Radar-based perception solution for autonomous driving – which has yet to see commercialization by players in the market – is under research & development at the Information Processing Lab (IPL) at ...

Researchers have developed a new high-speed way to detect the location, size and category of multiple objects without acquiring images or requiring complex scene reconstruction. Because the new ...

NXP Semiconductors has introduced its new S32R47 imaging radar processors, designed to meet the needs of Level 2+ to Level 4 autonomous driving applications. These processors, built on advanced 16 nm ...

New research paper titled “Multi-View Fusion of Sensor Data for Improved Perception and Prediction in Autonomous Driving” from researchers at Uber. “We present an end-to-end method for object ...

As lidar technology becomes the industry standard in powering autonomous vehicles, a young startup called Altos Radar is stepping up to challenge the light-based remote sensing technology with 4D ...

Self-driving cars need to implement efficient, effective, and accurate detection systems to provide a safe and reliable experience to its users. To this end, an international research team has now ...

S32R47 family are NXP’s highest performing radar processors, addressing the demanding requirements of Level 2+ to 4 autonomous driving Higher resolution sensing ...

A new technical paper titled “Road Boundary Detection Using 4D mmWave Radar for Autonomous Driving” was published by Stanford University. “Detecting road boundaries, the static physical edges of the ...

The article is authored by Hitesh Garg, VP and India MD, NXP Semiconductors. India is at a crucial point in its journey toward autonomous mobility with a vision of obtaining full autonomy, which is ...