Chinese researchers develop new AI model for El Nino predictions

Upload your content

BEIJING -- Chinese researchers have developed an artificial intelligence (AI) model powered by deep learning algorithms to predict the development and pattern of central Pacific El Nino events.

Scientists believe that El Nino events in the central Pacific can have far-reaching impacts on global climate, making accurate predictions crucial for preparedness and risk reduction.

Based on the convolutional neural network technology, researchers from the Institute of Atmospheric Physics (IAP) under the Chinese Academy of Sciences developed a deep learning model for predicting the spatial pattern of sea surface temperature anomalies in the equatorial Pacific.

"This study demonstrates the potential of AI in improving predictions of significant climate events like El Nino that can have devastating effects around the globe," said Huang Ping, a researcher at IAP and the corresponding author of the study recently published in the journal Advances in Atmospheric Sciences.

According to the study, the AI model surpasses traditional dynamical models in accuracy, particularly in predicting sea surface temperature anomalies in the west-central equatorial Pacific.

The study also suggests that a hybrid model that combines predictions from both the AI model and dynamical models achieves even higher accuracy for central and east Pacific El Nino events.

The research team plans to further leverage the power of deep learning to expand the application of AI models in seasonal climate forecasting, aiming to provide earlier and more accurate warnings of major weather events.

View the study

Explore further

Country and region China Oceania

Please note: Content is displayed as last posted by a PreventionWeb community member or editor. The views expressed therein are not necessarily those of UNDRR, PreventionWeb, or its sponsors. See our terms of use

Is this page useful?

Yes No
Report an issue on this page

Thank you. If you have 2 minutes, we would benefit from additional feedback (link opens in a new window).