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 ...

Johns Hopkins University engineers have developed a pioneering prosthetic hand that can grip plush toys, water bottles, and other everyday objects like a human, carefully conforming and adjusting its ...

Scientists have developed a robotic prosthetic hand that offers precision fingertip control. The ultra-light system offers shape-adaptive gripping through simple motion commands. Using an innovative ...

To accelerate adoption across industry and research, SharpaWave runs on an open-source, developer-friendly software stack. The SharpaPilot app is fully compatible with major simulation platforms ...

A robotic hand can pick up 24 different objects with human-like movements that emerge spontaneously, thanks to compliant materials and structures rather than programming. When you reach out your hand ...

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 ...

The proposed bistable gripper can maintain its grasp even without continuous energy input, while also being able to modulate its activation force, representing a new paradigm in robotic gripper design ...

Researchers at the Zurich-based ETH public university, along with a US-based startup called Inkbit, have done the impossible. They’ve printed a robot hand complete with bones, ligaments and tendons ...

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.

What makes a humanoid hand so fascinating? Imagine a robotic gripper delicately assembling intricate components on a factory floor or carefully holding fragile medical instruments during surgery.

TL;DR: Humanity's most complex piece of biological machinery – the hand – remains the blueprint for robotics' most challenging unsolved problem. If engineers can crack it, the robots taking shape in ...