DING Mingtao
Quantitative analysis method of hazards risk, Community-based risk management of natural hazards

DING Mingtao

School of Geosciences and Environmental Engineering, Southwest Jiaotong University.

Professor for geological engineering

Research Interests:

Quantitative analysis method of hazards risk, Community-based risk management of natural hazards

Connect:

SWJTU XIPU Campus Building 4 Room 4239

Email:mingtaoding@swjtu.edu.cn

Education:

Doctor of Science degree in the theory and technology of mountain hazard mitigation, Physical Geography, Doctor of Science, Tutor: Fangqiang WEI

2004.09–2009.07, ChengduInstitute of Mountain Hazards and Environment, Chinese Academy of Sciences (Chengdu, China)

2000.09-2004.07,Bachelor of Science degree in Physical Geography, Qufu Normal University (Qufu, China)

Experience:

2018.01- Current, School of Geosciences and Environmental Engineering, Southwest Jiaotong University, Professor (Geological Engineering)

2017.09-2018.08, Tsinghua University, the 14th Group of Visiting Scholars of "Light of the West", Professor

2015.11-2017.12, School of Environment and Resources, Southwest University of Science and Technology, Professor (Geological Engineering)

2009.07-2015.10, Southwest University of Science and Technology, School of Environment and Resources, Lecturer and Associate Professor (2011.12)

2013.11-2014.11, BOKU, Vienna University of Natural Resources and Applied Life Sciences, Postdoctoral, Cooperative Tutor: Johannes Hubel

Research Interests:

We explore theories and approaches for risk assessment and management of typical geological hazards by integrating knowledge in the fields of geohazard risk assessment, geohazard monitoring, and geohazard prevention technologies. And our aim is to provide scientific and engineering support for the assessment and prevention of hazard risk in mountainous settlements under complex geological conditions.

Scientific research projects:

National Natural Science Foundation Project, No. 41871174, Modeled Risk Recognition and Emergency Response of Settlements in the Upper Min River for Disaster Insurance, 2019/01-2022/12

National Key R&D Project, No. 2018YFC150540202, sub-project of "Disaster-causing mechanism and disaster chain effect of wide and gentle channel debris flow in strong earthquake area", 2018/12-2021/12

National Natural Science Foundation Emergency Management Project, No. 41842024, Short-term Talent Training Course on "Theory and Technology of Railway Geological Disaster Prevention and Control", 2019/01-2019/12

International (Regional) Cooperation and Exchange Project of the National Natural Science Foundation of China, No. 41791240583, Quantitative Judgment and Evolution Characteristics of Boundary Fluctuation of Arid Valley in the Upper Min River, 2017/09-2017/12

International (Regional) Cooperation and Exchange Project of the National Natural Science Foundation of China, No. 41581240428, Regional Vulnerability Assessment of Debris Flow Disasters - Taking the Upper Min River of China as an example, 2015/11-2016/04

National Natural Science Foundation of China, No. 41371185, Research on Response Mechanism of Valley Settlements in the Upper Min River to Debris Flow Catastrophe, 2014/01-2017/12

National Natural Science Foundation Youth Project, No. 41101164, vulnerability and catastrophe threshold of mountain settlements in the upper reaches of Min River, 2012/01-2014/12, presided over

National Science and Technology Foundation Subject No. 2008 FY110300-06-1, Mountain Disaster Mapping in the Middle and Lower Reaches of Lancang River and Greater Shangri-La Area, 2008/12-2013/12

High-end Foreign Expert Project, No. GDT 20175100021, Key Technologies and Applications of Regional Debris Flow Risk Assessment, 2017/01-2018/12

Five representative works:

Ding Mingtao; Heiser Micha; Huebl Johannes; Fuchs Sven, Regional Vulnerability assessment for debris flows in China-a CWS approach, Landslides, 2016, 13 (2): 537-550

Ding Mingtao; Miao Cheng, Comparative Analysis of the Distribution Characteristics of geological hazards in the Lushan and Wenchuan earthquake-prone areas, Environmental Earth Sciences, 2015, 74 (6): 5359-5371

Ding Ming-tao; Cheng Zun-lan; Wang Qing, Coupling mechanism of Rural settlements and mountain disasters in the upper reaches of Min River, Journal of Mountain Science, 2014, 11 (1): 66 ~ 72

Mingtao Ding; Kaiheng Hu, Susceptibility mapping of landslides in Beichuan County using cluster and MLC methods, Natural Hazards, 2014, 70 (1): 755 - 766

Ding Mingtao; Wei Fangqiang; Hu Kaiheng, Property Insurance against Debris-flow disasters based on risk assessment and the principal-agent theory, Natural Hazards, 2012, 60 (3): 801-817

Patent works and Achievement of Honors

Ding Mingtao(1/1), Organizational Department of Sichuan Provincial Committee of the Communist Party of China, Sichuan Human Resources and Social Security Department and Sichuan Science and Technology Association, Talents Award, Others, 2017.12.15

Ding Mingtao (*);Cheng Zunlan; Wang Qing; Yan Jing; Zhou Peng; Huang Ying, a network architecture model for debris flow short-term and imminent warning system, 2014.04.11, China, ZL 201410143975.X (patent)

Ding Mingtao (*); Wang Qing; Cheng Zunlan; Yan Jing; Wang Jun; Huang Longyang, a short-term and imminent debris flow warning method based on Beidou satellite and GPRS, October 15, 2013, China, ZL 201310502863.4 (patent)

Ding Mingtao (*); Wang Qing; Cheng Zunlan; Yan Jing; Miaocheng; Zhong Guanpeng, a quantitative evaluation method of debris flow vulnerability, 09.30, 2013, China, ZL 201310471588.4 (patent)

Ding Mingtao (*); Zhou Peng; Miaocheng; Wang Jun, a hierarchical early warning method based on the evolution of debris flow, 2015.02.11, China, ZL 201510076212.2 (patent)

Ding Mingtao, Chen Tingfang, Cheng Zunlan, Zhong Guanpeng, Debris Flow Risk Assessment System V1.0, 2014 SR166277, Original Acquisition, All Rights, 2014.09.01 (Software Copyright)