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

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

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

Researchers at the University of Pennsylvania School of Engineering and Applied Science (Penn Engineering) have introduced ...

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

A combination of digital maps and on-vehicle sensors help self-driving vehicles figure out where they are in the world.

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

Novel systems include a portable operations center, unmanned surface vehicles for finding mines, and underwater drones for ...

Automotive radar (77 to 81 GHz) offering weather-resilient sensing provides a complementary capability to the vision-or LiDAR-based autonomous driving systems. Raw radio-frequency (RF) radar tensors ...

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

The global vehicle speed monitoring system market is expected to grow at a robust compound annual growth rate (CAGR) of 19.5% during the forecast period. The market is projected to reach a valuation ...

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