Bioinspired soft robotics investigates compliant robotic systems that emulate the mechanics, morphology, and control strategies of animals and other biological organisms. The field develops artificial muscles, soft actuators, and mechanical metamaterials using polymers, hydrogels, liquid crystal elastomers, and textile or origami-based structures to achieve muscle-like motion, shape morphing, and adaptive stiffness. It spans scales from sub-millimeter microrobots to larger soft-bodied platforms, integrating sensing, flexible electronics, and biohybrid components for autonomous locomotion, manipulation, and interaction in complex environments, particularly in aquatic and terrestrial settings.
Robotics
A Korean research team has developed a light-powered artificial muscle that operates freely underwater, paving the way for next-generation soft robotics.
May 21, 2025
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Engineering
Underwater or aerial vehicles with dimples like golf balls could be more efficient and maneuverable, a new prototype developed at the University of Michigan has demonstrated.
May 19, 2025
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Robotics
Soft robots are known for their flexibility and adaptability, but most still rely on rigid electronic components for control and timing. A recent publication from researchers at Georgia Tech challenges that paradigm.
May 19, 2025
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Robotics
Scientists inspired by the octopus's nervous system have developed a robot that can decide how to move or grip objects by sensing its environment.
May 14, 2025
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61
Robotics
At less than one and a half inches tall, roughly the same height as a LEGO minifigure, the world's smallest self-contained bipedal robot can self-start from standstill, walk faster than a half mile per hour, turn, skip, and ...
May 13, 2025
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175
Engineering
When you pull something—like a rubber band—you expect it to get longer. But what if it did the opposite? What if it suddenly shrank instead? In a study published in Proceedings of the National Academy of Sciences, researchers ...
May 12, 2025
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Robotics
Phase-change actuation has been revived for the era of untethered, electrically driven soft robots. Our team at the University of Coimbra have developed a phase transition soft actuator designed to power electric soft robots ...
Robotics
A joint research team from Seoul National University and Harvard University has developed a next-generation swarm robot system inspired by nature—capable of movement, exploration, transport, and cooperation, all without the ...
May 9, 2025
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101
Robotics
Brown University researchers have developed an artificial intelligence model that can generate movement in robots and animated figures in much the same way that AI models like ChatGPT generate text.
May 8, 2025
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67
Robotics
A research team from AMOLF in Amsterdam has created a soft robot that walks, hops, and swims—all without a brain, electronics, or AI. Just soft tubes, air, and some clever physics.
May 8, 2025
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