基本介紹
- 中文名:蘭恆星
- 外文名:Hengxing Lan
- 國籍:中國
- 民族:漢族
- 出生地:山東招遠
- 出生日期:1972年
- 職業:研究員、博士生導師
- 畢業院校:中國科學院地質與地球物理研究所,山東科技大學
- 主要成就:2009中國科學院百人計畫國外傑出人才
2015 國家傑出青年基金資助 - 性別:男
人物任職,教育經歷,工作經歷,科學研究,主要學術成績,主要研究項目,獲獎情況,代表性學術論文,研究生招生,
人物任職
曾獲黃汲清青年地質科學技術獎等獎項。任國際工程地質與環境協會(IAEG)滑坡命名方法專委會主席、國際期刊《Bulletin of Engineering Geology and the Environment》編委、《Geoenvironmental Disaster》副主編等職,並任Nature Geoscience等雜誌審稿人。
教育經歷
1995-1998,山東科技大學地球科學系,獲碩士學位;
1998-2001,中國科學院地質與地球物理研究所,獲博士學位。
工作經歷
2009/5-,中國科學院地理科學與資源研究所,研究員(中國科學院百人計畫國外傑出人才,終期評估優秀);
2006/5-2009/4,加拿大地面災害風險分析中心,研究組長(Team Leader);
2004/5-2006/4,加拿大阿爾伯塔大學,研究工程師;
2004/2-2004/4,香港大學,訪問學者;
2003/8-2004/3,中國科學院地理科學與資源研究所,副研究員;
2001/7-2003 /7,中國科學院地理科學與資源研究所,博士後。
科學研究
長期從事環境與地質災害機理、過程模型和套用研究,主要研究方向為多尺度岩體變形破壞機理、環境地質災害動力學過程模型與風險分析。已在國內外重要學術期刊上發表文章100餘篇,其中SCI檢索論文40餘篇、EI檢索論文30餘篇,出版專著4部,完成國家級規劃4項。論文被引用總計1700餘次。
主要學術成績
(1)理論研究:在大量實驗和長期現場觀測的基礎上,發展完善了多尺度岩體變形破壞基礎研究,提出多尺度岩體變形破壞的微觀各向異性控制理論,揭示了礦物尺度微觀各向異性對岩體變形破壞的作用機理。代表性成果國際引用領先,其中2010年以來的代表性成果在湯森路透的Web of Science引用率國際排名第一。
(2)模型研究:創建了首個集成GIS系統的三維分散式岩體崩塌動力學過程模型-RA模型(Rockfall Analyst),在全球近40個國家的學術界和工程界得到成功套用,並被美國科學院研究報告引用,成為國際主流模型。
(3)套用研究:面向國家需求和重大工程實際問題,完成了一系列套用研究,10與項科學諮詢研究報告被國務院和中共中央辦公廳等部門實質採用,並獲得包括總書記等國家領導人批示,成功套用於我國玉樹、蘆山、魯甸等地震災區的恢復重建規劃,更好地服務於國家需求。
主要研究項目
(1)國家自然科學基金國家傑出青年基金項目(批准號:41525010),工程地質動力學與地質災害,2016年01月- 2020年12月(主持);
(2)國家自然科學基金面上項目(批准號:41272354),基於LIDAR和頻率分布的岩崩規模與關鍵過程研究、2013年1月-2016年12月(主持);
(3)國家自然科學基金面上項目(批准號:41472282),分散式滑坡形變PSI(永久散射體干涉雷達)監測模型及技術,2015年1月-2018年12月(主持);
(4)中國科學院百人計畫項目,A1055,地質災害過程模型與風險評估,2010年-2014年(主持);
(5)國家自然科學基金創新群體項目“地理時空數據分析”(批准號:41421001),2015年1月-2020年12月(參加);
(6)中科院戰略性先導科技專項(B類),(XDB10030300),頁岩氣勘探開發基礎理論與關鍵技術,2014年1月—2018年12月(參加)。
獲獎情況
2016年,入選“長江學者獎勵計畫”特聘教授;
2015年,獲“國家傑出青年基金”資助;
2014年,黃汲清青年地質科學技術獎科研獎;
2014年,中國科學院百人計畫優秀獎;
2010年,國際IAEG Richard-Wolters Prize 中國唯一候選人獎;
2010年,中國岩石力學與工程學會青年科技獎;
2009年,中國科學院百人計畫;
2009年,水利部大禹獎二等獎;
2005年,長江水利委員會科技進步一等獎;
2001年,中國科學院院長優秀獎學金。
代表性學術論文
(* 表示通訊作者)
[1] Langping Li, Lan,H.X.*, Changbao Guo, Yongshuang Zhang, Quanwen Li, Yuming Wu, 2016. A modified frequency ratio method for landslide susceptibility assessment. Landslides. DOI 10.1007/s10346-016-0771-x.
[2] 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.
[3] 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, DOI: 10.6038/cjg20161032.
[4] 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; doi:10.3390/rs70912265.
[5] Wu, Y.M., Lan, H. X. *, Gao,X., Li, L.P., Yang, Z.H. ,A simplified physically based coupled rainfall threshold model for triggering landslides. Engineering geology. Engineering Geology, 195, 63–69.
[6] 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.DOI 10.1007/s11069-014-1441-8.
[7] 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.
[8] 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, DOI 10.1007/s12665-015-4180-6.
[9] 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.
[10] Li, L.P., Lan, H. X.*, 2015. Probabilistic modeling of rockfall trajectory-a review. Bulletin of Engineering Geology and the Environment, 74, 1163–1176. DOI 10.1007/s10064-015-0718-9.
[11] 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. DOI:10.1109/LGRS.2014.2365613.
[12] Qi, S., Lan, H. X.., Dong, J. An analytical solution to slip buckling slope failure triggered by earthquake, Eng. Geol. (2014), http://dx.doi.org/10.1016/j.enggeo.2014.06.004 .
[13] 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. DOI: 10.1016/j.enggeo.2014.05.014.
[14] 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 DOI 10.1140/epjp/i2014-14089-y.
[15] 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, DOI: 10.1007/978-3-319-09057-3_1, © Springer International Publishing Switzerland 2014 (EI&Keynote).
[16] 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 (EI).
[17] 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.
[18] Macciotta, R., Hendry, M., Martin, C. D., Elwood, D., Lan, H. X., Huntley, D., Bobrowsky, P., Sladen, W., Chris Bunce, C., Choi, E., Edwards, T. 2014. Monitoring of the Ripley Slide in the Thompson River Valley, B.C. Geohazards 6 Conference (2014.6.15-18).
[19] 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.
[20] 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.
[21] 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.
[22] 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.
[23] 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. (EI &Invited paper)
[24] Wang, G. L., Qi, S. W., Lan, H. X., 2013. Numerical simulation of limit pressure against debris flow for the 8th August, 2010 Sanyanyu debris flow in China: A case study. In: 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: 173–177. (EI)
[25] 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.
[26] 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.
[27] 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.
[28] 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.
[29] 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.
[30] Niu, Q.F., Cheng, W.M., Liu, Y., Xie, Y.W., Lan, H. X., Cao, Y.R., 2012. Risk assessment of secondary geological disasters induced by the Yushu earthquake. Journal of Mountain Science, 9(2), 232–242.
[31] 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.
[32] 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. (SCI)
[33] 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.
[34] 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. (EI)
[35] 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.
[36] 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.
[37] 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.
[38] 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.
[39] 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. (EI)
[40] 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.
[41] 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.
[42] 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.
[43] 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.
[44] 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.
[45] 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.
[46] 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.(EI)
[47] 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.(EI)
[48] 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.
[49] 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.
[50] 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.
[51] 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.
[52] 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.
[53] 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.
[54] 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.
[55] 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.
[56] 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.
[57] 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.
研究生招生
招生專業:地圖學與地理信息系統;
招生方向:地理信息系統與自然災害。