Modeling how cars deform in a crash, how spacecraft responds to extreme environments, or how bridges resist stress could be made thousands of times faster thanks to new artificial intelligence that ...

Modeling how cars deform in a crash, how spacecraft respond to extreme environments, or how bridges resist stress could be made thousands of times faster thanks to new artificial intelligence that ...

A ripple tells you something happened, but not exactly what. That is the core problem behind a hard class of equations that ...

Engineers at the University of Pennsylvania have developed an AI technique using 'mollifier layers' to solve complex inverse partial differential equations more efficiently and with greater stability.

You can probably think of a time when you’ve used math to solve an everyday problem, such as calculating a tip at a restaurant or determining the square footage of a room. But what role does math play ...

Caroline takes us on a behind-the-scenes adventure to explore how math is used in everyday On Doodles and Digits we interview a structural engineer who explains how she uses math to build large ...

Engineers at the University of Pennsylvania have developed 'Mollifier Layers,' a mathematical enhancement for AI that improves stability, speed, and accuracy in solving inverse partial differential ...