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Main Authors: Zheng, Zinan, Liu, Yang, Li, Jia
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.20911
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author Zheng, Zinan
Liu, Yang
Li, Jia
author_facet Zheng, Zinan
Liu, Yang
Li, Jia
contents Graph neural networks have shown promising results in weather forecasting, which is critical for human activity such as agriculture planning and extreme weather preparation. However, most studies focus on finite and local areas for training, overlooking the influence of broader areas and limiting their ability to generalize effectively. Thus, in this work, we study global weather forecasting that is irregularly distributed and dynamically varying in practice, requiring the model to generalize to unobserved locations. To address such challenges, we propose a general Mesh Interpolation Graph Network (MIGN) that models the irregular weather station forecasting, consisting of two key designs: (1) learning spatially irregular data with regular mesh interpolation network to align the data; (2) leveraging parametric spherical harmonics location embedding to further enhance spatial generalization ability. Extensive experiments on an up-to-date observation dataset show that MIGN significantly outperforms existing data-driven models. Besides, we show that MIGN has spatial generalization ability, and is capable of generalizing to previous unseen stations.
format Preprint
id arxiv_https___arxiv_org_abs_2509_20911
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Mesh Interpolation Graph Network for Dynamic and Spatially Irregular Global Weather Forecasting
Zheng, Zinan
Liu, Yang
Li, Jia
Computational Engineering, Finance, and Science
Graph neural networks have shown promising results in weather forecasting, which is critical for human activity such as agriculture planning and extreme weather preparation. However, most studies focus on finite and local areas for training, overlooking the influence of broader areas and limiting their ability to generalize effectively. Thus, in this work, we study global weather forecasting that is irregularly distributed and dynamically varying in practice, requiring the model to generalize to unobserved locations. To address such challenges, we propose a general Mesh Interpolation Graph Network (MIGN) that models the irregular weather station forecasting, consisting of two key designs: (1) learning spatially irregular data with regular mesh interpolation network to align the data; (2) leveraging parametric spherical harmonics location embedding to further enhance spatial generalization ability. Extensive experiments on an up-to-date observation dataset show that MIGN significantly outperforms existing data-driven models. Besides, we show that MIGN has spatial generalization ability, and is capable of generalizing to previous unseen stations.
title Mesh Interpolation Graph Network for Dynamic and Spatially Irregular Global Weather Forecasting
topic Computational Engineering, Finance, and Science
url https://arxiv.org/abs/2509.20911