Please wait a minute...
浙江大学学报(农业与生命科学版)
浙江大学学报(农业与生命科学版)  2014, Vol. 40 Issue (2): 188-196    DOI: 10.3785/j.issn.1008-9209.2013.08.241
农业科学     
高光谱图像技术结合图像处理方法检测马铃薯外部缺陷
苏文浩, 刘贵珊*, 何建国, 王松磊, 贺晓光, 王伟, 吴龙国
(宁夏大学农学院,银川 750021)
Detection of external defects on potatoes by hyperspectral imaging technology and image processing method.
Su Wenhao, Liu Guishan*, He Jianguo, Wang Songlei, He Xiaoguang, Wang Wei, Wu Longguo
(School of Agriculture, Ningxia University, Yinchuan 750021, China)
 全文: PDF(4859 KB)   HTML (
摘要: 利用高光谱图像技术在400~1 000 nm光谱区域检测马铃薯外部缺陷,通过特征波段主成分分析法和图像差值算法建立马铃薯外部缺陷在线无损检测方法.以6种缺陷类型(机械损伤、孔洞、疮痂、表面碰伤、绿皮、发芽)以及完好无损的合格马铃薯为研究对象,分别获取它们的高光谱图像,提取并分析高光谱图像中感兴趣区域的反射率光谱;利用主成分分析法对光谱数据降维,根据所有类型马铃薯第2主成分图像的权重系数曲线的局部极值选取5个特征波长(478,670,723,819,973 nm);然后对选出的特征波长进行主成分分析,得到5个新的主成分图像,并针对不同的马铃薯缺陷类型分别选出马铃薯缺陷部位与周围区域灰度值差别最明显的主成分图像,通过阈值分割、腐蚀、膨胀和连通度分析等图像处理方法对马铃薯的外部缺陷进行识别.结果表明,其正确识别率达到82.50%.为进一步消除马铃薯图像背景区域的灰度值对其缺陷部位的影响,同时提高缺陷部位与周围区域的对比度,利用图像差值算法,并与特征波长主成分分析法相结合,再经过阈值分割、腐蚀、膨胀和连通度分析等步骤进行识别.结果表明,全部7种类型马铃薯的正确识别率达到96.43%.说明高光谱图像技术结合图像处理方法可以有效地识别马铃薯外部缺陷.
Abstract: Potato is the fourth major food crops in the world after rice, wheat and maize, and it can also be used as important vegetables, feed and industrial raw materials. Potatoes with short growth cycle, strong adaptability, high yield, wide range of uses and long industrial chain have a huge potential of valueadded processing. It is known as one of the top ten popular healthy and nutritious foods, as well as one of the economic crops with best developmental prospect in the world in the 21st century. However, some external defects on potatoes seriously affect their qualities. The traditional classification method has low efficiency and poor objectivity, costs big labor intensity, and is difficult to identify shortcomings through it. In order to realize the accurate and fast classification of potatoes in the process of actual processing, various potatoes with external defects were detected in spectral region of 400-1 000 nm using hyperspectral image technology, and an online nondestructive testing method was established by principal component analysis of characteristic wavelengths and image subtraction algorithm. Six defective potato types (mechanical damage, hole, scab, surface bruise, sprout, green skin, normal) and one qualified potato type were used as the research objects in this study, and their hyperspectral images were obtained, respectively. Then the reflectance spectrums of interest regions of potato in these hyperspectral images were extracted and analyzed. Principal component analysis was used for spectral data dimension reduction. Five feature wavelengths (478, 670, 723, 819 and 973 nm) were selected according to the local extrema of weight coefficient curve of the second principal component image of all the potato types. After that, principal component analysis was conducted again based on the five selected characteristic wavelengths, then elected the principal component images where the differences of grey value between the defective area and the surrounding area on potatoes were most obvious. Furthermore, in order to eliminate the impact of grey value of potato images in the background and improve the contrast between defective area and surrounding area, image subtraction algorithm was put forward. Using the subtraction method based on the principal component image and the reference image can effectively eliminate the influence of background region and the reflect light of potato surface. Potato external defects were identified through image processing methods, such as threshold segmentation, corrosion, expansion and connectivity analysis. The result showed that the recognition rate of all the seven potato types achieved 82.50% using principal component analysis method of the characteristic wavelengths, however, it was found up to 96.43% using image subtraction algorithm combined with principal component analysis method, indicating that the latter can more accurately identify the defective area. In sum, this image processing method based on hyperspectral image can effectively identify the external defects on potatoes, which can realize the accurate and fast classification of potatoes in the process of actual processing and has a great application prospect in the future.
出版日期: 2014-03-20
CLC:  TP 391.41  
服务  
把本文推荐给朋友
加入引用管理器
E-mail Alert
RSS
作者相关文章  
何建国
王松磊
刘贵珊*
苏文浩
贺晓光
王伟
吴龙国

引用本文:

苏文浩, 刘贵珊*, 何建国, 王松磊, 贺晓光, 王伟, 吴龙国. 高光谱图像技术结合图像处理方法检测马铃薯外部缺陷[J]. 浙江大学学报(农业与生命科学版), 2014, 40(2): 188-196.

Su Wenhao, Liu Guishan*, He Jianguo, Wang Songlei, He Xiaoguang, Wang Wei, Wu Longguo . Detection of external defects on potatoes by hyperspectral imaging technology and image processing method.. Journal of Zhejiang University (Agriculture and Life Sciences), 2014, 40(2): 188-196.

链接本文:

http://www.zjujournals.com/agr/CN/10.3785/j.issn.1008-9209.2013.08.241        http://www.zjujournals.com/agr/CN/Y2014/V40/I2/188

No related articles found!