Complete Green Laser Pointer Capture Imaging Of Hidden Objects
As for why the above two types of detection cannot be achieved at the same time, researchers at Stanford University explained that the current equipment performance cannot support the above two types of detection tasks at the same time, because the distance detection and tracking of hidden objects behind the wall requires very fast measurements, and Capturing its 3D image requires a long scan time. In fact, researchers at Stanford University admit that current 3D scanning takes 2 to 60 minutes to complete the green laser pointer capture imaging of hidden objects. This is too slow for autonomous driving and other conventional scanning applications. Just walk over and look at it with your eyes.
Tags
Technology
In the future, if the system is to better cope with the real environment of the changing green laser pointer. The scan completion time will be greatly accelerated. The research team at Stanford University needs to continue to conduct in-depth research on this system. For example, the distance of an object and the amount of ambient light can make it difficult for the system to tell whether it is reflected light from a hidden object. The technology also requires in-depth analysis of scattered light particles that are deliberately ignored by current automotive guidance systems, LiDAR sensing systems. "We believe that the current computing algorithm can be applied to LiDAR systems. The key to the post-doctoral problem of Stanford University's Computational Imaging Laboratory is whether the current LiDAR system hardware can support such 3D imaging as green laser pointers.
2020-02-18 03:50:41
Your Answer: