The quest to develop robots that can reliably navigate complex environments has long been hindered by a fundamental limitation: most robotic vision systems essentially go blind in challenging weather ...
Scientists' new system uses AI to convert radio data into 3D images, allowing robots to see through smoke, reflective ...
A new analysis of 12,000-year-old stones from Israel shows that they may be the earliest evidence of this society-changing ...
Scientists at the University of Pennsylvania's School of Engineering and Applied Science recently revealed that they have ...
In the race to build robots that can navigate any environment, scientists have faced a big challenge: traditional vision ...
The better robots can see, the better they can interpret their surroundings. Where conventional sensors fail, radio waves and ...
University of Pennsylvania researchers use AI-processed radio waves to enable robots "see" in 3D, navigating smoke, glass, ...
In the race to develop robust perception systems for robots, one persistent challenge has been operating in bad weather ...
A raging debate on whether artificial intelligence (AI) would eventually overtake human capabilities notwithstanding, a team ...
Researchers at the University of Pennsylvania School of Engineering and Applied Science (Penn Engineering) have introduced ...
PanoRadar can interpret reflective surfaces like glass and see through fog, two obstacles that LiDAR cannot overcome. Image ...
Researchers have developed PanoRadar, a new tool to give robots superhuman vision by transforming simple radio waves into detailed, 3D views of the environment.