Fast and complex multi-finger movements generated by the hand exoskeleton. Credit: Shinichi Furuya When it comes to fine-tuned motor skills like playing the piano, practice, they say, makes perfect.

Our hands are works of art. A rigid skeleton provides structure. Muscles adjust to different weights. Our skin, embedded with touch, pressure, and temperature sensors, provides immediate feedback on ...

Designing an anthropomorphic robotic hand seems to make a lot of sense — right up until the point that you realize just how complex the human hand is. What works well in bone and sinew often doesn’t ...

The interactive workshop introduced children to the art of blending science and creativity, allowing them to make 'living' ...

Hand exoskeleton robot attached to the digits of the right hand. The device can flex and extend the metacarpophalangeal joints of the individual digits. Click to expand... That word brought back a few ...

A groundbreaking development has come from researchers at the University of Tokyo and Waseda University in Japan. They've created a biohybrid hand, a fusion of lab-grown muscle tissue and mechanical ...

Anyone committed to building a particular skill is capable of experiencing the "ceiling effect," in which performance plateaus after years of training. For hobbyists, this is frustrating; for ...

A new robot hand provides extremely fast and flexible finger movements, while also being tough enough to survive intense damage. That durability helps the hand, which ...

Noninvasive brain tech is transforming how people interact with robotic devices. Instead of relying on muscle movement, this technology allows a person to control a robotic hand by simply thinking ...

In a potentially groundbreaking advancement in prosthetics and body augmentation, scientists at the University of Cambridge have developed a robotic, 3D-printed "Third Thumb" that can be used to pick ...

Researchers have developed a groundbreaking sensorized robotic hand that integrates high-density tactile sensing, dexterous soft fingers, and AI-driven feedback for advanced manipulation and ...

Researchers at UC San Francisco have enabled a man who is paralyzed to control a robotic arm that receives signals from his brain via a computer. He was able to grasp, move and drop objects just by ...