Robotics

Robotic prosthetic ankles improve 'natural' movement, stability

Robotic prosthetic ankles that are controlled by nerve impulses allow amputees to move more "naturally," improving their stability, according to a new study from North Carolina State University and the University of North ...

Robotics

Team makes electronic skin that can sense touch

Stanford scientists have developed a soft and stretchable electronic skin that can directly talk to the brain, imitating the sensory feedback of real skin using a strategy that, if improved, could offer hope to millions of ...

Robotics

Soft e-skin that communicates with the brain

Researchers at Stanford University have developed digital skin that can convert sensations such as heat and pressure to electrical signals that can be read by electrodes implanted in the human brain.

Electronics & Semiconductors

Team develops electronic skin as flexible as crocodile skin

The development of electronic skin with multiple senses is essential for various fields, including rehabilitation, health care, prosthetic limbs, and robotics. One of the key components of this technology is stretchable pressure ...

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