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王超

发布时间:2024年03月07日 11:53 作者: 点击:[]


姓名

王超

电子邮箱

wcqxx2005@126.com

通讯地址

山西省晋中市太谷县华体会官方网站/入口/登陆/网址

邮政编码

030801

 



一、个人简介

王超,男,1988年生,博士,副教授,硕士生导师,山西平顺县人,教育部学位中心通讯评议专家,山西省现代农业产业技术体系小麦产业岗位专家。

二、学习工作简历

学习简历:

2013.09-2016.06  山西农业大学 作物学学科 作物信息技术方向 博士

2011.09-2013.06  山西农业大学 作物学学科 作物信息技术方向 硕士

2007.09-2011.06  山西农业大学 华体会官方网站/入口/登陆/网址 农学专业 学士

工作简历:

2023.11-现在   英国洛桑研究所           高级访问学者

2019.12- 现在  华体会官方网站/入口/登陆/网址农学系    副教授

2018.12- 现在  华体会官方网站/入口/登陆/网址农学系    硕士生导师

2018.07-2019.12  华体会官方网站/入口/登陆/网址农学系   讲师

2016.06-2018.06  华体会官方网站/入口/登陆/网址植物保护学科 博士后

三、研究方向

1. 作物生态与信息技术

2.智慧农业

3. 作物表型

4.农业遥感

四、教学科研概述

教学方面,承担本科生《现代农业生产学》、《现代农业信息技术》、《农业推广学》、《农业概论》,以及硕士研究生的《智慧农业》、《遥感技术及其应用》、《精确农业》《作物系统模拟》、《现代作物生产理论与技术》、《科技论文写作》等课程。

长期从事智慧农业方面的科研工作,先后主持中国博士后科学基金项目、山西省基础研究计划(面上)、山西省高等学校科技创新项目、山西农业大学科技创新项目、山西省研究生创新项目、山西省研究生教育改革项目9项,以及参加国家自然科学基金、国家重点研发项目、山西省重点研发项目等项目12项。以第一作者或者通讯作者,在国际和国家级学术刊物发表论文18篇,其中13篇被SCI收录,合作发表论文75篇。获国家专利2项。

五、教学科研项目

[1] 中国博士后科学基金面上项目,冬小麦田土壤团聚体特性的高光谱响应机理及监测研究2017M621105,2018.1-2018.12主持

[2] 山西省基础研究计划(面上),黄土高原农田土壤有机碳库的多源遥感响应机制及定量测算研究2022.10-2025.10主持

[3]  信息探测与处理山西省重点实验室开放基金项目,基于空地多源光谱遥感协同的冬小麦长势监测2022.11-2024.11主持

[4] 山西省教育厅研究生教育改革课题,优化来华研究生培养环节,创新来华研究生教育模式2021YJJG090 ,2021.10-2022.10主持

[5] 山西省高等学校科技创新项目,冬小麦田土壤颗粒有机碳的高光谱响应机制及监测方法研究2020L0132,2020.3-2022.3主持

[6] 山西省优秀博士来晋工作奖励科研项目,冬小麦田土壤有机碳高光谱响应机制及定量监测研究SXYBKY2018040,2019.1-2020.12主持

[7] 山西农业大学科技创新基金项目,冬小麦长势高光谱特征信息提取及监测方法研究2018YJ17,2019.1-2021.12主持

[8] 山西省高等学校教学改革项目,智慧农业产业学院产教融合协同育人机制及实践探索J20220266,2022.6-2024.5主持

[9] 山西省研究生创新项目,麦田土壤养分及冬小麦长势协同的高光谱信息挖掘与模型优化2015BY31,2015.1-2016.1主持

[10] 山西省研究生创新项目,麦田土壤属性互作的高光谱遥感信息提取与挖掘201330632014.1-2015.1主持

[11] 国家自然科学基金(面上)项目,黄土高原干旱区冬小麦田土壤有机碳固定机制及高光谱定量监测研究31871571,2019.1-2022.12参与

[12] 国家重点研发项目子课题,多源数据融合的杂豆病虫害智能预警预报2021YFD1600603-03,2021-2026参与

[13] 山西省重点研发计划项目,艺机一体化耕地质量提升关键技术研究与集成示范201903D211002,2019.9-2022.9参与

六、代表性论文

[1] Chao Wang, Xiaobin Yan, Longmei Gao, Mingyu Zong, Yan Bai, Xiaomei Zhang, Meichen Feng, Yu Zhao, Lujie Xiao, Chenbo Yang, Guangxin Li, Fangzhou Li, Xingxing Qiao*, Wude Yang*, William Rechard. Leaf-scaled spectral estimation of photosynthetic phenotype from different soybean genotypes: a new index for charactering the leaf photosynthetic phenotypes,2024 (Remote Sensiong of Environment, Under review, Q1, IF=13.6)

[2] Chao Wang, Chunrui Gao, Jiaxue Zhang, Yingchao Hao, Yaoxuan Jia, Zhen Zhang, Zhengchun Liu, Yu Zhao, Meichen Feng, Fahad Shafiq, Chenbo Yang, Lujie Xiao, Xiaoyan Song, Mingxing Qin, Ning Jin, Wude Yang *, Xingxing Qiao*. Field scale assessment of winter wheat yield in Loess Plateau of China by assimilating the DSSAT model and Sentinel-2 data. 2024 (Computers and Electronics in Agriculture, Under review, Q1, IF=8.3).

[3] Sha Yang, Zhigang Wang, Ziyang Wang, Yiming Su; Hao Li, Xiaobin Yan, Xingxing Qiao, Meichen Fenga Lujie Xiao, Xiaoyan Song, Meijun Zhang, Guangxin Li, Fahad Shafiq, Wude Yang*, Chao Wang*(corresponding author). Study on soil carbon-nitrogen fixation mechanisms based on aggregate parameters under Different tillage practices. (European Journal of Agronomy, Minor Revsion, Q1, IF=5.2).

[4] Xiaobin Yan, Zhigang Wang, Yiming Su, Hao Li, Sha Yang, Meichen Feng, Xingxing Qiao, Yu Zhao, Lujie Xiao, Meijun Zhang, Xiaoyan Song, Chao Wang*(corresponding author), Wude Yang*. Hyperspectral estimation on the photosynthetic phenotype of winter wheat under drought stress using machine learning algorithms, 2024. (Field Crops Research, Under review, Q1, IF=5.8).

[5] Hao Li, Xiaobin Yan, Pengyan Su, Yiming Su, Junfeng Li, Zixin Xu, Chunrui Gao , Yu ZHAO, MeiChen FENG, Fahad Shafiq, LuJie XIAO, WuDe YANG, XingXing QIAO*, Chao Wang*(corresponding author). LAI estimation of winter wheat based on color index and texture features of UAV RGB images, 2024. (Industrial Crops and Products, Under review, Q1, IF=5.9).

[6] YiMing SU, XiaoBin YAN, Hao LI, ZiHao LIANG, ShuangMei ZHAO, Ping CHEN, Zhen ZHANG, XingXing QIAO, Yu ZHAO, MeiChen FENG, Fahad Shafiq, XiaoYan SONG, LuJie XIAO, WuDe YANG*, Chao WANG*(corresponding author). Monitoring the growth status of winter wheat by using the machine learning algorithm and the fusion of spectral and texture features derived from the UAV remote sensing, 2024 (Computers and Electronics in Agriculture, Under review, Q1, IF=8.3).

[7] Jiachen Wang, Binghan Jing, Xin Zhang, Yaoxuan Jia, Kunming Huang, Wude Yang, Meichen Feng, Zhen Zhang, Yu Zhao, Fahad Shafiq, Lujie Xiao, Xiaoyan Song, Meijun Zhang, Fangzhou Li, Xingxing Qiao*, Chao Wang*(corresponding author). Hyperspectral assessment of bacterial blight disease in red kidney beans by feature selection and machine learning algorithms. 2024 (Biosystems Engineering, Under review, Q1, IF=5.1).

[8] Sha Yang, Zhigang Wang, Caiyu Ji, Yingchao Hao, Zihao Liang, Xiaobin Yan, Xingxing Qiao, Meichen Feng, Lujie Xiao, Xiaoyan Song, Meijun Zhang, Guangxin Li, Fahad Shafiq, Wude Yang*, Chao Wang*(corresponding author). Efficient prediction of Soil Organic Carbon and components by Multiple Continuous Wavelet Transform spectra under different feature selection methods. Computers and Electronics in Agriculture 217 (2024) 108550. (Q1, IF=8.3).

[9] Chunrui Gao, Hao Li, Jiachen Wang, Xin Zhang, Kunming Huang, Xiaoyan Song, Wude Yang, Meichen Feng, Lujie Xiao, Yu Zhao, Fahad Shafiq, Xingxing Qiao, Fangzhou Li, Chao Wang* (corresponding author). Combined use of spectral resampling and machine learning algorithms to estimate soyabean leaf chlorophyll. Computers and Electronics in Agriculture, 2023 (209) 107859. (Q1, IF=8.3).

[10] ChunRui Gao, XiaoBin Yan, XingXing Qiao, KunXi Wei, XiaoMei Zhang, Sha Yang, Chao Wang* (corresponding author), WuDe Yang, MeiChen Feng, LuJie Xiao, MeiJun Zhang, Zhou Zhang, Fahad Shafiq, XiaoYan Song*. Multivariate prediction of soil aggregate-associated organic carbon by simulating satellite sensor bands. Computers and Electronics in Agriculture, 2023 (209) 107859. (Q1, IF=8.30).

[11] Sha Yang, Zhigang Wang, Chao Wang, et al. Estimation of generalized soil structure index based on differential spectra of different orders by multivariate assessment. International Soil and Water Conservation Research. 2023.( Q1, IF=6.40).

[12] Xiaomei Zhang, Xiaoxiang Hou, Yiming Su, XiaoBin Yan, Xingxing Qiao, Wude Yang, Meichen Feng, Huihua Kong, Zhou Zhang, Fahad Shafiq, Wenjie Han, Guangxin Li*, Ping Chen* and Chao Wang*(corresponding author). Analyzing protein concentration from intact wheat caryopsis using hyperspectral reflectance. Chemical and Biological Technologies in Agriculture. (2023) 10:83Q2, IF=6.60

[13] Xiaobin Yan, Xingxing Qiao, Sha Yang, Meichen Feng, Xiaoyan Song, Meijun Zhang, Lujie Xiao, Zhou Zhang, Fahad Shafiq, Wude Yang*, Chao Wang* (corresponding author). Hyperspectral response and monitoring study of soil moisture content based on the optimized spectral index[J]. Soil Science Society of America Journal, 2023, 87:216–230. (Q3, IF=2.90).

[14] Xuan Zhang, Hui Sun, Xingxing Qiao, Xiaobin Yan, Meichen Feng, Lujie Xiao, Xiaoyan Song, Meijun Zhang, Wude Yang*, Chao Wang*(corresponding author). Hyperspectral estimation of canopy chlorophyll of winter wheat by using the optimized vegetation indices[J]. Computers and Electronics in Agriculture, 2022 (193) 106654. (Q1, IF=8.30).

[15] Yaxin Wang, Sha Yang, Xiaobin Yan, Chenbo Yang, Meichen Feng, Lujie Xiao, Xiaoyan Song, Meijun Zhang, Fahad Shafiq, Hui Sun, Guangxin Li, Wude Yang*, Chao Wang* (corresponding author). Evaluation of data pre‑processing and regression models for precise estimation of soil organic carbon using Vis–NIR spectroscopy. Journal of Soils and Sediments, 2022. (Q2, IF=3.60).

[16] Sha Yang, YaxinWang, ZhigangWang, Xiaobin Yan, Meichen Feng, Lujie Xiao, Xiaoyan Song, Meijun Zhang, Guangxin Li, Fahad Shafiq, Wude Yang*, Chao Wang* (corresponding author). Interactive effects of conservation tillage on the aggregate stability and soil organic carbon[J]. J. Plant Nutr. Soil Sci. 2022;1–8. (Q3, IF=2.50).

[17] YAN, X. B. WANG, Y. X. ZHANG, X. WANG, Z. G. YANG, S. LI, Y. YANG, C. B. FENG, M. C. SONG, X. Y. ZHANG, M. J. XIAO, L. J. FAHAD, S. YANG, W. D.*, WANG, C. (corresponding author). Performance of pretreatments and multivariate method on the hyperspectral estimation of soil moisture content[J]. APPLIED ECOLOGY AND ENVIRONMENTAL RESEARCH, 2022, 20(3):2717-2732. (Q4, IF=0.70).

[18] Xingxing Qiao, Chao Wang (equal contribution), Meichen Feng, Meijun Zhang, Xiaoyan Song, Lujie Xiao, Guangxin Li, Xiuliang Jin, Sumera Anwar, Wude Yang (corresponding author). Hyperspectral response and quantitative estimation on soil aggregate characters[J]. Catena, 2021, 22:105286. (Q1, IF=6.20)

[19] Chao Wang, Xingxing Qiao, Guangxin Li, Meichen Feng, Yongkai Xie, Hui Sun, Meijun Zhang, Xiaoyan Song, Lujie Xiao, Sumera Anwar, Wude Yang (corresponding author). Hyperspectral Estimation of SOM and Clay Content in Loess Plateau of China. Agronomy Journal, 2021, 113: 2506–2523. (Q3, IF=2.10)

[20] Chao Wang, Xingxing Qiao, Zhuoya Liang, Guangxin Li, Lujie Xiao, Meijun Zhang, Xiaoyan Song, Muhammad Saleem Kubar, Meichen Feng, Wude Yang (corresponding author). Hyspectral prediction of soil organic matter in winter wheat field based on continuum-removed method. Fresenius environmental bulletin. 2021,30(7): 7979-7986. (Q4, IF=0.61).

[21] Chao Wang, Meichen Feng, Wude Yang (corresponding author), et al. Extraction of Sensitive Bands for Monitoring the Winter Wheat (Triticum aestivum) Growth Status and Yields Based on the Spectral Reflectance. PLoS ONE, 2017, 12(1): e0167679. doi:10.1371/journal.pone.0167679.

[22] Chao Wang, Meichen Feng, Wude Yang (corresponding author), et al. Use of Spectral Character toEvaluate Soil Organic Matter. Soil Science Society of American, 2016, 80(4): 1078-1088.

[23] Chao Wang, Meichen Feng, Wude Yang (corresponding author), et al. Impact of spectral saturation on leaf area index and above ground biomass of winter wheat[J]. Spectroscopy Letter, 2016, 49(4): 241-248.

[24] , 冯美臣, 杨武德等. 一种降低土壤水分对土壤有机质光谱监测精度的新方法[J]. 光谱学与光谱分析, 2015, 35(12): 3495-3499. (SCI).

[25] 王超,王建明,杨武德等. 基于多变量统计分析的冬小麦长势高光谱估算研究[J]. 光谱学与光谱分析.2018,38(5):1520-1525. (SCI).

26] 王超, 冯美臣, 杨武德, 等. 基于光谱遥感的冬小麦籽粒淀粉积累量的监测[J]. 中国生态农业学报, 2013, 21(4): 440-447.

[27] 王超, 冯美臣, 杨武德, 等. 麦田耕作层土壤有机质的高光谱监测[J]. 山西农业科学, 2014, 42(8): 869-873.

[28] 王超, 冯美臣, 尹超, 等. 基于反射光谱的不同播期冬小麦LAI监测研究[J]. 山西农业大学学报(自然科学版), 2012, 32(4): 307-311.

七、专著教材

农业推广学,中国农业出版社,2022年,参编

农业推广学,中国农业大学出版社,2022年,参编

八、成果专利规程

(一)专利:

1. 王超, 杨武德, 冯美臣, 宋晓彦, 张美俊, 肖璐洁. 一种用于精准监测麦田土壤氮素的取样装置, 实用新型专利, 2020.

2. 王超, 杨武德, 冯美臣, 张美俊, 宋晓彦, 肖璐洁. 一种农业干旱遥感监测装置, 实用新型专利, 2020.

3. 冯美臣, 杨武德, 王超, 张巽, 肖璐洁, 张美俊, 宋晓彦, 朱承林. 野外冷冻试验箱, 发明专利, 2020.

4. 杨武德, 荣二花, 冯美臣, 师学珍, 王超, 张美俊, 赵志国. 一种深层土壤取土器, 发明专利, 2015.

(二)规程:

1. 杨武德, 王超, 冯美臣, 张美俊, 宋晓彦, 肖璐洁, 武志明, 马红梅. 谷子无人机叶面肥喷施技术规程(DB14/T2061-2020, 山西省地方标准, 2020.11.10实施

2. 冯美臣, 王超, 张美俊, 杨武德, 宋晓彦, 肖璐洁. 燕麦野豌豆轮作培肥技术规程(DB14/T2083-2020, 山西省地方标准, 2020.11.10实施

3. 张美俊, 杨武德, 冯美臣, 宋晓彦, 王超, 肖璐洁. 燕麦施肥技术规程(DB14/T2063-2020, 山西省地方标准, 2020.11.10实施。

(三)教学

1. 主持山西省教育厅来华研究生精品课程《精确农业概论》,2022.7-2023.7

2. 张月,干旱条件下冬小麦冠层水分状况的高光谱诊断研究,山西省高等学校大学生创新创业训练项目,指导老师;

3. 张月等,第八届全国植物生产类大学生实践创新论坛暨大学生创新创业训练计划成果展(二等奖),指导老师;

4. 王媛等,第八届山西省“互联网+”大学生创新创业大赛(优秀奖),指导老师;

5. 王媛等,山西农业大学“互联网+”大学生创新创业大赛(优秀奖)指导老师。

九、荣誉奖励

1. 2018年山西省三晋英才青年优秀人才荣誉称号

2. 2016年山西省优秀博士学位论文


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