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http://dx.doi.org/10.5805/SFTI.2017.19.5.595

A Case Study on Manufacturing Processes for Virtual Garment Sample  

Choi, Young Lim (Dept. of Fashion Design/Art & Design Institute, Daegu University)
Publication Information
Fashion & Textile Research Journal / v.19, no.5, 2017 , pp. 595-601 More about this Journal
Abstract
Advances in 3D garment simulation technology contribute greatly to consumers becoming more immersed in movies and games by realistically expressing the garments the characters in the movie or game are wearing. The fashion industry has reached a point where it needs to maximize efficiency in production and distribution to go beyond time and space in order to compete on the global market. The processes of design and product development in the fashion industry require countless hours of work and consume vast resources in terms of materials and energy to repeat sample production and assessment. Therefore, the design and product development tools and techniques must aim to reduce the sample making process. Therefore, this study aims to study a case for comparing the real garment sample making process to the virtual garment sample making process. In this study, we have analysed the differences between the real and virtual garment making processes by choosing designated patterns. As we can see from the study results, the real and virtual garments generally are made through similar processes in manufacturing, while the time consumed for each shows great variation. In real garment making, scissoring and sewing require the greatest number of work hours, whereas in virtual garment making, most of the time was spent in the simulation process.
Keywords
3D CAD; garment simulation; manufacturing processes; virtual garment; digital garment sample;
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  • Reference
1 Baraff, D., & Witkin, A. (1998). Large steps in cloth simulation. Proceedings of SIGGRAPH 98, computer graphics proceedings, 43-54. doi:10.1145/280814.280821. Orlando, FL: ACM New York   DOI
2 Barrie, L. (2016, December 8). CLO Virtual Fashion moves to Europe on 3D design demand. Just-style. Retrieved December 11, 2016, from https://www.just-style.com
3 Chiricota, Y., Cochaux, O., & Provost, A. (2001). Geometrical modelling of garments. International Journal of Clothing Science and Technology, 13(1), 38-52. doi:10.1108/09556220110384860   DOI
4 Choi, K. J., & Ko, H. S. (2002). Stable but responsive cloth. Proceedings of SIGGRAPH 98, computer graphics proceedings, 604-611. doi:10.1145/566570.566624. Orlando, FL, USA: ACM New York.   DOI
5 Fontana, M., Rizzi, C., & Cugini, U. (2005). 3D virtual apparel design for industrial applications. Computer-Aided Design, 37, 609-622. doi:10.1016/j.cad.2004.09.004   DOI
6 Volino, P., & Magnenat-Thalmann, N. (2000). Implementing fast cloth simulation with collision response. CGI'00 Proceedings of the International Conference on Computer Graphics, 257-268. Geneva, Switzerland, Switzerland: IEEE Computer Society Washington, DC. doi:10.1109/CGI.2000.852341.   DOI
7 Hahn, F., Thomaszewski, B., Coros, S., Sumner, R., Cole, F., Meyer, M., DeRose, T., & Gross, M. (2014). Subspace Clothing Simulation Using Adaptive Bases. Proceedings of ACM SIGGRAPH, 33(4), 1-9. doi:10.1145/2601097.2601160. Vancouver: ACM New York.   DOI
8 Kim, S., & Park, C. K. (2007). Basic garment pattern generation using geometric modeling method. International Journal of Clothing Science and Technology, 19(1), 7-17. doi:10.1108/09556220710717017   DOI
9 Noel, P. L. (2008). Extensible dress: the future of digital clothing. Clothing & Textiles Research Journal, 26(2), 119-130. doi: 10.1177/0887302X07310078   DOI
10 Zhong, Y., & Xu, B. (2009). Three-dimensional garment dressing simulation. Textile Research Journal, 79(9), 792-803. doi:10.1177/0040517508090779   DOI