University of Pennsylvania researchers use AI-processed radio waves to enable robots "see" in 3D, navigating smoke, glass, ...
Discover how adaptive-computing technology is extending the capabilities of LiDAR sensors to deliver higher depth resolution ...
PanoRadar by Penn Engineering uses radio waves to give robots high-resolution 3D vision, surpassing traditional sensors in ...
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 ...
LiDAR (light imaging, detection ... The data is then processed. “You have complex signal processing, which happens in a much denser processing element like an FPGA or a processor,” Velodyne’s Gopalan ...
an improved explanation of lidar data inversion algorithms, digital signal processing applications in lidar, and statistical limitations of lidar signal-to-noise ratios. This is an ideal standalone ...
In the race to develop robust perception systems for robots, one persistent challenge has been operating in bad weather and ...
Working with acceleration, vibration, sound, electrical, RF, and proprietary signal sets, Reality Analytics tools identify ... Reality AI also has uses for certain use cases with image, LiDAR, radar ...
According to Lidwave, another benefit of its technology is that it doesn’t require post-processing software. That’s a type of software used to turn raw lidar measurements into a form a vehicle ...
The successful long-distance wind sensing demonstrates the great potential of this novel quantum interference lidar technology in weak signal measurement. It can measure optical frequencies ...
A raging debate on whether artificial intelligence (AI) would eventually overtake human capabilities notwithstanding, a team ...