Inverse Estimation of Soil Hydraulic Parameters in a Landslide Deposit Based on a DE-MC Approach

Abstract: Extreme rainfall is a common triggering factor of landslide disasters, for infiltration and pore water pressure propagation can reduce suction stress and shear strength at the slip surface. The subsurface hydrological model is an essential component in the early-warning system of rainfall-triggered landslides, whereas soil moisture and pore water pressure simulated by the Darcy–Richards equation could be significantly affected by uncertainties in soil hydraulic parameters. This study conducted an inverse analy… Show more

“…The second paper [7] used the Differential Evolution Markov chain Monte Carlo method (DE-MC) for inverse parameter estimation of in situ measured soil moisture. The DE-MC approach was validated through a synthetic numerical experiment and then applied to in situ measured soil moisture in an earthquake-induced landslide deposit.…”

Research on Landslide Hydrology and Hydrogeological Disaster Monitoring

“…The second paper [7] used the Differential Evolution Markov chain Monte Carlo method (DE-MC) for inverse parameter estimation of in situ measured soil moisture. The DE-MC approach was validated through a synthetic numerical experiment and then applied to in situ measured soil moisture in an earthquake-induced landslide deposit.…”

Research on Landslide Hydrology and Hydrogeological Disaster Monitoring

Bayesian model updating for bridge engineering applications based on DREAMKZS algorithm and Kriging model