A self-powered soft robot inspired by manta rays adapts to its environment using integrated sensors and flexible batteries ...
Engineers from MIT and Stanford University have developed a novel robotic gripper inspired by the tenacious growth of vines.
UBC's innovative robotic simulator demonstrates that mechanical stability can compensate for delayed feedback, crucial for ...
The robo-dog, which is designed to negotiate chaotic situations with accuracy, has the potential to transform ...
MIT's new hydrogel tendons strengthen muscle-powered robots, achieving 11x higher power-to-weight ratio and improved force ...
While AI can enhance conservation efforts, Cambridge scientists caution against its risks, advocating for ethical frameworks ...
Coventry University has launched a new study examining whether the use of drone technology can be scaled up to make cities ...
Research from MIT shows AI as a key player in the clean energy transition, optimizing power grids and accelerating materials ...
University of Houston engineers have developed a potentially transformative thin-film dielectric material that enhances AI ...
What if AI could tell you when your diabetes might get worse—before it happens? From blood sugar trends to retinal scans, ...
Fiber-type artificial muscles offer a breakthrough in robotic actuation, combining biomimetic design with multifunctional capabilities for diverse applications.
BoltzGen, an AI model from MIT, innovatively designs protein binders, combining structure prediction with flexible control ...
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