The life of a tsunami is usually divided into three phases: the generation (tsunami source), the propagation and the inundation. Each phase is complex and often described separately. A brief description of each phase is given. Model problems are identified. Their formulation is given. While some of these problems can be solved analytically, most require numerical techniques. The inundation phase is less documented than the other phases. It is shown that methods based on Smoothed Particle Hydrodynamics (SPH) are particularly well-suited for the inundation phase. Directions for future research are outlined
Tsunamis are natural phenomena that can produce devastating e ects for life and human activities. Th...
20 pages, 12 figures. Accepted to Proceedings of the Royal Society A. Other authors papers and suppo...
A 2D Lagrangian numerical wave model is presented and validated against a set of physical wave-flume...
22 pages, 22 figures, 37 references. Manuscript submitted to Procedia IUTAM. Other author papers can...
The generation of tsunamis with the help of a simple dislocation model of an earthquake and their pr...
A common approach in modeling the generation and propagation of tsunami is based on the assumption o...
This thesis is devoted to tsunami wave modelling. The life of tsunami waves can be conditionally div...
Landslide generated tsunamis are lesser-known yet equally destructive than earthquake tsunamis. Inde...
Tsunamis are among the most terrifying and complex physical phenomena potentially affecting almost a...
Tsunamis are a major hazard along many of the world's coastlines. To understand the impact of these ...
Submarine slide is the most serious threat on both local and regional scales. Tsunami phenomenon ind...
International audienceA nonlinear nested model for mudslide-induced tsunamis is proposed in which th...
The megatsunami of 26 December 2004 was the first tsunami with transoceanic impact since the 1960 Gr...
Tsunamis are impulsively generated waves which may severely damage structures within the coastal zon...
To understand the engineering implications of possible wave run-up resulting from tsunamis, a formu...
Tsunamis are natural phenomena that can produce devastating e ects for life and human activities. Th...
20 pages, 12 figures. Accepted to Proceedings of the Royal Society A. Other authors papers and suppo...
A 2D Lagrangian numerical wave model is presented and validated against a set of physical wave-flume...
22 pages, 22 figures, 37 references. Manuscript submitted to Procedia IUTAM. Other author papers can...
The generation of tsunamis with the help of a simple dislocation model of an earthquake and their pr...
A common approach in modeling the generation and propagation of tsunami is based on the assumption o...
This thesis is devoted to tsunami wave modelling. The life of tsunami waves can be conditionally div...
Landslide generated tsunamis are lesser-known yet equally destructive than earthquake tsunamis. Inde...
Tsunamis are among the most terrifying and complex physical phenomena potentially affecting almost a...
Tsunamis are a major hazard along many of the world's coastlines. To understand the impact of these ...
Submarine slide is the most serious threat on both local and regional scales. Tsunami phenomenon ind...
International audienceA nonlinear nested model for mudslide-induced tsunamis is proposed in which th...
The megatsunami of 26 December 2004 was the first tsunami with transoceanic impact since the 1960 Gr...
Tsunamis are impulsively generated waves which may severely damage structures within the coastal zon...
To understand the engineering implications of possible wave run-up resulting from tsunamis, a formu...
Tsunamis are natural phenomena that can produce devastating e ects for life and human activities. Th...
20 pages, 12 figures. Accepted to Proceedings of the Royal Society A. Other authors papers and suppo...
A 2D Lagrangian numerical wave model is presented and validated against a set of physical wave-flume...