Our muscles are nature's actuators. The sinewy tissue is what generates the forces that make our bodies move. In recent years, engineers have used real muscle tissue to actuate "biohybrid robots" made ...

Rather than pushing a futuristic, machine-forward aesthetic, XPENG leans into recognisable visual cues such as body shape, ...

But MIT’s new muscle-tendon system changes that equation by bridging muscle to skeleton more efficiently. And the numbers ...

XPENG sliced open its lifelike IRON robot on stage to prove no human was inside, highlighting its push into commercial humanoid robotics.

At Deseret News, we want to help you find the perfect gift for the people you love. That means a little bit of self-care, a ...

If you waited until today to shop, don’t worry — you’re not too late. There are still some great deals to be had at Walmart.

A: Most pipelines use deep learning backbones like Faster R-CNN, trained on labeled datasets of façades and markings. They ...

What if a robot could show us how the brain keeps us balanced? UBC scientists built one—and their discovery could help shape ...

Leo Herrera, Sniffies sexpert and author of the cruising manual (analog) Cruising, is shedding light on how the future of ...

When it comes to training robots to perform agile, single-task motor skills, such as handstands or backflips, artificial intelligence methods can be very useful. But if you want to train your robot to ...

A research team at The Hong Kong University of Science and Technology (HKUST) has engineered soft materials with highly ...