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Predicting river hydrodynamics through com … Predicting river hydrodynamics through computational models is critical for advancing science and engineering practices to manage rivers and floodplains. Traditional hydrodynamic models pose computational challenges, often demanding extensive processing time for large-scale 2D flood simulations. While data-driven algorithms have shown promise in improving simulation efficiency, existing efforts have primarily concentrated on generating inundation maps only at event peaks. In this research, we introduce a novel deep learning model designed to provide accurate and rapid simulation of the temporal evolution of floods, providing 2D prediction of both water depth and flood inundation maps across an entire event. We trained and evaluated this model based on a dataset that was developed using HEC-RAS, a physics-based model, for a segment of Ninnescah River, in Kansas. This was done using a deep learning model to integrate the spatial advantages of a convolutional neural network along with the temporal sequence capabilities of a long-short term memory network. The hybrid model demonstrates remarkable proficiency in capturing the dynamic nature of flood events. Evaluation of the inundation maps, at the highest testing peak, exhibited exceptional performance, with precision exceeding 0.99 and an F1-score approaching 0.98. Moreover, this hybrid model showed robust performance in predicting water depth maps, with RMSE values of 0.03 m on average during testing and 0.08 m at the highest peak time-step. This study represents a significant advancement in our ability to conduct long-term simulations of hydrodynamics and sediment transport.s of hydrodynamics and sediment transport. +
A Deep-Learning Model for Continuous Flood Extent and Water Depth Mapping +
Villanova +
United States +
msaid@villanova.edu +
Mohamed +
Villanova University +
Fathi Said +
Image: +
3) Introduction to agent-based modeling for socio-environmental systems +
2) Introduction & Building with Google Earth Engine: Batteries Included +
4) A Hands-On Workshop on GPU-Based Landscape Evolution Modeling +
Pennsylvania +
United States +
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19:46:04, 31 March 2024 +
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19:46:04, 31 March 2024 +
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