Virtual prototyping is often used for animations and graphics; however it also has great advantages for garment industry such as minimizing the time and customization of the garment for individual customers. 3 D body scanners offer better simulation results than a parametric body model. The aim of this study is to see how a garment is simulated on a scanned body model and a parametric body model. In addition we wanted to see the real fit of a skirt on a wearer and compare it with its virtual fitting. Thus we generated two virtual body models: a scanned and a parametric model. Meanwhile we determined a skirt design and created 2D patterns according to the design. Finally the skirt is tailored and generated 2D patterns are used to develop 3D virtual garments. It is well-known that mechanical properties of a fabric have influence on the simulation results. Thus mechanical properties of the fabric are measured by using Fabric Analysis by Simple Testing (FAST) and these data are utilized to generate a simulated skirt. At the end live model is dressed with produced skirt and photographed. Real garment fit and their virtual fits are compared to see how satisfactory the garment simulations are. Currently there are many studies to improve the virtual garment images. This study helps to understand the fit differences between garment simulations on a scanned body model and a parametric body model as well as a chance to compare them with the real fit on a live model.
Virtual prototyping is often used for animations and graphics; however it also has great advantages for garment industry such as minimizing the time and customization of the garment for individual customers. 3 D body scanners offer better simulation results than a parametric body model. The aim of this study is to see how a garment is simulated on a scanned body model and a parametric body model. In addition we wanted to see the real fit of a skirt on a wearer and compare it with its virtual fitting. Thus we generated two virtual body models: a scanned and a parametric model. Meanwhile we determined a skirt design and created 2D patterns according to the design. Finally the skirt is tailored and generated 2D patterns are used to develop 3D virtual garments. It is well-known that mechanical properties of a fabric have influence on the simulation results. Thus mechanical properties of the fabric are measured by using Fabric Analysis by Simple Testing (FAST) and these data are utilized to generate a simulated skirt. At the end live model is dressed with produced skirt and photographed. Real garment fit and their virtual fits are compared to see how satisfactory the garment simulations are. Currently there are many studies to improve the virtual garment images. This study helps to understand the fit differences between garment simulations on a scanned body model and a parametric body model as well as a chance to compare them with the real fit on a live model.
Primary Language | English |
---|---|
Journal Section | Research Articles |
Authors | |
Publication Date | July 9, 2015 |
Published in Issue | Year 2015 Volume: 27 - Special Issue I: Future Technical Textiles |
Marmara Fen Bilimleri Dergisi
e-ISSN : 2146-5150
MU Fen Bilimleri Enstitüsü
Göztepe Yerleşkesi, 34722 Kadıköy, İstanbul
E-posta: fbedergi@marmara.edu.tr