| 光谱学与光谱分析 |
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| Use of Visible and Near Infrared Reflectance Spectroscopy to Identify the Cashmere and Wool |
| LIU Xin-ru, ZHANG Li-ping*, WANG Jian-fu, WU Jian-ping, WANG Xin-rong |
| College of Animal Science and Technology, Gansu Agricultural University, Lanzhou 730070, China |
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Abstract The wool and cashmere samples (n=130) from different areas of Gansu province were identified by visible and near-infrared reflectance spectroscopy(Vis/NIRs). The result shows that principal component-mahalanobis distance pattern can identify the wool and cashmere, and the boundary between two categories was clear; The calibration set samples were used to establish calibration qualitative model using PCR combined with the best pretreatment of the spectra and math, including multivariate scattering correction (MSC), first derivative, eight for the best principal component factor, one for uncertainty factor, this calibration model of the predicted was the best, and the result of the external validation was correct completely. Results from this experiment indicate that Vis/NIRs can be utilized to identify the wool and cashmere.
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Received: 2012-12-19
Accepted: 2013-03-18
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Corresponding Authors:
ZHANG Li-ping
E-mail: zhangliping@gsau.edu.cn
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[1] MAO Xiao-fang, LIN Su-jun, HU Jun-man, et al(毛晓芳,林素君,胡君曼,等). China Fiber Inspection(中国纤检), 2010, 9: 50.
[2] YAN Yan-lu, ZHAO Long-lian, HAN Dong-hai, et al(严衍禄,赵龙莲,韩东海,等). The Foundation and Application of the Near Infrared Spectroscopy Analysis(近红外光谱分析基础与应用). Beijing: China Light Industry Press(北京:中国轻工业出版社), 2005. 222.
[3] CAI Xian-feng, GUO Bo-li, WEI Yi-min, et al(蔡先锋,郭波莉,魏益民,等). Scientia Agricultura Sinica(中国农业科学), 2011, 44(20): 4272.
[4] CHAI Jin-chao, JIN Shang-zhong(柴金朝,金尚忠). Infrared(红外), 2009, 30(1): 31.
[5] Lü Dan, YU Chan, ZHAO Guo-liang(吕 丹,于 婵,赵国樑). Journal of Beijing Institute of Clothing Technology(北京服装学院学报), 2010, 30(2): 29.
[6] Guo Fei, Shang Shuyuan, Qi Ming. Artificial Intelligence and Computational Intelligence, 2011, 7004: 362.
[7] Cozzolino D, Montossi F, San R Julian. British Society of Animal Science, 2005, 80: 333.
[8] YAO Mu(姚 穆). Textile Material(纺织材料学). Beijing: China Textile Press(北京:中国纺织出版社). 2009. 83.
[9] PENG Wei-liang, JIANG Yao-xing, YUAN Chang-tai(彭伟良,蒋耀兴,袁长泰). Shanghai Textile Science & Technology(上海纺织科技), 2005, 33(11): 11.
[10] HOU Xiu-liang, WANG Shan-yuan(侯秀良,王善元). Wool Textile Journal(毛纺科技), 2004, 1: 38.
[11] LIU Qing-sheng, FAN Zhi-ying, ZHANG Ping, et al(刘庆生,范志影,张 萍,等). Modern Scientific Instruments(现代科学仪器), 2007, 1: 66.
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