Engineers from MIT and Stanford University have developed a novel robotic gripper inspired by the tenacious growth of vines.
A team of researchers provides a perspective on the role that soft actuators and energy harvesters play in building ...
A gentle lifting gripper that could transform healthcare, mobility assistance and even unload heavy cargo. Read on!
Walk into Tosec BV, based in the Netherlands, and you’ll see the hallmarks of many custom metal fabricators. You’ll hear the ...
A wax head of Elon Musk is seen on a robot dog as a part of an art installation called "Regular Animals" by digital artist ...
Modern Engineering Marvels on MSN
Inside Atlas’s uncanny stand-up: Sensors, safety, and engineering precision
Why would one of the most sophisticated humanoid robots in the world want to get up from the floor in a way no human ever would? The answer lies deep in the interaction between sensor limitations, ...
Machines, not divers, should take on hazardous underwater work as new rules tighten biofouling control, says C-Leanship Asia ...
Inspired by vines’ twisty tenacity, engineers at MIT and Stanford University have developed a robotic gripper that can snake ...
MIT and Stanford built vine-like soft robots that wrap, lift, and gently carry objects — even humans — using inflatable tendrils.
“Congratulations to the St. Benedict FIRST Robotics team on their remarkable achievement at the FIRST Tech Challenge Regional ...
The Robotics Club at RPI started in 2021 and officially began operations as a club in Spring 2022, affiliated with Student ...
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