Researchers have developed an L3 F-TOUCH sensor to enhance tactile capabilities in robots, allowing it to 'feel' objects and adjust its grip accordingly. Researchers from Queen Mary University of ...

Inexpensive silicon rubber composites used to make robotic skin host an insulating layer which prevents direct electrical contact, making accurate and repeatable measurements virtually impossible. Low ...

Scientists at the University of Turku, Finland, have created a stretchable, transparent, and eco-friendly electronic skin ...

Imagine a world where robots can feel, just like you and me. It’s not a scene from a sci-fi movie, but the exciting reality that Meta, the tech giant formerly known as Facebook, is working tirelessly ...

Meta says it’s partnering with sensor firm GelSight and Wonik Robotics, a South Korean robotics company, to commercialize tactile sensors for AI. The new devices aren’t meant for consumers. Rather, ...

MIT has developed an inexpensive sensor glove designed to enable artificial intelligence to figure out how humans identify objects by touch. Called the Scalable TActile Glove (STAG), it uses 550 tiny ...

In this Force Robot, tension cables loop around driveshaft capstans and wrap the “wings” of the arc-shaped linkages. When a motor drives the capstan, the cables transmit torque to the linkage. The ...

Researchers overcome a long-time challenge of flexible touch sensors, demonstrating high repeatability after careful contact preparation Researchers warn of a native insulation layer that covers ...