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Mining past data for better weather forecasts with Artificial Intelligence

Artificial intelligence (AI) can analyze past weather patterns to predict future events, much more efficiently and potentially someday more accurately than today’s technology, researchers say

Artificial intelligence (AI) can analyze past weather patterns to predict future events, much more efficiently and potentially someday more accurately than today’s technology, researchers say.

Today’s weather forecasts come from some of the most powerful computers on Earth. The huge machines churn through millions of calculations to solve equations to predict temperature, wind, rainfall, and other weather events. A forecast’s combined need for speed and accuracy taxes even the most modern computers.

The newly developed global weather model bases its predictions on the past 40 years of weather data, rather than on detailed physics calculations.

The simple, data-based AI model can simulate a year’s weather around the globe much more quickly and almost as well as traditional weather models, by taking similar repeated steps from one forecast to the next, according to a paper in the Journal of Advances in Modeling Earth Systems.

“Machine learning is essentially doing a glorified version of pattern recognition,” says lead author Jonathan Weyn, who did the research as part of his University of Washington doctorate in atmospheric sciences. “It sees a typical pattern, recognizes how it usually evolves and decides what to do based on the examples it has seen in the past 40 years of data.”

Although the new model is, unsurprisingly, less accurate than today’s top traditional forecasting models, the current AI design uses about 7,000 times less computing power to create forecasts for the same number of points on the globe. Less computational work means faster results.

That speedup would allow the forecasting centers to quickly run many models with slightly different starting conditions, a technique called “ensemble forecasting” that lets weather predictions cover the range of possible expected outcomes for a weather event—for instance, where a hurricane might strike.

“There’s so much more efficiency in this approach; that’s what’s so important about it,” says author Dale Durran, a professor of atmospheric sciences. “The promise is that it could allow us to deal with predictability issues by having a model that’s fast enough to run very large ensembles.”

Coauthor Rich Caruana at Microsoft Research had initially approached the researchers to propose a project using artificial intelligence to make weather predictions based on historical data without relying on physical laws. Weyn was taking a computer science course in machine learning and decided to tackle the project.

“After training on past weather data, the AI algorithm is capable of coming up with relationships between different variables that physics equations just can’t do,” Weyn says. “We can afford to use a lot fewer variables and therefore make a model that’s much faster.”

To merge successful AI techniques with weather forecasting, the team mapped six faces of a cube onto planet Earth, then flattened out the cube’s six faces, like in an architectural paper model. The authors treated the polar faces differently because of their unique role in the weather as one way to improve the forecast’s accuracy.


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The authors then tested their model by predicting the global height of the 500 hectopascal pressure, a standard variable in weather forecasting, every 12 hours for a full year. A recent paper, which included Weyn as a coauthor, introduced WeatherBench as a benchmark test for data-driven weather forecasts. On that forecasting test, developed for three-day forecasts, this new model is one of the top performers.

The data-driven model would need more detail before it could begin to compete with existing operational forecasts, the authors say, but the idea shows promise as an alternative approach to generating weather forecasts, especially with a growing amount of previous forecasts and weather observations.

Weyn is now a data scientist with Microsoft’s weather and finance division. This research was funded by the US Office of Naval Research and a Department of Defense graduate fellowship.

Source: University of Washington Original Study DOI: 10.1029/2020MS002109

• Author Hannah Hickey is Senior Public Information Specialist and Science Writer at the University of Washington. This article originally appeared at futurity.org

Hannah Hickey
Hannah Hickey
Earth sciences writer/PIO in University of Washington's news office, @uwnews

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