Tytuł artykułu
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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
Abstrakty
Our study presents a new pattern-making approach that is composed of three major steps: to establish the new torso classification; to improve the pattern shaping method; to solve the problem of misfit of female dresses. New additional measurements were obtained from full bust, waist and hip circumferences and divided between front and back parts separately from 3D body scanning data. By creating 8 new torso subtypes Y1, Y2, A1, A2, B1, B2, C1, and C2, which reflect the body characteristics and torso morphology through distribution of bust girth between the front and the back, we have developed the Chinese female torso classification. On the basis of the new classification and the Japanese method of pattern block drafting, we improved the method of calculation of waist darts and the shaping of two kinds of female dresses: first kind doesn’t have the horizontal waist seam (one-piece dress) and second kind has the waist horizontal seam (two-pieces dress containing from the top and the skirt). The new torso subtypes and new pattern block shaping approach are taken into attention as the body characteristics will significantly improve the quality of clothes. New method of pattern pieces shaping in according with the characteristic features of a 3D virtual avatar allows to integrate this virtual pattern-generating approach into the pattern-making systems.
Czasopismo
Rocznik
Tom
Strony
419--428
Opis fizyczny
Bibliogr. 19 poz.
Twórcy
autor
- Wuhan Textile University, Institute of Clothing, Minzu Av., Wuhan, Hubei, P.R. China
- Ivanovo State Polytechnic University, Textile Institute, Department of Clothes Design, 21, Sheremetev Av., Ivanovo, Russian Federation
autor
- Ivanovo State Polytechnic University, Textile Institute, Department of Clothes Design, 21, Sheremetev Av., Ivanovo, Russian Federation
autor
- Wuhan Textile University, Institute of Clothing, Minzu Av., Wuhan, Hubei, P.R. China
Bibliografia
- [1] Ashdown, S. P. (2013). An investigation of the structure of sizing systems. International Journal of Clothing Science & Technology, Vol.10, No.5, pp.324-341.
- [2] Choi, M. S., Susan, P. A., & Cho, H. J. (2002). Comparison of Body Measurements between Korean and the US Women Aged Over 55. Fashion business, Vol.6, No.6, 34-42.
- [3] GB/T 1335.2-1997, Standard sizing systems for garments - Women[S].
- [4] Gill, S. (2015). Sizing in clothing: developing effective sizing systems for ready-to-wear clothing. Journal of Fashion Marketing & Management, Vol.12, No.4, 579-581.
- [5] http://www.stats.gov.cn/tjsj/zxfb/201701/t20170120_1455942.html
- [6] JIS L 4005-1997, Adult Women’ Clothing size system [S].
- [7] Li, H. E., & Zhang, H. Q. (2007). Comparatively study on the classification of woman shape. Journal of Nantong Textile Vocational Technology College.
- [8] Liu Ripu, M. (2011). The Principles & Practices of Pattern Design. (2nd ed.) China Textile Press (Beijing).
- [9] Miyoshi Machiko. (2006) clothing modeling, theory chapter. China Textile Press
- [10] Naglic, M. M., Petrak, S., & Stjepanovič, Z. (2016, January). Analysis of 3D construction of tight fit clothing based on parametric and scanned body models. In 7th International Conference on 3D Body Scanning Technologies.
- [11] Patent № 2478323 RU A41H3/00 3/06 (2013). Ruler for pattern block diagnostics / G. I. Surikova, O. V. Surikova, V. E. Kuzmichev. Published 10/04/2013.
- [12] Sizing in clothing: Developing effective sizing systems for ready-to-wear clothing / edited by S. P. Ashdown (2007). ‒ Cambridge: Woodhead Publishing Limited.
- [13] R. Hrenjak, K. Dole al, & D. Ujevi. (2015). Sizing system for girls aged 13-20 years based on body types. Textile Research Journal, 85(12), 1293-1304.
- [14] Sybilska, W., Napieralska, L., & Mielicka, E. (2010). Analysis of body measurements using a 3d contactless scanning method. Autex Research Journal, 10(3).
- [15] Staples, M. L., & Delury, D. B. (1949). A system for the sizing of women’s garments. Textile Research Journal, 19(6), 346-354.
- [16] Su, J., Liu, G., & Xu, B. (2015). Development of individualized pattern prototype based on classification of body features. International Journal of Clothing Science & Technology, 27(6), 895-907.
- [17] Wang, Z., Zhong, Y. Q., Chen, K. J., Ruan, J. Y., & Zhu, J. C. (2014). 3d human body data acquisition and fit evaluation of clothing. Advanced Materials Research, 989-994, 4161-4164.
- [18] Zhang, J., Kim, K. O., & Takatera, M. (2017). Three-dimensional garment-size change modeled considering vertical proportions. International Journal of Clothing Science & Technology, 29(1), 84-95.
- [19] Zhang, J., Innami, N., Kim, K. O., & Takatera, M. (2015). Upper garment 3d modeling for pattern making. International Journal of Clothing Science & Technology, 27(6), 852-869.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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