Smart microrobots learn to communicate and collaborate in water
In a major step toward intelligent and collaborative microrobotic systems, researchers at the Research Center for Materials, Architectures and Integration of ...
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In a major step toward intelligent and collaborative microrobotic systems, researchers at the Research Center for Materials, Architectures and Integration of ...
Read moreDetailsAt UC Berkeley, researchers in Sergey Levine's Robotic AI and Learning Lab eyed a table where a tower of 39 Jenga ...
Read moreDetailsWhile working at NASA in 2003, Dr. Robert Ambrose, director of the Robotics and Automation Design Lab (RAD Lab), designed a ...
Read moreDetailsTo effectively tackle a variety of real-world tasks, robots should be able to reliably grasp objects of different shapes, textures and ...
Read moreDetailsModern robotic systems—in drones or autonomous vehicles, for example—use a variety of sensors, ranging from cameras and accelerometers to GPS modules. ...
Read moreDetailsGive robots a specific job—say, placing a can on a conveyor belt in a factory—and they can be extremely efficient. But ...
Read moreDetailsServing craft beer, playing mahjong, stacking shelves and boxing, the dozens of humanoid robots at Shanghai's World AI Conference (WAIC) this ...
Read moreDetailsFor robots to be successfully introduced in a wider range of real-world settings, they should be able to safely and reliably ...
Read moreDetailsA cheetah's powerful sprint, a snake's lithe slither, or a human's deft grasp: Each is made possible by the seamless interplay ...
Read moreDetailsHow do you develop an AI system that perfectly mimics the way humans speak? Researchers at Nagoya University in Japan have ...
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