The symmetrical design and flexible fingers mean that the robot can transport objects on either side of its body. For humans, ...

The robot can bend, grasp and carry in ways humans can’t, which could help it navigate spaces too confined for human arms.

Phantom Neuro is developing a muscle-machine interface that allows individuals – particularly those with limb loss or motor impairments – to intuitively control advanced robotic systems like ...

A robotic hand developed at EPFL surpasses the limits of human dexterity with a dual-thumbed, reversible-palm design that can ...

Most robots rely on rigid, bulky parts that limit their adaptability, strength, and safety in real-world environments. Researchers developed soft, battery-powered artificial muscles inspired by human ...

In the picture an individual with a limb deficiency wears the system during familiarization. The researchers designed a soft prosthetic hand with two degrees of actuation, enabling it to perform ...

Tesla’s Optimus humanoid robot promises help and companionship. But will AI-powered robots bring people together—or quietly ...

By the time Carnegie Mellon University (CMU) researcher Hans Moravec published his seminal book on robotics “Mind Children” ...

Living with robots could lead to plenty of societal improvements, but they also pose risks to how we socialize and co-exist with other human beings.