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Tech Xplore · Robotics · 实时热榜

  • 01
    Robots can now 'see' touch thanks to a new color-changing tactile sensor
    Engineers at Queen Mary University of London have built a new color-changing tactile sensor, which allows robots to "see" and touch in real-time. The novel idea was invented by Giacomo Sasso, a postdoctoral researcher at the School of Engineering and Materials Science at Queen Mary University of London, and it works by transforming invisible forces into dynamic color patterns. This enables high-resolution maps of contact, strain and pressure to emerge instantly.
  • 02
    Giving drones a sense of 'pain' could help them predict instability before it happens
    Imagine you're running and you sprain your ankle. The pain makes you gingerly limp the rest of the way home. This is a great example of how nature adapts to failures in a system. The pain tells you: "If you continue running like normal, the injury will only get worse." So you naturally adjust the way you run. Drones currently cannot do this with a worn-out propeller.
  • 03
    Dutch launch humanoid robot center to 'kickstart' race with China
    In a squat building on a drab business park just outside Rotterdam, sleek white humanoid robots scuttle around, accompanied by a gray robotic dog performing various canine tricks.
  • 04
    Horror-movie cue inspires wearable that turns robot movements into warning music
    In horror movies, music is a dead giveaway. Tension builds with each note, and you brace for the inevitable jump scare. The same sense of anticipation has taken a leading role in an unlikely venue: a Georgia Tech robotics lab.
  • 05
    Chinese firm sells hyper-real, 'always loyal' humanoid robots
    Their metallic frames covered in supple, lifelike skin, a posse of new Chinese robots meant for companionship can offer users AI-generated conversation or a hand to hold, complete with manicured nails.
  • 06
    Designed to tempt: How mini AI lines up carrots to look their best
    The researchers teach the packaging machine what is up and down on a snack carrot. The program runs on a small, local PC—not on huge servers in some faraway cloud. The goal: to pack quickly, cheaply and attractively—so that consumers like us are tempted by locally sourced, healthy snacks.
  • 07
    A diving suit for cyborg cockroaches could enhance search-and-rescue operations
    Scientists from NTU Singapore and Waseda University have developed a flexible "diving suit" for cyborg cockroaches, enabling the insects to survive and move underwater and in low-oxygen environments for up to three hours. Published today in Nature Communications, the study could expand the use of cyborg insects in search-and-rescue missions, especially in disaster zones where flooded rubble, puddles or partially submerged spaces can block access for conventional robots.
  • 08
    Artificial skin enables robots to simultaneously sense temperature and pressure like humans
    A research team led by Prof. Seung Hwan Ko of Seoul National University College of Engineering's Department of Mechanical Engineering has developed an artificial skin technology that enables robots to sense temperature and pressure simultaneously, similar to human skin.
  • 09
    Sony discontinues Japan sales of robot puppy 'aibo'
    Sony is halting sales of its robotic puppy "aibo" in Japan, the company said, eight years after the latest model of its interactive android pet became an instant hit.
  • 10
    Robots that can identify materials and map unknown environments could aid nuclear and defense sectors
    Robots that can see beyond human vision, build live 3D maps of unknown environments and identify what objects are made of are being developed by researchers at the University of Surrey, opening new possibilities for applications in nuclear inspection, rail and building safety, and search and rescue in combat zones.
  • 11
    Swarm robots inspired by bees and ants could transform the future of mining
    Researchers at Adelaide University have developed a new type of robotic system inspired by bees and ants that could make mining safer, more efficient and more sustainable.
  • 12
    Underwater robots that are always on call pave the way for pipeline and cable security
    Growing economic activity in the ocean space is increasing the need for more regular monitoring and inspection of underwater infrastructure and its surroundings. Autonomous underwater vehicles capable of monitoring and inspecting pipelines, cables and underwater installations are becoming increasingly important in an uncertain global security situation. In addition, we need more knowledge about the seabed and the ocean space.
  • 13
    Rough demos unlock precise robot actions, with up to fourfold real-world gains
    Robots with increasingly precise dexterity are becoming essential in everyday life and industrial settings, from assembling tiny smartphone components to assisting doctors in surgery. However, teaching robots delicate human movements has traditionally required collecting vast amounts of data at extremely fine time intervals, resulting in significant costs and time burdens.
  • 14
    Inchworm-inspired robot that crawls without rigid parts could enable remote exploration
    An inchworm has provided the inspiration for a robot that can move without any rigid parts. The robot mimics a flexing muscle and can be used to inspect sewer pipes or as an explorer on the planet Mars, according to a thesis from the University of Gothenburg. The research is published on the arXiv preprint server.
  • 15
    Exoskeleton and robotic arm reduce factory lifting strain by up to 65%
    More and more robots are assisting workers in factories. However, human-robot collaboration is still far from seamless. Researchers from Prof. Lorenzo Masia's team at the Technical University of Munich (TUM) have now developed a solution that enables a factory worker wearing an exoskeleton to work closely and, above all, safely, with a robotic arm. This reduces the physical strain on workers and improves production processes.
  • 16
    Friendly social robots may help ease a child's anxiety at the doctor's office
    When 3-year-old Cameron arrived at the UC Davis MIND Institute for a recent medical appointment, she was in for a surprise: cuddly, social AI robots visiting from Japan were in the waiting room. "We both melted when we saw them," said Cameron's mom, Caroline Nguyen. "They're so adorable, and the little sounds they make—I mean, she took to them right away."
  • 17
    Smart drones, safe skies: Student's system tests and coordinates drone fleets
    Autonomous drones could deliver packages, inspect bridges and skyscrapers, monitor emergencies like wildfires and, eventually, ferry people. But the airspace still lacks the testing and coordination infrastructure needed to prove drones can operate safely around people, buildings, aircraft and each other.
  • 18
    Ultraefficient chip could help tiny robots traverse complex environments
    A new chip developed by MIT researchers could help tiny, low-power UAVs avoid obstacles as they zip around tight corners inside an industrial HVAC system to check for gas leaks. The chip allows small autonomous robots and other battery-limited devices to construct detailed 3D maps of their environments in real time using only about as much power as a single LED. A robot could use such a map to plan a collision-free path to reach its goal.
  • 19
    Robot 'Floaty' rides the wind like a bird, staying stable without propellers
    Current flying objects face a trade-off: Drones with propellers, for instance, are very agile and able to hover; however, they use up a lot of energy. Airplanes, on the other hand, feature fixed wings that allow them to fly very efficiently. The downside: They can't remain suspended in the air like a kestrel on the lookout for prey.
  • 20
    Drones learn to squeeze through narrow gaps using onboard AI control
    Unmanned aerial vehicles (UAVs), commonly known as drones, are now widely used for various purposes, ranging from filmmaking and aerial photography to industrial inspection, precision farming and reaching obstructed areas during emergency response missions. While many existing drones can move swiftly in their surroundings and circumvent large obstacles, most still struggle in cluttered environments. In addition, they are often unable to execute maneuvers that would allow them to safely pass thro
  • 21
    Three-armed Sashimi-Bot learns to slice and serve fish like a pro
    If you ever need help in the kitchen cutting fish into appetizing bites, a new three-armed robot may be able to help. And that's no easy feat for robots. While they are generally good at picking up rigid objects, something slippery that can change shape when touched, such as a fish, poses a range of challenges. Then, if you add slicing into the mix, it becomes even more difficult because the robot has to cope with the fish changing shape as it is handled and cut.
  • 22
    Humanoid robots: How human-like machines could change our daily lives
    Humanoid robots are no longer science fiction: They can take on tasks that challenge humans and have the potential to play an important role in industry, services or private households in the future. At Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU), researchers are working on hardware and software for human-like robots. Dr. Sebastian Reitelshöfer from the FAU Chair of Manufacturing Automation and Production Systems explains in an interview how humanoid robots could support us in the fu
  • 23
    Robots pour cocktails and run marathons, but still can't multitask
    They can mix cocktails, run marathons and fold laundry. But humanoid robots are still a long way from doing lots of different jobs on command, whatever the marketing says.
  • 24
    Humanizing robots makes factory workers more productive
    When factory workers treat industrial robots as co-workers—even attributing certain human qualities to them—productivity and well-being improve, according to new research out of the Alberta School of Business.
  • 25
    Upsampling method sharpens AI vision with up to 16 times less GPU memory
    From facial recognition on smartphones to humanoid robots, computer vision technology, which serves as the eyes of artificial intelligence (AI), is widely used in daily life. A joint research team from KAIST and international institutions has developed a technology that allows AI to see the world more clearly with minimal memory, increasing GPU (Graphics Processing Unit) memory efficiency by up to 16 times. The achievement is seen as a core technology that could accelerate the era of humanoid ro
  • 26
    When will AI robots become part of everyday lives?
    Many AI robots appear intelligent as long as they operate in controlled environments. Neuroscientist and robotics researcher Elisa Donati explains why robots with real-world readiness require more than just fast software.
  • 27
    Could AI tell you where you left your keys?
    An auto factory worker can remember the storage bin where she left a partly assembled component the night before and quickly return to that spot to pick it up. But robots that may work side by side with her would struggle to develop and access this same type of "spatiotemporal" memory.
  • 28
    Elephant trunk skin reveals design that could reshape soft robotics
    An elephant's trunk is both strong and capable of extremely fine motor movements. With this muscular, boneless structure, an elephant can carry heavy logs—or deftly peel a banana. Lucia Beccai and colleagues studied the skin of the trunk, hoping to understand its properties and derive lessons for the next generation of advanced soft robotics. The authors obtained a trunk from a single adult Asian elephant (Elephas maximus) that died of natural causes at Zurich Zoo, Switzerland, in 2020.
  • 29
    Wing-shape tests could unlock smoother water-to-air drone launches
    A bird bursting from the ocean or a mobula ray launching skyward makes the transition from water to air look effortless. For unmanned aerial vehicles (UAVs), commonly known as drones, it's one of the hardest maneuvers to replicate.
  • 30
    Simple color cue helps people master prosthetic devices faster
    Controlling a robotic arm, a prosthetic hand or a rehabilitation device is harder than it looks. Picking up an egg, for example, requires just the right amount of force: too little and it falls, too much and it breaks.
Tech Xplore · Robotics实时热榜 | 什么火了