Shih-Chieh Kao

Shih-Chieh Kao

Program Manager, Water Power Program

Contact

KAOS@ORNL.GOV

All Publications

Streamflow Simulation in Data-Scarce Basins Using Bayesian and Physics-Informed Machine Learning Models

Climate Change and Changes in Compound Coastal-Riverine Flooding Hazard Along the U.S. Coasts

Simulation of Hurricane Harvey flood event through coupled hydrologic‐hydraulic models: Challenges and next steps

Reanalysis of Water Withdrawal for Irrigation, Electric Power, and Public Supply Sectors in the Conterminous United States, 1950–2016

Application of Point Precipitation Frequency Estimates to Watersheds

Multi-Mechanism Flood Hazard Assessment: Critical Review of Current Practice and Approaches

Performance Evaluation of a Two-Dimensional Flood Model on Heterogeneous High-Performance Computing Architectures

Performance Evaluation of a Two-Dimensional Flood Model on Heterogeneous High-Performance Computing Architectures

Streamflow in the Columbia River Basin: Quantifying Changes Over the Period 1951‐2008 and Determining the Drivers of Those ...

Ensemble-based flood vulnerability assessment for probable maximum flood in a changing environment

Ensemble-based Flood Vulnerability Assessment for Probable Maximum Flood In a Changing Environment

Ensemble-based flood vulnerability assessment for probable maximum flood in a changing environment

Ensemble-based flood vulnerability assessment for probable maximum flood in a changing environment

Ensemble-based Flood Vulnerability Assessment for Probable Maximum Flood In a Changing Environment

Ensemble-based flood vulnerability assessment for probable maximum flood in a changing environment...

Ensemble-based Flood Vulnerability Assessment for Probable Maximum Flood In a Changing Environment

Ensemble-based Flood Vulnerability Assessment for Probable Maximum Flood In a Changing Environment

Ensemble-based flood vulnerability assessment for probable maximum flood in a changing environment

Ensemble-based Flood Vulnerability Assessment for Probable Maximum Flood In a Changing Environment

Ensemble-based flood vulnerability assessment for probable maximum flood in a changing environment

High Performance Computing in hydraulics: the new era of flood forecasting

Ensemble-based Flood Vulnerability Assessment for Probable Maximum Flood In a Changing Environment

Ensemble-based flood vulnerability assessment for probable maximum flood in a changing environment

Ensemble-based flood vulnerability assessment for probable maximum flood in a changing environment

Ensemble-based flood vulnerability assessment for probable maximum flood in a changing environment...