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http://dx.doi.org/10.5762/KAIS.2019.20.8.29

A Study on Rapid Color Difference Discrimination for Fabrics using Digital Imaging Device  

Park, Jae Woo (Forces Support Systems Center, Quality Management Bureau, Defense Agency for Technology and Quality(DTaQ))
Byun, Kisik (Forces Support Systems Center, Quality Management Bureau, Defense Agency for Technology and Quality(DTaQ))
Cho, Sung-Yong (Forces Support Systems Center, Quality Management Bureau, Defense Agency for Technology and Quality(DTaQ))
Kim, Byung-Soon (Forces Support Systems Center, Quality Management Bureau, Defense Agency for Technology and Quality(DTaQ))
Oh, Jun-Ho (Forces Support Systems Center, Quality Management Bureau, Defense Agency for Technology and Quality(DTaQ))
Publication Information
Journal of the Korea Academia-Industrial cooperation Society / v.20, no.8, 2019 , pp. 29-37 More about this Journal
Abstract
Textile quality management targets the physical properties of fabrics and the subjective discriminations of color and fitting. Color is the most representative quality factor that consumers can use to evaluate quality levels without any instruments. For this reason, quantification using a color discrimination device has been used for statistical quality management in the textile industry. However, small and medium-sized domestic textile manufacturers use only visual inspection for color discrimination. As a result, color discrimination is different based on the inspectors' individual tendencies and work procedures. In this research, we want to develop a textile industry-friendly quality management method, evaluating the possibility of rapid color discrimination using a digital imaging device, which is one of the office-automation instruments. The results show that an imaging process-based color discrimination method is highly correlated with conventional color discrimination instruments ($R^2=0.969$), and is also applicable to field discrimination of the manufacturing process, or for different lots. Moreover, it is possible to recognize quality management factors by analyzing color components, ${\Delta}L$, ${\Delta}a$, ${\Delta}b$. We hope that our rapid discrimination method will be a substitute technique for conventional color discrimination instruments via elaboration and optimization.
Keywords
Color Difference Discrimination; CIE LAB; Digital Imaging Device; Image Process; Textile;
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