Content for this page was provide by the University of Alabama Cooperative Institute for Research to Operations in Hydrology.

  1. Improvement of Water Resources Prediction Systems. CIROH will improve geospatial intelligence, inputs, probabilistic forcings, data assimilation, operational workflows and tools, and uncertainty quantification extending water resources predictions capabilities and applications. CIROH’s major community contribution is a water prediction system testbed and model evaluation system.
  2. Advancement and Acceleration of Community Water Resources Modeling. CIROH will advance a state-of-the-art, community driven mechanistic hydrological model with hybrid integration of artificial intelligence and data-driven approaches with biophysical-hydrological-social processes coupled to advance the speed, accuracy, and resolution of prediction. CIROH’s major community contribution is the integration of research advances into the developmental version of the Next Generation Water Resources Modeling Framework.
  3. Advancement and Augmentation of Hydroinformatics. CIROH will promote FAIR data principles in its innovations in extreme data management, development of new informatics tools and community development platforms, creation of advanced user interfaces and experiences, and advancement of flood inundation mapping techniques.
  4. Application of Social, Economic, and Behavioral Science in Water Resources. CIROH will serve as an integrator of research-to-operations-to-research (R2O2R) interactions connecting researchers, operators, modelers, data scientists, social scientists, decision makers, and communication and policy experts in a cooperative hydrologic research and prediction community. National-scale coordination of social and behavioral science will uncover risk perceptions, user preferences, and forecast design needs for all types of communities in the United States.

 

flow chart of CIROH research project process

CIROH Funded Projects

FY25

Title: Deep-learning-based Rainfall Forecasting for Prediction of Pluvial Flooding

PI(s): Witold Krajewski

Funded by: NOAA

Research Theme (RT): 1- Expansion and improvement of Water Prediction Capabilities

Partners:

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Abstract:

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Title: How Can We Improve the NEXRAD Network to Benefit Water Prediction?

PI(s): Witold Krajewski

Funded by: NOAA

Research Theme (RT): 1- Expansion and improvement of Water Prediction Capabilities

Partners:

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FY24

Title: Adapting the Iowa Flood Center’s Hillslope Link Model for compatibility with the NextGen Framework

PI(s): Felipe Quintero Duque

Funded by: NOAA

Research Theme (RT): 1- Expansion and improvement of Water Prediction Capabilities

Partners:

Funding period: June 1, 2024 - May 31, 2025

Abstract:

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FY23

Title: A Collaborative Approach to Develop Comprehensive FIM Data, Models, and Methods with Emphasis on Transportation Infrastructure

PI(s): Jim Nelson

Funded by:

Research Theme (RT):

Partners: Brigham Young University, University of Texas, University of Alabama, NOAA/NWS Office of Water Prediction at NWC, Aquaveo

Funding period: June 1, 2023 - May 31, 2024

Abstract:

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Title: AI-Augmented Immersive Digital Twin and Visual Analytics Framework for Hydrology

PI(s): Ibrahim Demir

Funded by: NOAA

Research Theme (RT): 3- Advancement and Augmentation of Hydroinformatics

Partners:

Funding period: June 1, 2023 - May 31, 2024

Abstract:

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Title: Comparative assessment of the NWM channel routing models for enhanced streamflow data assimilation

PI(s): Ibrahim Demir

Funded by: NOAA

Research Theme (RT): 1- Expansion and improvement of Water Prediction Capabilities

Partners: Missouri University of Science and Technology

Funding period: June 1, 2023 - May 31, 2025

Abstract:

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Title: Examination of the Value of QPF for Streamflow Forecasting

PI(s): Witold (Witek) Krajewski

Funded by: NOAA

Research Theme (RT): 1- Expansion and improvement of Water Prediction Capabilities

Partners:

Funding period: June 1, 2023 - May 31, 2025

Abstract:

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Title: Investigating the potential benefits of assimilating USGS-NGWOS hydrologic measurements for enhancing operational streamflow forecasting

PI(s): Hamid Moradkhani

Funded by:

Research Theme (RT):

Partners: University of Alabama

Funding period: June 1, 2023 - May 31, 2025

Abstract:

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Title: Novel Geospatial Architecture of Channel and Floodplain Morphological Attributes within the OWP Hydrofabrics

PI(s): Belize Lane

Funded by:

Research Theme (RT):

Partners: Utah State University, University of Alabama, University of Vermont, University of South Carolina

Funding period: June 1, 2023 - May 31, 2025

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Title: Novel Physically-based Streamflow Monitoring Methodology

PI(s): Marian Muste

Funded by: USGS

Research Theme (RT): 1- Expansion and improvement of Water Prediction Capabilities

Partners: Iowa Central Midwest Water Science Center

Funding period: June 1, 2023 - May 31, 2025

Abstract:

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Title: The NWM Research Apps Portal – A One-Stop-Shop Catalog of R2O Web Applications

PI(s): Dan Ames

Funded by:

Research Theme (RT):

Partners: Brigham Young University, Aquevo

Funding period: June 1, 2023 - May 31, 2025

Abstract:

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FY22

Title: Intelligent Data Analytics and Communication

PI(s): Larry Weber

Funded by: NOAA

Research Theme (RT): 3 Advancement and Augmentation of Hydroinformatics

Partners: 

Funding period: Aug. 1, 2022 - July 31, 2024

Abstract: 

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