If a robot is trying to traverse rugged, irregular terrain, it's limited by having just one body shape. The Tetraflex robot was designed with this fact in mind, as it can change shape to adopt ...
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Shape-changing robots: New AI-driven design tool optimizes performance and functionality
Like octopuses squeezing through a tiny sea cave, metatruss robots can adapt to demanding environments by changing their shape. These mighty morphing robots are made of trusses composed of hundreds of ...
But shape-shifting robots, which are controlled by magnetic fields, can dynamically squish, bend, or elongate their entire bodies. "Such a robot could have thousands of small pieces of muscle to ...
Formless 'slime' robots that shape-change to complete complex tasks – it sounds like science fantasy. However, MIT researchers have developed a machine-learning technique that brings shape-changing ...
Until now, when scientists created magnetic robots, their magnetization profiles were generally fixed, enabling only a specific type of shape programming capability using applied external magnetic ...
(Nanowerk Spotlight) Building robots that can effortlessly mimic the movements of insects on water has been a persistent challenge in robotics. The ability to move autonomously and efficiently in ...
What should a robot look like if it needs to move through sand, wet bark, grass, concrete, tight spaces, and rough terrain ...
(Nanowerk News) Biologically inspired robotics aims to replicate the extraordinary versatility found in nature. Chameleons alter skin pigmentation to camouflage against predators. Birds morph wings ...
This shape-changing robot just got a lot smaller. In a new study, engineers at the University of Colorado Boulder debuted mCLARI, a 2-centimeter-long modular robot that can passively change its shape ...
Researchers have created microscale robots less than 1 millimeter in size that are printed as a 2D hexagonal 'metasheet' but, with a jolt of electricity, morph into preprogrammed 3D shapes and crawl.
Given how many worryingly sophisticated new AIs and self-healing or transformative robots come to our attention on an almost weekly basis, it’s easy to forget that “soft robotics” is a thing. Unlike ...
Toss aside your typical idea of a robot — all metal, jerky movements and a stiff-legged walk. Scientists at Tufts University are developing soft, squishy robots that are able to squeeze into spaces a ...
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