Journal of the Korean Society of Clothing and Textiles (한국의류학회지)

The Korean Society of Clothing and Textiles (한국의류학회)
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Developing fitted Torso Patterns for Men in Their 20s Utilizing Virtual Fitting -Focused on the Inverted Triangle Body Type-

가상착의를 활용한 20대 남성 피티드 토르소 패턴 개발 -역삼각 체형을 중심으로-

  • Ui-Jung Kwon (Dept. of Clothing & Textile, Pusan National University) ;
  • Jeong-Ah Jang (Dept. of Clothing & Textile, Pusan National University)
  • Received : 2022.06.29
  • Accepted : 2022.11.27
  • Published : 2023.02.28
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Abstract

This study aimed to develop a fitted torso pattern with an improved fit for inverted-triangular males in their twenties. For this study, six torso patterns were collected, compared and evaluated, and a fitted torso pattern was developed using virtual fittings. The research results are as follows. First, the fitted torso pattern received a good rating as a result of the virtual fitting evaluation: waist dart set 2 of the front; the amount of comfort is set at 5 cm around the chest, 4 cm around the waist and 10 cm around the hips. Second, the evaluation of virtual fitting of the development pattern showed that fit evaluation was 4.11/5 points, ease evaluation was 6.53/7 points, and that the stress map and airgap were suitable for the human body. Third, the actual fit evaluation of the development pattern was 4.25/5 points, 6.35/7 points for ease evaluation, and 4.81/5 points for motion evaluation. Fourth, there was no significant difference between the results of the virtual and actual fitting evaluation with the objectivity test. It is therefore possible to apply a pattern developed through a virtual fitting to an actual human body and to confirm the objectivity of the pattern.

Keywords

Acknowledgement

본 논문은 석사학위 논문의 일부임

References

  1. Cho, G. Y. (2014). Man's wear. Seoul: booknamu.
  2. Hong, E. H. (2013). Development of tight-fit torso patterns according to adult men's somatotype using surface flattening of 3D body scan data-Using a 3D virtual garment system- (Unpublished doctoral dissertation). Hanyang University, Seoul.
  3. Jeon. S. Y. (2018). Development of the bodice pattern for late adolescent using 3D virtual garment simulation (Unpublished doctoral dissertation). Sookmyung Women's University, Seoul.
  4. Jeong, Y. (2013). 3D virtual clothing menswear pattern design. Seoul: Ybook.
  5. Kim, B. R. (2020, June 29). 재택근무 많아지자 바지보다 셔츠 많이 샀다[As more people work from home buy more shirts than pants]. The Korea Economic Daily. Retrieved from https://www.hankyung.com/economy/article/2020062878921
  6. Kim, M. J. (2021, September 28). 코로나가 불러온 패션업계 트렌드 변화 [Changes in fashion industry trends caused by COVID-19]. Korea Entertainment Sports. Retrieved from http://www.koreaes.com/news/articleView.html?idxno=360644
  7. Kim, M., & Kim, I. (2014). Patternmaking for menswear: Classic to contemporary. New York, NY: Bloomsbury Publishing Inc.
  8. Kim, N.-Y. (2005). A study on the pattern design of basic body according to the development figures of surface body for adult women (Age group between 18 and 24) (Unpublished master's thesis). Miryang National University, Miryang.
  9. Korean Agency for Technology and Standards. (2010-2014). 표준체형 [Standard body shape]. Size Korea. Retrieved from https://sizekorea.kr/human-info/body-shape-class/std-body-shape?measDegree=6&gender=M
  10. Korean Agency for Technology and Standards. (2015). 7차 인체치수조사 (2015) [7th Size Korea data (2015)]. Size Korea. Retrieved from https://sizekorea.kr/human-info/meas-report?measDegree=7
  11. Korean Agency for Technology and Standards. (2019, July 26). KS K 0050:2019 Sizing systems for male adult's garments. Korean Standards & Certifications. Retrieved from https://e-ks.kr/streamdocs/view/sd;streamdocsId=72059197887054056
  12. Korean Agency for Technology and Standards. (n.d.). 인체항목 [Human body items]. Size Korea. Retrieved from https://sizekorea.kr/human-meas-search/ergo-std/item
  13. Korea Federation of Textile Industries. (2020). Korea fashion industry index research-2019 research analysis & 2020 market forecasting-. Seoul: Author.
  14. Lee, S. J. (2013). Classification of obese male's body types and development of torso pattern (Unpublished doctoral dissertation). Seoul National University, Seoul.
  15. Lim, J.-y. (2011). A development of the uniform pattern for obese junior-high school girls from virtual garment simulation. The Research Journal of the Costume Culture, 19(2), 245-254.
  16. No, Y. (2015). Development of torso block for men in their twenties using 3D human body shape data (Unpublished master's thesis). Seoul National University, Seoul.
  17. Park, H., & Koo, H. (2018). Emerging trends in 3D technology adopted in apparel design research and product development. Journal of the Korean Society of Clothing and Textiles, 42(1), 195-209. doi:10.5850/JKSCT.2018.42.1.195
  18. Seok, H. J., & Kim, I. S. (2006). The fit preference for ready to wear clothings by the age and obesity level of adult men. Journal of the Korean Home Economics Association, 44(8), 13-21.
  19. Shin, H. J. (2008). Development of original type of men's wear bodice (Unpublished master's thesis). Sookmyung Women's University, Seoul.
  20. Shin, J.-H. (2014). A study of the development of jacket patterns for women in their 20's. Journal of the Korea Fashion & Costume Design Association, 16(3), 1-13.
  21. Shin, K., & Suh, C. (2018). A study on the development of basic pants pattern for men using virtual fitting program - Focused on the menswear textbook -. Fashion & Textile Research Journal, 20(4), 410-421. doi:10.5805/SFTI.2018.20.4.410
  22. Suh, C. (2009). Development of male fitted torso type basic patterns according to the body surface segment method. Journal of the Korean Society of Clothing and Textiles, 33(7), 1109-1120. doi:10.5850/JKSCT.2009.33.7.1109
  23. Suh, D.-A., & Chun, J.-S. (2004). Men's bodice pattern making method using 3-D body scan data. The Research Journal of the Costume Culture, 12(2), 290-299.
  24. Wargnier, C. (2012). Men's garments. Paris: Esmod Editions.