孙国祥

职 称

副教授

系别

电气工程系

学 位

博士

电话

15850760301

E-mail

sguoxiang@njau.edu.cn

单位地址

南京市浦口区点将台路40号

邮编

210031

研究领域

计算机视觉技术、高通量植物表型测量技术、果园信息感知技术

社会兼职

无

承担项目

主持项目：

（1）国家重点研发计划子课题：现代果园智能化精细生产管理技术装备研发：现代果园冠层/花果的信息感知与智能管控系统（2017YFD0701401-1），2017.07.01-2020.12.31，项目经费：105万，主持；

（2）江苏省自然科学基金项目：基于多光谱成像和空间雕刻技术的设施作物信息测量与诊断系统研究（BK20170727），2017.07.01-2020.06.30，项目经费：20万，主持（已结题）；

（3）中央高校基本科研业务费自主创新重点项目：车载式温室作物表型测量系统研究（KYGX201703），2017.01.01-2019.12.31，项目经费：50万，主持；

（4）江苏省农业科技自主创新资金项目子项目：设施蔬菜生产关键技术与装备配套技术研发（CX（16）1002），2016.06.01-2019.05.30，项目经费：20万，主持（已结题）。

参与项目：

（1）江苏省农业科技自主创新资金项目：基于秸秆综合利用的稻麦生产全程机械化技术与装备集成方案（CX（17）1002），2017.07.01-2020.6.30，项目经费：1000万，参与：5/56；

（2）江苏省自然科学基金项目：基于机器视觉和叶绿素荧光技术的温室作物信息监测与诊断系统研究(BK20150686)，2015.07.01-2018.06.30，项目经费：20万，参与：4/6；（已结题）

（3）国家重点研发计划子课题：基于传感器的南方稻麦轮作区稻麦精准变量施肥技术与装备研发（2016YFD0200602-4），2016.01.01-2020.12.31，项目经费：120万，参与：3/8；

（4）国家科技支撑计划项目：土壤肥力培育机械化关键技术研究与示范之子课题-测土配方施肥装备的研制及其试验示范（2013BAD08B04-8），2013.01.01-2017.12.31，项目经费：50万，参与4/8（已结题）；

（5）国家自然科学基金项目：基于作物信息融合的多尺度温室环境控制系统研究（61273227），2013.01.01-2016.12.31，可支配经费：4万，项目经费：80万，参与：5/10（已结题）；

（6）国家科技支撑计划项目：设施园艺清洁高效生产配套装备研制与产业化示范（2014BAD08B04），2014.01.01-2016.12.31，项目经费：18万，参与：2/8（已结题）；

（7）江苏省前瞻性研究项目：设施农业生产智能化管控技术研究及其配套装备研制（BY2012139），2012.09.01-2014.09.01，项目经费：25万，参与：3/11（已结题）；

（8）江苏省科技支撑计划：基于ZigBee和FPGA的温室作物生长参数监测与智能控制系统的研制（BE2011336），2011.09.01-2013.12.31，项目经费：40万，参与：5/13（已结题）。

学术成果

近期主要论文：

[1] Guoxiang Sun, Xiaochan Wang, Haihui Yang, Xianjie Zhang. A Canopy Information Measurement Method for Modern Standardized Apple Orchards based on UAV Multimodal Information[J]. Sensors, 2020, 20(10), 2985.

[2] Guoxiang Sun, Yongqian Ding, Xiaochan Wang, Wei Lu, Ye Sun, Yu Hongfeng. Nondestructive Determination of Nitrogen, Phosphorus and Potassium Contents in Greenhouse Tomato Plants Based on Multispectral Three-Dimensional Imaging[J]. Sensors, 2019, 19(23), 5295.

[3] Guoxiang Sun,Xiaochan Wang, Ye Sun, Yongqian Ding, Wei Lu．Measurement Method Based on Multispectral Three-Dimensional Imaging for the Chlorophyll Contents of Greenhouse Tomato Plants[J]．Sensors, 2019, 19(15), 3345．

[4] Guoxiang Sun,Xiaochan Wang．Three-dimensional Point Cloud Reconstruction and Morphology Measurement Method for Greenhouse Plants based on the Kinect Sensor Self-calibration [J]．Agronomy, 2019, 9(10), 596.

[5] Guoxiang Sun,Xiaochan Wang, Yongqian Ding, Wei Lu, Ye Sun．Remote Measurement of Apple Orchard Canopy Information Using Unmanned Aerial Vehicle Photogrammetry[J]．Agronomy, 2019, 9(11), 774.

[6]Guoxiang Sun,Xiaochan Wang*, Yongqian Ding, Yuhua Li, Baohua Zhang, Yongbo Li, Yu Zhang．Image compression algorithm of floral canopy based on mask hybrid coding for ROI[J]．Int J Agric & Biol Eng, 2017, 10(5):166-176．

[7]Guoxiang Sun,Yongbo Li, Xiaochan Wang*, Guyue Hu, Xuan Wang, Yu Zhang．Image segmentation algorithm for greenhouse cucumber canopy under various natural lighting conditions[J]．Int J Agric & Biol Eng, 2016, 9(3): 130-138．

[8]Guoxiang Sun, Xue Li, Xiaochan Wang*, et al．Design and testing of a nutrient mixing machine for greenhouse fertigation[J]．Engineering in Agriculture, Environment and Food, 2015, 8(2): 114-121．

[9]Guoxiang Sun, Yongbo Li, Yu Zhang,Xiaochan Wang*,et al．Nondestructive measurement method for greenhouse cucumber parameters based on machine vision[J]．Engineering in Agriculture, Environment and Food, 2016, 9(1):70-78．

[10]Guoxiang Sun, Huan Zhang, Yongqian Ding*, Zhenlin Qu, Weiping Bi, Hua Li．Method of Measuring the Spectral Reflectance of Crop Canopy Based on Three-Dimensional Structural Analysis[C]．IFAC-PapersOnLine (5th IFAC Conference on Sensing, Control and Automation Technologies for Agriculture AGRICONTROL 2016, Seattle, WA, USA), 2016, 49(16):194-198．

[11] Haihui Yang, Xiaochan Wang,Guoxiang Sun*．Three-Dimensional Morphological Measurement Method for a Fruit Tree Canopy Based on Kinect Sensor Self-Calibration[J]．Agronomy, 2019, 9, 741．

[12] Jin Zhao,Guoxiang Sun, Xiaochan Wang*, Zhang Zhuo. Greenhouse plant morphology information panorama measurement system based on RGB-D vision[J]．International Agricultural Engineering Journal, 2019, 28(2): 314-323．

[13] Li Yongbo,Sun Guoxiang, Wang Xiaochan．Temperature Field-Wind Velocity Field Optimum Control of Greenhouse Environment Based on CFD Model[J]．Mathematical Problems in Engineering, 2014, 1-9．

[14] Li Yongbo,Sun Guoxiang, Wang Xiaochan, Ding Weimin．Development of state space model based on sap flow-leaf temperature (SF-LT) data for cultivation of cucumber in greenhouse during summer[J]．RESEARCH ON CROPS, 2013, 14(3):882-889．

[15] Guoming He, Xiaochan Wang*,Guoxiang Sun．Design of a greenhouse humiture monitoring system based on zigbee wireless sensor networks[C]．5th International Conference on Frontier of Computer Science and Technology, FCST 2010, p361-365, August 18, 2010-August 22, 2010, Changchun, China．

[17] Hongfeng Yu, Yongqian Ding*, Xiuqing Fu, Haitao Liu, Minfeng Jin, Chuanlei Yang, Zhuo Liu,Guoxiang Sun, Xianglin Dou．A solid fertilizer and seed application rate measuring system for a seedfertilizer drill machine[J]．Computers and Electronics in Agriculture, 2019, 162: 836-844．

[18]孙国祥，汪小旵，刘景娜，等．基于相位相关法的温室番茄植株多模态三维重建算法研究[J]．农业工程学报，2019，35(18)：134-142．(EI)

[19]孙国祥，汪小旵*，闫婷婷，等．基于机器视觉的植物群体生长参数反演方法[J]．农业工程学报，2014，30(20)：187-195．(EI)

[20]孙国祥，汪小旵*，丁为民，等．基于CFD离散相模型雾滴沉积特性的模拟分析[J]．农业工程学报，2012，28(6)：13-19．(EI)

[21]孙国祥，李永博，汪小旵*，等．背负式喷雾器雾滴分布特性的CFD模拟与试验[J]．农业工程学报，2012，28(20)：73-79．(EI)

[22]孙国祥，汪小旵*，何国敏．基于边缘链码信息的番茄苗重叠叶面分割算法[J]．农业工程学报，2010，26(12)：206-211．(EI)

[23]孙国祥，汪小旵*，何国敏，等．穴盘苗移栽机末端执行器设计与虚拟样机分析[J]．农业机械学报，2010，41(10)：48-53．(EI)

[24]孙国祥，闫婷婷，汪小旵*，等．基于小波变换和动态神经网络的温室黄瓜蒸腾速率预测[J]．南京农业大学学报，2014，37(5)：143-152．

[25]孙国祥，汪小旵*，李永博，等．喷淋对夏季温室环境及作物生理参数的影响研究[J]．扬州大学学报(农业与生命科学版)，2014，35(3)：69-74．

[26]孙国祥，汪小旵*，李永博，等．不同时间尺度下温室无土栽培番茄蒸散规律研究[J]．灌溉排水学报，2015，34(3)：6-10．

[27]孙国祥，李永博，汪小旵*，等．基于作物生理信息的夏季温室黄瓜节水灌溉模型研究[J]．灌溉排水学报，2014，33(2)：1-5．

[28]孙国祥，陈满，汪小旵*，等．变量施肥机关键技术研究现状分析[J]．江苏农业科学，2014，42(2)：333-339．

[29]孙国祥，丁永前*．基于模糊算法的足球机器人目标跟踪控制[J]．计算机仿真，2009，26(3)：165-168．

[30]孙国祥，汪小旵*．穴盘苗叶面积测量系统的实现方法研究[J]．计算机工程与应用，2009，45(36)：232-234．

[31]孙国祥，汪小旵*，楼恩平，等．信息融合技术在温室环境控制系统中的应用[C]．第七届浙江中西部科技论坛农机化分论坛论文集，2013，129-136．

[32]汪小旵，李成光，杨振杰，孙国祥，等．移动式土壤旋耕蒸汽消毒机的研制[J]．农业工程学报，2018，34(2)：18-24．(EI)

[33]李永博，孙国祥，楼恩平，等．基于CFD模型的温室温度多指标GA优化控制[J]．农业机械学报，2013，44(3)：186-191．(EI)

[34]张瑜，汪小旵*，孙国祥，等．基于激光视觉的温室作物茎叶量测方法[J]．农业机械学报，2014，45(9)：254-259．(EI)

[35]张瑜，汪小旵*，孙国祥，等．基于集合经验模态分解与Elman神经网络的线椒株高预测[J]．农业工程学报，2015，31(18)：169-174．(EI)

[36]陈满，施印炎，汪小旵*，孙国祥，等．基于光谱探测的小麦精准追肥机设计与试验[J]．农业机械学报，2015，46(5)：26-32．(EI)

[37]陈满，施印炎，汪小旵*，孙国祥，等．冬小麦精准追肥机专家决策系统[J]．农业机械学报，2015，46(7)：17-22．(EI)

[38]汪小旵，陈满，孙国祥，等．冬小麦变量施肥机控制系统的设计与试验[J]．农业工程学报，2015，31(Z2)：88-92．(EI)

[39]陈满，鲁伟，汪小旵*，孙国祥，等．基于模糊PID的冬小麦变量追肥优化控制系统设计与试验[J]．农业机械学报，2016，47(2)：71-76．(EI)

[40]何国敏，汪小旵*，孙国祥．密植型温室番茄作物层温度的模拟研究．扬州大学学报(农业与生命科学版)，2011，32(2)：72-76．

[41]何国敏，汪小旵*，孙国祥．现代化温室自然通风时湿热环境CFD模拟研究[J]．西南大学学报(自然科学版)，2011，33(9)：1-6．

[42]狄娇，汪小旵*，孙国祥，等．温室轻简式灌溉施肥机的设计[J]．西北农林科技大学学报（自然科学版），2016，44(5)：222-227．

授权专利：

(1)发明专利：一种基于Kinect自主标定的高通量温室植物表型测量系统

发明人：孙国祥；汪小旵；丁永前；刘璎瑛；李永博；章永年；李玉花；张保华

专利号：201810746674.4

(2)发明专利：果树仿形精量喷雾机车

发明人：汪小旵；孙国祥；丁为民；傅锡敏

专利号：ZL200910312649.6

(3)发明专利：一种基于触压扰动信号的虫情检测装置及虫情预警系统

发明人：汪小旵；孙国祥；李永博；丁为民；刘德营；桂启发

专利号：ZL201210349569.X

(4)发明专利：基于无土栽培肥水灌溉系统的肥水高效精准混合方法

发明人：汪小旵；孙国祥；李永博；陈满；狄娇；闫婷婷；陈景波

专利号：ZL201410203507.7

(5)发明专利：基于作物信息融合的多尺度温室环境控制系统

发明人：汪小旵；李永博；孙国祥；桂启发；楼恩平

专利号：ZL201210191223.1

(6)发明专利：基于物联网的现代农业害虫诱虫灯

发明人：汪小旵；闫婷婷；孙国祥；张瑜；胡古月；王煊；鲁伟

专利号：ZL201510926638.2

(7)发明专利：一种自动精准获取害虫数量的双层LED诱虫灯

发明人：汪小旵；闫婷婷；孙国祥；张瑜；胡古月；王煊；鲁伟

专利号：ZL201510645325.X

(8)美国发明专利：Real-time counting insecticidal lamp

发明人：汪小旵；闫婷婷；孙国祥；胡古月

专利号：US 10,021,870 B2

申请日期：2017/9/28

授权日期：2018/6/17

(9)发明专利：基于窄带图像处理去除土壤背景干扰的光谱指数测量方法

发明人：丁永前；姜懿倬；余洪峰；孙国祥；刘卓

专利：201811236942.4

(10)实用新型：果园精量喷雾液压马达风扇转速控制装置

发明人：孙国祥；汪小旵；丁为民；傅锡敏

专利号：ZL200920284457.4

(11)实用新型：一种基于FPGA和无线射频RF的温室智能控制装置

发明人：汪小旵；孙国祥；丁为民

专利号：ZL201220115099.6

(12)实用新型：一种融入作物信息的温室环境控制系统

发明人：李永博；汪小旵；孙国祥；桂启发；楼恩平；李鹏飞

专利号：ZL201220309246.3

(13)实用新型：一种基于彩信的温室环境远程监控系统

发明人：孙国祥；汪小旵；李永博；保智敏；陈满；赵伟；桂启发

专利号：ZL201320130332.2

(14)实用新型：温室大棚气体检测显示报警系统

发明人：汪小旵；孙国祥；李永博；刘钊；桂启发；陈满；赵伟

专利号：ZL201320130139.9

(15)实用新型：智能温室大棚无土栽培肥水灌溉系统

发明人：汪小旵；孙国祥；狄娇；李永博；陈满；张瑜；施印炎

专利号：ZL201420137436.0

(16)实用新型：基于ARM的轻简式农业智能灌溉施肥控制系统

发明人：汪小旵；狄娇；孙国祥；李永博；陈满；施印炎；陈景波

专利号：ZL201420137378.1

(17)实用新型：基于高光谱信息的变量追肥监控系统

发明人：汪小旵；陈满；孙国祥；李永博；施印炎；狄娇；闫婷婷

专利号：ZL201420137405.5

申请软件著作权：

(1)软件名称：穴盘苗自动移栽机控制软件V1.0

著作权人：南京农业大学（汪小旵，孙国祥）

登记号：2009SR037550

(2)软件名称：ZigBee温室环境参数实时采集软件V1.0

著作权人：南京农业大学（汪小旵，孙国祥）

登记号：2011SR062899

(3)软件名称：Myscada组态一体化农业监控系统V1.0

著作权人：南京农业大学（汪小旵，孙国祥）

登记号：2015SR122021

(4)软件名称：设施栽培多通道数据监控软件V1.0

著作权人：南京农业大学（汪小旵，孙国祥）

登记号：2016SR051654

(5)软件名称：高通量温室植物三维形态测量软件V1.0

著作权人：南京农业大学（孙国祥）

登记号：2019SR0858216

(6)软件名称：现代标准化苹果园冠层信息测量软件V1.0

著作权人：南京农业大学（孙国祥）

登记号：2019SR0830783

奖励荣誉

(1)2016年教育部高等学校科学研究优秀成果奖技术发明奖二等奖：设施园艺物联网环境控制关键技术及装备（排名：3/6）

(2)2016年江苏农业科技奖二等奖：设施农业物联网环境控制关键技术及装备（排名：3/10）

(3)2016年江苏农机工业科技发明奖一等奖：设施农业物联网关键技术与装备创制（排名：3/10）

Title

Associate Professor

Department

Electrical Engineering

Degree

Ph. D.

Telephone

15850760301

E-mail

sguoxiang@njau.edu.cn

Unit address

40 Dianjiangtai Rd., Jiangbei New District, Nanjing, China

Post code

210031

Research field

Computer vision, High-throughput plant phenotyping,

Orchard information detection

Social appointments

None

Research projects

(1)National Key R&D Program of China (Sub-project 1): Modern Orchard canopy, flower and fruit information detection and intelligent Control System (Grants No. 2017YFD0701401-1, 07/2017-12/2020, 1.05 million CNY);

(2)The Natural Science Foundation of Jiangsu Province: The facility crop information measuring and diagnosis system based on multispectral space carving technology (Grants No. BK20170727, 07/2017-06/2020, 200,000 CNY);

(3)The Fundamental Research Funds for the Central Universities: Vehicle-mounted measurement system for the greenhouse plant phenotyping (Grants No. KYGX201703, 01/2017-12/2019, 500,000 CNY );

(4)Jiangsu province agricultural science and technology innovation fund: Key technology and equipment for facilities vegetable production-Portable mobile soil steam sterilization machine developed (Grants No. CX(16)1002, 06/2016-05/2019, 200,000 CNY);

(5)Youth fund of Nanjing agricultural university: Research on characteristics of droplet deposition based on CFD discrete phase model particle tracking (Grants No. KJ2011022, 09/2011-08/2013, 40,000 CNY);

(6)The Natural Science Foundation of Jiangsu Province: Research on information monitoring and diagnosis system of greenhouse crop based on machine vision and chlorophyll fluorescence technology (Grants No. BK20150686, 07/2015-06/2018, 200,000 CNY, 4/6);

(7)National science and technology support project: Clean and efficient production of horticultural facilities equipment development and industrialization demonstration ( Grants No. 2014BAD08B04, 01/2014-12/2016, 180,000 CNY, 2/8);

(8)National Natural Science Foundation of China: Research on the multi-scale greenhouse environmental control system based on crop information fusion (Grants No. 61273227, 01/2013-12/2016, 800,000 CNY, 5/10 );

(9) Jiangsu province science and technology support project: The greenhouse crop growth parameters monitoring and the development of intelligent control system based on ZigBee and FPGA (Grants No. BE2011336, 09/2011-12/2013, 400,000 CNY, 5/13).

Academic achievements

Major papers:

[1]Guoxiang Sun, Xiaochan Wang, Haihui Yang, Xianjie Zhang. A Canopy Information Measurement Method for Modern Standardized Apple Orchards based on UAV Multimodal Information[J]. Sensors, 2020, 20(10), 2985.https://doi.org/10.3390/s20102985

[2]Guoxiang Sun, Yongqian Ding, Xiaochan Wang, Wei Lu, Ye Sun, Yu Hongfeng. Nondestructive Determination of Nitrogen, Phosphorus and Potassium Contents in Greenhouse Tomato Plants Based on Multispectral Three-Dimensional Imaging [J]. Sensors, 2019, 19, 5295.https://doi.org/10.3390/s19235295

[3]Guoxiang Sun, Xiaochan Wang．Three-dimensional Point Cloud Reconstruction and Morphology Measurement Method for Greenhouse Plants based on the Kinect Sensor Self-calibration [J]. Agronomy, 2019, 9, 596. https://doi.org/10.3390/agronomy9100596

[4]Guoxiang Sun, Xiaochan Wang, Yongqian Ding, Wei Lu, Ye Sun．Remote Measurement of Apple Orchard Canopy Information Using Unmanned Aerial Vehicle Photogrammetry[J]. Agronomy, 2019, 9, 774.https://doi.org/10.3390/agronomy9110774

[5] Guoxiang Sun,Xiaochan Wang, Ye Sun, Yongqian Ding, Wei Lu. Measurement Method Based on Multispectral Three-Dimensional Imaging for the Chlorophyll Contents of Greenhouse Tomato Plants[J]. Sensors, 2019, 19, 3345．https://doi.org/10.3390/s19153345

[6]Guoxiang Sun, Xiaochan Wang*, Yongqian Ding, Yuhua Li, Baohua Zhang, Yongbo Li, Yu Zhang. Image compression algorithm of floral canopy based on mask hybrid coding for ROI [J]. International Journal of Agricultural and Biological Engineering, 2017, 10(5):166-176．https://doi.org/10.25165/j.ijabe.20171005.2772

[7]Guoxiang Sun,Yongbo Li, Xiaochan Wang*, Guyue Hu, Xuan Wang, Yu Zhang. Image segmentation algorithm for greenhouse cucumber canopy under various natural lighting conditions [J]. International Journal of Agricultural and Biological Engineering, 2016, 9(3): 130-138．https://doi.org/10.3965/j.ijabe.20160903.2102

[8]Guoxiang Sun, Xue Li, Xiaochan Wang*, et al.Design and testing of a nutrient mixing machine for greenhouse fertigation[J]. Engineering in Agriculture, Environment and Food, 2015, 8(2): 114-121．https://doi.org/10.1016/j.eaef.2014.12.001

[9]Guoxiang Sun, Yongbo Li, Yu Zhang,Xiaochan Wang*,et al. Nondestructive measurement method for greenhouse cucumber parameters based on machine vision [J].Engineering in Agriculture, Environment and Food, 2016, 9(1):70-78．

https://doi.org/10.1016/j.eaef.2015.06.003

[10]Guoxiang Sun, Huan Zhang, Yongqian Ding*, et al. Method of Measuring the Spectral Reflectance of Crop Canopy Based on Three-Dimensional Structural Analysis[C]. IFAC-PapersOnLine (5th IFAC Conference on Sensing, Control and Automation Technologies for Agriculture AGRICONTROL 2016, Seattle, WA, USA), 2016, 49(16):194-198．https://doi.org/10.1016/j.ifacol.2016.10.036

[11] Haihui Yang, Xiaochan Wang,Guoxiang Sun*. Three-Dimensional Morphological Measurement Method for a Fruit Tree Canopy Based on Kinect Sensor Self-Calibration [J]. Agronomy, 2019, 9, 741.https://doi.org/10.3390/agronomy9110741

[12]Guoxiang Sun, Xiaochan Wang, Jingna Liu, et al. Multi-modal three-dimensional reconstruction of greenhouse tomato plants based on phase-correlation method [J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2019, 35(18):134-142.

http://www.tcsae.org/nygcxb/ch/reader/view_abstract.aspx?file_no=20191817&flag=1

[13]Guoxiang Sun, Xiaochan Wang*, Tingting Yan, et al. Inversion method of flora growth parameters based on machine vision [J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE),2014,30(20):187-195.

http://www.tcsae.org/nygcxb/ch/reader/view_abstract.aspx?file_no=20142023&flag=1

[14] Guoxiang Sun, Xiaochan Wang*, Guomin He. Segmentation algorithm of overlapping tomato seedling leaves based on edge chaincode information[J]. Transactions of the CSAE, 2010, 26(12): 206－211.

http://www.tcsae.org/nygcxb/ch/reader/view_abstract.aspx?file_no=20101235&flag=1

[15]Guoxiang Sun,Tingting Yan, Xiaochan Wang*, et al. A method of cucumber transpiration rate forecast based on wavelet transform and dynamic neural network [J]. Journal of Nanjing Agricultural University, 2014, 37(5):143-152.

http://nauxb.njau.edu.cn/oa/darticle.aspx?type=view&id=201405023

[16]Guoxiang Sun, Xiaochan Wang*, Guomin He. Design of the End-effector for Plug Seedlings Transplanter and Analysis on Virtual Prototype [J]. Transactions of the Chinese Society for Agricultural Machinery, 2010, 41(10):48-53.

http://www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?flag=1&file_no=20101010&journal_id=jcsam

[17]Guoxiang Sun, Xiaochan Wang*, Weimin Ding, et al. Simulation analysis on characteristics of droplet deposition base on CFD discrete phase model [J]. Transactions of the Chinese Society of Agricultural Engineering, 2012, 28(6):13-19.

http://www.tcsae.org/nygcxb/ch/reader/view_abstract.aspx?file_no=20120603&flag=1

[18]Guoxiang Sun, Yongbo Li, Xiaochan* Wang, et al. CFD simulation and experiment of distribution characteristics for droplet of knapsack sprayer [J]. Transactions of the Chinese Society of Agricultural Engineering, 2012, 28(20):73-79.

http://www.tcsae.org/nygcxb/ch/reader/view_abstract.aspx?file_no=20122010&flag=1

Invention patents：

(1)China Patent:Sun Guoxiang, Wang Xiaochan, Ding Yongqian. 2018, A high-throughput greenhouse plant phenotypic measurement system based on Kinect self-calibration, The patent number: ZL201810746674.4,Nanjing Agricultural University,China.

(2)China Patent:Wang Xiaochan,Sun Guoxiang, Ding Weimin, Fu Ximin. 2011, Fruit tree imitating precision spraying locomotive, The patent number: ZL200910312649.6,Nanjing Agricultural University,China.

(3)China Patent:Wang Xiaochan,Sun Guoxiang, Li Yongbo, Ding Weimin, Liu Deying, Gui Qifa. 2014, Insect pest situation detecting device and insect pest situation early-warning system based on touch disturbing signals, The patent number: ZL201210349569.X,Nanjing Agricultural University,China.

(4)China Patent:Wang Xiaochan,Sun Guoxiang, Li Yongbo, Chen Man, Di Jiao, Yan Tingting, Chen Jingbo. 2015, High-efficiency accurate mixing method of fertilized groundwater on the basis of soilless culture fertilized groundwater irrigation system, The patent number: ZL201410203507.7,Nanjing Agricultural University,China.

(5)China Patent:Wang Xiaochan, Li Yongbo,Sun Guoxiang, Gui Qifa, Lou Enping. 2014, Multi-scale greenhouse environment control system based on crop information fusion, The patent number: ZL201210191223.1, Nanjing Agricultural University,China.

(6)United States Patent:Wang Xiaochan, Yan Tingting,Sun Guoxiang, Hu Guyue. 2018, Real-time counting insecticidal lamp, The patent number:US 10,021,870 B2,Nanjing Agricultural University,China.

Software copyright：

(1)Wang Xiaochan,Sun Guoxiang.2009, Control software V1.0 of automatic transplanting machine for plug seedling, Registration number: 2009SR037550,Nanjing Agricultural University,China.

(2)Wang Xiaochan,Sun Guoxiang.2011, Real-time data acquisition software V1.0 for greenhouse environment parameters based on Zigbee, Registration number:2011SR062899,Nanjing Agricultural University,China.

(3)Wang Xiaochan,Sun Guoxiang.2015, Integrated agricultural supervisory control system V1.0 with Myscada configuration, Registration number:2015SR122021,Nanjing Agricultural University,China.

(4)Wang Xiaochan,Sun Guoxiang.2016, Multi-channel data monitoring software V1.0 for protected horticultural cultivation, Registration number:2016SR051654,Nanjing Agricultural University,China.

(5)Sun Guoxiang.2019, High-throughput 3d morphological measurement software V1.0 for the greenhouse plant, Registration number:2019SR0858216,Nanjing Agricultural University,China.

(6)Sun Guoxiang.2019, Modern standardized apple orchard canopy information measurement software V1.0, Registration number:2019SR0830783,Nanjing Agricultural University,China.

Reward & honor

(1)2016, Technology Invention Award by the Ministry of Education(The second prize): The key technology and equipment based on IoT for protected horticulture environment control; (3/6)

(2)2016, Jiangsu agricultural science prize (The second prize): The key technology and equipment based on IoT for facility agriculture environment control;(3/10)

(3)2016, The science and technology award of jiangsu agricultural machinery and industry (The first prize): The iot key technology and equipment created for facility agriculture;(3/10)