Extremely-rapid flowlike landslide are a major hazard in many parts of the world, and managing their risk requires an understanding of the mechanisms that drive motion, as well as reliable predictions of their potential destructiveness. Numerical runout models are one tool that can be used for both these applications, however their utility is presently limited by their computational runtime. In the present work, a new depth-averaged, smooth particle hydrodynamics based model is implemented to run on a graphical processing unit. The new implementation provides a speedup of over two orders of magnitude, compared to a commonly used CPU based runout model. The new model has been validated, and then is used to back-analyse the Johnsons Landing L...
Figure 1. Illustration of our erosion simulation on a ”PG”-shaped mountain. (a) The initial terrain....
Flow-like landslides such as debris flows and rock avalanches travel at extremely rapid velocities a...
International audienceNatural mountains and valleys are gradually eroded by rainfall and river flows...
Flow-like landslides are a common type of natural hazards that may impose a great risk to people and...
Flow-like landslides are a common type of natural hazards that may impose a great risk to people and...
Smoothed particle hydrodynamics (SPH) is now becoming more and more welcome in modeling large defor-...
Runout analysis, the prediction of landslide motion and its effects, is an essential component of l...
Lagrangian particle-based smoothed particle hydrodynamics (SPH) is more and more widely used in land...
This work presents an improved soil.water coupling model to simulate landslide-generated impulse wav...
Flow-like landslides commonly happen in mountainous areas and may threaten people's lives, damage th...
Rapid landslides pose a significant hazard worldwide, and there is currently no routine way of predi...
In the last years, numerical modelling has emerged as a useful tool for landslide runout analysis an...
Snow is a physical phenomenon that is hard to simulate due to the wide range of behaviors that can b...
This study uses an incompressible smoothed-particle hydrodynamics (ISPH) model to investigate the ru...
This study uses an incompressible smoothed-particle hydrodynamics (ISPH) model to investigate the ru...
Figure 1. Illustration of our erosion simulation on a ”PG”-shaped mountain. (a) The initial terrain....
Flow-like landslides such as debris flows and rock avalanches travel at extremely rapid velocities a...
International audienceNatural mountains and valleys are gradually eroded by rainfall and river flows...
Flow-like landslides are a common type of natural hazards that may impose a great risk to people and...
Flow-like landslides are a common type of natural hazards that may impose a great risk to people and...
Smoothed particle hydrodynamics (SPH) is now becoming more and more welcome in modeling large defor-...
Runout analysis, the prediction of landslide motion and its effects, is an essential component of l...
Lagrangian particle-based smoothed particle hydrodynamics (SPH) is more and more widely used in land...
This work presents an improved soil.water coupling model to simulate landslide-generated impulse wav...
Flow-like landslides commonly happen in mountainous areas and may threaten people's lives, damage th...
Rapid landslides pose a significant hazard worldwide, and there is currently no routine way of predi...
In the last years, numerical modelling has emerged as a useful tool for landslide runout analysis an...
Snow is a physical phenomenon that is hard to simulate due to the wide range of behaviors that can b...
This study uses an incompressible smoothed-particle hydrodynamics (ISPH) model to investigate the ru...
This study uses an incompressible smoothed-particle hydrodynamics (ISPH) model to investigate the ru...
Figure 1. Illustration of our erosion simulation on a ”PG”-shaped mountain. (a) The initial terrain....
Flow-like landslides such as debris flows and rock avalanches travel at extremely rapid velocities a...
International audienceNatural mountains and valleys are gradually eroded by rainfall and river flows...