N Tull, JC Dietrich, TE Langan, H Mitasova, BO Blanton, JG Fleming, RA Luettich. “Improving Accuracy of Real-Time Storm Surge Inundation Predictions Using GRASS GIS.” ASBPA National Coastal Conference 2017, Fort Lauderdale, Florida, 25 October 2017.
Poster presented by Nelson Tull at the ASBPA National Coastal Conference 2017.
A Gharagozlou, JC Dietrich, M Overton, A Karanci. “Morphological Modeling of Hatteras Island During Hurricane Isabel.” North Carolina’s Coastal Conference, Raleigh, North Carolina, 4-5 April 2017.
A Gharagozlou, JC Dietrich, M Overton, A Karanci. “Morphological Modeling of Hatteras Island During Hurricane Isabel.” Environmental, Water Resources and Coastal Engineering Research Symposium, North Carolina State University, 3 March 2017.
Morphological modeling of Hatteras Island during Hurricane Isabel
A Thomas, JC Dietrich, JG Fleming, BO Blanton, RA Luettich Jr. “Optimizing the Design of Unstructured Meshes Describing North Carolina Coastal Regions to Improve Accuracy of Flood Predictions.” Environmental, Water Resources and Coastal Engineering Research Symposium, North Carolina State University, 04 March 2016.
A Thomas, JC Dietrich, JG Fleming, BO Blanton, RA Luettich Jr. “Optimizing the Design of Unstructured Meshes Describing North Carolina Coastal Regions to Improve Accuracy of Flood Predictions.” Computing & Systems Research Symposium, North Carolina State University, 22 April 2016.
R Cyriac, JC Dietrich, JG Fleming, BO Blanton, RA Luettich, C Kaiser. “Forecast Predictions of Winds, Waves and Storm Surge during Hurricane Arthur (2014).” Environmental, Water Resources and Coastal Engineering Research Symposium, North Carolina State University, 06 March 2015.
It emphasizes our transition from the loose coupling with structured-mesh wave models to the tight coupling with the unstructured-mesh version of SWAN. The rectangle in the upper right and the triangle in the lower left are meant to “pop” from the sides of the poster, as shown in the picture to the right. By running on the same unstructured mesh, SWAN and ADCIRC can pass information locally, on the same core or across inter-core boundaries, without the need for global communication.
The poster itself is linked below. For more information about the SWAN+ADCIRC model, please visit my Web pages about the coupling. For a copy of our paper describing the coupled model, please contact me, and I would be happy to send it to you.
