Hyperspectral imaging combined with multivariate analysis and band math for detection of common defects on peaches (Prunus persica)
文献类型: 外文期刊
第一作者: Zhang, Baohua
作者: Zhang, Baohua;Li, Jiangbo;Fan, Shuxiang;Huang, Wenqian;Zhao, Chunjiang;Zhang, Baohua;Zhao, Chunjiang;Liu, Chengliang;Huang, Danfeng
作者机构:
关键词: Hyperspectral imaging;Multivariate analysis;Band math;Common defects;Peaches
期刊名称:COMPUTERS AND ELECTRONICS IN AGRICULTURE ( 影响因子:5.565; 五年影响因子:5.494 )
ISSN:
年卷期:
页码:
收录情况: SCI
摘要: Automatic detection of common defects on peaches by using imaging system is still a challenge due to the high variability of peach surface color, the similarity between the defects and stem, as well as the uneven distribution of lightness on peaches. In order to detect the common defects on peaches using hyperspectral imaging, defects were divided into two different types: artificial defects and non-artificial defects. For artificial defect detection, a two-step multivariate analysis method (Monte Carlo-Uninformative Variable Elimination and successful projections algorithm) was conducted in the spectral domain for the discriminant wavelength (DW) selection, and then minimum noise fraction (MNF) transform was conducted on the images at DWs for image processing and artificial defect detection. For the candidate non-artificial defect detection; a pair of two characteristic wavelengths at 925 nm and 726 nm was selected by analyzing the full spectra of sound and non-artificial defective regions, and then a band math equation was constructed for differentiating the non-artificial defect regions and stems from the sound and physical damage regions, and the candidate non-artificial defects (including non-artificial defects and stems) could be segmented by using a simple threshold method. In order to distinguish the stem from the segmented candidate non-artificial defect regions, another band math equation was constructed based on another pair of two characteristic wavelengths at 650 nm and 675 nm for stem identification. Additionally, the uneven lightness distribution in the spectral images was also investigated and eliminated by the band math methods. The overall classification accuracy of 93.3% for the 120 samples indicated that the selected DWs and proposed method were suitable and efficient for the common defect detection. The limitation of our research is the static inspection in one single view. (C) 2015 Elsevier B.V. All rights reserved.
分类号: S
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