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Blue star

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Researcher of Institute of Geographic Science and Resources, Chinese Academy of Sciences, doctoral supervisor of Chang'an University
Part of the content of this term is edited and improved by Lan Xingxing himself Details>>
Blue Star, male Chang'an University Doctoral supervisor Institute of Geographic Sciences and Resources, Chinese Academy of Sciences Researcher, doctoral supervisor. Winner of National Science Fund for Distinguished Young Scholars, Ministry of Education“ Changjiang Scholar ”Distinguished professor, selected by the country“ Ten thousand people plan ”Leading talents in scientific and technological innovation, Chief Scientist of Major Project of National Natural Science Foundation of China (Yellow River Project) Mainly engaged in engineering geology and disaster geology research. [1-5] [7-9] [11]
Chinese name
Blue star
Foreign name
Hengxing Lan
Nationality
China
Ethnic groups
Han nationality
one's native heath
Zhaoyuan, Shandong
date of birth
1972
University one is graduated from
Institute of Geology and Geophysics, Chinese Academy of Sciences Shandong University of Science and Technology
Key achievements
Overseas Outstanding Talents under the Hundred Talents Program of the Chinese Academy of Sciences
National Science Fund for Distinguished Young Scholars [5]
National "Ten Thousand Talents Plan" Scientific and Technological Innovation Leading Talents [2]

catalog

  1. one Personal experience
  2. two Research direction
  3. three academic achievements
  1. research project
  2. Academic papers
  3. Scientific and technological achievements
  4. four Award record
  1. five Social Appointments
  2. six Character evaluation

Personal experience

Announce
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2009/5- , Chinese Academy of Sciences Research Fellow, Institute of Geographic Science and Resources;
2006/5-2009/4, Canada Team Leader, Ground Disaster Risk Analysis Center;
2004/5-2006/4, Canada University of Alberta , Research Engineer;
2004/2-2004/4, University of Hong Kong Visiting scholars
2003/8-2004/3, Institute of Geographic Sciences and Resources, Chinese Academy of Sciences Associate researcher
2001/7-2003/7, Institute of Geographic Sciences and Resources, Chinese Academy of Sciences, post-doctoral
1998-2001, Institute of Geology and Geophysics, Chinese Academy of Sciences doctorate
1995-1998, Shandong University of Science and Technology Department of Earth Sciences , obtained master's degree
1991-1995, Department of Earth Sciences, Shandong University of Science and Technology baccalaureate [9]

Research direction

Announce
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The main research directions in the near future are as follows:
1. Multi scale deformation and failure mechanism of rock and soil mass;
2. Dynamic process model and risk analysis of environmental geological hazards;
3. Application of remote sensing GIS in engineering geology. [8]

academic achievements

Announce
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He has presided over many scientific research projects such as the National Natural Science Foundation of China and the National Science Fund for Distinguished Young Scholars. More than 190 academic papers have been published, including more than 100 SCI/EI search papers, 4 monographs, more than 30 patents, and 4 national planning projects. In recent years, the main academic achievements include: the micro anisotropic control theory of multi-scale deformation and failure of rock and soil mass was proposed, and the representative achievements ranked first in the citation rate of Web of Science in the world; The 3D distributed dynamic process model of geological hazards integrated with GIS system has been successfully applied in the academic and engineering circles of 40 countries around the world and has become the international mainstream model; Facing the practical problems of national disaster reduction and major projects, we have completed a series of scientific consultation and research that have been approved by national leaders. [8]

research project

1. Special Project of the National Natural Science Foundation of China (Project Approval No.: 42041006): Geological Surface Process and Major Geological Disaster Effects in the Yellow River Basin, January 2021 December 2024 (hosted).
2. National Major Scientific Research Instrument Development Project of the National Natural Science Foundation of China (Project Approval No.: 41927806): Adaptive in-situ collaborative detection system for engineering geology of loess slope with complex structure, January 2020 December 2024 (hosted).
3. Special Project of National Natural Science Foundation of China (41941019): Major Disaster Risk Assessment and Prediction of Sichuan Tibet Railway, January 2021 December 2024 (hosted).
4. Major Project of the National Natural Science Foundation of China "Catastrophe Mechanism and Prevention and Control of Major Projects in the Loess Plateau" (Project Approval No.: 41790443): loess slope sliding mechanism and catastrophe effect of gully control and land reclamation projects, January 2018 to December 2022 (hosted).
5. National Natural Science Foundation of China (Grant No.: 41525010), Engineering Geodynamics and Geological Hazards, January 2016 - December 2020 (hosted).
6. General Project of the National Natural Science Foundation of China (41272354), Research on Rockfall Scale and Key Processes Based on LIDAR and Frequency Distribution, January 2013 to December 2016 (hosted).
7. National Natural Science Foundation of China (Grant No.: 41472282), Distributed landslide deformation PSI (permanent scatterer interferometric radar) monitoring model and technology, January 2015 December 2018 (hosted).
8. Hundred Talents Program of Chinese Academy of Sciences, A1055, Geological Hazard Process Model and Risk Assessment, 2010-2014 (hosted).
9. Innovation Group Project of National Natural Science Foundation of China (41421001), January 2015 December 2020 (participated).
10. CAS Strategic Leading Science and Technology Project (Class B), (XDB10030300), "Basic Theory and Key Technology of Shale Gas Exploration and Development, January 2014 December 2018 (participation).
11. STS project of the Chinese Academy of Sciences, comprehensive assessment of geological disasters in the reconstruction after Ludian earthquake January 2015 to December 2016 (participation).
12. Major consulting project of Chinese Academy of Engineering, geological disaster risk zoning of Haixi Economic Zone (Minjiang River, Jiulong River) and other river basins, 2011-2013 (participated).
13. National Science and Technology Support Program, 2008BAK50B05, China Major Natural Disaster Risk Assessment, 2009-2011 (participated).
14. In 2010, he was responsible for completing the special assessment of the State Council's Assessment of Resources and Environment Carrying Capacity for Post Yushu Earthquake Recovery and Reconstruction - Assessment of the Risk of Secondary Geological Hazards of Yushu Earthquake - approved by the State Council (GF [2010] No. 17).
15. In 2010, participated in and completed the special evaluation of the State Council on the Assessment of Resources and Environment Carrying Capacity for Post disaster Reconstruction of Zhouqu.
16. In 2013, he was responsible for completing the special evaluation of the State Council's Plan for Reconstruction after the Ya'an Lushan Earthquake - the risk evaluation of the secondary geological disasters of the Ya'an Lushan Earthquake, which was approved by the State Council (GF [2013] No. 26).
17. In 2013, he was responsible for completing the special evaluation of the State Council's Plan for Reconstruction after the Ya'an Lushan Earthquake - Ya'an Lushan Earthquake Geological Suitability Evaluation, which was approved by the State Council (GF [2013] No. 26).
18. From January 2013 to December 2017: participated in the key project of the National Natural Science Foundation of China: mechanism and prediction of rockburst disaster in deep buried long tunnels under multi field coupling.
19. From January 2014 to December 2014, he was responsible for the research on key technologies for geological disaster risk prevention and control of Sichuan Tibet Interconnection Project line entrusted by State Grid Corporation of China.
20. From January 2014 to December 2014: Responsible for the risk assessment of geological disasters in mountainous areas under the potential earthquake action of the Sichuan Tibet Railway entrusted by the Institute of Geomechanics of the Chinese Academy of Geological Sciences.
21. From 2009 to 2011, he was responsible for the commission of "high-precision PSI monitoring of land subsidence in Tanggu District, Binhai New Area" in Tianjin Binhai New Area. [8]

Academic papers

  • Domestic papers
(1) First author thesis
  1. one
    Blue star , Lu Hongtao, contain Li Li, Chen Weichang, Guo Jinjing, Liu Shijie Cave Temple rock Research progress on deterioration mechanism and instability mechanism [J/OL] Earth science :1-32[2022-11-14];
  2. two
    Blue star , including, Sun Weifeng, Liu Shijie. Multi scale rock mass Heterogeneity And its mechanical behavior [J] Journal of Engineering Geology ,2022,30(01):37-52.DOI:10.13544/j.cnki.jeg.2021-0789;
  3. three
    Blue star , Peng Jianbing , Zhu Yanbo , Li Langping , Pan Baotian , Huang Qiangbing , Li Junhua, Zhang Qiang . Yellow River Basin Geological surface process and major Disaster effect Research and Prospect [J] Chinese Science: Earth Science ,2022,52(02):199-221;
  4. four
    Blue star Zhu Yanbo, Li Langping, Pan Baotian, Hu Zhenbo, Peng Jianbing. Geology of the Yellow River Basin landforms climate Research on Multi process Interaction and Disaster Pregnancy Mechanism [J] China Science Foundation ,2021,35(04):510-519.
  5. five
    Blue star , Zhang Ning, Li Langping, Tian Naiman, Li Yixing, Liu Shijie, Lin Gan, Tian Chaoyang, Wu Yuming, Yao Jiaming, Peng Jianbing, Zhou Chenghu . Sichuan Tibet Railway Analysis of major engineering geological risks in the feasibility study stage [J]. Journal of Engineering Geology, 2021,29 (02): 326-341
  6. six
    Blue star , Meng Yunshan, Yi Xing Fuzhou City land subsidence Spatiotemporal evolution analysis [J]. Journal of Engineering Geology, 2019,27 (06): 1350-1361
  7. seven
    Blue star , Yi Xing, Wu Yuming . Rock mass structure Effect and long distance landslide Dynamics [J]. Journal of Engineering Geology, 2019,27 (01): 108-122
  8. eight
    Blue star , Chen Junhui, Wu Yuming Triaxial compression test Front and rear gas content shale Micro nano scale fracture Research on spatial distribution characteristics [J]. Journal of Engineering Geology, 2018,26 (01): 24-35
  9. nine
    Blue star , Wu Yuming, Li Quanwen, Chen Junhui, Zhao Xiaoxia Longmaxi Formation Three dimensional fracture network reconstruction and fractal analysis of shale [J]. Journal of Engineering Geology, 2017,25 (06): 1557-1565
  10. ten
    Blue star , Zhao Xiaoxia, Wu Yuming, Li Langping, Su Fenzhen. Calcareous reef settlement Deformation process analysis [J] Journal of Ocean University of China (Natural Science Edition) ,2017,47(10):1-8.
  11. eleven
    Blue star , Zhou Chenghu, Gao Xing, Cheng Weiming, Wang Zhihua, Yang Zhihua, Li Langping, Wu Yuming Sichuan Assessment of secondary geological disasters in Lushan earthquake stricken area in Ya'an and countermeasures [J] Progress in geographical science ,2013,32(04):499-504;
  12. twelve
    Blue star Liu Hongjiang, Sun Tie, Jia Youliang, Yang Zhihua, Ding Shangqi, Huang Xiaoming city building settlement Permanent scatterer Interferometric radar Monitoring [J] Journal of Tianjin University ,2012,45(04):292-300;
  13. thirteen
    Blue star , Liu Hongjiang, Sun Tie, Jia Youliang, Yang Zhihua, Li Langping, Ding Shangqi, Huang Xiaoming. Research on Classification of Permanent Interferometric Radar Monitoring Attributes for Urban Complex Land Subsidence [J]. Journal of Engineering Geology, 2011,19 (06): 893-901;
  14. fourteen
    Blue star , Zhou Chenghu, Wang Xiaobo Debris flow Constitutive model And review of dynamic simulation research [J]. Journal of Engineering Geology, 2007, (03): 314-321;
  15. fifteen
    Blue star , Zhou Chenghu, Li Zhuofen, Wang Sijing, Wu Faquan. Instantaneous pore water pressure Active rainfall Response analysis of landslide stability: take Hong Kong natural rainfall landslide as an example [J] Science in China Part E: Technical Science ,2003,(S1):119-136;
  16. sixteen
    Blue star Zhou Chenghu, Wang Lingjuan, Wu Faquan, Wang Sijing Geographic Information System Study on landslide hydrological coupling model supported by [J] Journal of Rock Mechanics and Engineering ,2003,(08):1309-1314;
  17. seventeen
    Blue star , Wang Lingjuan, Zhou Chenghu Yunnan Study on key influencing factors of landslide in Xiaojiang River Basin [J] Chinese Journal of Geological Hazards and Prevention ,2003,(01):103-109;
  18. eighteen
    Blue star , Zhou Chenghu, Wu Faquan , Wang Lingjuan GIS Rainfall landslide supported by danger Spatial analysis and prediction [J] Scientific Bulletin ,2003,(05):507-512;
  19. nineteen
    Blue star Wu Faquan, Zhou Chenghu, Wang Sijing. Landslide based on GIS Spatial database Research - Taking Xiaojiang River Basin in Yunnan Province as an example [J]. Journal of Geological Hazards and Prevention of China, 2002 (04): 12-18;
  20. twenty
    Blue star Wu Faquan, Wang Sijing. Landslide CF based on GIS Multiple regression model And its application [J] Journal of Mountain Areas ,2002,(06):732-737;
  21. twenty-one
    Blue star , Wang Lingjuan, Zhou Chenghu. Research on landslide hazard analysis model supported by GIS [J]. Journal of Engineering Geology, 2002, (04): 421-427;
  22. twenty-two
    Blue star , Wu Faquan, Zhou Chenghu, Wang Sijing. GIS based sensitivity analysis of landslide factors in Xiaojiang Basin, Yunnan Province [J]. Journal of Rock Mechanics and Engineering, 2002, (10): 1500-1506;
  23. twenty-three
    Blue star , Wu Faquan, Geotechnical Mechanics numerical simulation Determination method of mechanical parameters in [J] World geology ,2001,(01):66-71;
  24. twenty-four
    Blue star Wu Faquan. Landslide displacement based on slice method nonlinear dynamics Simulation method [J]. Journal of Engineering Geology, 2000, (03): 374-378;
  25. twenty-five
    Blue star , Li Zengxue, Wei Jiuchuan Shandong Huangxian County Good morning! Tertiary Fault depression basin Dynamic characteristics of filling evolution [J] Coal Geology & Exploration ,2000,(02):6-10 [8]
(2) Correspondence and second author's thesis
  1. one
    Yuan Yiqi, Blue star , Liu Shijie, Yao Jiaming, Sun Weifeng, including, Li Li. Thermal induction of sandstone grottoes crackle Spatio temporal characteristics and analysis of damage [J/OL]. Journal of Rock Mechanics and Engineering: 1-12 [2022-11-14]
  2. two
    Tian Chaoyang, Blue star Zhang Ning, Xu Bowen CZ Railway Sejila Mountain Tunnel high crustal stress Rockburst Research on quantitative risk prediction [J]. Journal of Engineering Geology, 2022,30 (03): 621-634
  3. three
    Zhang Ning, Blue star Li Langping, Sun Weifeng, Liu Shijie, Lin Gan, Tian Chaoyang Qinghai Tibet Plateau Characteristics and significance analysis of measured in-situ stress in the southeast edge [J]. Journal of Engineering Geology, 2022,30 (03): 696-707
  4. four
    Peng Jianbing, Blue star A brief discussion on ecological geology and ecological geological environment system [J/OL]. Journal of Earth Science and Environment: 1-17 [2022-11-14]
  5. five
    Chen Zhao, Blue star Liu Shijie, Du Kuijian Dry wet cycle Deterioration mechanism and failure mode of tensile strength of Shikusi sandstone under action [J/OL]. Earth Science: 1-13 [2022-11-14]; [10]
  6. six
    Liu Shijie, Blue star , including Peng Jianbing. Typical engineering geological deformation and failure modes and classification system of grotto temple [J/OL]. Earth Science: 1-14 [2022-11-14];
  7. seven
    Wang Rui, Lan Xingxing, Liu Shijie, Wu Yuming forest fire Influence on physical and mechanical properties of rock and soil mass [J] Journal of Earth Science and Environment ,2022,44(01):114-123.DOI:10.19814/j.jese.2021.08026;
  8. eight
    Li Langping, Blue star . Research on the complexity of landslide movement path: overview and prospect [J/OL]. Earth Science: 1-23 [2022-11-14];
  9. nine
    Wu Yuming, Blue star , Huang Weiqing. Relationship between wave velocity and mass moisture content of unsaturated loess [J] Journal of Geophysics ,2021,64(10):3766-3773;
  10. ten
    Zhu Yanbo, Blue star Peng Jianbing, Li Junhua, Zhang Pan, Zhang Tongwei, Zhu Xinghua, Zhang Yaguo, Liu Xin, Gu Tianfeng, Li Langping. Research progress on water and soil disaster mechanism and disaster chain effect in the middle reaches of the Yellow River [J] Yellow River ,2021,43(08):108-116+147;
  11. eleven
    Tian Chaoyang, Blue star , Liu Xin. Study on mechanical properties of calcareous sand compression and crushing considering the influence of morphology and grading [J]. Journal of Engineering Geology, 2021,29 (06): 1700-1710. DOI: 10.13544/j.cnki.jeg.2021-0006;
  12. twelve
    Tian Naiman, Blue star , Wu Yuming, Li Langping artificial neural network Performance comparison between decision tree model and decision tree model in landslide susceptibility analysis [J] Journal of Earth Information Science ,2020,22(12):2304-2316;
  13. thirteen
    Zhang Wenzhe, Blue star , Liu Xin. Salt solution quartz flour - Bentonite Mixed soil Permeability coefficient [J/OL]. Journal of Engineering Geology: 1-14 [2022-11-14] DOI:10.13544/j.cnki.jeg.2020-222;
  14. fourteen
    Wu Yuming, Blue star , Huang Weiqing. Longmaxi shale elasticity anisotropy And mineral Discussion on the relationship between distributions [J]. Journal of Geophysics, 2020,63 (05): 1856-1866;
  15. fifteen
    Peng Jianbing, Blue star , Qian Hui, etc. Livable Yellow River Scientific Conception [J]. Journal of Engineering Geology, 2020,28 (02): 189-201
  16. sixteen
    Yi Xing, Blue star Li Langping, Wu Yuming, Chen Zhichao, Chen Junhui. Comprehensive statistical model and physical model Of geologic hazard Fine assessment - taking Longshan Community in Fujian Province as an example [J]. Journal of Engineering Geology, 2019,27 (03): 608-622. DOI: 10.13544/j.cnki.jeg.2018-270;
  17. seventeen
    Li Langping, Blue star , Guo Changbao, Zhang Yongshuang, Li Quanwen, Wu Yuming. Zoning evaluation of geological hazard susceptibility along the Sichuan Tibet Railway and adjacent areas based on the improved frequency ratio method [J] Modern geology ,2017,31(05):911-929;
  18. eighteen
    Yang Zhihua, Blue star Zhang Yongshuang, Guo Changbao. Review on long-term activity of post earthquake geological disasters in strong earthquake areas [J] Journal of Geomechanics ,2017,23(05):743-753;
  19. nineteen
    Wu Yuming, Blue star , Gao Xing, Wang Wei, Chen Junhui, Hao Zhaobing. Experimental study on the relationship between fracture volume density and acoustic properties of underground shale cores in Fuling area [J]. Journal of Geophysics, 2016,59 (10): 3891-3900;
  20. twenty
    Wu Faquan, Blue star Current situation and frontier of international engineering geology and environmental research - summary of the 12th International Engineering Geology Conference (IAEG X Ⅱ) [J]. Journal of Engineering Geology, 2016,24 (01): 116-129
  21. twenty-one
    Wu Yuming, Blue star , Gao Xing, Li Langping, Meng Yunshan Bayes Theoretical area steep hill Stability evaluation model [J]. Journal of Engineering Geology, 2014,22 (06): 1227-1233
  22. twenty-two
    Wu Yuming, Blue star , Gao Xing, Li Langping typhoon rainstorm Study on the Rainfall Threshold Curve of Type A Landslide Fujian Regional example [J]. Journal of Engineering Geology, 2014,22 (02): 255-262
  23. twenty-three
    Yang Zhihua, Blue star , Zhang Yongshuang , Li Langping, Xiong Tanyu. Crossing under strong earthquake fault Tunnel surrounding rock Research on mechanical response [J]. Journal of Engineering Geology, 2013,21 (02): 171-181;
  24. twenty-four
    Li Langping, Blue star , Li Xiao, Meng Yunshan, Chen Yu. Jintan Salt Cave natural gas PSI monitoring of surface deformation in reservoir area [J]. Journal of Rock Mechanics and Engineering, 2012,31 (09): 1821-1829;
  25. twenty-five
    Yang Zhihua, Blue star Zhang Yongshuang. Based on GIS-GOCAD coupling technology 3D geological modeling [J]. Geography and Geographic Information Science ,2012,28(05):16-20;
  26. twenty-six
    Liu Hongjiang, Blue star .“ five point one two ”Post earthquake Dujiang Dam Wenchuan highway collapse Disaster simulation and risk assessment [J] Resource science ,2012,34(02):345-352;
  27. twenty-seven
    Liu Hongjiang, Blue star , Zhang Jun, Liu Jie, Yang Jun Laos north opium poppy Alternate planting height resolving power remote sensing Investigation, Evaluation and Analysis [J]. Resource Science, 2010,32 (07): 1425-1432;
  28. twenty-eight
    Liu Hongjiang, Blue star , Cheng Weiming Yushu Earthquake after Jiegu Town Mass production Debris flow disaster Numerical simulation and Hazard analysis [J] Journal of Mountain Science, 2010,28 (04): 444-452 [8]
  • International papers
  1. one
    Lan, H. X. *, Zhou, C. H., Lee, C. F., Wang, S. J., Wu, F. Q., 2003. Rainfall-induced landslide stability analysis in response to transient pore pressure - A case study of natural terrain landslide in Hong Kong. SCIENCE CHINA Technological Sciences, 46(s1), 52–68;
  2. two
    Lan, H. X. *, Wu, F. Q., Zhou C. H., Wang, L. J., 2003. Spatial hazard analysis and prediction on rainfall-induced landslide using GIS. Chinese Science Bulletin, 48(7), 703–708;
  3. three
    Lan, H. X. *, Hu, R. L., Yue, Z. Q., Lee, C. F., Wang, S. J. 2003. Engineering and geological characteristics of granite weathering profiles in South China. Journal of Asian Earth Sciences, 21(4), 353–364;
  4. four
    Lan, H. X. *, Zhou, C. H., Wang, L. J., Zhang, H. Y., Li, R. H. 2004. Landslide hazard spatial analysis and prediction using GIS in the Xiaojiang watershed, Yunnan, China. Engineering Geology , 76(1-2), 109–128;
  5. five
    Lan, H. X. *, Lee, C. F., Zhou, C. H., Martin, C. D. 2005. Dynamic characteristics analysis of shallow landslides in response to rainfall event using GIS. Environmental Geology, 47(2), 254–267;
  6. six
    Lan, H. X. , Martin C. D.*, Lim C. H. 2007. RockFall analyst: A GIS extension for three-dimensional and spatially distributed rockfall hazard modeling. Computers & Geosciences, 33(2), 262–279;
  7. seven
    Lan, H. X. , Martin C. D. 2007. A digital approach for integrating geotechnical data and stability analyses. In: Eberhardt E; Stead D; Morrison T (eds), Rock Mechanics: Meeting Society's Challenges and Demands, Two Volume Set, Proceedings of the 1st Canada-US Rock Mechanics Symposium, 27–31 May, 2007, Vancouver, Canada, CRC Press, pp: 45–52;
  8. eight
    Lan, H. X. and Martin C. Derek. 2007. Model calibration for rockfall hazard assessment using LiDAR technology. In: the First North American Landslide Conference, Landslides and Society: Integrated Science, Engineering, Management, and Mitigation, 3-8 June, 2007, Vail, Colorado, USA, AEG Special Publication -CD-ROM Edition, 23;
  9. nine
    Lan, H. X. , Martin C. D. 2007. Estimating the size and travel distance of Klapperhorn Mountain Debris flows for risk analysis along railway, Canada. In: Chen, C.L., Major, J.J. (Eds), Proceedings of the 4th International conference on debris-flow hazards mitigation: mechanics, prediction, and assessment, 10-13 September, 2007, Chengdu, China;
  10. ten
    Lan, H. X. *, Martin C. D., Zhou C. H. 2008. Estimating the size and travel distance of Klapperhorn Mountain debris flows for risk analysis along railway, Canada. International Journal of Sediment Research, 23(3), 275–282;
  11. eleven
    Lan, H. X. , Martin C. D., Zhou C. H., 2008. Numerical modeling of debris flow kinematics using discrete element method combined with GIS. In: Chen, Z; Zhang, JM; Li, ZK; Wu, FQ; Ho, K (eds), Landslides and Engineered Slopes. From the Past to the Future, Two Volumes + CD-ROM, Proceedings of the 10th International Symposium on Landslides and Engineered Slopes, 30 Jun - 4 July, 2008, Xi'an, China, CRC Press, pp: 769–775;
  12. twelve
    Lan, H. X. , Martin C. D., Froese C. R., Chao, D., Chowdhury, S. 2008. A Web-Based GIS Tool for Managing Urban Geological Hazard Data. In: Eurengeo 2008, the city and its subterranean environment, the 2nd Eur. Conf. IAEG, 15-20 September, 2008, Madrid, Spain;
  13. thirteen
    Lan, H. X. *, Martin C. D., Froese, C. R., Kim, T. H., Morgan, A. J., Chao D., Chowdhury S., 2009. A web-based GIS for managing and assessing landslide data for the town of Peace River, Canada. Natural Hazards and Earth System Sciences, 9(4), 1433–1443;
  14. fourteen
    Lan, H. X. *, Martin C. D. 2009. Evaluating the effect of topography on the rock fall process using LiDAR. In: Hudson, J. A., Tham, L. G., Feng, X.-T., and Kwong, A. K. L. (Eds), Proceedings of the ISRM-Sponsored International Symposium on Rock Mechanics: Rock Characterization, Modelling, and Engineering Design Methods, SINOROCK 2009, 19-22 May, 2009, The University of Hong Kong, China, page 69;
  15. fifteen
    Lan, H. X. *, Martin C. D., Zhou, C.H., Lim, C.H. 2010. Rockfall hazard analysis using LiDAR and spatial modeling. Geomorphology, 118(1-2), 213–223;
  16. sixteen
    Lan, H. X. *, Martin C. D., Hu B. 2010. Effect of heterogeneity of brittle rock on micromechanical extensile behavior during compression loading. Journal of Geophysical Research, 115(B1), B01202;
  17. seventeen
    Lan, H. X. *, Li, L.P., Zhang, Y.S., Gao, X., Liu, H.J., 2013. Risk assessment of debris flow in Yushu seismic area in China: a perspective for the reconstruction. Natural Hazards and Earth System Sciences, 13(11), 2957–2968;
  18. eighteen
    Lan, H. X. *, Gao, X., Liu, H.J., Yang, Z.H., Li, L.P., 2013. Integration of TerraSAR-X and PALSAR PSI for detecting ground deformation. International Journal of Remote Sensing, 34(15), 5393–5408;
  19. nineteen
    Lan, H. X. *, Martin C.D., Andersson J.C., 2013. Evolution of in-situ rock mass damage induced by mechanical-thermal loading. Rock Mechanics and Rock Engineering, 46(1), 153–168;
  20. twenty
    Lan, H. X. *, Li, L.P., Liu, H.J., Yang, Z.H. 2012. Complex urban infrastructure deformation monitoring using high resolution TerraSAR-X PSI. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 5(2), 643–651;
  21. twenty-one
    Lan, H. X. *,Li, L.P., Wu, Y. M. 2013. The role of rockfall intensity on its risk assessment. In: Faquan Wu & Shengwen Qi (Eds), Global View of Engineering Geology and the Environment, Proceedings of the international symposium and 9th Asian regional conference of IAEG, 23-25 September, 2013, Beijing, China, CRC Press/Balkema, The Netherlands, pp: 51–58;
  22. twenty-two
    Lan, H. X. *, Martin C. D., Qi, S. W., 2013. A 3D grain based model for characterizing the geometric heterogeneity of brittle rock. In: Proceedings of the 47th US Rock Mechanics/Geomechanics Symposium, 23-26 June, 2013, San Francisco, California, USA. Technical Editors: Laura J. Pyrak-Nolte, Alvin Chan, William Dershowitz, Joseph Morris and Jamal Rostami. ISBN: 978-0-9894844-0-4;
  23. twenty-three
    Lan, H. X. *, Li, L.P., and Wu, Y.M.. Stochasticity of Rockfall Tracjectory Revealed by a Field Experiment Repeated on a Single Sample. G. Lollino et al. (eds.), Engineering Geology for Society and Territory – Volume 2, pp:3-12.DOI: 10.1007/978-3-319-09057-3_304, © Springer International Publishing Switzerland 2014;
  24. twenty-four
    Lan, H.X. , Chen, J.H., Macciotta, R., 2019. Universal confined tensile strength of intact rock. Scientific Reports, 6170(9);
  25. twenty-five
    Zhou, C., Lan, H. X. , Bürgmann, R., et al., 2022. Application of an improved multi-temporal InSAR method and forward geophysical model to document subsidence and rebound of the Chinese Loess Plateau following land reclamation in the Yan'an New District. Remote Sensing of Environment, 279, 113102 [10]
  26. twenty-six
    Qi, S. W.*, Wu, F. Q., Yan, F. Z., Lan, H. X. , 2004. Mechanism of deep cracks in the left bank slope of Jinping first stage hydropower station. Engineering Geology, 73(1-2), 129–144;
  27. twenty-seven
    Wu, F. Q., Qi, S. W.*, Lan, H. X. , 2005. Mechanism of uplift deformation of the dam foundation of Jiangya Water Power Station, Hunan Province, P.R. China. Hydrogeology Journal, 13(3), 451–466;
  28. twenty-eight
    Martin C.D.*, Lan, H. X. , Lim C.H., et al. Evaluating rock fall hazard along railway corridors using GIS technology. FELSBAU, 2006, 30(4), 38–41;
  29. twenty-nine
    Martin C. Derek, Tarmant D. D., Lan, H. X. , 2007. Comparison of terrestrial-based, high resolution, LiDAR and digital photogrammetry surveys of a rock slope. In: Eberhardt E; Stead D; Morrison T (eds), Rock Mechanics: Meeting Society's Challenges and Demands, Two Volume Set, Proceedings of the 1st Canada-US Rock Mechanics Symposium, 27–31 May, 2007, Vancouver, Canada, CRC Press, pp: 37–44;
  30. thirty
    Martin C. D. , Lan, H. X. , Hutchinson, J., Quinn, P. 2008. Applications of GIS tools to ground hazard assessment for railway infrastructure. In: Proceedings of the GeoEdmonton’08: 61st Canadian Geotechnical Conference and 9th Joint CGS/IAH-CNC Groundwater Conference, 21-24 September, 2008, Edmonton, Alberta, Canada, pp: 1064–1066;
  31. thirty-one
    Liu, H.J., Lan, H. X. , 2009. Debris flow sediment intensity transportation zoning based on GIS in main downstream of Jinsha River. In: Proceedings of the 6th International Symposium on Digital Earth (ISDE6), 9-12 September, 2009, Beijing, China;
  32. thirty-two
    Qi, S. W., *, Xu, Q., Lan, H. X. , Zhang, B., Liu, J. Y. 2010. Spatial distribution analysis of landslides triggered by 2008.5.12 Wenchuan Earthquake, China. Engineering Geology, 116(1-2), 95–108;
  33. thirty-three
    Liu, H.J., Lan, H. X. *, Liu, Y., Zhou, Y. 2011. Characteristics of spatial distribution of debris flow and the effect of their sediment yield in main downstream of Jinsha River, China. Environmental Earth Sciences, 64(6), 1653–1666;
  34. thirty-four
    Qi, S.W., Xu, Q., Zhang, B., Zhou, Y.D., Lan, H. X ., Li,L.H. 2011. Source characteristics of long runout rock avalanches triggered by the 2008 Wenchuan earthquake, China. Journal of Asian Earth Sciences, 40(4), 896–906;
  35. thirty-five
    Zhang, Y.S.*, Zhao, X.T., Lan, H. X. , Xiong Tanyu, 2011. A Pleistocene landslide-dammed lake, Jinsha River, Yunnan, China. Quaternary International, 233(1), 72–80;
  36. thirty-six
    Martin C. D., Lu, Y., Lan, H. X. , 2011. Scale effects in a Synthetic Rock Mass. In: Qihu Qian and Yingxin Zhou (Eds), Harmonising Rock Engineering and the Environment, Proceedings of the 12th ISRM International Congress on Rock Mechanics, 18–21 October, 2011, Beijing, China, CRC press, pp: 257–258;
  37. thirty-seven
    Li, L.P., Lan, H. X. *, Wu, Y.M., 2012. Comment on Statistical physics of landslides: New paradigm by Chen C.-c. et al.. EPL (Europhysics Letters), 100, 29001;
  38. thirty-eight
    Qi, S.W., Xu, Q., Lan, H. X. , Zhang, B., Liu, J.Y. 2012. Resonance effect existence or not for landslides triggered by 2008 Wenchuan earthquake: A reply to the comment by Drs. Xu Chong and Xu Xiwei. Engineering Geology, 151(29), 128–130;
  39. thirty-nine
    Yang, Z.H. Lan, H. X. *, Zhang, Y.S., Gao, X., Li, L.P., 2013. Nonlinear dynamic failure process of tunnel-fault system in response to strong seismic event. Journal of Asian Earth Sciences, 64, 125–135;
  40. forty
    Lu, Y., Martin C. D., Lan, H. X. , 2013. Strength of intact rock containing flaws. In: Proceedings of the 47th US Rock Mechanics/Geomechanics Symposium, 23-26 June, 2013, San Francisco, California, USA. Technical Editors: Laura J. Pyrak-Nolte, Alvin Chan, William Dershowitz, Joseph Morris and Jamal Rostami. ISBN: 978-0-9894844-0-4;
  41. forty-one
    Ma, P.F., Lin, H., Lan, H. X. , Chen, F.L. (2014) On the Performance of Reweighted L1 Minimization for Tomographic SAR Imaging. IEEE Geoscience and Remote Sensing Letters. 12 (4): 895 – 899.
  42. forty-two
    Qi, S., Lan, H. X. , Dong, J. An analytical solution to slip buckling slope failure triggered by earthquake, Eng. Geol. (2014).
  43. forty-three
    Zhang, Y.S.,Cheng, Y.L, Yin, Y.P., Lan, H. X. , Wang, J., Fu, X.X. High-position debris flow: A long-term active geohazard after the Wenchuan earthquake. (2014) Engineering Geology. Vol (180): 45-54.
  44. forty-four
    Li, L.P., Lan, H. X. * and Wu, Y.M.. The volume-to-surface-area ratio constrains the rollover of the power law distribution for landslide size. The European Physical Journal Plus, Volume 129, Issue 5. EUROPEAN PHYSICAL JOURNAL PLUS (2014) 129(5): 89.
  45. forty-five
    Cruden, D. M. and Lan, H. X. . Using the Working Classification of Landslides to Assess the Danger from a Natural Slope. G. Lollino et al. (eds.), Engineering Geology for Society and Territory – Volume 2, © Springer International Publishing Switzerland 2014;
  46. forty-six
    Meng, Y. S., Lan, H. X. *, Ping, B. Landslide deformation monitoring and location identification with polarimetric SAR in Three Gorges regions. Geoscience and Remote Sensing Symposium (IGARSS), 2014 IEEE International(IGARSS), 2014:418 - 421, Quebec city, Canada. 10.1109/IGARSS.2014.6946447;
  47. forty-seven
    Yang, Z.H., Lan, H. X. *, Gao,X., Li, L.P., Meng, Y.S., Wu, Y.M. Urgent Landslide Susceptibility Assessment in the 2013 Lushan Earthquake-impacted Area, Sichuan province, China.(2015) Natural hazards (2015) 75:2467–2487.
  48. forty-eight
    Ma, P.F., Lin, H., Lan, H. X. , Chen, F.L.(2015) Multi-dimensional SAR tomography for monitoring the deformation of newly built concrete buildings. ISPRS Journal of Photogrammetry and Remote Sensing 106 (2015) 118–128.
  49. forty-nine
    Zhang, Y.S., Guo, C.B., Lan, H. X. , Zhou, N.J., Yao, X. (2015). Reactivation mechanism of ancient giant landslides in the tectonically active zone: a case study in Southwest China. Environ Earth Sci (2015) 74:1719–1729.
  50. fifty
    YANG, Z.H., Lan, H. X. *, Liu, H.J., Li, L.P., Wu, Y.M., Meng, Y.S.(2015)Post-earthquake Rainfall-triggered Slope Stability Analysis In The Lushan Area[J]. Journal Of Mountain Science,2015,12(1):232-242;
  51. fifty-one
    Li, L.P., Lan, H. X. *, 2015. Probabilistic modeling of rockfall trajectory-a review. Bulletin of Engineering Geology and the Environment, 74, 1163–1176.
  52. fifty-two
    Meng, Y.S., Lan, H. X. *, Li, L.P., Wu, Y.M. and Li, Q.W. (2015). Characteristics of Surface Deformation Detected by X-band SAR Interferometry over Sichuan-Tibet Grid Connection Project Area, China. Remote Sensing, 2015, 7, 12265-12281;
  53. fifty-three
    Wu, Y.M., Lan, H. X. *, Gao,X., Li, L.P., Yang, Z.H. (2015). A simplified physically based coupled rainfall threshold model for triggering landslides. Engineering geology. Engineering Geology, 195, 63–69;
  54. fifty-four
    Langping Li, Lan,H.X. *, Changbao Guo, Yongshuang Zhang, Quanwen Li, Yuming Wu, 2016. A modified frequency ratio method for landslide susceptibility assessment. Landslides.
  55. fifty-five
    Langping Li, Lan, H.X. *, and Yuming Wu.2016. How sample size can effect landslide size distribution. Geoenvironmental Disasters (2016) 3:18 DOI 10.1186/s40677-016-0052-y;
  56. fifty-six
    Wu YM, Lan, H.X. , Gao X, et al., 2016. The relationship between the volume density of cracks and acoustic properties of the shale core samples from Fulin. Chinese Journal of Geophysics , 59(10): 3891-3900;
  57. fifty-seven
    Li Langping, Lan H.X. *, Guo Changbao, Zhang Yongshuang, Li Quanwen, Wu Yuming, 2017. A modified frequency ratio method for landslide susceptibility assessment. Landslides, 14, 727-741.(IF: 3.05) [8]

Scientific and technological achievements

one In terms of theoretical research: Multi scale rock Deformable anisotropy The control theory reveals the mechanism of micro anisotropy on deformation and failure of rock mass; The universal rock mass tensile strength Guidelines. The citation rate of representative achievements in Web of Science ranks first in the world, among which the citation rate of representative achievements since 2010 ranks first.
two In terms of model research: Created Integration GIS system 3D distribution of geologic hazard Dynamic process model, which can collapse landslide Debris flow Accurate calculation of isokinetic processes. In 40 countries around the world academic circle And the engineering community have been successfully applied and U.S.A The research report of the Academy of Sciences has been cited as an international mainstream model.
three In terms of applied research: Facing the national needs and practical problems of major projects, a series of application consulting studies have been completed, and Sichuan Tibet Railway And other major projects and previous countries earthquake It is applied in reconstruction planning. More than 10 scientific consultation and research reports have been adopted by the state, including General Secretary Etc leader Instructions. [8] [10]

Award record

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1. The second prize of 2016 China Electric Power Innovation Award;
2. 2016 State Grid Science and Technology Progress Award Grand Prize;
3. The 7th Huang Jiqing Young Geological Science and Technology Award in 2014 – Geological Science and Technology Researcher Award;
4. 2010 Youth Science and Technology Award of China Society of Rock Mechanics and Engineering;
5. The second prize of the Dayu Award of the Ministry of Water Resources in 2009;
6. The first prize for scientific and technological progress of Changjiang Water Resources Commission in 2005;
7. 2001 Dean of the Chinese Academy of Sciences Scholarship Excellence Award. [6] [8]

Social Appointments

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one International Association of Engineering Geology and Environment (IAEG) Chairman of Landslide Terminology Committee (C37)
2. Editorial board member of the international journal Engineering Geology
3. Editorial board member of the international journal Bulletin of Engineering Geology and the Environment
4. Editorial board member of International Journal of Mountain Science
5. Deputy editor in chief of international journal Geoenvironmental Disaster
6. Member of International Association of Engineering Geology and Environment (IAEG)
7. Member of American Rock Mechanics Association (ARMA)
8. Member of ICGdR
9. Member of International Society for Rock Mechanics (ISRM)
10. Member of Canadian Geotechnical Association
11. Professor of the International School of Landslide Risk Assessment and Mitigation (LARAM)
twelve Journal of Engineering Geology Editorial Board
thirteen Geographic Research Editorial Board
fourteen Chinese Society of Soil and Water Conservation Member of Landslide and Debris Flow Special Committee
fifteen Geological Society of China Member of Engineering Geology Special Committee
16. Member of Academic Committee of Key Laboratory of Hilly and Mountainous Geological Hazards, Ministry of Land and Resources
17. Member of Academic Committee of Key Laboratory of Shale Gas and Geological Engineering, Chinese Academy of Sciences
18. Third party independent assessment expert for national acceptance of the Three Gorges Project
19. Project supervision expert of China Geological Survey
20. Experts from the National Disaster Reduction Center of the Ministry of Civil Affairs
21. Consultant expert of Haixi major consulting project of Chinese Academy of Engineering
22. Member of Chinese Geographical Society
23. Professor of PCGIAP International Training Course of National Bureau of Surveying and Mapping
twenty-four Nature Journal reviewer [8]

Character evaluation

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Earthquakes, floods, mudslides, land subsidence... The world we live in is always doomed to disasters. We may not be able to avoid disasters, but we can try our best to minimize the harm caused by disasters. Lan Xingxing, a researcher of the Institute of Geographic Sciences and Resources of the Chinese Academy of Sciences, has made many achievements in remote sensing monitoring of geological disasters and process model research, which have attracted the attention of the international academic community, based on innovation and focusing on the combination of theoretical exploration and application, and has gradually become a shining star in this field [12] 。” (Review of Scientific Chinese)
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