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flood hazard assessment. Characterizes the boundary conditions for hydrodynamic modeling of compound floods requires a comprehensive understanding of the dynamic interactions between atmosphere, ocean and
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hydrologic-hydrodynamic models and probabilistic methods. Uses computational modeling, operations research, and a wide range of in-situ and remotely-sensed data, analytical and statistical tools/methods
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making under uncertainty, and applying emerging techniques from mathematics, computer science, and data science to advance hydrologic, hydraulic, hydrodynamic, water quality, and ecosystem modeling
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, computer science, and data science to advance hydrologic, hydraulic, hydrodynamic, water quality, and ecosystem modeling applications. Hydroinformatics - Motivated by the expansion of data acquisition systems and
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infrastructure and communities, decision making under uncertainty, and applying emerging techniques from mathematics, computer science, and data science to advance hydrologic, hydraulic, hydrodynamic, water