Metawave Demonstrates 300 Metre Radar On Infineon's Platform
Integrated with Infineon's 77GHz radar chipset comprising of the RXS8160 MMIC and AURIX microcontroller, along with NVIDIA's AI Processing Engine, Metawave's development testing platform more than doubles today's existing automotive sensors, which can only detect unidentifiable, often blurry objects at a much shorter 100 metre range.
"We look forward to working with Infineon to develop an advanced platform that gives automotive industry giants the ability to deliver a faster and safer road to autonomous driving," said Tim Curley, Metawave VP of Strategic Alliances. "We're making great strides in demonstrating what smart, advanced radar is capable of achieving using Infineon chipsets "“ from showing high-resolution automotive 77GHz radar with object tracking, to AI deployment to learn what specifically is ahead of the car, to proving how our platform detects humans and cars at a very long range."
Advanced, smart radar plays a significant role in making autonomous driving safer, especially in challenging weather and operating conditions such as dense fog, heavy storms and dirty roads. Unlike cameras and LiDAR, radar can detect objects at a distance through difficult weather conditions. Today's existing radar is limited in its ability to see high-resolution, making it impossible to determine and learn to classify through AI what is in front of the automobile, especially at 300 meters.
Warlord, Metawave's smart radar platform, uses one antenna and pushes complexity to analog. With Warlord, the antenna itself shapes and steers the beam, recognises objects quickly in the analog space and leverages AI to learn as the radar sees.
"We are pleased to take our partnership with Metawave to the road," said Ritesh Tyagi, Head of the Infineon Silicon Valley Automotive Innovation Centre. "This demonstration shows how Infineon's radar chipset and Metawave's sophisticated antenna technology can be combined to deliver a cutting-edge sensor platform that will advance the safety and future of autonomous driving."
Three sensors are fundamental components of the perception system for self-driving cars today: camera, LiDAR and radar. The camera is the highest resolution sensor but cannot see objects beyond 70 metres. LiDAR extends the range to about 180 metres with a fairly high resolution imaging capability. Radar operates at a lower frequency and sees long ranges sooner than any other sensor. Today's radar lacks resolution and cannot differentiate objects. These systems require multiple antennas, which are heavy and expensive, and need to analyse every signal in the digital space, which takes time.
