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基于显微图像的动物纤维鉴别技术(英文) 被引量:4

Classification of Animal Fibers Based on Microscopic Images
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摘要 羊绒与细羊毛的主要辨识依据是两者的表皮鳞片模式。该领域内常用的一项技术是分析纤维的SEM图像,通过鳞片边缘高度来区分两类纤维,但其成本高昂,且有8%的误差。该文提出区分两类纤维的新方法,首先将显微摄像系统获取的纤维图像处理成单像素宽度的二值骨架图,通过该二值骨架图提取纤维鳞片的4个相对形状参数,构建贝叶斯分类模型。数值实验表明,尽管该模型是基于光学显微镜的,但其分类性能却相似于基于扫描电镜的模型,对羊绒与细羊毛(70S)的正确识别率达到90%。 Scale and pattern of cashmere and fine wool are different, which is used as a major reference to distinguish them. A commonly used technique is to analyze cuticle scale edge height (CSH) of fiber from SEM images. However, it is expensive and has an average error of 8%. A new method is presented in this paper. After the fiber images are captured with a CCD camera, they are transformed into skeletonzied binary images which are only one pixel wide and can show fiber and scale edge details. Four relative shape parameters of the fiber scale are extracted. A multi-parameter Bayes classification model is then developed. Numerical experiment results show that, by using an ordinary microscopy, the proposed Bayes model has the performance similar to that based on a scanning electronic microscopy in differentiating cashmere and fine wool (70 S), with accuracy rate approaching 90%.
作者 石先军 于伟东
机构地区 东华大学纺织材料与技术实验室 武汉科技学院理学院
出处 《应用科学学报》 CAS CSCD 北大核心 2009年第1期62-66,共5页 Journal of Applied Sciences
基金 supported by Key Project of Hubei Provincial Department of Education(No.D200517004)
关键词 羊绒 相对形状参数 鳞片模式 贝叶斯分类模型 cashmere relative shape parameter, scale pattern, Bayes classification model
分类号 TS102.3 [轻工技术与工程—纺织工程]
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参考文献14

  • 1Su Zhenwei, YIN Guofu, LIAO Junbi, CAO Chunhua. A computer vision system for inspection of cashmere coloured fibres [J]. International Journal of Sheep & Wool Science, 2005, 53(1): 37-45.
  • 2WILDMAN A B. The microscopy of animal textile fibres [M]. Leeds, England: Wool Industry Research Association, 1954.
  • 3SKINKLE J H. Textile testing [M]. New York: Chemical, 1940.
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  • 7KEOGH H J. A photographic reference system of microstructure of hair of southern African bovids [J]. South African Journal of Wildlife Research, 1983, 13(4): 89-132.
  • 8KING Shengyuan, KONG Liping. Identification of textile fiber [M]. Beijing: China Textile &= Apparel Press, 2004.
  • 9BAHI A, JONES J T, CARR C M, ULIJN R V, SHAO J. Surface characterization of chenically modified wool [J]. Textile Research Journal, 2007, 77: 937-45.
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同被引文献10

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二级引证文献7

应用科学学报
2009年 第1期

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