Automation in automotive electronics has driven the next leap of innovation in transportation, fueled by a fundamental premise: In automotive applications, vehicles must be able to sense their ...

Russia is putting up more radar stations for detecting stealth planes. What’s perhaps most impressive about Russia’s Sunflower radar isn’t its ability to detect stealth fighters, but its comparative ...

Why 3D radar is important to ADAS and software-defined vehicles. How NXP’s SAF86xx SAF86xx radar SoC simplifies antenna deployment. Advanced driver-assistance systems (ADAS) and software-defined ...

Radar (acronym for Radio Detection and Ranging) uses radio waves to detect objects in the environment. It allows determining the distance (known as range), angular position (bearing), and velocity.

Traditional sonar and radar use an echo-based approach, and have been amazingly successful in sensing and tracking vehicles and objects under water, through the air, or even in space. The principle is ...

The benefits of AoP radar sensor technology will be apparent in a range of application types, reducing RF design complexity ...

BBN-led team will initially build a smart spectrum manager that can detect radar use, predict 5G interference, and reroute traffic.

The Flexible Distributed Array Radar, or FlexDAR, combines digital beam forming, network coordination and precise time synchronization to perform multiple missions at the same time, with a single ...

How self-driving cars are adding new capabilities as they move from Layer 2 (L2) to L2+ and beyond. How automotive radar systems are designed, and what this means for processors and other components.