Zhengyang (Kris) Weng (MSR '25) brought a passion for the piano to MSR, where his independent project replicating a human hand could ultimately impact robots in hospital operating rooms. The gentle ...

Scientists in Japan have developed a robotic hand eerily reminiscent of The Terminator, using lab-grown human muscle tissue to power its movements. The breakthrough, hailed as a major step towards ...

The human hand is amazingly complex. With 34 muscles, more than 30 tendons, and 27 bones, hands can grasp objects, express emotion, create works of art, and accomplish many of the tasks that drive ...

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 ...

In a remarkable fusion of biology and technology, researchers from the University of Tokyo and Waseda University have developed a groundbreaking biohybrid robotic hand that utilizes lab-grown human ...

Researchers at Johns Hopkins University have come up with a better prosthetic hand that uses a hybrid design to carefully grip various objects with just the right amount of pressure. The robotic ...

How does a robotic arm or a prosthetic hand learn a complex task like grasping and rotating a ball? Researchers address the classic 'nature versus nurture' question. The research demonstrates that the ...

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.

Developing a durable and affordable hand is one of the biggest challenges in robotics.

Biohybrid robots work by combining biological components like muscles, plant material, and even fungi with non-biological materials. While we are pretty good at making the non-biological parts work, ...