New electrical architecture allows multiple onboard systems to respond together during real-world driving conditions.

Edge AI (artificial intelligence) semiconductor company Ambarella Inc. has developed a centralized 4D imaging radar architecture which aims to improve the perception capabilities of autonomous driving ...

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 ...

Members can download this article in PDF format. For autonomous driving to move forward at predicted levels, technological improvements in advanced driver-assistance systems (ADAS) are needed to power ...

Radar is cropping up everywhere in new car designs: sensing around the car to detect hazards and feed into decision making for braking, steering, and parking and in the cabin for driver and occupancy ...

This article discusses some of the fundamental research and development challenges in both the digital and RF/millimeter wave domains (such as waveform generation, receiver algorithms and ...

Advanced driver assistance systems (ADAS) rely heavily on modern radar technology. And why not? Radar uses electromagnetic waves to sense the environment. It can operate over a long distance in poor ...

Frequency diverse array (FDA) MIMO radar techniques represent a substantial evolution in radar system design, combining the benefits of frequency diversity with multiple-input multiple-output (MIMO) ...