Coastal Emergency Risks Assessment (CERA) Storm surge and wave guidance tool for emergency managers Overview: Emergency managers seek visualiza0ons and geographic data to evaluate the impact of a storm or to see the surge and wave condi0ons on a daily basis. The most sought- aner informa0on comes both from real- 0me measurements like water level or precipita0on sta0ons and from ocean models that aoempt to predict the storm surge or the wave and 0de condi0ons. One of the most sophis0cated ocean models is ADCIRC, a mul0- scale, mul0- physics coastal circula0on model used to predict the effects of large storms approaching the coast. The CERA project brings the ADCIRC model results directly in the hands of the end- users (emergency managers, weather forecaster, GIS specialists) by providing a web- based, interac0ve Storm Surge Visualiza0on tool.
Transi?on to End- Users: Interac0ve website CERA (hop://coastalemergency.org ) Proved to be a successful and efficient tool for the presenta0on of ADCIRC model results Presents real- 0me results overlaid with emergency- relevant informa0on Allows to select several ADCIRC layers (water height, inunda0on, wind speed) Zoom in func0onality Has been designed to be an intui0ve- to- understand tool for the scien0fic community, emergency managers, and decision makers. 3 CERA websites: Atlan0c Coast (hop://nc- cera.renci.org) Northern Gulf (hop://cera.cct.lsu.edu) Professional (hop://cera- pro.cct.lsu.edu)
Time is cri?cal during a storm CERA provides a completely automated workflow for the fastest possible delivery of results to the end users. Na0onal Hurricane Center (Miami, FL) official advisory every 6hrs ADCIRC storm surge model simula0ons using high performance resources Research Lead The University of North Carolina at Chapel Hill CERA web interface with automated email no0fica0on system CHC- R 7th Annual Mee0ng April 23, 2015
CERA Web Interface Model output: water height (storm surge) water inunda0on above ground wind speed significant wave height rela0ve peak wave ADCIRC node aoributes node aoributes Overlay features: barriers & levees shoreline rainfall data (radar, real- 0me sta0ons) real- 0me water sta0ons hurricane track info
Development Year 7: Shapefiles: A shapefile is a geospa0al vector data format for Geographic Informa0on System (GIS) sonware. This data format replaces the raster data format that CERA used in the previous years. The shapefiles will be downloadable. CERA will also provides the original data in the NetCDF format ready for download. Reason: Emergency managers and GIS specialists do not only want to see the results but also want to use the data.
GeoTif vs. Shapefiles CERA un0l Yr 6 (GeoTifs) CERA Yr 7 (Shapefile)
Open the CERA data directly in ArcGIS Shapefiles: Preferred geospa0al data format for GIS specialists BeOer readability on the website Get what you see Download the currently displayed layer in CERA Download package includes a visualiza0on file which allows you to directly open the data in ArcGIS Compa0ble with nearly all GIS sonware Increased workflow speed for CERA (~ 40% faster) Already received data request (e.g. Center for GIS, VA)
Summary: ADCIRC storm surge and circula0on model High performance computers Input data from NHC FTP and OpenDap data distribu0on NetCDF data format Automated visualiza0on process CERA interac0ve websites Every 6hrs during a storm, twice daily no0fica0on system and emergency support Clients: Na0onal Weather Service Offices, LA, NC, TX, GA U.S Coast Guard Governor s Office of Homeland Security and Emergency Preparedness (GOHSEP) Coastal Protec0on and Restora0on Authority (CPRA), LA GIS Community (Stephenson Disaster Management Ins0tute, Geological Survey, GIS data Center) Levee Boards Of Louisiana Research community (MSU, UA, Notre Dame) Carola Kaiser, ckaiser@cct.lsu.edu, Rick Luench, rick_luench@unc.edu, Robert Twilley, rtwilley@lsu.edu