Preliminary results on a near-real-time rock slope damage monitoring system based on relative velocity changes following the September 5,2022 MS6.8 Luding,China earthquakeOA
Preliminary results on a near-real-time rock slope damage monitoring system based on relative velocity changes following the September 5,2022 MS6.8 Luding,China earthquake
Fan Xie;Chen Liang;Shigui Dai;Bo Shao;Huibao Huang;Jinhui Ouyang;Li Li;Eric Larose
Institute of Science and Technology,China Three Gorges Corporation,Beijing 100089,ChinaKey Laboratory of Earthquake Source Physics,China Earthquake Administration,Beijing 100081,ChinaInstitute of Science and Technology,China Three Gorges Corporation,Beijing 100089,ChinaSichuan Earthquake Agency,Chengdu 610044,ChinaInstitute of Science and Technology,China Three Gorges Corporation,Beijing 100089,ChinaDadu River Hydropower Development Co.,Ltd.,Chengdu 610016,ChinaInstitute of Science and Technology,China Three Gorges Corporation,Beijing 100089,ChinaKey Laboratory of Earthquake Source Physics,China Earthquake Administration,Beijing 100081,China
Relative velocity changeRock slope damageLuding earthquakeSpace-time evolution
Relative velocity changeRock slope damageLuding earthquakeSpace-time evolution
《地震研究进展(英文)》 2023 (1)
31-36,6
This manuscript benefits from useful comments by two external re-viewers.We thank the managing editor Ms.Qin Xu and deputy editor Prof.Zhigang Peng for proofreading the manuscript.Fan Xie acknowl-edges the support from the National Science Foundation of China(Grant No.NSFC41874061 42120104002)and the Central Research Institutes of Basic Research and Public Service Special Operations(Grant No.DQJB22Z02).The authors thank Chengdu Luopin Co.,Ltd.for sup-porting seismometers,data acquisition systems,and maintenance ser-vices on these slopes.
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