Rainfall Induced Soil Slope Failure: Stability Analysis and Probabilistic Assessment
integrates probabilistic approaches with the geotechnical modeling of slope failures under rainfall conditions with unsaturated soil. It covers theoretical models of rainfall infiltration and stability analysis, reliability analysis based on coupled hydro-mechanical modelling, stability of slopes with cracks, gravels and spatial heterogenous soils, and probabilistic model calibration based on measurement. It focuses on the uncertainties involved with rainfall-induced landslides and presents state-of-the art techniques and methods which characterize the uncertainties and quantify the probabilities and risk of rainfall-induced landslide hazards.
Additionally, the authors cover:
- The failure mechanisms of rainfall-induced slope failure
- Commonly used infiltration and stability methods
- The infiltration and stability of natural soil slopes with cracks and colluvium materials
- Stability evaluation methods based on probabilistic approaches
- The effect of spatial variability on unsaturated soil slopes and more
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