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  • Presentation | H33X: Utilizing Precipitation Datasets and Quantifying Associated Uncertainties in Hydrometeorological and Climate Impact Applications II Poster
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  • H33X-1629: High-Resolution Depth-Duration-Frequency Curves from Radar-Derived Precipitation: A Case Study of Puerto Rico and the U.S. Virgin Islands
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  • Board 1629‚ Hall EFG (Poster Hall)
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Author(s):
Ana Mejia-Manrique, Department of Civil Engineering, CUNY-CREST Institute, and United Nations University (UNU) Hub on Remote-Sensing and Sustainable Innovations for Resilient Urban Systems (R-SIRUS) -UNU Institute for Water, Environment and Health (UNU-INWEH) (First Author, Presenting Author)
Said Mejia-Manrique, Department of Civil Engineering, CUNY-CREST Institute, and United Nations University (UNU) Hub on Remote-Sensing and Sustainable Innovations for Resilient Urban Systems (R-SIRUS) -UNU Institute for Water, Environment and Health (UNU-INWEH)
Naresh Devineni, Department of Civil Engineering, The City College of the City University of New York, and CUNY-CREST
Reza Khanbilvardi, CUNY-CREST Institute, and United Nations University (UNU) Hub on Remote-Sensing and Sustainable Innovations for Resilient Urban Systems (R-SIRUS)-UNU Institute for Water, Environment and Health (UNU-INWEH)

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