Flood Assessment: Modeling & Parameterization
In: Innovations in Agricultural & Biological Engineering
In: Innovations in Agricultural and Biological Engineering Ser.
Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- List of Contributors -- List of Abbreviations -- List of Symbols -- Preface 1 -- Preface 2 -- Warning/Disclaimer -- About Lead Editor -- About Co-Editor -- About the Authors -- Other Books on Agricultural and Biological Engineering by Apple Academic Press, Inc. -- Editorial -- PART I: FLOOD PREDICTION LIMITATIONS IN SMALL WATERSHEDS -- 1: Flood Prediction Limitations in Small Watersheds: Introduction -- 2: Flood Prediction Limitations in Small Watersheds: A Review -- 3: Flood Prediction Limitations in Small Watersheds: Hydrologic Model Configuration and Slope Analysis -- 4: Flood Prediction Limitations in Small Watersheds: Methodology -- 5: Flood Prediction Limitations in Small Watersheds: Sensitivity Analysis -- 6: Flood Prediction Limitations in Small Watersheds: Bias Estimation in Radar Precipitation Product -- 7: Flood Prediction Limitations in Small Watersheds: Predictability Limits Due to Up-scaling -- 8: Flood Prediction Limitations in Small Watersheds: Calibration/Validation of a Distributed Hydrologic Model at MBDB -- 9: Flood Prediction Limitations in Small Watersheds: Concluding Remarks -- PART II: FLOOD ALERT SYSTEM USING HIGH-RESOLUTION RADAR RAINFALL DATA -- 10: Flood Alert System Using High Resolution Radar Rainfall Data: Introduction -- 11: Flood Alert System Using High Resolution Radar Rainfall Data: A Review -- 12: Flood Alert System Using High Resolution Radar Rainfall Data: Methodology -- 13: Flood Alert System Using High Resolution Radar Rainfall Data: Results on Data Acquisition -- 14: Flood Alert System Using High Resolution Radar Rainfall Data: Comparison Among Rain Gauges, TropiNet and NEXRAD -- 15: Flood Alert System Using High Resolution Radar Rainfall Data: Nowcasting Model Movement and Reflectivity Analysis.