In blinding bright light or pitch-black dark, our eyes can adjust to extreme lighting conditions within a few minutes. The human vision system, including the eyes, neurons, and brain, can also learn ...

Conventional silicon architecture has taken computer vision a long way, but Purdue University researchers are developing an alternative path — taking a cue from nature — that they say is the ...

Researchers created a machine vision sensor that uses quantum dots to adapt to extreme changes in light far faster than the human eye can. (Nanowerk News) In blinding bright light or pitch-black dark, ...

Despite advances in machine vision, processing visual data requires substantial computing resources and energy, limiting deployment in edge devices. Now, researchers from Japan have developed a ...

A utonomous vehicles face many hazards as they set out on the road. Cyclists swerve in and out of traffic, distracted pedestrians amble into the road, human drivers change lanes without indicating.

A computer-vision system can detect movement in visual scenes faster than humans and up to four times faster than existing approaches, according to research published in Nature Communications. This ...

Fabrication of nanoscale light-sensitive materials, known as quantum dots, created a device that reacts to light faster than the human eye. It could revolutionize autonomous vehicles. WASHINGTON, July ...