Detection of defects on apple using B-spline lighting correction method

文献类型: 外文期刊

第一作者: Li, Jiangbo

作者: Li, Jiangbo;Huang, Wenqian;Guo, Zhiming

作者机构:

关键词: machine vision;image processing;defect detection;apples;lighting correction

期刊名称:PIAGENG 2013: IMAGE PROCESSING AND PHOTONICS FOR AGRICULTURAL ENGINEERING

ISSN: 0277-786X

年卷期: 2013 年 8761 卷

页码:

收录情况: SCI

摘要: To effectively extract defective areas in fruits, the uneven intensity distribution that was produced by the lighting system or by part of the vision system in the image must be corrected. A methodology was used to convert non-uniform intensity distribution on spherical objects into a uniform intensity distribution. A basically plane image with the defective area having a lower gray level than this plane was obtained by using proposed algorithms. Then, the defective areas can be easily extracted by a global threshold value. The experimental results with a 94.0% classification rate based on 100 apple images showed that the proposed algorithm was simple and effective. This proposed method can be applied to other spherical fruits.

分类号:

  • 相关文献

[1]Automatic detection of defective apples using NIR coded structured light and fast lightness correction. Zhang, Chi,Zhao, Chunjiang,Huang, Wenqian,Wang, Qingyan,Liu, Shenggen,Li, Jiangbo,Guo, Zhiming.

[2]Detection of Thrips Defect on Green-Peel Citrus Using Hyperspectral Imaging Technology Combining PCA and B-Spline Lighting Correction Method. Dong Chun-wang,Ye Yang,Zhang Jian-qiang,Zhu Hong-kai,Liu Fei,Dong Chun-wang. 2014

[3]A Measurement Method on Pesticide Residues of Apple Surface Based on Laser-Induced Breakdown Spectroscopy. Ma, Feiyu,Dong, Daming.

[4]Occurrence of Phytoplasmas Related to Stolbur and to 'Candidatus Phytoplasma japonicum' in Woody Host Plants in China. Contaldo, Nicoletta,Paltrinieri, Samanta,Bertaccini, Assunta,Duduk, Bojan,Tian, Janbao,Fan, Xinping,Chen, Qiufang,Zhao, Qifeng.

[5]Multispectral detection of skin defects of bi-colored peaches based on vis-NIR hyperspectral imaging. Li, Jiangbo,Chen, Liping,Huang, Wenqian,Wang, Qingyan,Zhang, Baohua,Tian, Xi,Li, Bin,Li, Jiangbo,Chen, Liping,Huang, Wenqian,Wang, Qingyan,Tian, Xi,Fan, Shuxiang,Li, Bin,Li, Jiangbo,Chen, Liping,Huang, Wenqian,Li, Jiangbo,Chen, Liping,Huang, Wenqian.

[6]Plant Identification Based on Artificial Intelligence. Hou Chun Sheng,Zhou Ting. 2011

[7]Design and Test of Tomatoes Harvesting Robot. Feng, Qingchun,Wang, Xiaonan,Wang, Guohua,Li, Zhen. 2015

[8]Monitoring of Winter Wheat Aboveground Fresh Biomass Based on Multi-Information Fusion Technology. Zheng Ling,Dong Da-ming,Zhang Bao-hua,Wang Cheng,Zhao Chun-jiang,Zheng Ling,Zhu Da-zhou. 2016

[9]Developing a machine vision system for simultaneous prediction of freshness indicators based on tilapia (Oreochromis niloticus) pupil and gill color during storage at 4 degrees C. Shi, Ce,Qian, Jianping,Han, Shuai,Fan, Beilei,Yang, Xinting,Wu, Xiaoming,Shi, Ce,Qian, Jianping,Han, Shuai,Fan, Beilei,Yang, Xinting,Wu, Xiaoming,Shi, Ce,Qian, Jianping,Han, Shuai,Fan, Beilei,Yang, Xinting,Wu, Xiaoming. 2018

[10]Segmentation of Cotton Leaves Based on Improved Watershed Algorithm. Niu, Chong,Niu, Yuguang,Niu, Chong,Li, Han,Zheng, Wengang,Niu, Chong,Li, Han,Zheng, Wengang,Zhou, Zengchan,Bu, Yunlong. 2016

[11]Design and test of tray-seedling sorting transplanter. Feng Qingchun,Zhao Chunjiang,Jiang Kai,Fan Pengfei,Wang Xiu. 2015

[12]Recognition of wheat preharvest sprouting based on hyperspectral imaging. Wu, Qiong,Wang, Jihua,Wu, Qiong,Zhu, Dazhou,Wang, Cheng,Ma, Zhihong,Wang, Jihua. 2012

[13]Collection of Group Characteristics of Pleurotus Eryngii Using Machine Vision. Wang, Yunsheng,Wan, Changzhao,Yang, Juan,Chen, Jianlin,Yuan, Tao,Zhao, Jingyin. 2010

[14]Machine vision technology for detecting the external defects of fruits - a review. Li, J. B.,Huang, W. Q.,Zhao, C. J.. 2015

[15]Identification of fruit and branch in natural scenes for citrus harvesting robot using machine vision and support vector machine. Qiang, Lu,Lie, Deng,Cai Jianrong,Bin, Liu,Zhang Yajing. 2014

[16]Survey of Support Vector Machine in the Processing of Remote Sensing Image. Li, Su,Wang, Wenchao. 2013

[17]Quick image processing method of HJ satellites applied in agriculture monitoring. Yu Haiyang,Liu Yanmei,Yang Guijun,Yang Xiaodong,Yu Haiyang,Liu Yanmei,Yang Guijun,Yang Xiaodong. 2016

[18]Image processing methods to evaluate tomato and zucchini damage in post-harvest stages. Antonio Alvarez-Bermejo, Jose,Giagnocavo, Cynthia,Ming, Li,Yang Xinting,Castillo Morales, Encarnacion,Morales Santos, Diego P.. 2017

[19]Motion Blurring Direction Identification Based on Second-Order Difference Spectrum. Zhang, Junxiong,Li, Wei,He, Fen. 2011

[20]THE INFRARED THERMAL IMAGE-BASED MONITORING PROCESS OF PEACH DECAY UNDER UNCONTROLLED TEMPERATURE CONDITIONS. Jiao, L. Z.,Wu, W. B.,Zheng, W. G.,Dong, D. M.. 2015

作者其他论文 更多>>

微信小程序