Real-Time Flood Mapping on Client-Side Web Systems Using HAND Model

The height above nearest drainage (HAND) model is frequently used to calculate properties of the soil and predict flood inundation extents. HAND is extremely useful due to its lack of reliance on prior data, as only the digital elevation model (DEM) is needed. It is close to optimal, running in line...

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Veröffentlicht in:	Hydrology Jg. 8; H. 2; S. 65
Hauptverfasser:	Hu, Anson, Demir, Ibrahim
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	Basel MDPI AG 01.06.2021
Schlagworte:	Accuracy Algorithms C plus plus Decision making Digital Elevation Models Drainage Emergency management Emergency preparedness Flood damage Flood management Flood mapping flood maps Flood predictions flood risk management flood risk mapping Floods HAND model Hydrodynamics hydrologic data Hydrology insurance Iowa JavaScript landscapes Mapping Mitigation Model accuracy soil Soil properties Storm damage Watersheds web systems WebAssembly Iowa
ISSN:	2306-5338, 2306-5338
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Abstract	The height above nearest drainage (HAND) model is frequently used to calculate properties of the soil and predict flood inundation extents. HAND is extremely useful due to its lack of reliance on prior data, as only the digital elevation model (DEM) is needed. It is close to optimal, running in linear or linearithmic time in the number of cells depending on the values of the heights. It can predict watersheds and flood extent to a high degree of accuracy. We applied a client-side HAND model on the web to determine extent of flood inundation in several flood prone areas in Iowa, including the city of Cedar Rapids and Ames. We demonstrated that the HAND model was able to achieve inundation maps comparable to advanced hydrodynamic models (i.e., Federal Emergency Management Agency approved flood insurance rate maps) in Iowa, and would be helpful in the absence of detailed hydrological data. The HAND model is applicable in situations where a combination of accuracy and short runtime are needed, for example, in interactive flood mapping and supporting mitigation decisions, where users can add features to the landscape and see the predicted inundation.
AbstractList	The height above nearest drainage (HAND) model is frequently used to calculate properties of the soil and predict flood inundation extents. HAND is extremely useful due to its lack of reliance on prior data, as only the digital elevation model (DEM) is needed. It is close to optimal, running in linear or linearithmic time in the number of cells depending on the values of the heights. It can predict watersheds and flood extent to a high degree of accuracy. We applied a client-side HAND model on the web to determine extent of flood inundation in several flood prone areas in Iowa, including the city of Cedar Rapids and Ames. We demonstrated that the HAND model was able to achieve inundation maps comparable to advanced hydrodynamic models (i.e., Federal Emergency Management Agency approved flood insurance rate maps) in Iowa, and would be helpful in the absence of detailed hydrological data. The HAND model is applicable in situations where a combination of accuracy and short runtime are needed, for example, in interactive flood mapping and supporting mitigation decisions, where users can add features to the landscape and see the predicted inundation.
Author	Demir, Ibrahim Hu, Anson
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SubjectTerms	Accuracy Algorithms C plus plus Decision making Digital Elevation Models Drainage Emergency management Emergency preparedness Flood damage Flood management Flood mapping flood maps Flood predictions flood risk management flood risk mapping Floods HAND model Hydrodynamics hydrologic data Hydrology insurance Iowa JavaScript landscapes Mapping Mitigation Model accuracy soil Soil properties Storm damage Watersheds web systems WebAssembly
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Title	Real-Time Flood Mapping on Client-Side Web Systems Using HAND Model
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