A study by researchers at Queen Mary University of London and University College London has found that humans have a form of remote touch, or the ability to sense objects without direct contact, a sense that some animals have.A study by researchers at Queen Mary University of London and University College London has found that humans have a form of remote touch, or the ability to sense objects without direct contact, a sense that some animals have.[#item_full_content]
A research team led by Dr. Lin Cao from the University of Sheffield’s School of Electrical and Electronic Engineering has reimagined one of robotics’ long-standing flaws as a breakthrough feature—unveiling a new way for soft robots to move, morph, and even “grow” with unprecedented dexterity.A research team led by Dr. Lin Cao from the University of Sheffield’s School of Electrical and Electronic Engineering has reimagined one of robotics’ long-standing flaws as a breakthrough feature—unveiling a new way for soft robots to move, morph, and even “grow” with unprecedented dexterity.[#item_full_content]
A robot searching for workers trapped in a partially collapsed mine shaft must rapidly generate a map of the scene and identify its location within that scene as it navigates the treacherous terrain.A robot searching for workers trapped in a partially collapsed mine shaft must rapidly generate a map of the scene and identify its location within that scene as it navigates the treacherous terrain.[#item_full_content]
A team led by the University of Oxford has developed a new class of soft robots that operate without electronics, motors, or computers—using only air pressure. The study, published in Advanced Materials, shows that these “fluidic robots” can generate complex, rhythmic movements and even automatically synchronize their actions.A team led by the University of Oxford has developed a new class of soft robots that operate without electronics, motors, or computers—using only air pressure. The study, published in Advanced Materials, shows that these “fluidic robots” can generate complex, rhythmic movements and even automatically synchronize their actions.[#item_full_content]
You may not remember it, but odds are you took a few tumbles during your toddler era. You weren’t alone. Falling, after all, is a natural consequence of learning to crawl, walk, climb and jump. Our balance, coordination and motor skills are developing throughout early childhood.You may not remember it, but odds are you took a few tumbles during your toddler era. You weren’t alone. Falling, after all, is a natural consequence of learning to crawl, walk, climb and jump. Our balance, coordination and motor skills are developing throughout early childhood.[#item_full_content]
One year after the international Cybathlon 2024 competition, an Italian team has published a focus article in Science Robotics on the Omnia bionic leg, which took first place in the leg prosthesis race.One year after the international Cybathlon 2024 competition, an Italian team has published a focus article in Science Robotics on the Omnia bionic leg, which took first place in the leg prosthesis race.[#item_full_content]
Pop culture has often depicted robots as cold, metallic, and menacing, built for domination, not compassion. But at Georgia Tech, the future of robotics is softer, smarter, and designed to help.Pop culture has often depicted robots as cold, metallic, and menacing, built for domination, not compassion. But at Georgia Tech, the future of robotics is softer, smarter, and designed to help.[#item_full_content]
Researchers at ETH Zurich have developed artificial muscles that contain microbubbles and can be controlled with ultrasound. In the future, these muscles could be deployed in technical and medical settings as gripper arms, tissue patches, targeted drug delivery, or robots.Researchers at ETH Zurich have developed artificial muscles that contain microbubbles and can be controlled with ultrasound. In the future, these muscles could be deployed in technical and medical settings as gripper arms, tissue patches, targeted drug delivery, or robots.[#item_full_content]
Scientists at TU Delft, the Netherlands, have developed a new algorithm that allows multiple autonomous drones to work together to control and transport heavy payloads, even in windy conditions. Drones are ideal for reaching and maintaining hard-to-reach infrastructure, like offshore wind turbines. With often harsh weather, limited payload capacity and unpredictable contact with the environment, it is difficult for current drones to operate safely and effectively.Scientists at TU Delft, the Netherlands, have developed a new algorithm that allows multiple autonomous drones to work together to control and transport heavy payloads, even in windy conditions. Drones are ideal for reaching and maintaining hard-to-reach infrastructure, like offshore wind turbines. With often harsh weather, limited payload capacity and unpredictable contact with the environment, it is difficult for current drones to operate safely and effectively.[#item_full_content]
The commercialization of clothing-type wearable robots has taken a significant step forward with the development of equipment that can continuously and automatically weave ultra-thin shape memory alloy coil yarn—thinner than a human hair—into lightweight and flexible “fabric muscle” suitable for large-scale production.The commercialization of clothing-type wearable robots has taken a significant step forward with the development of equipment that can continuously and automatically weave ultra-thin shape memory alloy coil yarn—thinner than a human hair—into lightweight and flexible “fabric muscle” suitable for large-scale production.[#item_full_content]
