The shallow water equations are a commonly accepted approximation governing tsunami propagation. Numerically capturing certain features of local tsunami inundation requires solving these equations in their physically relevant conservative form, as integral con- servation laws for depth and momentum. This form of the equations presents challenges when trying to numerically model global tsunami propagation, so often the best numerical methods for the local inundation regime are not suitable for the global propagation regime. The different regimes of tsunami flow belong to different spatial scales as well, and re- quire correspondingly different grid resolutions. The long wavelength of deep ocean tsunamis requires a large global scale computin...
Effects of tsunamis generated in water areas surrounding Japan are studied numerically. Partial d...
One key component of tsunami research is numerical simulation of tsunamis, which helps us to better ...
Most analyses of storm surge and inundation solve equations of continuity and momentum on fixed fini...
The shallow water equations are a commonly accepted approximation governing tsunami propagation. Num...
Tsunamis belong to a class of geophysical problems with vastly different spatial scales of interest....
Thesis (Ph.D.)--University of Washington, 2014Submarine landslides can generate tsunamis, and the ge...
This paper proposes a robust method for modeling shallow-water flows and near shore tsunami propagat...
Thesis (Ph.D.)--University of Washington, 2019Tsunami hazard evaluation and mitigation is of great i...
Tsunami modelling commonly accepts the shallow-water system as governing equations where the major d...
Coastal hazards related to strong storms such as hurricanes and typhoons are one of the most frequen...
22 pages, 22 figures, 37 references. Manuscript submitted to Procedia IUTAM. Other author papers can...
In the present article, we describe a few simple and efficient finite volume type schemes on moving ...
46 pages, 7 figures, 7 tables, 94 references. Accepted to Geosciences. Other author's papers can be ...
Often caused with little to no warning, tsunamis can cause devastating damage to coastal cities and ...
Effects of tsunamis generated in water areas surrounding Japan are studied numerically. Partial d...
One key component of tsunami research is numerical simulation of tsunamis, which helps us to better ...
Most analyses of storm surge and inundation solve equations of continuity and momentum on fixed fini...
The shallow water equations are a commonly accepted approximation governing tsunami propagation. Num...
Tsunamis belong to a class of geophysical problems with vastly different spatial scales of interest....
Thesis (Ph.D.)--University of Washington, 2014Submarine landslides can generate tsunamis, and the ge...
This paper proposes a robust method for modeling shallow-water flows and near shore tsunami propagat...
Thesis (Ph.D.)--University of Washington, 2019Tsunami hazard evaluation and mitigation is of great i...
Tsunami modelling commonly accepts the shallow-water system as governing equations where the major d...
Coastal hazards related to strong storms such as hurricanes and typhoons are one of the most frequen...
22 pages, 22 figures, 37 references. Manuscript submitted to Procedia IUTAM. Other author papers can...
In the present article, we describe a few simple and efficient finite volume type schemes on moving ...
46 pages, 7 figures, 7 tables, 94 references. Accepted to Geosciences. Other author's papers can be ...
Often caused with little to no warning, tsunamis can cause devastating damage to coastal cities and ...
Effects of tsunamis generated in water areas surrounding Japan are studied numerically. Partial d...
One key component of tsunami research is numerical simulation of tsunamis, which helps us to better ...
Most analyses of storm surge and inundation solve equations of continuity and momentum on fixed fini...