利用深度学习预测热带气旋的形成

IF 3 3区地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES

Weather and Forecasting Pub Date : 2023-12-14 DOI:10.1175/waf-d-23-0103.1

Quan Nguyen, Chanh Kieu

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引用次数: 0

摘要

探索改进热带气旋（TC）形成预测的新技术对业务实践至关重要。本研究利用卷积神经网络表明，深度学习可以在一定的预报准备时间内，从一组给定的大尺度环境中预测热带气旋的形成。具体来说，包括残差网（ResNet）和 UNet 在内的两种常见深度学习架构被用于研究太平洋的热带气旋形成。我们使用从 2008-2021 年 NCEP/NCAR 再分析中提取的一组大尺度环境作为输入，并使用从最佳路径数据中获得的 TC 标签，结果表明 ResNet 和 UNet 在 12-18 小时的预报准备时间内都达到了最大预报技能。此外，与西太平洋较小的子域相比，当使用覆盖太平洋大部分区域的大域作为输入数据时，这两种架构的性能最佳。鉴于 UNet 能够提供有关热带气旋形成位置的更多信息，因此在准确度指标上，UNet 的表现普遍不如 ResNet。本研究中的深度学习方法是目前数值天气预报中传统涡旋跟踪方法之外预测 TC 形成的另一种方法。

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Predicting Tropical Cyclone Formation with Deep Learning

Exploring new techniques to improve the prediction of tropical cyclone (TC) formation is essential for operational practice. Using convolutional neural networks, this study shows that deep learning can provide a promising capability for predicting TC formation from a given set of large-scale environments at certain forecast lead times. Specifically, two common deep-learning architectures including the residual net (ResNet) and UNet are used to examine TC formation in the Pacific Ocean. With a set of large-scale environments extracted from the NCEP/NCAR reanalysis during 2008–2021 as input and the TC labels obtained from the best track data, we show that both ResNet and UNet reach their maximum forecast skill at the 12–18 hour forecast lead time. Moreover, both architectures perform best when using a large domain covering most of the Pacific Ocean for input data, as compared to a smaller subdomain in the western Pacific. Given its ability to provide additional information about TC formation location, UNet performs generally worse than ResNet across the accuracy metrics. The deep learning approach in this study presents an alternative way to predict TC formation beyond the traditional vortex-tracking methods in the current numerical weather prediction.

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来源期刊

Weather and Forecasting 地学-气象与大气科学

CiteScore

5.20

自引率

17.20%

发文量

131

审稿时长

6-12 weeks

期刊介绍： Weather and Forecasting (WAF) (ISSN: 0882-8156; eISSN: 1520-0434) publishes research that is relevant to operational forecasting. This includes papers on significant weather events, forecasting techniques, forecast verification, model parameterizations, data assimilation, model ensembles, statistical postprocessing techniques, the transfer of research results to the forecasting community, and the societal use and value of forecasts. The scope of WAF includes research relevant to forecast lead times ranging from short-term “nowcasts” through seasonal time scales out to approximately two years.