GOES-East satellite observations and machine learning have, for the first time, connected this observed structure to the much ...

Scientists have developed a new method to measure ocean surface currents over large areas in greater detail than ever before. Called GOFLOW (Geostationary Ocean Flow), the approach applies deep ...

A new AI-driven method called GOFLOW is turning weather satellite images into highly detailed maps of ocean currents. By tracking how temperature patterns shift over time, it can reveal fast-moving, ...

While scientists have long studied currents of large eddies, the smaller ones -- called submesoscale eddies -- are notoriously difficult to detect. These currents, which range from several kilometers ...

A new study published in the journal Nature Geoscience describes an artificial intelligence-powered technique that can ...

Scientists have introduced GOFLOW, an AI method that processes existing weather satellite data to chart ocean surface currents with unprecedented detail, revealing small-scale patterns that ...

As global electricity use grows, the strain on traditional energy sources increases. Renewable options like wind and solar have become popular, yet there's a massive, largely untapped resource beneath ...

Scientists have developed an AI-powered method called GOFLOW that converts thermal images from existing weather satellites into detailed, real-time maps of ocean surface currents. This breakthrough ...

On land, we’re familiar with heatwaves and cold snaps. But the deep sea also experiences prolonged periods of hot and cold. Marine heatwaves and cold spells can severely damage ocean ecosystems and ...