PUBLICATION

Journal Article

14 Hwang J*, Hong Y, Lee DH, Kwak Y, Park S, Yoo JK, and Chae Y (2019). Experimental method for measuring color appearance shifts in high-dynamic-range luminance conditions. Journal of the Optical Society of America A, 36(11), 1940-1948. [SCI]
13 Chae Y* (2019). Visual color mixing effect of yarns in textile fabrics. Journal of the Korean Society of Clothing and Textiles, 43(3), 373-383. [SCOPUS]
12 Chae Y* (2019). The effects of the spatial frequency and size of stripes on the hue appearance of striped woven fabrics. Textile Research Journal, 89(12), 2423–2432. [SCI]
11 Chae Y* (2018). Optimized structural and colorimetrical modeling of yarn-dyed woven fabrics based on the Kubelka-Munk theory. Journal of the Korean Society of Clothing and Textiles, 42(3), 503-515. [SCOPUS]
10 Chae Y, Hua T, and Xin JH* (2018). Three‐dimensional color prediction modeling of single‐and double‐layered woven fabrics. Color Research & Application, 43(1), 130-141. [SCI]
0 9 Chae Y, Xin JH*, Hua T, and Luo M (2017). Color appearance modeling of bicolor striped woven fabrics considering neighboring color effects. Color Research & Application, 42(4), 512-521. [SCI]
0 8 Chae Y, Hua T, and Xin JH* (2016). Color prediction models for digital Jacquard woven fabrics. Color Research & Application, 41(1), 64-71. [SCI]
0 7 Park J, Chang Y, Hong W, Lee M, Han A, Chae Y, Cho G, and You H* (2014). Effects of color, scouring method, and age on the visual sensibility of Naturally Colored Organic Cotton (NaCOC). Human Factors and Ergonomics in Manufacturing & Service Industries, 24(3), 318-327. [SCIE; SSCI]
0 6 Chae Y*, Xin JH, and Hua T (2014). Color prediction of yarn-dyed woven fabrics-model evaluation. Journal of the Korean Society of Clothing and Textiles, 38(3), 347-354. [SCOPUS]
0 5 Park J, Hong W, Jeong J, Lee M, Chae Y, Paik M, Cho G, and You H* (2013). Development of a textile sensibility evaluation system. Fibers and Polymers, 14(8), 1400-1406. [SCIE]