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Dongyong Zhu, Zhong Li, Feng Xia and Yong Xu

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

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Xuan Luo, Gaoming Jiang and Honglian Cong

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

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Yan Hong, Pascal Bruniaux, Xianyi Zeng, Kaixuan Liu, Antonela Curteza and Yan Chen

-Aided Design. 2009; 41: 614-25. [13] Wang CCL, Wang Y and Yuen MMF. Design 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

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Jiajia Peng, Gaoming Jiang and Honglian Cong

Graphics Forum 2000. [9] Huang J; The human 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

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Mengna Guo, Victor E. Kuzmichev and Dominique C. Adolphe

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

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Guo Mengna and Victor E. Kuzmichev

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

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Adam K. Puszkarz and Izabella Krucińska

permeability. Fibres and Textiles in Eastern Europe 2014; 22, 4(106): 58−63 [14] Puszkarz A.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

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Slavica Bogović, Zoran Stjepanovič, Andrej Cupar, Simona Jevšnik, Beti Rogina-Car and Andreja Rudolf

& Engineering, 4(5), 1-13. [17] Rudolf, A., Brajlih, T., Drstvenšek, I., Šauperl, O. (2016). New medical technologies and their 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

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Victor Kuzmichev, Aleksei Moskvin and Mariya Moskvina

References [1] Acton, WM.R. (1867). Acton’s improved system of actual measurement. William R. Acton & Co. (New York). [2] Aldrich, W. (2006). Metric Pattern Cutting for Menswear. Blackwell Publishing Ltd. (Oxford). [3] Aldrich, W. (2002). Pattern Cutting for Women’s Tailored Jackets: Classic and Contemporary. John Wiley and Sons (Oxford). [4] Aldrich, W. (2007). History of sizing systems and ready-to-wear garments. In Ashdown, S.P. (ed.) Sizing in clothing: Developing effective sizing systems for ready-to-wear clothing. Woodhead Publishing

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Tayyab Naveed, Azmat Hussain, Aijaz Ahmed Babar, Awais Naeem, Hassan Mussana, WangXin, Li Duan and Yueqi Zhong

Manufacturing & Service Industries, 2009. 19(3): p. 199-211. [37] Glock, R.E. and G.I. Kunz, Apparel manufacturing: Sewn product analysis. 2005: Prentice Hall. [38] Liu, Y.-J., D.-L. Zhang, and M.M.-F. Yuen, A survey on CAD methods in 3D garment design. Computers in Industry, 2010. 61(6): p. 576-593. [39] Kayar, M. and Y. Ozel. Using Neural Network Method to Solve Marker Making “Calculation of Fabric Lays Quantities” Efficiency for Optimum Result in the Apparel Industry. in Proceedings of the 8th conference on Simulation, modelling and optimization. 2008