TL032 Digitalization in the Textile Industry

Information

Course Goal

The aim of the lesson is to recognize digital applications, which are increasingly used in the textile industry. To teach digital applications that offer time and raw material saving opportunities by reducing the harms of fast fashion.

Course Content

This lesson includes industry 4.0 in terms of the textile industry, digital image processing, methods used in image analysis, opportunities offered by digitalization in the textile industry, digital twin creation of textile materials, three-dimensional clothing simulation systems and digital fashion. The concepts gave by digitalization to the textile industry will be discussed and its use in solving the problems in the sector will be examined.

Course Precondition

None

Resources

Behera BK (2004) Image-processing in textiles. Textile Progress, 35(2-4), 1-193. Arikan CO, (2009) Using Computer Aided Image Processing Applications in Textile Technology. PhD Dissertation, Textile Engineering, Graduate School of Natural and Applied Sciences, Ege University, Turkey, 128 p. Egri S (2011) Problems Encountered in the Sample Review on a Three Dimensional Body Scanner Systems. Master’s Thesis, Dressing Industry and Arts of Dressing Main Science Branch, Gazi University, Turkey, 112 p. Wong WK (Ed.) (2018). Applications of Computer Vision in Fashion and Textiles. Woodhead Publishing. ISBN: 978-0-08-101217-8, 292p. Issa M, Elgholmy S, Sheta A, Fors MN (2022) A new method for measuring the static and dynamic fabric/garment drape using 3D printed mannequin. The Journal of the Textile Institute, 113(6): 1163-1175. Liu L, Deng N, Xin B, Wang Y, Wang W, He Y, Lu S (2021) Objective evaluation of fabric pilling based on multi-view stereo vision. The Journal of the Textile Institute, 112(12): 1986-1997. Ork-Efendioglu N (2019) An Investigation on Usability of 3D Visualization and Simulation Programs in Leather Apparel. Doctoral Thesis, Leather Engineering, Graduate School of Natural and Applied Sciences, Ege University, Turkey, 140 p. Telli A (2019a) An image processing research consistent with standard photographs to determine pilling grade of woven fabrics. Textile and Apparel, 29(3), 268-276. Telli A (2020a) The relationship between subjective pilling evaluation results and detecting pills and textural features in knitted fabrics. Fibers and Polymers, 21(8): 1841-1848. Telli A (2020b) The usage of image processing techniques on the determination of pilling grades, pp:131-155, 171p., Editor: Wallace G. Tarrant, October 2020, Nova Science, ISBN: 978-1-53618-770-0 Telli A (2021a). The comparison of the edge detection methods in the determination of yarn hairiness through image processing. Textile and Apparel, 31(2): 91-98.

Notes

Yildiz G, Kozbekci-Ayranpinar S (2021) Augmented reality and virtual reality in the fashion industry. Yedi, (25): 1-15. Yuksel H, Bulut MO (2019) Three-dimensional body scanning systems. Tekstil ve Mühendis, 26(116): 406-414. Yarnbank (2022). What's Yarnbank, https://yarnbank.shimaseiki.com/ (Accessed: 09 August 2022) ApexFiz (2022) Product info. https://www.shimaseiki.com/product/design/software/features/ (Accessed: 09 August 2022) CLO (2022) Our Story. https://www.clovirtualfashion.com/story (Accessed: 09 August 2022) CottonWorks (2022a) Digital Product Creation. https://www.cottonworks.com/en/topics/fabric-technology/digital-product-creation/dpc/ (Accessed: 09 August 2022) SDL Atlas (2022), PillGrade, https://sdlatlas.com/products/pillgrade-automated-pilling-grading-system#product-details (Accessed: 09 August 2022) Uster (2022), Uster Fabric Inspection, https://www.uster.com/fileadmin/user_upload/Downloads/Products/Fabric_Inspection/Uster_Fabric_Inspection_WEB_202107.pdf

Course Learning Outcomes

Relation with Program Learning Outcome

Week Plan

Student Workload - ECTS