| 光谱学与光谱分析 |
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| Study on the Detection of Slight Mechanical Injuries on Apples with Hyperspectral Imaging |
| JIANG Jin-bao, YOU Di, WANG Guo-ping, ZHANG Zheng, MEN Ze-cheng |
| College of Geoscience and Surveying Engineering, China University of Mining & Technology(Beijing), Beijing 100083,China |
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Abstract Nondestructive detection is one of the hottest spots in the application of hyperspectral remote sensing. The apple is easy to produce slight mechanical injuries that affects its quality in the process of picking and transporting. The hyperspectral images of 54 “yellow banana” and “Yantai Fushi” apples with slight injuries in the visible and near-infrared (400~1 000 nm) ranges are acquired; the mean spectral curves of injury regions on apples are extracted; the endmember spectrum are extracted based on minimum noise fraction (MNF) and geometric vertex principle; and the spectral angle is calculated between spectral of injury region and endmember spectral; a model of endmember extraction spectral angle (EESA) is constructed to detect slight mechanical injuries on apples. The slight mechanical injuries on “yellow banana” and “Yantai Fushi” apples are detected by setting spectral angle threshold, and the detection accuracy is compared with MNF and principal component analysis (PCA) method. The results show that the accuracy of EESA model is the highest, and the detection accuracy rate reaches 94.44% and 90.07% respectively.
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Received: 2015-12-25
Accepted: 2016-04-09
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Corresponding Authors:
JIANG Jin-bao
E-mail: ahdsjjb@126.com
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[1] Jin Tony Z, Guo Mingming, Zhang Howard Q. Journal of Food Engineering, 2015, 146: 72.
[2] SHAN Jia-jia, PENG Yan-kun, WANG Wei, et al(单佳佳, 彭彦昆, 王 伟, 等). Transactions of the Chinese Society for Agricultural(农业机械学报), 2011, 42(3): 141.
[3] Lu R, Cen H, Huang M, et al. Transactions of the ASABE, 2010, 53(1): 263.
[4] XU Sai, LU Hua-zhong, ZHOU Zhi-yan, et al(徐 赛, 陆华忠, 周志艳, 等). Transactions of the Chinese Society for Agricultural Machinery(农业机械学报), 2015, 46(7): 214.
[5] XIN Shi-hua, HE Jian-guo, WANG Song-lei, et al(辛世华, 何建国, 王松磊, 等). Food Science(食品科学), 2013, 34(8): 145.
[6] WU Long-guo, HE Jian-guo, LIU Gui-shan, et al(吴龙国, 何建国, 刘贵珊, 等). Chinese Journal of Luminescence(发光学报), 2013, 34(11): 1527.
[7] Baranowski P, Mazurek W, Wozniak J, et al. Journal of Food Engineering, 2012, 110( 3): 345.
[8] Xing J, Bravo C, Jancsok P T, et al. Biosystems Engineering, 2005, 90(1): 27.
[9] ZHANG Bao-hua, HUANG Wen-qian, LI Jiang-bo, et al(张保华, 黄文倩, 李江波, 等). Infrared and Laser Engineering(红外与激光工程), 2013, 42(S2): 279.
[10] Lü Q, Tang M J. Procedia Environ. Sci., 2012, 12: 1172.
[11] ZHAO Jie-wen, LIU Jian-hua, CHEN Quan-sheng, et al(赵杰文, 刘剑华, 陈全胜, 等). Transactions of the Chinese Society for Agricultural Machinery(农业机械学报), 2008, 39(1): 106.
[12] CAI Jian-rong, WANG Jian-hei, CHEN Quan-sheng, et al(蔡健荣, 王建黑, 陈全胜, 等). Transactions of the Chinese Society of Agricultural Engineering(农业工程学报), 2009, 25(1): 127.
[13] ZHANG Bao-hua, HUANG Wen-qian, LI Jiang-bo, et al(张保华, 黄文倩, 李江波, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2014, 34(5): 1367.
[14] Gamal ElMasry, Ning Wang, Clement Vigneault, et al. Swiss Society of Food Science and Technology, 2008, 41: 337.
[15] HUANG Wen-qian, CHEN Li-ping, LI Jiang-bo, et al(黄文倩, 陈立平, 李江波, 等). Transactions of the Chinese Society of Agricultural Engineering(农业工程学报), 2013, 29(1): 272.
[16] Ding H Y, Shi W Z. Fast Journal of Remote Sensing, 2013, 17(1): 122.
[17] Nascimento J M P, Dias J M B. IEEE Transaction on Geoscience and Remote Sensing, 2005, 43(4): 898.
[18] Dennison P E, Halligan K Q, Roberts D A. Remote Sensing of Environment, 2004, 93(3): 359. |
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