Assistant Research Professors
Li Langping
Source: | Date:2016-10-10 | 【Print】 【Close】
Assistant Professor
State Key Laboratory of Resources and Environmental Information System
Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences
11A, Datun Road, Chaoyang District, Beijing 100101, China
Phone: (+86)18612941241 Email: lilp@lreis.ac.cn
EDUCATION
Ph.D., Cartography and GIS, IGSNRR, CAS, 2011 ~ 2015
M.S., Physical Geography, Nanjing University, 2007 ~ 2010
B.S., Geography, Nanjing University, 2003 ~ 2007
RESEARCH TOPICS
Current research topics focus on applying geoinformatics to studying geological disasters, and include the following activities:
? Photogrammetry and Remote Sensing
Change Detection using LiDAR
Deformation Monitoring using InSAR
3D Reconstruction using Photogrammetry
6DOF Motion Estimation using Photogrammetry
? Motion Process Modeling
Trajectory Modeling of Rockfalls within GIS-based Frameworks
Collision and Rebound Modeling using Probabilistic Kinematical Coefficients
? Statistics and Risk Assessment
Characterizing and Unraveling the Stochastic Nature of Geological Disasters
Assessing the Risk of Geological Disasters using Statistical and Numerical Models
PUBLICATIONS
English Journals
[1]Li, L.P., Lan, H.X., Strom, A., 2020. Kinetic energy as a measurement of landslide magnitude: simple estimation from the landslide profile. Geomatics, Natural Hazards and Risk, in press.
[2]Li, L.P., Lan, H.X., Peng, J.B., 2020. Loess erosion patterns on a cut slope revealed by LiDAR scanning. Engineering Geology, 268, 105516.
[3]Zhao, X.X., Lan, H.X., Li, L.P., Zhang, Y.X., Zhou, C.D., 2020. A Multiple-Regression Model Considering Deformation Information for Atmospheric Phase Screen Compensation in Ground-Based SAR. IEEE Transactions on Geoscience and Remote Sensing, 58(2), 777–789.
[4]Zhang, Y.X., Lan, H.X., Li, L.P., Wu, Y.M., Chen, J.H., Tian, N.M., 2020. Optimizing the frequency ratio method for landslide susceptibility assessment: A case study of the Caiyuan Basin in the southeast mountainous area of China. Journal of Mountain Science, 17(2), 340–357.
[5]Li, L.P., Lan, H.X., 2019. Recovering absolute scale for Structure from Motion using the law of free fall. Optics and Laser Technology, 112, 514–523.
[6]Strom, A., Li, L.P., Lan, H.X., 2019. Rock avalanche mobility: optimal characterization and the effects of confinement. Landslide, 16(8), 1437–1452.
[7]Bao, H., Qi, Q., Lan, H.X., Yan, C.G., Xu, W., Liu, X., Li, L.P., 2019. Shear Mechanical Behaviours and Multistrength Parameter Characteristics of Fault Gouge. Advances in Civil Engineering, 2019, 4208032.
[8]Li, L.P., Lan, H.X., Guo, C.B., Zhang, Y.S., Li, Q.W., Wu, Y.M., 2017. A Modified Frequency Ratio Method for Landslide Susceptibility Assessment. Landslides, 14(2), 727–741.
[9]Li, L.P., Lan, H.X., Wu, Y.M., 2016. How sample size can effect landslide size distribution. Geoenvironmental Disasters, 3, 18.
[10]Li, L.P., Lan, H.X., 2015. Probabilistic modeling of rockfall trajectories: a review. Bulletin of Engineering Geology and the Environment, 74, 1163–1176.
[11]Meng, Y.S., Lan, H.X., Li, L.P., Wu, Y.M., Li, Q.W., 2015. Characteristics of Surface Deformation Detected by X-band SAR Interferometry over Sichuan-Tibet Grid Connection Project Area, China. Remote Sensing, 7(9), 12265–12281.
[12]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, 195, 63–69.
[13]Yang, Z.H., Lan, H.X., Liu, H.J., Li, L.P., Wu, Y.M., Meng, Y.S., Xu, L., 2015. Post-earthquake rainfall-triggered landslide stability analysis in Lushan Area. Journal of Mountain Science, 12(1), 232–242.
[14]Yang, Z.H., Lan, H.X., Gao, X., Li, L.P., Meng, Y.S., Wu, Y.M., 2015. Urgent landslide susceptibility assessment in the 2013 Lushan earthquake-impacted area, Sichuan Province, China. Natural Hazards, 75(3), 2467–2487.
[15]Li, L.P., Lan, H.X., Wu, Y.M., 2014. The volume-to-surface-area ratio constrains the rollover of the power law distribution for landslide size. The European Physical Journal Plus, 129, 89.
[16]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.
[17]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.
[18]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.
[19]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.
[20]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, 643–651.
[21]Wang, X.Y., Lu, H.Y., Vandenberghe, J., Chen, Z.Y., Li, L.P., 2010. Distribution and formation model of fluvial terrace in the Huangshui catchment and its tectonic indication. Acta Geologica Sinica, 84(2), 415–423.
Chinese Journals
[22]Zhang, Y.X., Lan, H.X., Li, L.P., Wu, Y.M., Chen, Z.C., Chen, J.H., 2019. Combining statistical model and physical model for refined assessment of geological disaster——A case study of Longshan community in Fujian Province. Journal of Engineering Geology, 27(3), 608–622.
仉义星, 兰恒星, 李郎平, 伍宇明, 陈志超, 陈俊辉, 2019. 综合统计模型和物理模型的地质灾害精细评估———以福建省龙山社区为例. 工程地质学报, 27(3), 608–622.
[23]Qin, J., Li, L.P., Tang, M.D., Sun, Y., Song, X.Y., 2018. Exploring the spatial characteristics of Beijing inbound tourist flow based on geotagged photos. Acta Geographica Sinica, 73(8), 1556–1570.
秦静, 李郎平, 唐鸣镝, 孙岩, 宋昕芮, 2018. 基于地理标记照片的北京市入境旅游流空间特征. 地理学报, 73(8), 1556–1570.
[24]Lan, H.X., Zhao, X.X., Wu, Y.M., Li, L.P., Su, F.Z., 2017. Settlement and Deformation Characteristics of Calcareous Island-reef. Periodical of Ocean University of China, 47(10), 1–8.
兰恒星, 赵晓霞, 伍宇明, 李郎平, 苏奋振, 2017. 钙质岛礁沉降变形过程分析. 中国海洋大学学报(自然科学版), 47(10), 1–8.
[25]Li, L.P., Lan, H.X., Guo, C.B., Zhang, Y.S., Li, Q.W., Wu, Y.M., 2017. Geohazard susceptibility assessment along the Sichuan-Tibet railway and its adjacent area using an improved frequency ratio method. Geoscience, 31(5), 911–929.
李郎平, 兰恒星, 郭长宝, 张永双, 李全文, 伍宇明, 2017. 基于改进频率比法的川藏铁路沿线及邻区地质灾害易发性分区评价. 现代地质, 31(5), 911–929.
[26]Wu, Y.M., Lan, H.X., Gao, X., Li, L.P., Meng, Y.S., 2014. Bayes theory based model for regional slope stability analysis. Journal of Engineering Geology, 22(6), 1227–1233.
伍宇明, 兰恒星, 高星, 李郎平, 孟云闪, 2014. 一种基于Bayes理论的区域斜坡稳定性评价模型. 工程地质学报, 22(6), 1227–1233.
[27]Wu, Y.M., Lan, H.X., Gao, X., Li, L.P., 2014. Rainfall threshold of storm-induced landslides in typhoon areas: a case study of Fujian Province. Journal of Engineering Geology, 22(2), 255–262.
伍宇明, 兰恒星, 高星, 李郎平, 2014. 台风暴雨型滑坡降雨阈值曲线研究——以福建地区为例. 工程地质学报, 22(2), 255–262.
[28]Lan, H.X., Zhou, C.H., Gao, X., Cheng, W.M., Wang, Z.H., Yang, Z.H., Li, L.P., Wu, Y.M., 2013. Secondary geological hazard assessment and hazard mitigation countermeasures in Lushan, Ya'an Earthquake, Sichuan Province. Progress in Geography, 32(4), 499–504.
兰恒星, 周成虎, 高星, 程维明, 王治华, 杨志华, 李郎平, 伍宇明, 2013. 四川雅安芦山地震灾区次生地质灾害评估及对策建议. 地理科学进展, 32(4), 499–504.
[29]Yang, Z.H., Lan, H.X., Zhang, Y.S., Li, L.P., Xiong, T.Y., 2013. Rock dynamic response of railway tunnel traversing through fault under strong earthquake. Journal of Engineering Geology, 21(2), 171–181.
杨志华, 兰恒星, 张永双, 李郎平, 熊探宇, 2013. 强震作用下穿越断层隧道围岩力学响应研究. 工程地质学报, 21(2), 171–181.
[30]Li, L.P., Lan, H.X., Li, X., Meng, Y.S., Chen, Y., 2012. Monitoring the ground deformation of Jintan salt cavern gas storage area using PSI. Chinese Journal of Rock Mechanics and Engineering, 31(9), 1821–1829.
李郎平, 兰恒星, 李晓, 孟云闪, 陈雨, 2012. 金坛盐穴天然气储库区地表变形PSI监测. 岩石力学与工程学报, 31(9), 1821–1829.
[31]Zhai, X.M., Lu, H.Y., Li, L.P., Tang, G.A., 2012. Landscape evolution and erosion of Luochuan Tableland (central Chinese Loess Plateau) at different time scales. Quaternary science, 32(5), 839–848.
翟秀敏, 鹿化煜, 李郎平, 汤国安, 2012. 不同时间尺度洛川塬地貌演化与侵蚀量估算. 第四纪研究, 32(5), 839–848.
[32]Lan, H.X., Liu, H.J., Sun, T., Jia, Y.L., Yang, Z.H., Li, L.P., Ding, S.Q., Huang, X.M., 2011. Attribute classification of high resolution permanent scatterer for monitoring complex urban subsidence. Journal of Engineering Geology, 19(6), 893–901.
兰恒星, 刘洪江, 孙铁, 贾有良, 杨志华, 李郎平, 丁尚起, 黄晓明, 2011. 城市复杂地面沉降永久干涉雷达监测属性分类研究. 工程地质学报, 19(6), 893–901.
[33]Lu, H.Y., Li, L.P., Yi, S.W., Wang, X.Y., Mason, J.A., 2010. A perspective on deposition and erosion of the sand-loess system in North China. Earth Science Frontiers, 17(5), 336–344.
鹿化煜, 李郎平, 弋双文, 王先彦, Joseph A. Mason, 2010. 中国北方沙漠-黄土体系的沉积和侵蚀过程与未来趋向探析. 地学前缘, 17(5), 336–344.
[34]Yang, D.Y., Li, L.P., Huang, D., Ge, Z.S., Xu, Q.M., Li, X.S., Han, Z.Y., 2010. Uplift characteristics of the Yunnan Plateau. Quaternary science, 30(5), 864–871.
杨达源, 李郎平, 黄典, 葛兆帅, 胥勤勉, 李徐生, 韩志勇, 2010. 云南高原隆升特点的初步研究. 第四纪研究, 30(5), 864–871.
[35]Huang, D., Yang, D.Y., Li, L.P., Shi, A.C., Lu, F., Ge, Z.S., Xu, Q.M., 2010. Incision rates of the Baihetan section of the Jinsha River. Quaternary science, 30(5), 872–876.
黄典, 杨达源, 李郎平, 石安池, 陆飞, 葛兆帅, 胥勤勉, 2010. 金沙江白鹤滩河段下切速率初步研究. 第四纪研究, 30(5), 872–876.
[36]Li, L.P., Lu, H.Y., 2010. A Preliminarily Quantitative Estimation of the Sedimentation and Erosion Rates of Loess Deposits in Chinese Loess Plateau over the Past 250 ka. Acta Geographica Sinica, 65(1), 37–52.
李郎平, 鹿化煜, 2010. 黄土高原25万年以来粉尘堆积与侵蚀的定量估算. 地理学报, 65(1), 37–52.
[37]Li, L.P., Yang, D.Y., Huang, D., Ge, Z.S., Xu, Q.M., Wang, X.Y., 2009. Drainage evolution of Qiaojia–Xinshizhen section of Jinsha River. Quaternary Sciences, 29(2), 327–333.
李郎平, 杨达源, 黄典, 葛兆帅, 胥勤勉, 王先彦, 2009. 金沙江巧家-新市镇河段的水系变迁. 第四纪研究, 29(2), 327–333.
[38]Lu, H.Y., Wang, X.Y., Li, L.P., 2008. Aaeolian dust records indicate the linkage of global cooling and Asian drying in late Cenozoic. Quaternary Sciences, 28(5), 949–956.
鹿化煜, 王先彦, 李郎平, 2008. 晚新生代亚洲干旱气候发展与全球变冷联系的风尘沉积证据. 第四纪研究, 28(5), 949–956.
[39]Yang, D.Y., Han, Z.Y., Ge, Z.S., Xu, Q.M., Chen, K.F., Xu, Y.H., Li, L.P., Huang, D., Lu, H.Y., 2008. Geomorphic process of the formation and incision of the section from Shigu to Yibin of the Jinshajiang River. Quaternary Sciences, 28(4), 564–568.
杨达源, 韩志勇, 葛兆帅, 胥勤勉, 陈可峰, 徐永辉, 李郎平, 黄典, 鹿化煜, 2008. 金沙江石鼓-宜宾河段的贯通与深切地貌过程的研究. 第四纪研究, 28(4), 564–568.
Book Chapters
[40]Lu, H.Y., Wang, X.Y., Li, L.P., 2010. Aeolian sediment evidence that global cooling has driven late Cenozoic stepwise aridification in Asia. In: Clift, P.D., Tada, R., Zheng, H. (eds) Monsoon Evolution and Tectonics–Climate Linkage in Asia. Geological Society, London, Special Publications, 342, 29–44.
Conference Proceedings
[41]Lan, H.X., Li, L.P., Wu, Y.M., 2015. Stochasticity of Rockfall Tracjectory Revealed by a Field Experiment Repeated on a Single Sample. In: Lollino, G., et al. (eds) Engineering Geology for Society and Territory - Volume 2. Springer International Publishing Switzerland, pp 1713–1721.
[42]Lan, H.X., Li, L.P., Wu, Y.M., 2013. The role of rockfall intensity on its risk assessment. In: Wu, F.Q., Qi, S.W., (eds) Global View of Engineering Geology and the Environment. Taylor & Francis Group, London, pp 51–58.
Conference Abstracts
[43]Li, L.P., Lan, H.X., 2018. Integrating Spatial Probability and Magnitude in Data Driven Landslide Susceptibility Assessment. The 18th International Symposium on Spatial Data Handling, 2018, June 07-09, Moscow, Russia.
[44]Li, L.P., Lan, H.X., Wu, Y.M., 2013. Deviation from Power Law Behavior in Landslide Phenomenon. American Geophysical Union, Fall Meeting, 2013, December 09-13, San Francisco, California, USA.
