[1] Lei Y, Cui P, Zeng C, et al. An empirical mode decomposition-based signal process method for two-phase debris flow impact[J]. Landslides, 2018, 15(2): 297-307.
[2] Lei Y, Cui P, Regmi AD, et al. An international program on Silk Road Disaster Risk Reduction – a Belt and Road initiative, 2016-2020. Journal of Mountain Science, 2018 15(7).
[3] Cui P,Lei Y, Kaiheng HU, et al.Amplification Mechanism and Hazard Analysis for Zhouqu Giant Debris Flow[J]. International Journal of Erosion Control Engineering, 2016, 9(3):71-79.
[4] Wu SN,Lei Y, Cui P, et al. Chinese public participation monitoring and warning system for geological hazards. Journal of Mountain Science,2020, 17(7).
[5] Cui P,Lei Y. (2019) Silk Road disaster risk reduction. IRDR Working Paper on Scientific Output of Disaster Risk Reduction, PreventionWeb 2019 (doi: 10.24948/2019.08)
[6] Cui P , Zeng C ,Lei Y. Experimental analysis on the impact force of viscous debris flow[J]. Earth Surface Processes & Landforms, 2015, 40(12):1644-1655.
[7] 雷雨,崔鵬,蔣先剛.泥石流作用下砌體房屋破壞機理與結構優(yōu)化[J].四川大學(xué)學(xué)報:工程科學(xué)版,2016(48):69.
[8] 吳圣楠,雷雨,崔鵬. (2020)瀾滄江-湄公河流域洪水災害防治合作回顧與對策[J].科技導報.
專(zhuān)著(zhù)
[1] Cui P, Lei Y, Wu SN, Zou Q, et al. Glance at the Silk Road Disaster Risk [M], Science Press,2020.(9萬(wàn)字)
[2] 崔鵬,雷雨,鄒強,等. “一帶一路”自然災害風(fēng)險評[M].科學(xué)出版社,2020.(10萬(wàn)字)
[3] Peng Cui, Qiang Zou, Koert Sijmons, Yu Lei, et al. Atlas of Silk Road Disaster Risk.
Science Press, 2020.(140余幅) |