Integrating 3D Hydrodynamic Transport and Ecological Plant Models of the Savannah River Estuary Using Artificial Neural Network Models Edwin Roehl, Advanced Data Mining, Greer, SC, Paul A. Conr - Marsh River - Document - PDFSEARCH.IO - Document Search Engine

Back to Results

First Page	Meta Content
	Integrating 3D Hydrodynamic Transport and Ecological Plant Models of the Savannah River Estuary Using Artificial Neural Network Models Edwin Roehl, Advanced Data Mining, Greer, SC, Paul A. Conr Add to Reading List Document Date: 2014-01-16 13:37:16 Open Document File Size: 188,01 KB Share Result on Facebook City Gainesville / New Orleans / Greer / New York / Chicago / / Company Springer-Verlag New York Inc. / / Country United States / / Currency USD / / / Event Natural Disaster / / Facility Savannah Harbor / / IndustryTerm data mining techniques / neural network / marsh gaging networks / neural networks / chaotic univariate systems / forced systems / Signal processing / artificial neural networks / post-processor / real-time gages / developed using data mining techniques / / NaturalFeature Lower Savannah River estuary / Cooper River / Myrtle Beach / Lower Savannah River / Beaufort River estuary / Savannah River / East Coast / / Organization Florida Coop Unit / United States Army / Georgia Ports Authority / Beaufort-Jasper Water and Sewer Authority / / Person Ruby C. Daamen / Paul A. Conrads / / ProgrammingLanguage FL / / ProvinceOrState South Carolina / Illinois / Florida / New York / / Region East Coast / / SportsEvent ufl / / Technology wastewater treatment / Neural Network / Data Mining / machine learning / Simulation / decision support system / / SocialTag Geodesy Neural networks Computational neuroscience Computational statistics Tidal marsh Artificial neural network Tide Savannah River Estuary Geography of Georgia