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FloodSimBench: A High-Resolution Physical Flood Inundation Benchmark for AI
FloodSimBench is a standardized, high-resolution (1m) benchmark dataset designed for urban flood inundation modeling. It bridges the gap between complex physical hydraulic modeling and deep learning foundation models (e.g., Transformers, CNNs).
1. Overview
- Objective: Provide a high-fidelity dataset for training and evaluating AI surrogate models for flood risk assessment and real-time forecasting.
- Domain: Diverse urban topographies across 10 major US cities (coastal, inland, flat, and hilly).
- Core Value: Standardized inputs (DEM, Rainfall) and outputs (Water Depth) at 1m resolution to enable comparable research in the AI community.
2. Dataset Specifications
- Spatial Resolution: 1 meter.
- Domain Size: Approximately 4km x 4km per city tile.
- File Format: GeoTIFF (.tif).
- Simulated Event:
- Forcing: 1 hour of rainfall (00H-01H) at varying frequencies (10yr, 25yr, 50yr, 100yr), followed by 5 hours of recession (no rain).
- Total Duration: 6 hours.
- Temporal Resolution: 5-minute intervals (72 frames per scenario).
3. Metadata & Scenarios
Rainfall intensities based on return periods for the covered cities:
| City ID | Description | 100-yr (mm) | 50-yr (mm) | 25-yr (mm) | 10-yr (mm) |
|---|---|---|---|---|---|
| HOU | Houston | 129 | 110 | 98 | 82 |
| AUS | Austin | 121 | 106 | 93 | 76 |
| DAL | Dallas | 94 | 85 | 76 | 65 |
| OKC | Oklahoma City | 101 | 89 | 78 | 64 |
| LA | Los Angeles | 41 | 36 | 31 | 25 |
| SF | San Francisco | 33 | 29 | 26 | 22 |
| NYC | New York City | 73 | 65 | 58 | 48 |
| ATL | Atlanta | 83 | 74 | 65 | 54 |
| ORL | Orlando | 100 | 93 | 85 | 74 |
| MIA | Miami | 133 | 118 | 104 | 86 |
4. Benchmark Tasks
Task A: Static Risk Assessment (Segmentation)
Goal: Predict the maximum inundation extent and severity over the 6-hour event.
- Input: Static DEM, Slope, and Total Rainfall Amount.
- Output: 5-class Semantic Segmentation Map:
- No Flood (0 - 0.1m)
- Nuisance (0.1 - 0.2m)
- Minor (0.2 - 0.3m)
- Moderate (0.3 - 0.5m)
- Major (> 0.5m)
Task B: Spatiotemporal Forecasting (Recursive)
Goal: Real-time recursive flood forecasting.
- Input: Static DEM and Dynamic Flood Depth sequence ($t-11 \dots t$, previous 1 hour).
- Forcing: Rainfall intensity at $t$ and future steps.
- Output: Predicted flood depth at future time steps (e.g., $t+1 \dots t+12$).
5. Dataset Structure
.
βββ 6hr_max/ # Maximum depth maps for Task A
β βββ {CityID}_{Rain}mm_MaxDepth.tif
βββ {CityID}{TileID}/ # Full time-series for Task B
β βββ {CityID}_DEM.tif # Static Digital Elevation Model
β βββ {CityID}_{Rain}mm_WaterDepth_{Time}.tif # Temporal depth frames
βββ cities_rainfall.json # Metadata for rainfall intensities
6. Data Splitting Strategy
To ensure robustness and test generalization to unseen topographies, we split by City:
- Train: HOU, DAL, OKC, NYC, ATL, ORL
- Validation: AUS, MIA
- Test: LA, SF
7. Citation
If you use this dataset in your research, please cite:
(Citation info pending publication)
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