Evaluation Method of Fabric Color Difference Based on Saliency Algorithm and CIELAB Space

Xiuping Meng; Gongbing Su; Qiming Wu; Langjia Yuan

doi:10.3788/LOP55.053301

[1] Liu S Y, Liu J J, Xue Y et al. Fabric color difference detection based on computer vision[J]. Cotton Textile Technology, 36, 32-35(2008).

[2] Li P F, Wang J, Jing J F et al. A qualitative and quantitative test method for fabric color difference[J]. Cotton Textile Technology, 42, 38-40(2014).

[3] Li P F, Yang X F, Jing J F et al. The research on fabric online color difference detection system[J]. Cotton Textile Technology, 39, 21-23(2011).

[4] Yang X F. The research on fabric online color difference detection system Xi'an: Xi'an[D]. Polytechnic University, 3(2012).

[5] Li J, Yang Y Q, Shen W et al. Research on fabric texture based on gray level co-occurrence matrix[J]. Advanced Textile Technology, 21, 12-16(2013).

[6] Lou Y S, Zhu C Y, Guo Z R et al. Fabric texture information online detection based on DFT[J]. Journal of Donghua University: Natural Science Edition, 6, 732-737(2016).

[7] Ren J, Zhou H, Guo C et al. Fabric texture detection based on FFT and Gabor filter[J]. Journal of Zhejiang Sci-tech University (Natural Science Edition), 33, 6-10(2015).

[8] Jiang H Y, Dai M L, Su Z L et al. An adaptive sine/cosine filtering algorithm based on speckle phase fringe orientation[J]. Acta Optica Sinica, 37, 0910001(2017).

[9] Hua W P, Zhao J F, Li M et al. Single image noise estimation based on image segmentation and scatter statistics of noise[J]. Laser & Optoelectronics Progress, 53, 041006(2016).

[10] Lian Y, Liao N, Wang J. et al. Evaluating the uniformity of color spaces and performance of color difference formula[C]. SPIE, 7852, 785205(2010).

[11] Shamey R, Hinks D, Melgosa M et al[C]. Evaluation of performance of twelve color-difference formulae using two NCSU experimental datasets Conference on Color in Graphics, Imaging and Vision, 2010, 423-428.

[12] Huang M, Liao N F, Xu Y F et al. Analysis of color difference formula based on Chinese color system[J]. Optical Technique, 33, 46-48(2007).

[13] Itti L, Koch C. Computational modeling of visual attention[J]. Nature Reviews Neuroscience, 2, 194-230(2001).

[14] Itti L, Koch C, Niebur E. A model of saliency-based visual attention for rapid scene analysis[J]. IEEE Transations on Pattern Analysis and Machine Intelligence, 20, 1254-1259(1998).

[15] Chen K Y, Zou X J, Xiong J T et al. Improved fruit fuzzy clustering image segmentation algorithm based on visual saliency affiliation[J]. Journal of Agricultural Engineering, 29, 157-165(2013).

[16] Qian S, Chen Z H, Lin M Q et al. Saliency detection based on conditional random field and image segmentation[J]. Acta Automatic Sinica, 41, 711-724(2015).

[17] Ma R N, Tu X P, Ding J D et al. To evaluate salience map towards popping out visual objects[J]. Acta Automatic Sinica, 38, 870-876(2012).

[18] International Organization for Standardization. Textile-tests for color fastness-Part A02: Grey scale for assessing change in color: ISO105-A02[S]. Geneva: International Organization for Standardization(1993).

[19] Chen J W, Quan S B, Quan Y M et al. Calibration method of relative position and pose between dual two-dimensional laser radar[J]. Chinese Journal of Lasers, 44, 1004005(2017).

[20] Liu Z Q, Zhang Y R, Zhao J X et al. High speed camera calibration for velocity measurement in range static explosion experiment[J]. Laser & Optoelectronics Progress, 53, 111501(2016).