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A method, device and mobile terminal for measuring binocular brightness sensitivity based on a wearable display device

A technology of display equipment and measurement methods, applied in the field of virtual reality, can solve the problems of measurement error of measurement results and the inability of the measurement equipment to move freely, etc., to achieve the effects of eliminating position errors, increasing measurement accuracy, and reducing interference factors

Active Publication Date: 2020-07-31
CLOUDMINDS SHANGHAI ROBOTICS CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The above measurement equipment cannot be moved at will, and due to the position error and environmental interference of the user under test, there are measurement errors in the measurement results

Method used

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  • A method, device and mobile terminal for measuring binocular brightness sensitivity based on a wearable display device
  • A method, device and mobile terminal for measuring binocular brightness sensitivity based on a wearable display device
  • A method, device and mobile terminal for measuring binocular brightness sensitivity based on a wearable display device

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0043] This embodiment relates to a wearable display device for measuring binocular brightness sensitivity.

[0044] The wearable display device displays test images in the first three-dimensional display unit and the second three-dimensional display unit, and the user under test wears a wearable helmet, and the left and right eyes respectively observe the first three-dimensional display unit and the second three-dimensional display unit. Test the image, and adjust the brightness according to the detection phenomenon seen, and finally determine the difference in the brightness sensing ability of the left and right eyes, that is, the brightness sensitivity of the tested user's eyes.

[0045] Please refer to figure 2 , the wearable display device 60 includes a first three-dimensional display unit 61 , a second three-dimensional display unit 62 , a brightness adjustment module 63 , an acquisition module 64 , a determination module 65 and a connection module 66 .

[0046] For bo...

Embodiment 2

[0072] This embodiment relates to a method for measuring binocular brightness sensitivity based on a wearable display device.

[0073] Please refer to image 3 , from the perspective of realizing binocular brightness sensitivity measurement, the method mainly includes the following steps:

[0074] Step 101: Loading a first test image and a second test image whose brightness is different from the first test image for both eyes of the user under test;

[0075] Step 102: Adjusting the brightness of the first test image and / or the second test image until a preset brightness perception test condition is reached;

[0076] Step 103: Obtain the brightness difference between the first test image and the second test image;

[0077] Step 104: Determine the brightness sensitivity of the tested user's eyes according to the brightness difference.

[0078] The specific test process is introduced as follows:

[0079] When the user under test wears a hardware device such as a virtual reali...

Embodiment 3

[0105] Figure 8 It is a schematic diagram of the hardware structure of the electronic device 600 of the binocular brightness sensitivity measurement method provided by the embodiment of the present invention, as shown in Figure 8 As shown, the electronic device 600 includes:

[0106] one or more processors 610, memory 620, and communication components 650, Figure 8 A processor 610 is taken as an example in the figure, and a graphics processor (GPU) may also be included in the embodiment of the virtual reality wearable display device or the embodiment of the enhanced display wearable display device. The memory 620 stores instructions that can be executed by the at least one processor 610. When the instructions are executed by the at least one processor, a data channel is established through the communication component 650, so that the at least one processor can perform the binocular brightness sensitive measure method.

[0107] The processor 610, the memory 620, and the c...

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Abstract

A two -eyed sensitivity measurement method based on the wearable display device, including the following steps: the first test image of the first test image of the measured users and the second test image of the loading of the first test image; adjust the first test image; adjust the first test image; adjust the first test image; adjust the first test image; adjust the first test image;The brightness of the first test image and / or the second test image is until the preset brightness perception test conditions are reached; the brightness difference between the first test image and the second test image is obtained;Spend.

Description

technical field [0001] The invention relates to the field of virtual reality (Virtual Reality), in particular to a method, device and mobile terminal for measuring binocular brightness sensitivity based on a wearable display device. Background technique [0002] With the development of network technology, machine vision and image recognition technology, more and more wearable display devices are favored by users. For example, immersive virtual reality devices, enhanced display devices and even mobile terminals can also provide users with immersive virtual environments and interactive environments after being equipped with wearable brackets. [0003] With the support of real virtual environment and convenient interactive environment provided by wearable display devices, more and more online interactive applications have been developed. Such as online diagnosis and treatment or online meetings. [0004] According to the mechanism of the human eye and the human visual model, ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F3/01G06T19/00
CPCG06F3/011G06T19/006G06F2203/012G16H50/20G16H30/40G16H40/63G16H40/67A61B3/06G16H70/20A61B3/005A61B3/063A61B3/08G06T7/0014G06T19/20G06T2210/41H04L67/1097
Inventor 崔华坤王恺廉士国杨光华
Owner CLOUDMINDS SHANGHAI ROBOTICS CO LTD