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Life Sciences - Microtechnics - 23.10.2024
’Palaeo-robots’ to help scientists understand how fish started to walk on land
The transition from water to land is one of the most significant events in the history of life on Earth. Now, a team of roboticists, palaeontologists and biologists is using robots to study how the ancestors of modern land animals transitioned from swimming to walking, about 390 million years ago. Writing in the journal Science Robotics , the research team, led by the University of Cambridge, outline how 'palaeo-inspired robotics' could provide a valuable experimental approach to studying how the pectoral and pelvic fins of ancient fish evolved to support weight on land.
Microtechnics - 17.10.2024
Advanced robotics to study honeybee behaviour
Researchers from our top-rated Computer Science department have made significant advances in understanding honeybee behaviour through the use of innovative robotic technology. The study, published in the cover page of prestigious journal - Science Robotics, offers unprecedented insights into the daily activities of honeybee colonies, particularly focusing on the queen bee and her interactions with worker bees.
Microtechnics - Astronomy / Space - 17.06.2024
Engineers unlock design for record-breaking robot that could jump twice the height of Big Ben
Manchester engineers unlock design for record-breaking robot that could jump twice the height of Big Ben Engineers at The University of Manchester have unlocked the secrets to designing a robot capable of jumping 200 metres - higher than any other jumping robot designed to date. Using a combination of mathematics, computer simulations, and laboratory experiments, the researchers have discovered how to design a robot with the optimum size, shape and the arrangement of its parts, allowing it to jump high enough to clear obstacles many times its own size.
Microtechnics - Life Sciences - 24.05.2024
Imperceptible sensors made from ’electronic spider silk’ can be printed directly on human skin
Researchers have developed a method to make adaptive and eco-friendly sensors that can be directly and imperceptibly printed onto a wide range of biological surfaces, whether that's a finger or a flower petal. The method, developed by researchers from the University of Cambridge, takes its inspiration from spider silk, which can conform and stick to a range of surfaces.
Innovation - Microtechnics - 26.02.2024
Opinion: the future of science is automation
Professor Ross King from Cambridge's Department of Chemical Engineering and Biotechnology, who originated the idea of a 'Robot Scientist', discusses why he believes that AI-powered scientists could surpass the best human scientists by the middle of the century, but only if AI for science is developed responsibly and ethically.
Microtechnics - Computer Science - 29.01.2024
Robot trained to read braille at twice the speed of humans
Researchers have developed a robotic sensor that incorporates artificial intelligence techniques to read braille at speeds roughly double that of most human readers. The research team, from the University of Cambridge, used machine learning algorithms to teach a robotic sensor to quickly slide over lines of braille text.
Health - Microtechnics - 25.01.2024
New guidance published to aid researchers evaluating surgical robots
Surgical robotics are amongst the most complex devices entering healthcare, but how should we evaluate them? Published in Nature Medicine , the Idea, Development, Exploration, Assessment and Long-term monitoring (IDEAL) Robotics Colloquium outlines the latest guidance to aid researchers evaluating surgical robots.
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