 1991. [4] Makabe, H.; Momana, H; Mitsuno, T.; et al

.K., Krucińska I. The study of knitted fabric thermal insulation using thermography and finite volume method. Textile Research Journal, 2017; 87(6): 643–656 doi:10.1177/0040517516635999 [15] Puszkarz A.K., Korycki R., Krucińska I. Simulations of heat transport phenomena in a three-dimensional model of knitted fabric. 2015; 16(3): 128−137 doi: 10.1515/aut-2015-0042 ©AUTEX [16] Puszkarz A.K., Krucińska I. Study of multilayer clothing thermal insulation using thermography and the finite volume method. Fibres and Textiles in Eastern Europe 2016; 24 6(120): 129–137 [17] Lipp

impact on functional ability: 3D scanning and simulation of functional garment. In: Lovrenov, Ž. (Ed.). Research, Education, and Practice in Insurance Medicine and Social Security: Book of Abstracts 21st EUMAS Congress. Domus (Ljubljana), pp. 176. [18] Rudolf, A. Repnik, J. Drstvenšek, I., Görlichová. L., Salobir, A., et al. (2017). New technologies in the development of ergonomic garments for wheelchair users in a virtual environment. Industria Textila, 68(2), 83-94. [19] Hong, Y., Bruniaux, P., Zeng, X., Liu, K., Curteza, A., et al. (2018). Visual-simulation

. Journal of the Textile Institute, 94(1-2), 92-102. [22] Yeung, K. W., Li, Y., Zhang, X. (2004). A 3D biomechanical human model for numerical simulation of garment–body dynamic mechanical interactions during wear. Journal of the Textile Institute Proceedings & Abstracts, 95(1-6), 59-79. [23] Wang, C. C. L., Wang, Y., Yuen, M. M. F. (2005). Design automation for customized apparel products. Computer-Aided Design, 37(7), 675-691. [24] Xu, B., Huang, Y., Yu, W., Chen, T. (2002). Three-dimensional body scanning system for apparel mass-customization. Optical Engineering, 41

References [1] Hong, Y., Chen, Y., Cao, X., Zeng, X. (2018). Framework of consumer perceived value on fashion products for female college students in France. Industria Textila, 69, 495-501. [2] Hong, Y., Bruniaux, P., Curteza, A., Liu, K., Zeng, X., et al. (2018). Visual-simulation-based personalized garment block design method for physically disabled people with scoliosis (PDPS). Autex Research Journal,18, 35-45. [3] Hong, Y., Zeng, X., Wang, Y., Bruniaux, P., Chen, Y. (2018). CBCRS: An open case-based color recommendation system. Knowledge-Based Systems, 141