Inspired by vines’ twisty tenacity, engineers at MIT and Stanford University have developed a robotic gripper that can snake ...

Festo says its new HPSX soft gripper is designed to solve long-standing challenges in food, pharmaceuticals, and cosmetics.

Engineers at MIT and Stanford University have developed a vine-like robotic gripper that wraps around objects before gently ...

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 ...

Researchers have successfully 3D-printed a soft robotic gripper that can function immediately after fabrication without any electronics technology, allowing it to function both mounted or untethered ...

Engineers from MIT and Stanford University have developed a novel robotic gripper inspired by the tenacious growth of vines.

In another example of unsettling biomimicry, engineering researchers from the University of New South Wales in Sydney were inspired by an elephant’s trunk and designed what looks more like a robotic ...

Scientists often look to nature for cues when designing robots - some robots mimic human hands while others simulate the actions of octopus arms or inchworms. Now, researchers have designed a new soft ...

The current world population is estimated to be 7.8 billion, and with the United Nations predicting that number will reach 10.9 billion by the end of this century, the need for food manufacturers to ...