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Soheil Radfar
The University of AlabamaMeeting roles in:
A Modular Game-Based Learning Platform for Advancing Coastal Resilience Education in K–12 and Undergraduate Classrooms
Enhanced Cumulative Likelihood of Potential Impacts using synthetic tropical cyclones for coastal flooding, a case study applied to Mobile, Alabama
Advancing Physics-Informed Compound Flood Modeling through a Newton-Guided Deep Learning Model
Coastal Hydrology: Observation, Modeling, and Prediction of Surface and Subsurface Processes and Patterns I Poster
Simplified Urban Risk of Flooding (SURF) Estimation due to Reduced Capacity under Compound Flooding
Coastal Hydrology: Observation, Modeling, and Prediction of Surface and Subsurface Processes and Patterns II Oral
Coastal Hydrology: Observation, Modeling, and Prediction of Surface and Subsurface Processes and Patterns III Oral
Understanding Simulation Uncertainty in Compound Floods: Sensitivity to Forcing and Model Parameters
An Integrated Framework Towards Strengthening Transportation Infrastructure Resilience to Compound Flooding Impacts
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