Add to ORKGAn approach to utilizing adaptive mesh refinement algorithms for storm surge modeling is proposed. Currently numerical models exist that can resolve the details of coastal regions but are often too costly to be run in an ensemble forecasting framework without significant computing resources. The application of adaptive mesh refinement algorithms substantially lowers the computational cost of a storm surge model run while retaining much of the desired coastal resolution. The approach presented is implemented in the GeoClaw framework and compared to ADCIRC for Hurricane Ike along with observed tide gauge data and the computational cost of each model run
The coupled Delft3D Flexible Mesh (D3D FM) - SWAN model with an unstructured grid has been developed...
Storm surge and overland flooding can be predicted with computational models at high levels of resol...
The storm surge generated by Hurricane Hugo (1989) is reproduced for the purposes of (1) evaluating ...
An overview of how a mesh was simplified to help reduce simulation wall-clock time, reduce the total...
Motivation: Provide real time decision support Emergency mangers are interested in… When wi...
Here, we present two approaches for storm surge forecasting in coastal areas of Rhode Island: A regi...
The Texas Gulf Coast region contains significant centers of population, infrastructure, and economy,...
Storm surges are abnormal coastal sea level events caused by meteorological conditions such as tropi...
The National Weather Service (NWS) has developed a hurricane storm surge model called SLOSH (Sea, La...
The accurate numerical simulation of large scale flows, together with the detailed modeling of flood...
Coastal flooding is threatening the personal safety, property, and social development of the low-lyi...
In this paper we present a finite element method for overland flow (flood) simulation in the coastal...
AbstractBy combining computation and observation information, the variational data assimilation meth...
Storm surge has been the deadliest and costliest hurricane induced hazard in the coastal United Stat...
Coastal hazards related to strong storms such as hurricanes and typhoons are one of the most frequen...
The coupled Delft3D Flexible Mesh (D3D FM) - SWAN model with an unstructured grid has been developed...
Storm surge and overland flooding can be predicted with computational models at high levels of resol...
The storm surge generated by Hurricane Hugo (1989) is reproduced for the purposes of (1) evaluating ...
An overview of how a mesh was simplified to help reduce simulation wall-clock time, reduce the total...
Motivation: Provide real time decision support Emergency mangers are interested in… When wi...
Here, we present two approaches for storm surge forecasting in coastal areas of Rhode Island: A regi...
The Texas Gulf Coast region contains significant centers of population, infrastructure, and economy,...
Storm surges are abnormal coastal sea level events caused by meteorological conditions such as tropi...
The National Weather Service (NWS) has developed a hurricane storm surge model called SLOSH (Sea, La...
The accurate numerical simulation of large scale flows, together with the detailed modeling of flood...
Coastal flooding is threatening the personal safety, property, and social development of the low-lyi...
In this paper we present a finite element method for overland flow (flood) simulation in the coastal...
AbstractBy combining computation and observation information, the variational data assimilation meth...
Storm surge has been the deadliest and costliest hurricane induced hazard in the coastal United Stat...
Coastal hazards related to strong storms such as hurricanes and typhoons are one of the most frequen...
The coupled Delft3D Flexible Mesh (D3D FM) - SWAN model with an unstructured grid has been developed...
Storm surge and overland flooding can be predicted with computational models at high levels of resol...
The storm surge generated by Hurricane Hugo (1989) is reproduced for the purposes of (1) evaluating ...