When AI-powered prosthetic arms that move autonomously become widespread, understanding how people feel about them and accept them will be crucial. In a study appearing in Scientific Reports, ...

When AI powered prosthetic arms that move autonomously become widespread, understanding how people feel about them and accept them will be crucial. In ...

New research shows that autonomous robotic limbs must move at human-like speeds to be accepted by the brain as part of the body.

Summary When AI powered prosthetic arms that move autonomously become widespread, understanding how people feel about them and accept them will be crucial. In this study, we used virtual reality to ...

A virtual forearm can bend in a blink. It can also take its time, easing toward a target as if it is thinking about the move.

As AI powered prosthetic arms become more advanced, a surprising detail could determine whether they truly feel like part of the body: how fast they move.

Robotic-assisted knee replacement uses advanced computer-guided technology to help orthopedic surgeons perform precise, personalized knee implant surgery. It improves implant alignment, reduces ...

Meet four CMU-affiliated startups that are translating academic research into tools that could improve health care for millions of Americans.

New Harvard 3D printing technique builds twistable, bendable robotic muscles in a single print with programmed movement logic ...

The Orthopedic Power Tools Market is projected to grow from USD 1,741.77 million in 2024 to USD 2,275.91 million by 2032, at ...