[1]Comparative Study on Remote Sensing Invertion Methods for Estimating Winter Wheat Leaf Area Index. Xie Qiao-yun,Huang Wen-jiang,Peng Dai-liang,Zhang Qing,Xie Qiao-yun,Liang Dong,Huang Lin-sheng,Zhang Dong-yan,Cai Shu-hong,Yang Gui-jun. 2014

[2]The inversion model of soil organic matter of cultivated land based on hyperspectral technology. Gu, Xiaohe,Wang, Yancang,Song, Xiaoyu,Xu, Xingang. 2015

[3]A New Method to Decline the SWC Effect on the Accuracy for Monitoring SOM with Hyperspectral Technology. Wang Chao,Feng Mei-chen,Yang Wu-de,Xiao Lu-jie,Li Guang-xin,Zhao Jia-jia,Ren Peng,Li Guang-xin. 2015

[4]Effect of vegetation coverage on aeolian dust accumulation in a semiarid steppe of northern China. Yan, Yuchun,Xin, Xiaoping,Yang, Guixia,Wang, Xu,Yan, Ruirui,Chen, Baorui,Xu, Xingliang. 2011

[5]Response of the bacterial diversity and soil enzyme activity in particle-size fractions of Mollisol after different fertilization in a long-term experiment. Ling, Ning,Sun, Yuming,Ma, Jinghua,Guo, Junjie,Yu, Guanghui,Ran, Wei,Guo, Shiwei,Shen, Qirong,Zhu, Ping,Peng, Chang.

[6]Estimation of leaf chlorophyll content in winter wheat using variable importance for projection (VIP) with hyperspectral data. He, Peng,Xu, Xingang,Li, Zhenhai,Feng, Haikuan,Yang, Guijun,Zhang, Yongfeng,He, Peng,Xu, Xingang,Li, Zhenhai,Feng, Haikuan,Yang, Guijun,Zhang, Yongfeng,He, Peng,He, Peng,Zhang, Baolei. 2015

[7]Leaf nitrogen spectral reflectance model of winter wheat (Triticum aestivum) based on PROSPECT: simulation and inversion. Yang, Guijun,Zhao, Chunjiang,Sun, Chenhong,Yang, Guijun,Zhao, Chunjiang,Feng, Haikuan,Li, Zhenhai,Li, Heli,Pu, Ruiliang. 2015

[8]Determination of high concentration nicotinic amide by near infrared spectrocopy. Feng, H,Xu, ZD,Wu, HX,Jiang, Y. 2001

[9]Rapid and non-destructive identification of water-injected beef samples using multispectral imaging analysis. Liu, Jinxia,Pan, Wenjuan,Ma, Fei,Liu, Changhong,Chen, Wei,Zheng, Lei,Cao, Yue,Zheng, Lei,Wang, Qiu,Yang, Jianbo. 2016

[10]Estimation of Winter Wheat Above-Ground Biomass Using Unmanned Aerial Vehicle-Based Snapshot Hyperspectral Sensor and Crop Height Improved Models. Yue, Jibo,Yang, Guijun,Li, Zhenhai,Wang, Yanjie,Feng, Haikuan,Xu, Bo,Yue, Jibo,Yue, Jibo,Li, Changchun,Wang, Yanjie,Yang, Guijun,Li, Zhenhai,Wang, Yanjie,Feng, Haikuan,Xu, Bo,Yang, Guijun,Li, Zhenhai,Xu, Bo. 2017

[11]Near Infrared Spectrum Detection Method for Moisture Content of Populus Euphratica Leaf. Bai Tie-Cheng,Wang Ya-ming,Zhang Nan-nan,Yao Na,Yu Cai-li,Bai Tie-Cheng,Wang Xing-peng,Wang Xing-peng. 2017

[12]Estimating Wheat Grain Protein Content Using Multi-Temporal Remote Sensing Data Based on Partial Least Squares Regression. Li Cun-jun,Wang Ji-hua,Wang Qian,Wang Da-cheng,Song Xiao-yu,Wang Yan,Huang Wen-jiang,Li Cun-jun,Wang Ji-hua,Huang Wen-jiang. 2012

[13]Improvement on enhanced Monte-Carlo outlier detection method. Zhang, Liangxiao,Wang, Du,Li, Peiwu,Zhang, Wen,Mao, Jin,Yu, Li,Ding, Xiaoxia,Zhang, Qi,Zhang, Wen,Li, Peiwu,Zhang, Qi,Zhang, Liangxiao,Li, Peiwu,Mao, Jin,Ding, Xiaoxia,Zhang, Liangxiao,Wang, Du,Li, Peiwu,Zhang, Wen,Yu, Li,Zhang, Liangxiao,Gao, Rongrong.

[14]Comparison of two methods for monitoring leaf total chlorophyll content (LTCC) of wheat using field spectrometer data. Jin, X.,Wang, K.,Li, S.,Jin, X.,Diao, W.,Xiao, C.,Wang, K.,Li, S.,Wang, F.,Chen, B..

[15]Feasibility of SSC Prediction for Navel Orange Based on Origin Recognition Using NIR Spectroscopy. Lyu, Qiang,Liao, Qiuhong,Liu, Yanli,Lyu, Qiang,Lan, Yubin. 2015

[16]Bacterial communities and volatile compounds in Doubanjiang, a Chinese traditional red pepper paste. Dong, L.,Huang, Q.,Wang, X..

[17]Comparison of Four Chemometric Techniques for Estimating Leaf Nitrogen Concentrations in Winter Wheat (Triticum Aestivum) Based on Hyperspectral Features. Li, Zh.,Wei, Ch.,Wang, J.,Li, Zh.,Nie, Ch.,Xu, X.,Song, X.,Li, Zh.,Nie, Ch.,Xu, X.,Song, X.,Wang, J..

[18]Application of support vector machine for detecting rice diseases using shape and color texture features. Yao, Qing,Guan, Zexin,Zhou, Yingfeng,Tang, Jian,Hu, Yang,Yang, Baojun. 2009

[19]Support-Vector-Machine-Based Models for Modeling Daily Reference Evapotranspiration With Limited Climatic Data in Extreme Arid Regions. Wen, Xiaohu,Si, Jianhua,He, Zhibin,Yu, Haijiao,Wu, Jun,Shao, Hongbo,Shao, Hongbo. 2015

[20]Geographic Characterization of Leccinum rugosiceps by Ultraviolet and Infrared Spectral Fusion. Yao, Sen,Liu, Hong-Gao,Li, Jie-Qing,Yao, Sen,Wang, Yuan-Zhong,Li, Tao,Wang, Yuan-Zhong. 2017