Machine learning prediction of the Madden-Julian oscillation
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Cita com:
hdl:2117/360767
Document typeArticle
Defense date2021-11-25
PublisherSpringer Nature
Rights accessOpen Access
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Attribution 4.0 International
ProjectSISTEMAS DINAMICOS COMPLEJOS Y HERRAMIENTAS AVANZADAS DE ANALISIS DE DATOS (AEI-PGC2018-099443-B-I00)
CAFE - Climate Advanced Forecasting of sub-seasonal Extremes (EC-H2020-813844)
CAFE - Climate Advanced Forecasting of sub-seasonal Extremes (EC-H2020-813844)
Abstract
The socioeconomic impact of weather extremes draws the attention of researchers to the development of novel methodologies to make more accurate weather predictions. The Madden–Julian oscillation (MJO) is the dominant mode of variability in the tropical atmosphere on sub-seasonal time scales, and can promote or enhance extreme events in both, the tropics and the extratropics. Forecasting extreme events on the sub-seasonal time scale (from 10 days to about 3 months) is very challenging due to a poor understanding of the phenomena that can increase predictability on this time scale. Here we show that two artificial neural networks (ANNs), a feed-forward neural network and a recurrent neural network, allow a very competitive MJO prediction. While our average prediction skill is about 26–27 days (which competes with that obtained with most computationally demanding stateof-the-art climate models), for some initial phases and seasons the ANNs have a prediction skill of 60 days or longer. Furthermore, we show that the ANNs have a good ability to predict the MJO phase, but the amplitude is underestimated.
CitationSilini, R.; Barreiro Parrillo, M.; Masoller, C. Machine learning prediction of the Madden-Julian oscillation. "npj Climate and atmospheric science", 25 Novembre 2021, vol. 4, p. 57:1-57:7.
ISSN2397-3722
Publisher versionhttps://www.nature.com/articles/s41612-021-00214-6
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