BurjánekJ, Gassner-StammG, PoggiV, et al. . Ambient Vibration Analysis of an Unstable Mountain Slope. Geophysical Journal International, 2010, 180(2): 820-828

BurjánekJ, MooreJ R, Yugsi MolinaF X, et al. . Instrumental Evidence of Normal Mode Rock Slope Vibration. Geophysical Journal International, 2012, 188(2): 559-569

CrostaG B, AgliardiF, RivoltaC, et al. . Long-Term Evolution and Early Warning Strategies for Complex Rockslides by Real-Time Monitoring. Landslides, 2017, 14(5): 1615-1632

CrostaG B, di PriscoC, FrattiniP, et al. . Chasing a Complete Understanding of the Triggering Mechanisms of a Large Rapidly Evolving Rockslide. Landslides, 2014, 11(5): 747-764

DaviesT R H, ReznichenkoN V, McSaveneyM J. Energy Budget for a Rock Avalanche: Fate of Fracture-Surface Energy. Landslides, 2020, 17(1): 3-13

Di ToroG, GoldsbyD L, TullisT E. Friction Falls towards Zero in Quartz Rock as Slip Velocity Approaches Seismic Rates. Nature, 2004, 427: 436-439

DuY, HuoL C, XieM W, et al. . Monitoring and Early Warning Experiment of Rock Collapse. Chinese Journal of Theoretical and Applied Mechanics, 2021, 53(4): 1212-1221 (in Chinese with English Abstract)

DuY, LuY D, XieM W, et al. . A New Attempt for Early Warning of Unstable Rocks Based on Vibration Parameters. Bulletin of Engineering Geology and the Environment, 2020, 79(8): 4363-4368

DuY, WuZ X, XieM W, et al. . Early-Warning Method of Rock Collapse and Its Experimental Verification. Journal of China Coal Society, 2019, 44(10): 3069-3075 (in Chinese with English Abstract)

DuY, XieM W, JiangY J, et al. . Research Progress on Dynamic Monitoring Index for Early Warning of Rock Collapse. Chinese Journal of Engineering, 2019, 41(4): 427-435 (in Chinese with English Abstract)

DuY, XieM W, JiangY J, et al. . Experimental Rock Stability Assessment Using the Frozen-Thawing Test. Rock Mechanics and Rock Engineering, 2017, 50(4): 1049-1053

EisbacherG H. Cliff Collapse and Rock Avalanches (Sturzstroms) in the Mackenzie Mountains, Northwestern Canada. Canadian Geotechnical Journal, 1979, 16(2): 309-334

EkströmG, StarkC P. Simple Scaling of Catastrophic Landslide Dynamics. Science, 2013, 339(6126): 1416-1419

GolshaniA, OdaM, OkuiY, et al. . Numerical Simulation of the Excavation Damaged Zone around an Opening in Brittle Rock. International Journal of Rock Mechanics and Mining Sciences, 2007, 44(6): 835-845

HanL, ChenS Z, ShuJ S, et al. . Experimental Study on Vibration Instability Model of Rock Slope Based on Parallel Chaotic Algorithms. Chaos, Solitons & Fractals, 2019, 128: 252-260

HeZ, XieM W, HuangZ J, et al. . Experimental Hazardous Rock Block Stability Assessment Based on Vibration Feature Parameters. Advances in Civil Engineering, 2020, 2020(1): 8837459

JiaB N, WuZ X, DuY. Real-Time Stability Assessment of Unstable Rocks Based on Fundamental Natural Frequency. International Journal of Rock Mechanics and Mining Sciences, 2019, 124: 104134

LiH B, YangX G, SunH L, et al. . Monitoring of Displacement Evolution during the Pre-Failure Stage of a Rock Block Using Ground-Based Radar Interferometry. Landslides, 2019, 16(9): 1721-1730

MangeneyA. Landslide Boost from Entrainment. Nature Geoscience, 2011, 4: 77-78

ParonuzziP, BollaA, RigoE. 3D Stress-Strain Analysis of a Failed Limestone Wedge Influenced by an Intact Rock Bridge. Rock Mechanics and Rock Engineering, 2016, 49(8): 3223-3242

QianQ H, ZhouX P. Effects of Incompatible Deformation on Failure Mode and Stress Field of Surrounding Rock Mass. Chinese Journal of Rock Mechanics and Engineering, 2013, 32(4): 649-656 (in Chinese with English Abstract)

QiuJ. Killer Landslides: The Lasting Legacy of Nepal’s Quake. Nature, 2016, 532: 428-431

SätteleM, KrautblatterM, BründlM, et al. . Forecasting Rock Slope Failure: How Reliable and Effective are Warning Systems?. Landslides, 2016, 13(4): 737-750

WalterM, SchwadererU, JoswigM. Seismic Monitoring of Precursory Fracture Signals from a Destructive Rockfall in the Vorarlberg Alps, Austria. Natural Hazards and Earth System Sciences, 2012, 12(11): 3545-3555

WangF W, ChenY, LiuW C, et al. . Characteristics and Challenges to Dynamics of Long-Runout Landslides with High-Altitude in Southeast Tibet. Journal of Engineering Geology, 2022, 30(6): 1831-1841 (in Chinese with English Abstract)

WangY F, LinQ W, LiK, et al. . Review on Rock Avalanche Dynamics. Journal of Earth Sciences and Environment, 2021, 43(1): 164-181 (in Chinese with English Abstract)

YangJ T, XuC, JinX. Joint Effects and Spatiotemporal Characteristics of the Driving Factors of Landslides in Earthquake Areas. Journal of Earth Science, 2023, 34(2): 330-338

YangC M, YuW L, DongJ J, et al. . Initiation, Movement, and Run-out of the Giant Tsaoling Landslide—What can We Learn from a Simple Rigid Block Model and a Velocity-Displacement Dependent Friction Law?. Engineering Geology, 2014, 182: 158-181

YinY P, ChengY L, LiangJ T, et al. . Heavy-Rainfall-Induced Catastrophic Rockslide-Debris Flow at Sanxicun, Dujiangyan, after the Wenchuan M _s 8.0 Earthquake. Landslides, 2016, 13(1): 9-23

ZhuangY, YinY P, XingA G, et al. . Combined Numerical Investigation of the Yigong Rock Slide-Debris Avalanche and Subsequent Dam-Break Flood Propagation in Tibet, China. Landslides, 2020, 17(9): 2217-2229