Trieye collaborates with Denso
The Tel-Aviv based company Trieye whose short-wave infrared (SWIR) sensing technology enhances visibility in adverse weather and night time conditions, has officially revealed the world's first CMOS-based SWIR camera named Sparrow. InGaAs-based SWIR cameras have been around for decades, serving the science, aerospace, and defense industries, but have not been used for mass-market applications due to their high costs and large form factor. Based on a decade of nanophotonics research, TriEye enables the fabrication of a CMOS-based HD SWIR sensor at scale, which is small size and 1000x lower cost than current technology.
Among the companies that are collaborating with Trieye and are evaluating the camera is the global automotive supplier Denso, in addition to the leading sports car manufacturer Porsche. The evaluation of Sparrow by Denso, Porsche, and additional Trieye customers, proves the product’s ability to deliver mission-critical image data under a wide range of scenarios, made possible by leveraging the unique physical properties of the SWIR spectrum. The sensor is particularly effective in low visibility conditions such as identifying black ice, dark clothed pedestrians, and cyclists - all under low-light or other common low visibility conditions, detection scenarios that are paramount for the automotive industry.
“We are proud and delighted to announce our collaboration with Denso which marks a meaningful step forward in delivering our mission of solving the low visibility challenge,” said Avi Bakal, TriEye’s co-founder and CEO.
TriEye aims to solve the low-visibility challenge on the roads by making SWIR cameras affordable and accessible for the global mass market. The company is expected to launch the first samples of Raven, the world's first CMOS-based SWIR HD camera, later this year.
TriEye’s SWIR camera can be integrated as a standard visible camera and can reuse existing visible image AI algorithms, which saves the effort of recollecting and annotating millions of miles. The camera will allow advanced driver assistance systems (ADAS) and autonomous vehicles (AV) to achieve unprecedented vision capabilities to save lives on the roads.