Deep learning-based ensemble forecast and predictability analysis of the Kuroshio intrusion into the South China Sea
ID:206 View Protection:ATTENDEE Updated Time:2025-01-05 16:30:19 Hits:868 Poster Presentation

Start Time:2025-01-16 17:50(Asia/Shanghai)

Duration:15min

Session:S44 Session 44-Western Boundary Currents, Eddies and Their Impacts on Multi-Disciplinary Aspects » S44-PWestern Boundary Currents, Eddies and Their Impacts on Multi-Disciplinary Aspects

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Abstract
The Kuroshio intrusion (KI) into the South China Sea (SCS) significantly affects the environment, ecology, and climate change of the SCS. However, due to the nonlinearity of KI, its numerical prediction often requires large ensemble size to measure prediction uncertainty. The huge computational costs of large numbers of members and high-resolution numerical models pose significant challenges for KI prediction. We, therefore, construct a Kuroshio ensemble deep learning prediction system (KurNet) through taking different values of parameters to predict KI paths because the deep learning models have high prediction skills and low computational cost. The KurNet containing 64 ensemble members can not only output ensemble mean forecast result of the Kuroshio path, but also estimate probability density functions for the path types. The KurNet illustrates a high predictive ability for the KI with the mean classification accuracy of 71.9% and root mean square error of 0.913 on the testing set, which is superior to the single control prediction by ~1.0–2.9%, although the control prediction model is selected as one of the ensemble members with the best predictive ability on the validation set. Furthermore, the predictability analysis of 10 KI events indicates that when the lead time is 3 days, the most important areas are in the east of Luzon Island due to the upstream Kuroshio transport. As the lead time increases, the most important area is in the Luzon Strait due to the eddy activity. Observing system simulation experiments reveal that the KI forecast skill can be enhanced by ~12–18%, when uncertainties of the input data in these important regions are removed.
 
Keywords
Kuroshio Intrusion, deep learning, predictability, South China Sea, ensemble forecast
Speaker
Junkai Qian
PhD Hohai University

Submission Author
Junkai Qian Hohai University
Qiang Wang Hohai University
Peng Liang Guangdong Ocean University
Suqi Peng Hohai University
Huizan Wang National University of Defense Technology
Yanling Wu Hohai University
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Important Date
  • Conference Date

    Jan 13

    2025

    to

    Jan 17

    2025

  • Sep 27 2024

    Draft paper submission deadline

  • Feb 17 2025

    Registration deadline

Sponsored By
State Key Laboratory of Marine Environmental Science, Xiamen University
Organized By
State Key Laboratory of Marine Environmental Science, Xiamen University
Department of Earth Sciences, National Natural Science Foundation of China
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