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Eye protection method for virtual reality head display equipment

A head-mounted display device and virtual reality technology, which is applied in the field of virtual reality and can solve problems such as the decrease of image brightness.

Active Publication Date: 2020-09-08
INLIFE HANDNET CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In this case, virtual reality equipment providers have come up with various methods to suppress blue light, however, while suppressing blue light, the brightness of the image will decrease

Method used

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  • Eye protection method for virtual reality head display equipment
  • Eye protection method for virtual reality head display equipment
  • Eye protection method for virtual reality head display equipment

Examples

Experimental program
Comparison scheme
Effect test

no. 1 example

[0046] like figure 1 as shown, figure 1 A schematic diagram showing the flow chart of the eye protection method according to the first embodiment of the present invention. Specifically, the eye protection method for a virtual reality head-mounted display device provided in this embodiment includes the following steps:

[0047] Step 100, converting the first pixel represented by the RGB color space of the image of the stereoscopic image into the second pixel represented by the YUV color space, wherein, Y=(0.257·R)+(0.504·G)+(0.098·B )+16; Wherein, Y is the brightness component of the second pixel; R is the red component of the first pixel; G is the green component of the first pixel; B is the blue component of the first pixel;

[0048] Step 200, determine a color vector based on the second pixel; the color vector is used to reduce the blue component B of the first pixel, and increase the red component R of the first pixel and / or the green component G of the first pixel, so th...

no. 2 example

[0079] The second embodiment is implemented based on the first embodiment. Specifically, the stereoscopic image includes a first image and a second image, there is a parallax between the first image and the second image, and the first image and the second image are used to respectively Projected to the left and right eyes of the user, so that the user can experience the stereoscopic effect of the stereoscopic image. Step 100-step 300 is defined as a blue suppression process, and before step 100, the eye protection method also includes:

[0080] The blue suppression process is performed on only one of the first image and the second image in the same time period.

[0081] Preferably, the eye protection method further includes: alternately performing a blue suppression process on the first image and the second image. Here, the time period for performing the blue suppression process on the first image and the time period for performing the blue suppression process on the second i...

no. 3 example

[0083] The third embodiment is realized based on the first embodiment. Specifically, the stereoscopic image includes a first image and a second image, there is a parallax between the first image and the second image, and the first image and the second image are respectively projected into the left and right eyes of the user, so that the user experiences the stereoscopic image three-dimensional effect. Define the step 100-step 300 with the preset blue adjustment coefficient b>0.7 as a weak blue suppression process, and define the step 100-step 300 with a preset blue adjustment coefficient b<0.5 as a strong blue suppression process; eye protection method Also includes:

[0084] The blue-weak suppression process and the blue-high suppression process are alternately performed on the first image or the second image.

[0085] Here, the execution time period of the weak blue suppression process and the execution time period of the strong blue suppression process may be different or...

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Abstract

Provided is an eye protection method for virtual reality head display equipment, comprising the following steps: step S1, converting a first pixel represented by RGB color space of a stereoscopic image into a second pixel represented by YUV color space; step 2, determining a color vector on the basis of the second pixel, wherein the color vector is used to reduce a blue component B of the first pixel and increase a red component R of the first pixel and / or a green component G of the first pixel so as to adjust a luminance component Y of the second pixel to Y1, Y1 being greater than or equal to αY, and less than or equal to Y, and α being a preset constant, 0<α<1; and step S3, adding the color vector to the first pixel to obtain a toned first pixel. The eye protection method of the present invention reduces the blue component of a pixel while maintaining the luminance component, thereby achieving the effect of eyesight protection.

Description

technical field [0001] The invention relates to the technical field of virtual reality, in particular to an eye protection method for a virtual reality head-mounted display device. Background technique [0002] Virtual reality head-mounted display equipment adopts near-eye display technology; stereoscopic image light is projected to the left and right eyes of a person to form stereoscopic vision. For virtual reality head-mounted display devices, it is generally not recommended to wear them for a long time, considering the damage to the eyes caused by the light generated by them. [0003] Specifically, color images are generally presented in three primary colors of red, green, and blue, and the blue component has the strongest energy. High-energy blue light, which is extremely harmful, has a wavelength between 380nm and 450nm. Studies on the effects of retinal pigments have shown that cells lose activity when exposed to wavelengths in the range of 415nm-450nm. If things go...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04N13/133H04N13/15
CPCG09G5/02H04N13/00H04N13/133H04N13/15
Inventor 孙其民关建辉
Owner INLIFE HANDNET CO LTD