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Main Authors: Valencia, Kevin, Liu, Ziyang, Cui, Justin
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.11047
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author Valencia, Kevin
Liu, Ziyang
Cui, Justin
author_facet Valencia, Kevin
Liu, Ziyang
Cui, Justin
contents Although numerical weather forecasting methods have dominated the field, recent advances in deep learning methods, such as diffusion models, have shown promise in ensemble weather forecasting. However, such models are typically autoregressive and are thus computationally expensive. This is a challenge in climate science, where data can be limited, costly, or difficult to work with. In this work, we explore the impact of curated data selection on these autoregressive diffusion models. We evaluate several data sampling strategies and show that a simple time stratified sampling approach achieves performance similar to or better than full-data training. Notably, it outperforms the full-data model on certain metrics and performs only slightly worse on others while using only 20% of the training data. Our results demonstrate the feasibility of data-efficient diffusion training, especially for weather forecasting, and motivates future work on adaptive or model-aware sampling methods that go beyond random or purely temporal sampling.
format Preprint
id arxiv_https___arxiv_org_abs_2509_11047
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Data-Efficient Ensemble Weather Forecasting with Diffusion Models
Valencia, Kevin
Liu, Ziyang
Cui, Justin
Machine Learning
Computer Vision and Pattern Recognition
Although numerical weather forecasting methods have dominated the field, recent advances in deep learning methods, such as diffusion models, have shown promise in ensemble weather forecasting. However, such models are typically autoregressive and are thus computationally expensive. This is a challenge in climate science, where data can be limited, costly, or difficult to work with. In this work, we explore the impact of curated data selection on these autoregressive diffusion models. We evaluate several data sampling strategies and show that a simple time stratified sampling approach achieves performance similar to or better than full-data training. Notably, it outperforms the full-data model on certain metrics and performs only slightly worse on others while using only 20% of the training data. Our results demonstrate the feasibility of data-efficient diffusion training, especially for weather forecasting, and motivates future work on adaptive or model-aware sampling methods that go beyond random or purely temporal sampling.
title Data-Efficient Ensemble Weather Forecasting with Diffusion Models
topic Machine Learning
Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2509.11047