![Kinect projected ir pattern](https://kumkoniak.com/71.jpg)
![kinect projected ir pattern kinect projected ir pattern](http://www.hizook.com/files/users/3/Kinect_Teardown2.jpg)
The direction and size of the pattern distortions are used to reconstruct the surface topography of the target object.įigure 1: A regular striped pattern is projected onto the ball. When the camera views the pattern from one (or more) different perspectives, the surface features of the target distort the pattern, as shown in Figure 1.
![kinect projected ir pattern kinect projected ir pattern](https://image.slideserve.com/1481976/kinect-pin-layout-l.jpg)
The concept is quite simple: a known pattern is projected onto a surface. Originally developed for gaming and consumer electronics, the Kinect – and other systems using similar technologies – are finding their way into a wide range of practical applications. One well-known example of a structured light system is the Microsoft Kinect. Structured Light Imaging captures the 3-dimensional topography of a surface using specific, (often modulating) patterns of light, and a 2D imaging camera. One method that is rapidly growing in popularity (and utility) is Structured Light Imaging. Several different 3D methods have been developed and applied to machine vision. Our “stereoscopic” eyes and cognitive processing abilities provide our 3-dimensional awareness, but stereovision isn’t the only way to extract 3-dimensional information.
![kinect projected ir pattern kinect projected ir pattern](https://www.mdpi.com/sensors/sensors-12-01437/article_deploy/html/images/sensors-12-01437f4.png)
We live in a 3-dimensional world, and many application areas can benefit from 3-dimensional awareness. As the collective needs of our civilization become more sophisticated, the 2-dimensional imaging methods of the past impose limitations on what we can perceive and understand about the world around us.
![Kinect projected ir pattern](https://kumkoniak.com/71.jpg)