A robotic gripping arm that uses engineered bacteria to “taste” for a specific chemical has been developed by engineers at the University of California, Davis, and Carnegie Mellon University. The ...

An often-overlooked robot component that plays a critical role in shaping the efficiency and sustainability of these mechanical marvels is the end of arm gripper. Traditionally crafted from heavy ...

Scientists at the University of California, Davis (UC Davis) and Carnegie Mellon University (CMU) have designed a soft robotic gripping arm that uses engineered bacteria to "taste" for a specific ...

Designed for use by food processors and consumer packaged goods manufacturers, the mGripAI robot gripper from Soft Robotics combines 3D perception, soft grasping, and artificial intelligence (AI) for ...

If you would like to learn a little more about electronics, Arduino and robotic arms you might be interested in new project created by James Bruton this month which shows how to build your very own ...

With a few exceptions, robotic grippers aren't known for having a soft touch – so they often can't be trusted with delicate objects. That may be about to change, however, thanks to a shock-absorbing ...

Researchers at MIT’s Computer Science and Artificial Intelligence Laboratory have developed a robotic gripper with the dexterity to handle thin objects like ropes and cables, the university announced.

RE2, LLC, a wholly owned subsidiary of Sarcos Technology and Robotics Corporation, today announced that it has achieved a significant technical milestone with its Strong Tactile mARitime hand for ...

One of the most challenging things for humans to manipulate are items like rope, wire, or cables. These thin, flexible objects are even more difficult for robots to manage with most robotic grippers ...

In what seems like a paradox, researchers at ETH Zürich have developed a robotic manipulator that can pick up and manipulate small objects without actually touching them. Using ultrasonic waves, the ...

Researchers from the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) have developed a robotic gripper that uses thin tentacles to grasp fragile or priceless objects, as ...