A Study on the Optimal Frame Design of Armscye Circumference

겨드랑둘레선의 최적 프레임 생성에 관한 연구

  • Received : 2009.07.20
  • Accepted : 2009.08.19
  • Published : 2009.10.31

Abstract

This study aims to develop a highly reproducible, optimal frame design algorithm using variations in the curvature of armscye circumference, which will provide the basics for remodeling the 3D human body shape with the concept of reverse design used to develop total contents for the apparel industry. 1. The results of the experiment proved that ratio value was significantly efficient than absolute value of curvature variation to extract feature points in the armscye circumference 2. For the shoulder(1st and 2nd quadrant) and front armhole(3rd quadrant) parts of the armscye circumference, frame remodeling with the positive point of inflection led to the completion of a highly reproducible frame. 3. Similarly, even for the rear armhole part(4th quadrant) in the armscye circumference, it was found that frame remodeling using the positive maximum point of inflection resulted in highly reproducible body shape with the maximum point of inflection situated within the range of split angles $305^{\circ}{\sim}330^{\circ}$, while frame remodeling using simultaneously the two largest points of inflection including maximum point of inflection led to highly reproducible body shape with the maximum point of inflection out of the range $305^{\circ}{\sim}330^{\circ}$. 4. Based upon the optimal frame design algorithm developed in this study, section-specific feature points in the armscye circumference were extracted depending on the rate of curvature variation and remodeling with spline curves was conducted. The results indicate a remarkably high reproducibility(98.6%) and suggest that the algorithm developed in this study is suitable for human body modeling.

Keywords

References

  1. 김민효. (2000). 인체측정용 3차원 스캐너 제작 및 데이터 추출 소프트웨어 개발. 서울대학교 대학원 석사학위논문
  2. 김소영, 홍경희. (2009). 3차원 스캔한 인체 샅부위의 결측부위 복원 방법 비교. 한국의류학회지, 33(3), 401-409 https://doi.org/10.5850/JKSCT.2009.33.3.401
  3. 김순분. (1996). 상완부 및 진동형태에 관한 연구 -젊은 여성과 노년 여성의 비교를 중심으로-. 복식, 30, 201-210
  4. 나가자와 스스무. (1999). 의복과 체형 (나미향, 김정숙 역). 서울: 예학사. (원저 1996 출판)
  5. 남윤자, 최경미, 박선미. (2006). 3D 데이터를 이용한 3차원 인체 모델링. Fiber Technology and Industry, 10(3), 239-246
  6. 박선미, 남윤자, 최경미. (2007). 모핑 기법을 활용한 40대 남성 하반신 가상모델 생성에 관한 연구. 한국의류학회지, 31(3), 463-474 https://doi.org/10.5850/JKSCT.2007.31.3.463
  7. 박창규, 김성민. (2008). IT와 패션의 융합: i-Fashion. Fashion Information and Technology, 5, 54-63
  8. 서용한, 오희선. (2006). 인터넷 의류쇼핑몰의 가상모델 특성이 소비자의 쇼핑경험과 충성도에 미치는 영향. 한국의류산업학회지, 8(1), 41-47
  9. 이정란, 임원자. (1996). 진동둘레선 설계를 위한 진동체표변화에 관한 연구. 한국의류학회지, 20(5), 930-942
  10. 조준우. (2003). 인체모델링을 위한 단면 곡선 및 곡면에 대한 연구. 영남대학교 대학원 석사학위논문
  11. 천종숙, 최현영. (2003). 인터넷 의류 판매원 한국인 가상모델 개발을 위한 연구. 대한인간공학회지, 22(1), 17-29 https://doi.org/10.5143/JESK.2003.22.1.017
  12. 허미옥, 구미지, 황진숙. (2000). 진동깊이에 따른 길원형의 동작 적합성 및 심미성에 관한 연구. 한국의류학회지, 24(2), 164-172
  13. Marijn V. S. (2003). Towards a human specific hole filling tool box for 3D body scans. Master´s dissertation, University of Utrecht, Utrecht
  14. Tomoe M. & Haruki I. (2003). Comparing the Characteristics of 3D Torso Surface Curvatures between Young Men and Women. Senii Gakkaishi, 59(1), 35-45 https://doi.org/10.2115/fiber.59.35
  15. Toyoda, H. (1998). Range scanners for human body and geometric modeling. Seni-i Gakkaishi, 54(5), 185-188 https://doi.org/10.2115/fiber.54.5_P185
  16. Youngsook C., Naoko O., & Hyejun P. (2005). An interactive body model for individual pattern making. International Journal of Clothing Science and Technology, 17(2), 91-99 https://doi.org/10.1108/09556220510581236