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A data-to-forecast machine learning system for global weather

Author

Listed:
  • Xiuyu Sun

    (Shanghai Academy of Artificial Intelligence for Science)

  • Xiaohui Zhong

    (Fudan University)

  • Xiaoze Xu

    (Shanghai Academy of Artificial Intelligence for Science
    Nanjing University of Information Science and Technology
    China Meteorological Administration)

  • Yuanqing Huang

    (Shanghai Academy of Artificial Intelligence for Science)

  • Hao Li

    (Shanghai Academy of Artificial Intelligence for Science
    Fudan University)

  • J. David Neelin

    (University of California)

  • Deliang Chen

    (Tsinghua University
    University of Gothenburg)

  • Jie Feng

    (Shanghai Academy of Artificial Intelligence for Science
    Fudan University)

  • Wei Han

    (China Meteorological Administration)

  • Libo Wu

    (Shanghai Academy of Artificial Intelligence for Science
    Fudan University
    Fudan University
    Fudan University)

  • Yuan Qi

    (Shanghai Academy of Artificial Intelligence for Science
    Fudan University)

Abstract

Weather forecasting traditionally relies on numerical weather prediction (NWP) systems that integrate global observations, data assimilation (DA), and physics-based models. However, further advances are increasingly constrained by high computational costs, the underutilization of vast observational datasets, and challenges in obtaining finer resolution. Recent advances in machine learning present a promising alternative, but still depend on the initial conditions generated by NWP systems. Here, we introduce FuXi Weather, a machine learning-based global forecasting system that assimilates multi-satellite data and is capable of cycling DA and forecasting. FuXi Weather generates reliable 10-day forecasts at 0.25° resolution using fewer observations than conventional NWP systems. It demonstrates the value of background forecasts in constraining the analysis during DA. FuXi Weather outperforms the European Centre for Medium-Range Weather Forecasts high-resolution forecasts beyond day one in observation-sparse regions such as central Africa, highlighting its potential to improve forecasts where observational infrastructure is limited.

Suggested Citation

  • Xiuyu Sun & Xiaohui Zhong & Xiaoze Xu & Yuanqing Huang & Hao Li & J. David Neelin & Deliang Chen & Jie Feng & Wei Han & Libo Wu & Yuan Qi, 2025. "A data-to-forecast machine learning system for global weather," Nature Communications, Nature, vol. 16(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62024-1
    DOI: 10.1038/s41467-025-62024-1
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    References listed on IDEAS

    as
    1. Linsenmeier, Manuel & Shrader, Jeffrey G., 2023. "Global inequalities in weather forecasts," SocArXiv 7e2jf, Center for Open Science.
    2. Peter Bauer & Alan Thorpe & Gilbert Brunet, 2015. "The quiet revolution of numerical weather prediction," Nature, Nature, vol. 525(7567), pages 47-55, September.
    3. repec:osf:socarx:7e2jf_v1 is not listed on IDEAS
    4. Tamma Carleton & Amir Jina & Michael Delgado & Michael Greenstone & Trevor Houser & Solomon Hsiang & Andrew Hultgren & Robert E Kopp & Kelly E McCusker & Ishan Nath & James Rising & Ashwin Rode & Hee , 2022. "Valuing the Global Mortality Consequences of Climate Change Accounting for Adaptation Costs and Benefits [Distributive Politics and Economic Growth]," The Quarterly Journal of Economics, Oxford University Press, vol. 137(4), pages 2037-2105.
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