Patent Document ID: 10156437
Application ID: 14881301
Patent Status: 1

Claim One:
1. A control method of a depth camera, the depth camera including a light source, a first image sensor unit and a second image sensor unit which are spaced apart from each other and which have overlapping field of view, and a processor which is connected electrically to the light source, the first image sensor unit and the second image sensor unit, the first image sensor unit detecting light in a first range of wavelengths, the second image sensor unit detecting light in the first range of wavelengths and light in a second range of wavelengths different from the first range of wavelengths, the light source emitting light in the second range of wavelengths, the control method comprising: controlling, by the processor, each of the first image sensor unit and the second image sensor unit to detect light in the first range of wavelengths for generation of a respective one of a first image by the first image sensor unit and a second image by the second image sensor unit, wherein the light in the first range of wavelengths is visible light; generating, by the processor, a first depth map based on the first image and the second image corresponding to visible light; executing the processor to apply edge-detection processing to one of the first image and the second image to obtain a number of edge pixels of said one of the first image and the second image which has undergone the edge-detection processing; determining, by the processor, whether the number of edge pixels is smaller than a first preset pixel number; controlling, by the processor, the light source to emit light to reach an object when it is determined that the number of edge pixels is smaller than the first preset pixel number, wherein the light emitted by the light source is infrared light; controlling, by the processor, the second image sensor unit to detect light in the second range of wavelengths for generation of a third image by the second image sensor unit, wherein the light in the second range of wavelengths is invisible light; generating, by the processor, a second depth map based on the third image corresponding to invisible light; executing the processor to apply image fusion processing to the first depth map and the second depth map to obtain a fused depth map; and registering, by the processor, the fused depth map with one of the first image and the second image to generate three-dimensional point cloud data, wherein operational power of the emitted infrared light is selectively adjusted responsive to analysis of the first and second images, and the operational power of the emitted infrared light is adjusted according to a distance between the object and the depth camera when the operational power of the emitted infrared light is adjusted for generation of the second depth map.