MIT engineers built an ultrasound wristband that tracks 22 degrees of hand freedom with 120ms latency, enabling real-time robot hand and sign language control.

Researchers researchers bring noninvasive EEG-based BCI one step closer to everyday use by demonstrating real-time brain decoding of individual finger movement intentions and control of a dexterous ...

Scientists have developed an ultrasound wristband that uses artificial intelligence to translate images of the wrist into ...

In response to the rapid development of the humanoid robot, dexterous hand, and smart robot markets, Artery Technology ...

Robotic systems have the potential to greatly enhance daily living for the over one billion individuals worldwide who experience some form of disability. Brain-computer interfaces or BCIs present a ...

Robots are learning to grasp objects with help from a new ultrasound wristband. Developed at MIT, this device captures human ...

As technology improves, researchers slowly bridge the gap between prosthetics and human limbs: Scientists have developed a prosthetic hand that lets users feel temperatures and bionic legs that move ...

ABB Robotics has partnered with California-based bionic company PSYONIC to develop more dexterous robotic ...

Prosthetic hands have long struggled to replicate the dexterity and functionality of natural hands, often limiting users to a single grasp function at a time. This limitation has made everyday tasks, ...

In the face of rising global agricultural labor costs and an aging workforce, a new review published in Engineering explores how agricultural robots are leveraging advanced hand–eye coordination ...