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.

As the automotive industry advances towards autonomous driving, several safety concerns must be addressed before full autonomy can be reached. Leading car makers are already taking steps to address ...

Autonomous vehicles rely on radar and LiDAR sensors, complemented by edge-based cameras to perceive their environment, make well-informed choices and navigate safely. These embedded devices are used ...

Autonomous cars need to see the world around them, kind of like we do, but with a lot more gadgets. They use a bunch of ...

EyeDAR, a low-power millimeter-wave radar sensor roughly the size of an orange, could provide radar-equipped self-driving ...

Explore how self driving cars and autonomous vehicles use self driving car sensors, lidar radar cameras, and autonomous driving technology to perceive roads, make decisions, and enhance safety.

Modern communications and sensing technologies have revolutionized the way cars are designed. To increase safety and move toward autonomous driving (AD), new vehicles must include systems that can ...

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.

TI rolled out its second-generation chip for short- to long-range automotive radar sensors. The IC brings more than 30% better resolution and 40% longer range than other solutions on the market. Check ...