Statistical Compatibility Analysis of Objective Fabric Measurements in Virtual Garment Simulation
Yıl 2017,
Cilt: 24 Sayı: 107, 213 - 219, 30.09.2017
Sertaç Güney
,
İbrahim Üçgül
Öz
In recent years, three-dimensional garment simulation programs have begun to draw attention with the developing technology but there is still some doubt about the validity of the simulation results. Simulation software should accurately simulate fabric behaviours as well as correct modelling of clothing on virtual models. For this reason, the mechanical and physical properties of the fabric are very important for these programs to reflect the behaviour of the clothes. Software producers have begun to develop their own measurement devices because of the cost of custom measurement systems (KESF, FAST etc.). In this study, it is aimed to investigate strain, shear and bending properties of fabrics and the compatibility of measurements obtained from the virtual clothing simulation program's special test equipment and the measuring instruments in laboratory conditio
Kaynakça
- Zhong, Y. ve Xu, B., (2009), Three- Dimensional Garment Dressing Simulation, Textiles Research Journal, 79 (9), 792- 803s
- Luible, C. ve Magnenat-Thalmann, N., (2007), “Suitability of standard fabric characterisation experiments for the use in virtual simulations”, MIRA Lab, University of Geneva, Switzerland. Proceedings: Autex 2007 Conference, Tampere, Finland, June 2007
- Iqbal, M.A., (2013), Virtual Product Development and Management Opportunities in Fashion Industry, Master of Science Thesis, Tampere University of Technology.
- Bond, T., (2008), Computerised Patern Making in Garment Production. Advances in Apparel Production, Woodhead Publishing Ltd. Cambridge, England, 140- 153s.
- Istook, C. L., (2008), Three Dimensional Body Scanning to Improve Fit. Advances in Apparel Production, Woodhead Publishing Ltd. Cambridge, England, 94- 116s.
- Power, J., (2013), Fabric objective measurements for commercial 3D virtual garment simulation, International Journal of Clothing Science and Technology, Cilt. 25, No. 6, 423-439s.
- Hunter, L. ve Fan, J., (2004), Fabric properties related to clothing appearance and fit. Clothing Appearance and Fit: Science and Technology, The Textile Instıtute, 89-113s.
- Ly, G. N., Tester, H. D., Buckenham, P., Roczniok, F. A., Adriaansen, L. A., Scaysbrook, F. ve Jong De S. (1991), Simple Instrument for quality control by finishers and tailors, Textile Research Journal, 61 (7), 402-406s.
- Başer, G., (2013), Tekstil Mekaniğinin Temellleri Cilt II: Kumaş Geometrisi ve Mekaniği. Meta Basım Maatbacılık, İzmir.
- Zheng, J., Komatsu, T., Yazaki, Y., Takatera, M., Inui, S. ve Shimizu Y., (2006), Evaluating Shear Rigidity of Woven Fabrics. Textile Research Journal, Vol 76(2), 145-151s.
- Domskiene, J. ve Strazdiene, E., (2005), Investigation of fabric shear behaviour, Fibres&Textiles in Eastern Europe, Vol 13, No:2 (50), 26-30s.
- Morner, B. ve Eeg-Olofsson, T., (1957), Measurement of the shearing properties of fabrics., Textile Research Journal, 611- 615s.
- Browzwear (2010) Kullanım Klavuzu.
- Stjepanovic, Z., Pilar, T., Rudolf, A. ve Jevsnik, S., (2012), 3D Virtual Prototyping of Clothing Products, Innovations in clothing technology & measurement techniques, Chapter: 3D virtual prototyping of clothing products.
- Wu, Y.Y., Mok, P.Y., Kwok, Y.L, Fan, J.T. ve Xin, J.H. (2011), An Investigation on the Validity of 3D Clothing Simulation for Garment Fit Evaluation, International conference on Innovative Methods in Product Design, 463-468s.
- Gürsoy, F., Doğan, S. ve Kılınç, N., (2016), Comparison of the try-ons of a garment produced from Rize Fabric (Feretiko) in actual and virtual environments. 7. Uluslararası İstanbul Tekstil Konferansı (BEZCE 2016), 21- 23 Mart 2016, İstanbul.
- Jevsnik, S., Pilar, T., Stjepanovic, Z. ve Rudaolf, A. (2012), Virtual Prototyping of Garments and Their Fit to the Body, DAAAM International Scientific Book, 601-618s.
- Büyükaslan, E., Jevsnik, S. ve Kalaoğlu, F. (2015), Virtual Fitting of a Skirt on a Parametric and a Scanned Body Model, Marmara Journal of Pure and Applied Sciences, Special Issue-1: 23-26s.
- Ancutiene, K. ve Sinkeviciüte, D., (2011), The Influence of Textile Materials Mechanical Properties upon Virtual Garment Fit, Materials Science, Vol.17, No.2, 160-167s.
Sanal Giysi Simülasyonunda Kumaş Mekanik Özelliklerini Ölçen Cihazların Ölçüm Değerlerinin İstatistiksel Kıyaslaması
Yıl 2017,
Cilt: 24 Sayı: 107, 213 - 219, 30.09.2017
Sertaç Güney
,
İbrahim Üçgül
Öz
Son yıllarda gelişen teknoloji ile birlikte üç boyutlu giysi simülasyon programları dikkat çekmeye başlamasına rağmen simülasyon sonuçlarının doğruluğu konusunda hala bazı tereddütler mevcuttur. Simülasyon yazılımlarının, giysileri sanal manken üzerinde doğru modellemesinin yanı sıra kumaş davranışlarını da doğru bir şekilde simüle etmesi gerekmektedir. Bu nedenle bu programların giysi davranışını yansıtabilmesinde kumaşın mekaniksel ve fiziksel özellikleri büyük önem taşımaktadır. Yazılım üreticileri, özel ölçüm sistemlerinin (KESF, FAST vb.) maliyetli olmasından dolayı, kendi ölçüm cihazlarını geliştirmeye başlamışlardır. Bu çalışmada, kumaşların uzama, kayma ve eğilme özelliklerinin hem sanal giyim simülasyon programının özel test aparatı ile hem de laboratuar şartlarında ölçüm cihazları ile elde edilen ölçümlerin uyumluluğunun incelenmesi amaçlanmıştır.
Kaynakça
- Zhong, Y. ve Xu, B., (2009), Three- Dimensional Garment Dressing Simulation, Textiles Research Journal, 79 (9), 792- 803s
- Luible, C. ve Magnenat-Thalmann, N., (2007), “Suitability of standard fabric characterisation experiments for the use in virtual simulations”, MIRA Lab, University of Geneva, Switzerland. Proceedings: Autex 2007 Conference, Tampere, Finland, June 2007
- Iqbal, M.A., (2013), Virtual Product Development and Management Opportunities in Fashion Industry, Master of Science Thesis, Tampere University of Technology.
- Bond, T., (2008), Computerised Patern Making in Garment Production. Advances in Apparel Production, Woodhead Publishing Ltd. Cambridge, England, 140- 153s.
- Istook, C. L., (2008), Three Dimensional Body Scanning to Improve Fit. Advances in Apparel Production, Woodhead Publishing Ltd. Cambridge, England, 94- 116s.
- Power, J., (2013), Fabric objective measurements for commercial 3D virtual garment simulation, International Journal of Clothing Science and Technology, Cilt. 25, No. 6, 423-439s.
- Hunter, L. ve Fan, J., (2004), Fabric properties related to clothing appearance and fit. Clothing Appearance and Fit: Science and Technology, The Textile Instıtute, 89-113s.
- Ly, G. N., Tester, H. D., Buckenham, P., Roczniok, F. A., Adriaansen, L. A., Scaysbrook, F. ve Jong De S. (1991), Simple Instrument for quality control by finishers and tailors, Textile Research Journal, 61 (7), 402-406s.
- Başer, G., (2013), Tekstil Mekaniğinin Temellleri Cilt II: Kumaş Geometrisi ve Mekaniği. Meta Basım Maatbacılık, İzmir.
- Zheng, J., Komatsu, T., Yazaki, Y., Takatera, M., Inui, S. ve Shimizu Y., (2006), Evaluating Shear Rigidity of Woven Fabrics. Textile Research Journal, Vol 76(2), 145-151s.
- Domskiene, J. ve Strazdiene, E., (2005), Investigation of fabric shear behaviour, Fibres&Textiles in Eastern Europe, Vol 13, No:2 (50), 26-30s.
- Morner, B. ve Eeg-Olofsson, T., (1957), Measurement of the shearing properties of fabrics., Textile Research Journal, 611- 615s.
- Browzwear (2010) Kullanım Klavuzu.
- Stjepanovic, Z., Pilar, T., Rudolf, A. ve Jevsnik, S., (2012), 3D Virtual Prototyping of Clothing Products, Innovations in clothing technology & measurement techniques, Chapter: 3D virtual prototyping of clothing products.
- Wu, Y.Y., Mok, P.Y., Kwok, Y.L, Fan, J.T. ve Xin, J.H. (2011), An Investigation on the Validity of 3D Clothing Simulation for Garment Fit Evaluation, International conference on Innovative Methods in Product Design, 463-468s.
- Gürsoy, F., Doğan, S. ve Kılınç, N., (2016), Comparison of the try-ons of a garment produced from Rize Fabric (Feretiko) in actual and virtual environments. 7. Uluslararası İstanbul Tekstil Konferansı (BEZCE 2016), 21- 23 Mart 2016, İstanbul.
- Jevsnik, S., Pilar, T., Stjepanovic, Z. ve Rudaolf, A. (2012), Virtual Prototyping of Garments and Their Fit to the Body, DAAAM International Scientific Book, 601-618s.
- Büyükaslan, E., Jevsnik, S. ve Kalaoğlu, F. (2015), Virtual Fitting of a Skirt on a Parametric and a Scanned Body Model, Marmara Journal of Pure and Applied Sciences, Special Issue-1: 23-26s.
- Ancutiene, K. ve Sinkeviciüte, D., (2011), The Influence of Textile Materials Mechanical Properties upon Virtual Garment Fit, Materials Science, Vol.17, No.2, 160-167s.