SEEDS: Emulation of Weather Forecast Ensembles with Diffusion Models
| Autor: | Li, Lizao, Carver, Rob, Lopez-Gomez, Ignacio, Sha, Fei, Anderson, John |
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| Rok vydání: | 2023 |
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| Druh dokumentu: | Working Paper |
| Popis: | Uncertainty quantification is crucial to decision-making. A prominent example is probabilistic forecasting in numerical weather prediction. The dominant approach to representing uncertainty in weather forecasting is to generate an ensemble of forecasts. This is done by running many physics-based simulations under different conditions, which is a computationally costly process. We propose to amortize the computational cost by emulating these forecasts with deep generative diffusion models learned from historical data. The learned models are highly scalable with respect to high-performance computing accelerators and can sample hundreds to tens of thousands of realistic weather forecasts at low cost. When designed to emulate operational ensemble forecasts, the generated ones are similar to physics-based ensembles in important statistical properties and predictive skill. When designed to correct biases present in the operational forecasting system, the generated ensembles show improved probabilistic forecast metrics. They are more reliable and forecast probabilities of extreme weather events more accurately. While this work demonstrates the utility of the methodology by focusing on weather forecasting, the generative artificial intelligence methodology can be extended for uncertainty quantification in climate modeling, where we believe the generation of very large ensembles of climate projections will play an increasingly important role in climate risk assessment. Comment: fixed a mistake of the previous version; the paper has not been submitted to neurips 2023 |
| Databáze: | arXiv |
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