Sage Journals: Discover world-class research

Abstract

To clarify the color variation and influencing factors between colored spun yarn and its fabrics with different weave structures, a multi-dimensional spectral feature extraction model integrating distance and shape features is established in this paper. Considering the spectral reflectance of colored spun yarn and its fabric fluctuates randomly, a relative discrimination criterion based on the category separable ratio model is proposed; in addition, the principal component analysis algorithm is applied to the correlation analysis of the colored spun product’s color change. The results show that the established multi-dimensional spectral feature extraction model and relative discrimination criteria can effectively characterize the spectral features of colored spun yarns and fabrics. The difference of spectral features between the plain fabric samples and colored spun yarn samples is the largest, the twill structure is the second, and the difference of satin structure is the smallest. For colored spun fabric samples, the spectral feature fluctuation of the satin structure is the highest; the plain weave is the second, while the twill is the lowest. In addition, the increase in twist coefficient leads to a decrease in the difference of spectral features, but the color variation remains the same. Besides, there is no significant difference in spectral features between yarn and fabric samples using the principal component analysis algorithm. In the visible light range, the high-dimensional spectral features are more suitable for the characterization and analysis of the colored textiles’ color information.

Keywords

Colored spun woven fabric spectral features weave structure color correlation relative discrimination criterion principal component analysis

Get full access to this article

View all access options for this article.

References

Wang

Zhou

Sparse representation of woven fabric texture based on discrete cosine transform over-complete dictionary.

J Text Res 2018; 39: 157–163.

Liu

Wan

Influence of blending method on colored spun yarn quality and fabric style. Cotton Text Technol 2017; 45: 41–43.

Cheng

YZ.

Comparison of color measuring methods for yarn dyed woven fabrics. Adv Mater Res 2012; 441: 651–655.

Kandi

Tehran

Rahmati

Colour dependency of textile samples on the surface texture. Color Technol 2008; 124: 348–354.

Liu

Study on the relationship between the luster of woven fabric and its specification factors. Thesis, Zhejiang University of Technology, 2010.

Chen

Research and application of the relationship between fabric structure and fabric color. Thesis, Donghua University, Shanghai, 2015.

Farooq

Yousufani

SA.

Effect of inter yarn fabric porosity on dye uptake of reactive dyed cotton woven fabric.

Mehran Univ Res J Eng Technol 2015; 34: 265–272.

Akgun

Becerir

Alpay

. Effect of sample layer numbers and fabric constructional parameters on colour strength, colour difference and colour matching properties of polyester woven fabric.

J Text Inst 2017; 108: 102–109.

Tao

, et al. Color attributes of colored-yarn mixed woven fabrics made of raw-white warps and multicolored wefts and based on weft-backed structures 2018; 10(2): 146–163.

10.

Sun

Yang

, et al. Influence of fabric structure on color effect of dyed-yarn knitted fabrics. Knit Ind 2019; 4: 53–56.

11.

Chae

The color appearance shifts of woven fabrics induced by the optical blending of colored yarns.

Text Res J 2020; 90: 395–409.

12.

Wang

Jiang

, et al. Color correlation between the colored yarn and yarn-dyed fabric. Silk 2021; 58: 30–36.

13.

Zhang

, et al. Appearance change for colored spun yarn fabric based on image color transfer. Text Res J 2021; 91: 1439–1451.

14.

Yuan

Wang

, et al

. Coloration rules between colored spun yarns and its fabrics based on spectral pan-similarity measure.

J Text Res 2019; 40: 30–37.

15.

Cheng

Sun

, et al. Improved average Fréchet distance method and its application in simplification evaluation. Sci Survey Map 2020; 45:170–177.

16.

Liu

Yuan

Yang

, et al. Color representation model for pre-colored fiber blends based on independent component features from mixed color space. J Text Res 2019; 40: 62–69.

17.

Zhao

Cen

, et al. Analysis of the influence of spectral feature extraction on the spectral difference of approximate minerals. Spectrosc Spectr Anal 2017; 37: 869–874.

18.

Wen

Feng

Liu

, et al. Matching and classification based on the whole comparability measure of spectral curve. J Survey Map Sci Technol 2009; 26: 128–131.

19.

Cheng

Cao

, et al. Study on the influence of yarn fineness and twist multiplier on color difference of color spun yarn. Cotton Text Technol 2020; 48: 25–29.

20.

Pei

et al . Three-dimensional woven fabric: classification, properties and production. Text Guide 2017; 4: 26–30.

Correlation analysis between fabric structure and color rendering of polyester colored spun woven fabric based on the improved relative discrimination criterion

Abstract

Keywords

Get full access to this article

References