Scientists' new system uses AI to convert radio data into 3D images, allowing robots to see through smoke, reflective ...

University of Pennsylvania researchers use AI-processed radio waves to enable robots "see" in 3D, navigating smoke, glass, ...

Technology enables scientists to measure and discover things that would be impossible to find without it, like these lost ...

PanoRadar by Penn Engineering uses radio waves to give robots high-resolution 3D vision, surpassing traditional sensors in ...

Discover how adaptive-computing technology is extending the capabilities of LiDAR sensors to deliver higher depth resolution ...

Self-driving cars often use LiDAR — think of it as radar using light beams. One limitation of existing systems is they need some method of scanning the light source around, and that means moving ...

Lidar sensors are used by autonomous vehicles, warehouse robots and certain other systems to navigate their surroundings. The technology is based on the same basic principle as radar, but uses ...

Most experts say lidar remains an essential sensor for fully autonomous vehicles. All sensors have strengths and weaknesses, and camera, radar and lidar can be complementary and ensure redundancy.

The first-ever use of cutting-edge drone-based lidar in Central Asia allowed archaeologists to capture stunning details of two newly documented trade cities high in the mountains of Uzbekistan.

Light detection and radar (LiDAR) has been used to reveal Maya cities that have been taken over by the rainforest, and the team showed it can do just as well at penetrating dust and grass as leaves.

In the race to build robots that can navigate any environment, scientists have faced a big challenge: traditional vision ...

In the race to develop robust perception systems for robots, one persistent challenge has been operating in bad weather and ...