prosthetics tagged posts

With more than 1,000 nerve endings, human skin is the brain’s largest sensory connection to the outside world, providing a wealth of feedback through touch, temperature and pressure. While these complex features make skin a vital organ, they also make it a challenge to replicate.

By utilizing nanoengineered hydrogels that exhibit tunable electronic and thermal biosensing capabilities, researchers at Texas A&M University have developed a 3D-printed electronic skin (E-skin) that can flex, stretch and sense like human skin.

“The ability to replicate the sense of touch and integrate it into various technologies opens up new possibilities for human-machine interaction and advanced sensory experiences,” said Dr...

Research subjects at the University of Minnesota fitted with a specialized noninvasive brain cap were able to move the robotic arm just by imagining moving their own arms. Credit: University of Minnesota

Researchers have made a major breakthrough that allows people to control a robotic arm using only their minds. The research has the potential to help millions of people who are paralyzed or have neurodegenerative diseases. “This is the first time in the world that people can operate a robotic arm to reach and grasp objects in a complex 3D environment using only their thoughts without a brain implant,” said Bin He, University of Minnesota biomedical engineering professor. “Just by imagining moving their arms, they were able to move the robotic arm.”

The noninvasive technique, EEG based brai...

The twisted smart threads developed by KAUST researchers can be woven into pressure-sensitive ‘electronic skin’ fabrics for use in novel clothing, robots or medical prosthetics. Credit: © 2016 KAUST

Smart threads can be woven into pressure-sensitive electronic skin for robots or medical prosthetics. Fabrics containing flexible electronics are appearing clothes with in-built screens and solar panels. These fabrics can act as electronic skins that can sense their surroundings and could have applications in robotics and prosthetic medicine. Researchers at King Abdullah University of Science and Technology (KAUST), Saudi Arabia, have now developed smart threads that detect the strength and location of pressures exerted on them.

Most flexible sensors function by detecting changes in the el...