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欧阳朝军 |
欧阳朝军,男,汉族,1982年7月出生。博士,中国科学院水利部成都山地灾害与环境研究所 研究员[1],四川省突发重大地质灾害技术支撑专家[2] ,主要从事滑坡、泥石流灾害动力学模型和数值模拟研究,以及计算流体力学、离散元、人工智能、InSAR等各种数值方法的编程和算法研究。
基本信息
人物说明----中国科学院水利部成都山地灾害与环境研究所 研究员
民 族 ---- 汉族
出生地点----湖南永州
出生日期----1982年7月
国 籍 ---- 中国
职 业 ---- 科研工作者
毕业院校----华中科技大学、中科院成都山地灾害与环境研究所
学位/学历----博士
专业方向----滑坡、泥石流动力学机理及数值模拟
个人简介
2020年国家优秀青年基金获得者,第四届谷德振青年奖获得者, 中国科学院青年创新促进会优秀会员,中国科学院“西部青年学者”A类人才计划入选者,中国科学院成都山地所“青年百人计划”入选者。 研究兴趣包括滑坡、泥石流灾害成灾机理,有限元、有限差分、离散元等各种数值方法的编程和算法研究,独立开发了地表过程动力学计算模拟软件-Massflow。
个人履历
2001/09—2005/06,华中科技大学,力学系,工程力学和计算机双学位,本科
2005/09—2009/11,华中科技大学,力学系,固体力学,博士,导师李振环
2010/01—2012/11,中国科学院水利部成都山地灾害与环境研究所,山地灾害与地表过程重点实验室,助理研究员
2012/4—2012/8,美国地质调查局喀斯特火山研究站,访问学者,导师Richard M. Iverson和Roger Denlinger
2013/1— 2014/1,美国地质调查局喀斯特火山研究站,访问学者,导师Richard M. Iverson和Roger Denlinger
2016/5-2016/9,香港理工大学,土木与环境工程学院,Research Fellow。
2012/12—2019/1,中国科学院水利部成都山地灾害与环境研究所,山地灾害与地表过程重点实验室,副研究员
2019/1—2020/11,中国科学院水利部成都山地灾害与环境研究所,山地灾害与地表过程重点实验室,研究员
研究领域
边坡稳定性,滑坡、泥石流数值模拟
滑坡、泥石流动力学机理
工程减灾防灾
科研活动
作为核心骨干成员参与完成主要项目如下:
序号 | 项目名称 | 项目类型 | 项目周期 |
1 | 大型泥石流动力过程的数值模拟研究-以舟曲泥石流为例 | 国家自然基金青年基金项目 | 2011-2014 |
2 | 威龙洲排土场治理工程潜在滑坡动力学过程及风险分析技术咨询 | 地方项目 | 2014 |
3 | 中国科学院青年创新促进会会员 | 中科院人才项目 | 2015.1-2018.12 |
4 | 固液两相泥石流动力过程与沟道演化的物理模型与计算模拟 | 国家自然基金 | 2015-2019 |
5 | 山地灾害动力过程与风险评估 | 中科院西部青年学者A类项目 | 2016.1-2018.12 |
6 | 山地灾害动力过程与风险评估软件平台开发和应用 | 中国科学院西部青年学者人才计划A类 | 2016-2019 |
7 | 气候变化条件下高山区特大泥石流灾害链动力过程与风险分析 | 国家自然科学基金 | 2016- 2020 |
8 | 强震特大滑坡动力致灾机理与风险预测 | 科技部重大研发项目专题 | 2018.1-2021.12 |
9 | 山地小流域灾害风险定量评估和风险制图 | 中科院A类先导专项子课题 | 2019.1-2013.12 |
10 | 中国科学院青年创新促进会优秀会员 | 中科院人才项目 | 2020.1-2022.12 |
11 | 地质灾害动力学 | 优秀青年基金 | 2021.1-2023.12 |
所获荣誉
2011年湖北省优秀博士论文
四川省科学与技术带头人后备人员
中科院青年创新促进会成都分会副会长
地球学科召集人
中国科学院青年创新促进会入选者
中国科学院“西部青年学者”A类人才计划入选者
中国科学院成都山地所“青年百人计划”入选者
工程地质专业委员会第四届谷德振青年科技奖
中国科学院青年创新促进会优秀会员
中国科学院青促会理事、地球科学分会会长;
第四届青年地学论坛主席;
四川省地质灾害应急管理专家和四川省突发重大地质灾害技术支撑专家 ;
担任SCI期刊Landslides和Journal of MountainScience科学编辑,Cell Press合作期刊The Innovation青年编委
学术成果
代表性学术论文如下 :
(1)Wei K, Ouyang C*, Duan H, Li Y, Chen M, Ma J, An H, Zhou S (2020) Reflections on the catastrophic 2020 Yangtze River basin flooding in Southern China. Innovation 1(2):100038
(2)Iverson, Richard M., Ouyang, Chaojun. Entrainment of bed material by Earth-surface mass flows: Review and reformulation of depth-integrated theory,Reviews of geophysics,2015,53 (1): 27-58
(3)Qingsong Xu, Xin Yuan, Chaojun Ouyang*. (2020) Class-aware Domain Adaptation for Semantic Segmentation of Remote Sensing Images. IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING (Accepted)
(4)Qingsong Xu, Xin Yuan, Chaojun Ouyang*, Yue Zeng. (2020) Attention-Based Pyramid Network for Segmentation and Classification of High-Resolution and Hyperspectral Remote Sensing Images. Remote Sensing. (Accepted)
(5)Huicong An, Chaojun Ouyang*, Dongpo Wang. (2020) A new two-phase flow model based on coupling of the depth-integrated continuum method and discrete element method. Computers and Geoscience. (Accepted)
(6)Ouyang, Chaojun,An Huicong, Zhou Shu,Wang Zhongwen, Su Pengcheng, Xu, Wang, Dongpo, Cheng Duoxiang, She Jinxing.Insights from the failure and dynamic characteristics of two sequential landslides at Baige village along the Jinsha River, China, Landslides, 2019, 16(7): 1397-1414.
(7)Ouyang Chaojun; Wang Zhongwen; An Huicong; Liu Xinrong; Wang Dongpo*; An example of a hazard and risk assessment for debris flows—A case study of Niwan Gully, Wudu, China, Engineering Geology, 2019, 263
(8)Ouyang, Chaojun ,Zhou, Kaiqi,Xu, Qiang,Yin, Jianhua,Peng, Dalei,Wang, Dongpo,Li, Weile,Dynamic analysis and numerical modeling of the 2015 catastrophic landslide of the construction waste landfill at Guangming,Shenzhen, China,Landslides,2017,14 (2): 705-718
(9)Ouyang, Chaojun ,Zhao, Wei,Xu, Qiang,Peng, Dalei,Peng, Dalei,Li, Weile,Wang, Dongpo. Failure Mechanisms and Characteristics of the 2016 Catastrophic Rockslide at Su village, Lishui, China. Landslides, 2018,15(7):1391-1400.
(10)Ouyang, Chaojun ,Zhao, Wei,An, Huicong, Zhou, Shu, Wang, Dongpo, Xu, Qiang,Li, Weile, Peng, Dalei. Early identification and dynamic processes of ridge-top rockslides: implications from the Su Village landslide in Suichang County, Zhejiang Province, China. Landslides, 2019,1-15. DOI 10.1007/s10346-018-01128-w
(11)Chaojun Ouyang, W Zhao, S He, D Wang, S Zhou, H An, Z Wang, D Cheng.Numerical modeling and dynamic analysis of the 2017 Xinmo landslide in Maoxian County, China.Journal of Mountain Science 14 (9), 1701-1711.
(12)Ouyang, Chaojun ,He, Siming,Tang, Chuan,Numerical analysis of dynamics of debris flow over erodible beds in Wenchuan earthquake-induced area,Engineering Geology,2015.8.26,194:62~72.
(13)Ouyang, Chaojun,He, Siming ,Xu, Qiang,Luo, Yu,Zhang, Wencheng,A MacCormack-TVD finite difference method to simulate the mass flow in mountainous terrain with variable computational domain,Computers & Geosciences,2013,52:1~10.
(14)Chaojun Ouyang,Siming He ,QiangXu,MacCormack-TVD finite differencesolution of dam-breakhydraulics over erodible sediment beds Journal of Hydraulic Engineering,2014,141
(15)Chaojun Ouyang , Qiang Xu, Siming He, Yu Luo, Yong Wu. A generalized limit equilibrium method for the solution of active earth pressure on a retaining wall, Journal of Mountain Science. 2013; 10(6),1018-1027.
(16)Chaojun Ouyang, Zhenhuan Li, Minsheng Huang et al. Discrete dislocation simulation of nano-indentation size effects in polycrystal with circular indenter. Acta Materialia 2008;56:2706-2717.
(17)Chaojun Ouyang, Zhenhuan Li, Minsheng Huang et al. Combined influences of micro-pillar geometry and substrate constraint on microplastic behavior of compressed single-crystal micro-pillar: Two-dimensional discrete dislocation dynamics modeling. Mat. Sci. Eng. A. 2009;526: 235-243.
(18)Chaojun Ouyang, Minsheng Huang, Zhenhuan Li, et al. Cylindrical nano-indentation on metal film/elastic substrate system with discrete dislocation plasticity analysis: a simple model for nano-indentation size effect. International Journal of Solids and Structures, 2010;47:3103-3114
(19)Chaojun Ouyang, Minsheng Huang, et al. Circular nano-indentation in particle-reinforced metal matrix composites: simply uniformly distributed particles lead to complicated nanoindentation response. Computational Materials Science 2010;47 940-950.
(20)Ouyang, Chaojun,Liu, Ying,Wang, Dongpo, He, Simin. Dynamic analysis of rockfall impacts on geogrid reinforced soil and EPS absorption cushions, KSCE Journal of Civil Engineering, 2019,23 (1), 37-45
(21)Zhou Shu; Ouyang Chaojun*; An Huicong; Jiang Tianhai; Xu Qingsong; Comprehensive study of the Beijing Daanshan rockslide based on real-time videos,field investigations, and numerical modeling, Landslides, 2020, 1217-1231
(22)Huicong An; Chaojun Ouyang*; Wei Zhao; Chuan Zhao. Landslide dynamic process and parameter sensitivity analysis by discrete element method: the case of Turnoff Creek rock avalanche. Journal of Mountain Science (2020) 17(7): 1581-1595
(23)Siming He, Chaojun Ouyang* , Wei Liu, Dongpo Wang. A coupled model of two-phase debris flow, sediment transport and morphological evolution. Acta Geologica Sinica 2017.90 (6), 2206-2215
(24) D Wang, D Wu, Chaojun Ouyang*, S He, X SunSimulation analysis of large-diameter post-installed anchors in concrete. Construction and Building Materials 2017,143, 558-565.
(25)Wang Dongpo; Liu Mengliang; Zhu Xing; Ma Hongsheng; Cheng Qiang; Zhu Min; Chen Zheng; Ouyang Chaojun*; Failure mechanisms and deformation processes of a high-locality landslide at Tonghua Town, Li County, China, 2017, Landslides, 2019, 1
(26)Wang Dongpo; Wang Zhongwen; Li Yizhi; Fan Tianzhen; Ouyang Chaojun*; Ji Feng*; Characteristics and dynamic process analysis of the 2018 Mabian consequent landslide in Sichuan Province, China, Bulletin of Engineering Geology and the Environment, 2020, 1