[1]Design of structured-light vision system for tomato harvesting robot. Feng Qingchun,Zhou Jianjun,Wang Xiu,Cheng Wei. 2014

[2]Design and test of robotic harvesting system for cherry tomato. Feng, Qingchun,Feng, Qingchun,Feng, Qingchun,Zou, Wei,Zou, Wei,Zou, Wei,Fan, Pengfei,Zhang, Chunfeng,Fan, Pengfei,Zhang, Chunfeng,Fan, Pengfei,Zhang, Chunfeng,Wang, Xiu,Wang, Xiu,Wang, Xiu. 2018

[3]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

[4]Detection of defects on apple using B-spline lighting correction method. Li, Jiangbo,Huang, Wenqian,Guo, Zhiming. 2013

[5]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

[6]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

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

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

[9]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.

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

[11]Establishment and Application of Ty-2 Molecular Marker in Tomatoes. Ruixing Yatng,Shuwen lv,Min Chai,Haitao Li. 2012

[12]Determining the Dominant Environmental Parameters for Greenhouse Tomato Seedling Growth Modeling Using Canonical Correlation Analysis. Q. Qiu,K. Shi,X. J. Qiao,K. Jiang. 2016

[13]Design of End-effector for Tomato Robotic Harvesting. Wang, Guohua,Yu, Yabo,Feng, Qingchun. 2016

[14]Residue behavior and dietary intake risk assessment of three fungicides in tomatoes (Lycopersicon esculentum Mill.) under greenhouse conditions. Zhu, Xiaodan,Jia, Chunhong,Yu, Pingzhong,He, Min,Chen, Li,Zhao, Ercheng,Duan, Lifang,Zhang, Wei. 2016

[15]Determining the Dominant Environmental Parameters for Greenhouse Tomato Seedling Growth Modeling Using Canonical Correlation Analysis. Qiu, Q.,Qiao, X. J.,Jiang, K.,Shi, K.. 2016

[16]Tomato Leaf Liriomyza Sativae Blanchard Pest Detection Based on Hyperspectral Technology. Li Cui-ling,Jiang Kai,Ma Wei,Wang Xiu,Meng Zhi-jun,Zhao Xue-guan,Song Jian,Li Cui-ling,Jiang Kai,Ma Wei,Wang Xiu,Meng Zhi-jun,Zhao Xue-guan,Song Jian. 2018

[17]Comparison of Coconut Coir, Rockwool, and Peat Cultivations for Tomato Production: Nutrient Balance, Plant Growth and Fruit Quality. Xiong, Jing,Wang, Jingguo,Chen, Qing,Xiong, Jing,Liu, Wei,Tian, Yongqiang. 2017

[18]Small RNAs were involved in homozygous state-associated silencing of a marker gene (Neomycin phosphotransferase II: NptII) in transgenic tomato plants. Deng, Lei,Pan, Yu,Chen, Guoping,Hu, Zongli,Chen, Xuqing.

[19]Gene expression analyses of ZmPti1, encoding a maize Pti-like kinase, suggest a role in stress signaling. Zou, HW,Wu, ZY,Yang, Q,Zhang, XH,Cao, MQ,Jia, WS,Huang, CL,Xiao, X.

[20]Establishment and Application of Ty-2 Molecular Marker in Tomatoes. Yang, Ruixing,Li, Haitao,Lv, Shuwen,Li, Haitao,Chai, Min. 2012