CN112637182B - Left-eye image and right-eye image interchange identification auxiliary method and system and VR glasses thereof - Google Patents

Abstract

The invention provides a left-eye and right-eye image interchange identification auxiliary method and system and VR glasses thereof, wherein the distances between a left side identifier and a right side identifier and a VR glasses wearer are always kept consistent; in the process from far to near, the VR glasses wearer is prompted to observe, whether the time of the left side identification and the time of the right side identification are consistent or not can be recognized, if so, the left eye image and the right eye image are not interchanged, and if not, the left eye image and the right eye image are interchanged. The method is helpful for the VR glasses wearer to identify the condition that a hacker invades the VR glasses to interchange the left eye image and the right eye image.

Description

Left-eye image and right-eye image interchange identification auxiliary method and system and VR glasses thereof

Technical Field

The invention relates to the field of VR (virtual reality) glasses, in particular to a left-eye and right-eye image interchange identification auxiliary method and system and VR glasses thereof.

Background

The term "dominant eye" of the encyclopedia is recorded as: the dominant eye is also called the fixation eye and dominant eye. From a human physiological perspective, each person has a dominant eye, which may be the left eye, and may be the right eye. What the dominant eye sees will be preferentially accepted by the brain. The human brain habitually uses the imaging of the dominant eye, who is moving and receiving more supply, often developing better than the secondary eye, to analyze and locate objects, and in a prominent example, we see in the street a child wearing glasses, one of which is covered by black cloth, why? Originally, the purpose is to correct the serious dysplasia of the auxiliary eye, and the sheltered main eye is the auxiliary eye, so that the auxiliary eye is forced to take the responsibility of the owner of the Chinese pulsatilla to constantly observe and analyze objects, while the nutrients of the body are continuously supplemented to the past, and the condition of the dysplasia of the auxiliary eye is solved after the accumulation of time.

Patent document CN107924229B discloses an image processing method and device in a virtual reality device, which are used to solve the problem of low precision caused by adopting a moving lens mode to adjust in the existing VR glasses to adapt to users with different myopia degrees. The method comprises the following steps: determining a filtering parameter corresponding to the vision of a user according to the vision condition of the user of the virtual reality equipment (S11); for the image played in the virtual reality device, performing reverse filtering processing on the image according to the determined filtering parameters (S12); displaying the image after the inverse filtering process through a display screen in the virtual reality device (S13). The method and the device adopt a software adjusting mode, so that the processing precision is high, the matching degree of the image displayed on the display screen in the virtual reality equipment and the vision condition of the user is higher, and the user experience is improved.

The defects in the prior art are that if a hacker invades VR glasses to interchange a left eye image and a right eye image, for VR glasses wearers with close degrees of left and right eyes, the interchange is difficult to find through vision, and the vision of a non-dominant eye (a secondary eye) is weaker than that of a dominant eye when the users watch the interchanged images for a long time.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a left-eye image and right-eye image interchange identification auxiliary method and system and VR glasses thereof.

The invention provides a left-eye and right-eye image interchange identification auxiliary method, which comprises the following steps:

a virtual environment generation step: generating a virtual environment, wherein the virtual environment is provided with a left side identifier and a right side identifier; the left marker only appears in the left eye image and the right marker only appears in the right eye image; the contents of the left side mark and the right side mark are consistent;

a left-eye image acquisition step: acquiring a left eye image of the virtual environment, wherein the left eye image is matched with the left eye vision condition of a VR glasses wearer;

a right eye image acquisition step: acquiring a right eye image of the virtual environment, wherein the right eye image is matched with the right eye vision condition of a VR glasses wearer;

and an identification moving step: enabling the left side mark and the right side mark to move to a VR glasses wearer from far to near respectively from the same distance in the virtual environment; at the far distance, the VR glasses wearer cannot recognize the left side mark and cannot recognize the right side mark; in the process of moving from far to near, the VR glasses wearer can not recognize the left side mark and the right side mark, and the distances between the left side mark and the right side mark and the VR glasses wearer are always kept consistent;

and (3) identification and prompt steps: in the process from far to near, the VR glasses wearer is prompted to observe, whether the time of the left side identification and the time of the right side identification are consistent or not can be recognized, if so, the left eye image and the right eye image are not interchanged, and if not, the left eye image and the right eye image are interchanged.

Preferably, the left-side identification and the right-side identification are both E words or C words with the same size.

Preferably, if the left-eye image and the right-eye image are actually observed by the left eye and the right eye of the VR glasses wearer, respectively, the left side mark and the right side mark are invisible at the same time in the process of moving from the far side to the near side.

Preferably, in the virtual environment, the virtual FOV is divided into a left FOV and a right FOV by the virtual object, wherein the left marker can be observed only in the left FOV and the right marker can be observed only in the right FOV.

According to the invention, a left-eye image and right-eye image interchange identification auxiliary system comprises:

a virtual environment generation module: generating a virtual environment, wherein the virtual environment is provided with a left side identifier and a right side identifier; the left marker only appears in the left eye image and the right marker only appears in the right eye image; the contents of the left side mark and the right side mark are consistent;

a left-eye image acquisition module: acquiring a left eye image of the virtual environment, wherein the left eye image is matched with the left eye vision condition of a VR glasses wearer;

a right-eye image acquisition module: acquiring a right eye image of the virtual environment, wherein the right eye image is matched with the right eye vision condition of a VR glasses wearer;

an identification moving module: enabling the left side mark and the right side mark to move to a VR glasses wearer from far to near respectively from the same distance in the virtual environment; at the far distance, the VR glasses wearer cannot recognize the left side mark and cannot recognize the right side mark; in the process of moving from far to near, the VR glasses wearer can not recognize the left side mark and the right side mark, and the distances between the left side mark and the right side mark and the VR glasses wearer are always kept consistent;

the identification prompt module: in the process from far to near, the VR glasses wearer is prompted to observe, whether the time of the left side identification and the time of the right side identification are consistent or not can be recognized, if so, the left eye image and the right eye image are not interchanged, and if not, the left eye image and the right eye image are interchanged.

Preferably, the left-side identification and the right-side identification are both E words or C words with the same size.

Preferably, if the left-eye image and the right-eye image are actually observed by the left eye and the right eye of the VR glasses wearer, respectively, the left side mark and the right side mark are invisible at the same time in the process of moving from the far side to the near side.

Preferably, in the virtual environment, the virtual FOV is divided into a left FOV and a right FOV by the virtual object, wherein the left marker can be observed only in the left FOV and the right marker can be observed only in the right FOV.

According to the present invention, there is provided a computer-readable storage medium storing a computer program which, when executed by a processor, implements the steps of the method for assisting left-eye and right-eye image interchange recognition.

According to the invention, the VR glasses comprise the left-eye and right-eye image interchange identification auxiliary system or the computer readable storage medium storing the computer program.

Compared with the prior art, the invention has the following beneficial effects:

the method is helpful for the VR glasses wearer to identify the condition that a hacker invades the VR glasses to interchange the left eye image and the right eye image.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a flow chart of the method steps of the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention. All falling within the scope of the present invention.

Because the human brain habitually analyzes and positions objects by using the imaging of the dominant eye, the dominant eye moves more and obtains more supplies, and the dominant eye tends to develop better than the paraocular eye. Thus, the vision of the left and right human eyes is usually different, often with one eye being the dominant eye having better vision than the other eye being the secondary eye. This is more common in myopic people, in which the power of the two eyes is different.

By correcting vision, one of the main objectives is to make the corrected vision of both eyes become the same, thereby avoiding the situation where the development of the secondary eye becomes worse and weaker than that of the primary eye. Therefore, the patent document CN107924229B can obtain a left-eye image and a right-eye image so that the same virtual object is observed with the same sharpness by both eyes of the VR eye wearer. However, if a hacker invades the system, the hacker can illegally transmit the left eye image originally displayed for the left eye to be viewed to the right eye of the VR eye and the right eye image originally displayed for the right eye to be viewed to the left eye of the VR eye to be viewed, so that the definition of the observed image of the main eye is better than that of the observed image of the secondary eye, and the vision of the secondary eye cannot be corrected for a long time, even amblyopia is caused. All this is in the early stage, and for VR eye wearers whose initial binocular vision is not very different, it is very difficult to recognize that the left eye image and the right eye image have been displayed interchangeably. For this reason, the invention helps to enable VR eye wearers to find out that the left eye image and the right eye image are displayed interchangeably by technical means.

The invention provides a left-eye and right-eye image interchange identification auxiliary method, which comprises the following steps:

a virtual environment generation step: generating a virtual environment, wherein the virtual environment is provided with a left side identifier and a right side identifier; the left marker only appears in the left eye image and the right marker only appears in the right eye image; the contents of the left side mark and the right side mark are consistent; specifically, the left eye image is an image to be displayed on the left display screen of the VR glasses, and the right eye image is an image to be displayed on the right display screen of the VR glasses, but after the hacker invades, the left eye image can be actually displayed on the right display screen of the VR glasses, and the right eye image can be actually displayed on the left display screen of the VR glasses. The left side mark and the right side mark are E words or C words with the same size.

And after the virtual environment generating step is executed, triggering the left eye image acquiring step and the right eye image acquiring step to be executed.

A left-eye image acquisition step: acquiring a left eye image of the virtual environment, wherein the left eye image is matched with the left eye vision condition of a VR glasses wearer;

a right eye image acquisition step: acquiring a right eye image of the virtual environment, wherein the right eye image is matched with the right eye vision condition of a VR glasses wearer;

through making left eye image, right eye image match in VR glasses person's left eye eyesight condition, right eye eyesight condition respectively for the two eyes of VR glasses person can observe the unanimous image of definition, make the eyesight of two eyes obtain correcting, and the technical staff in the art can refer to patent document CN107924229B and realize, does not give unnecessary details here.

The left-eye image acquisition step may be triggered to be executed first, and then the right-eye image acquisition step may be triggered to be executed, or the right-eye image acquisition step may be triggered to be executed first, and then the left-eye image acquisition step may be triggered to be executed, or the right-eye image acquisition step and the left-eye image acquisition step may be triggered to be executed in parallel. And triggering the identifier moving step to execute after the left eye image and the right eye image of the virtual environment are acquired.

And an identification moving step: enabling the left side mark and the right side mark to move to a VR glasses wearer from far to near respectively from the same distance in the virtual environment; at the far distance, the VR glasses wearer cannot recognize the left side mark and cannot recognize the right side mark; in-process from far away to near, VR glasses person of wearing can discern left side sign, right side sign from the unable recognition, and left side sign, right side sign and VR glasses person of wearing's distance remain unanimous throughout.

The left eye image is displayed on the left display screen of the VR glasses, and the right eye image is displayed on the right display screen of the VR glasses, namely, the left eye image and the right eye image are actually observed by the left eye and the right eye of a VR glasses wearer respectively, so that the left side identification and the right side identification can be identified at the same moment by being unrecognizable because the vision of two eyes after correction is the same, and therefore the identification can be identified at the same moment by being unrecognizable.

And (3) identification and prompt steps: in the process from far to near, the VR glasses wearer is prompted to observe, whether the time of the left side identification and the time of the right side identification are consistent or not can be recognized, if so, the left eye image and the right eye image are not interchanged, and if not, the left eye image and the right eye image are interchanged. Specifically, after the left-eye image and the right-eye image are displayed in an interchangeable manner, since the left eye of the VR glasses wearer actually sees the right-eye image and the right eye actually sees the left-eye image, in the process of the left-side mark and the right-side mark from far to near, one of the left-side mark and the right-side mark is observed by one eye and becomes recognizable first, and then the other is observed by the other eye and becomes recognizable. When the VR eye wearer finds that such sequential, rather than simultaneous, becomes recognizable, it is known that there is a possibility that the left-eye image and the right-eye image are displayed interchangeably. In a preferred example, in the virtual environment, the virtual FOV is divided into a left FOV and a right FOV by the virtual object, wherein the left identifier can be observed only in the left FOV and the right identifier can be observed only in the right FOV.

The left-eye image and right-eye image interchange identification auxiliary method provided by the invention can be understood as an embodiment of the left-eye image and right-eye image interchange identification auxiliary system provided by the invention, and a person skilled in the art can realize the left-eye image and right-eye image interchange identification auxiliary system by executing the step flow of the left-eye image and right-eye image interchange identification auxiliary method.

According to the invention, a left-eye image and right-eye image interchange identification auxiliary system comprises:

a virtual environment generation module: generating a virtual environment, wherein the virtual environment is provided with a left side identifier and a right side identifier; the left marker only appears in the left eye image and the right marker only appears in the right eye image; the contents of the left side mark and the right side mark are consistent; specifically, the left eye image is an image to be displayed on the left display screen of the VR glasses, and the right eye image is an image to be displayed on the right display screen of the VR glasses, but after the hacker invades, the left eye image can be actually displayed on the right display screen of the VR glasses, and the right eye image can be actually displayed on the left display screen of the VR glasses. The left side mark and the right side mark are E words or C words with the same size.

And after the virtual environment generation module executes, triggering the left eye image acquisition module and the right eye image acquisition module to execute.

A left-eye image acquisition module: acquiring a left eye image of the virtual environment, wherein the left eye image is matched with the left eye vision condition of a VR glasses wearer;

a right-eye image acquisition module: acquiring a right eye image of the virtual environment, wherein the right eye image is matched with the right eye vision condition of a VR glasses wearer;

through making left eye image, right eye image match in VR glasses person's left eye eyesight condition, right eye eyesight condition respectively for the two eyes of VR glasses person can observe the unanimous image of definition, make the eyesight of two eyes obtain correcting, and the technical staff in the art can refer to patent document CN107924229B and realize, does not give unnecessary details here.

The left-eye image acquisition module may be triggered to execute first and then the right-eye image acquisition module may be triggered to execute second, the right-eye image acquisition module may be triggered to execute first and then the left-eye image acquisition module may be triggered to execute, and the right-eye image acquisition module and the left-eye image acquisition module may be triggered to execute in parallel. And after the left eye image and the right eye image of the virtual environment are acquired, triggering an identifier moving module to execute.

An identification moving module: enabling the left side mark and the right side mark to move to a VR glasses wearer from far to near respectively from the same distance in the virtual environment; at the far distance, the VR glasses wearer cannot recognize the left side mark and cannot recognize the right side mark; in-process from far away to near, VR glasses person of wearing can discern left side sign, right side sign from the unable recognition, and left side sign, right side sign and VR glasses person of wearing's distance remain unanimous throughout.

The left eye image is displayed on the left display screen of the VR glasses, and the right eye image is displayed on the right display screen of the VR glasses, namely, the left eye image and the right eye image are actually observed by the left eye and the right eye of a VR glasses wearer respectively, so that the left side identification and the right side identification can be identified at the same moment by being unrecognizable because the vision of two eyes after correction is the same, and therefore the identification can be identified at the same moment by being unrecognizable.

The identification prompt module: in the process from far to near, the VR glasses wearer is prompted to observe, whether the time of the left side identification and the time of the right side identification are consistent or not can be recognized, if so, the left eye image and the right eye image are not interchanged, and if not, the left eye image and the right eye image are interchanged. Specifically, after the left-eye image and the right-eye image are displayed in an interchangeable manner, since the left eye of the VR glasses wearer actually sees the right-eye image and the right eye actually sees the left-eye image, in the process of the left-side mark and the right-side mark from far to near, one of the left-side mark and the right-side mark is observed by one eye and becomes recognizable first, and then the other is observed by the other eye and becomes recognizable. When the VR eye wearer finds that such sequential, rather than simultaneous, becomes recognizable, it is known that there is a possibility that the left-eye image and the right-eye image are displayed interchangeably. In a preferred example, in the virtual environment, the virtual FOV is divided into a left FOV and a right FOV by the virtual object, wherein the left identifier can be observed only in the left FOV and the right identifier can be observed only in the right FOV.

Those skilled in the art will appreciate that, in addition to implementing the systems, apparatus, and various modules thereof provided by the present invention in purely computer readable program code, the same procedures can be implemented entirely by logically programming method steps such that the systems, apparatus, and various modules thereof are provided in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers and the like. Therefore, the system, the device and the modules thereof provided by the present invention can be considered as a hardware component, and the modules included in the system, the device and the modules thereof for implementing various programs can also be considered as structures in the hardware component; modules for performing various functions may also be considered to be both software programs for performing the methods and structures within hardware components.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (10)

1. A left-eye image and right-eye image interchange recognition auxiliary method is characterized by comprising the following steps:

a virtual environment generation step: generating a virtual environment, wherein the virtual environment is provided with a left side identifier and a right side identifier; the contents of the left side mark and the right side mark are consistent;

a left-eye image acquisition step: acquiring a left eye image of the virtual environment, wherein the left eye image is matched with the left eye vision condition of a VR glasses wearer; the left hand flag appears only in the left eye image;

a right eye image acquisition step: acquiring a right eye image of the virtual environment, wherein the right eye image is matched with the right eye vision condition of a VR glasses wearer; the right side logo appears only in the right eye image;

and an identification moving step: enabling the left side mark and the right side mark to move to a VR glasses wearer from far to near respectively from the same distance in the virtual environment; at the far distance, the VR glasses wearer cannot recognize the left side mark and cannot recognize the right side mark; in the process of moving from far to near, the VR glasses wearer can not recognize the left side mark and the right side mark, and the distances between the left side mark and the right side mark and the VR glasses wearer are always kept consistent;

and (3) identification and prompt steps: in the process of moving from far to near, prompting a VR glasses wearer to observe, and identifying whether the time of the left side identification and the time of the right side identification are consistent, if so, determining that the left eye image and the right eye image are not interchanged, and if not, determining that the left eye image and the right eye image are interchanged;

the left-eye image and right-eye image interchange identification auxiliary method only aims at VR glasses wearers with slightly different eyesight of two eyes.

2. The left-eye and right-eye image interchange recognition auxiliary method according to claim 1, wherein the left-side logo and the right-side logo are both E words or C words with the same size.

3. The left-eye image and right-eye image interchange recognition assistance method according to claim 1, wherein if the left-eye image and the right-eye image are actually observed by the left eye and the right eye of the VR glasses wearer, respectively, the left-side logo and the right-side logo are unrecognizable at the same time in the process of moving from far to near.

4. The left-eye image interchange recognition assistance method according to claim 1, wherein in the virtual environment, the virtual FOV is divided into a left-side FOV and a right-side FOV by a virtual object, wherein the left-side logo can be observed only in the left-side FOV and the right-side logo can be observed only in the right-side FOV.

5. A left-eye image and right-eye image interchange recognition support system, comprising:

a virtual environment generation module: generating a virtual environment, wherein the virtual environment is provided with a left side identifier and a right side identifier; the left marker only appears in the left eye image and the right marker only appears in the right eye image; the contents of the left side mark and the right side mark are consistent;

a left-eye image acquisition module: acquiring a left eye image of the virtual environment, wherein the left eye image is matched with the left eye vision condition of a VR glasses wearer;

a right-eye image acquisition module: acquiring a right eye image of the virtual environment, wherein the right eye image is matched with the right eye vision condition of a VR glasses wearer;

an identification moving module: enabling the left side mark and the right side mark to move to a VR glasses wearer from far to near respectively from the same distance in the virtual environment; at the far distance, the VR glasses wearer cannot recognize the left side mark and cannot recognize the right side mark; in the process of moving from far to near, the VR glasses wearer can not recognize the left side mark and the right side mark, and the distances between the left side mark and the right side mark and the VR glasses wearer are always kept consistent;

the identification prompt module: in the process of moving from far to near, prompting a VR glasses wearer to observe, and identifying whether the time of the left side identification and the time of the right side identification are consistent, if so, determining that the left eye image and the right eye image are not interchanged, and if not, determining that the left eye image and the right eye image are interchanged;

the left-eye and right-eye image interchange identification auxiliary system is only used for VR glasses wearers with slightly different eyesight.

6. The left-eye image interchange recognition auxiliary system according to claim 5, wherein the left-side logo and the right-side logo are both E words or C words with the same size.

7. The left-eye image and right-eye image interchange recognition support system according to claim 5, wherein if the left-eye image and the right-eye image are actually observed by the left eye and the right eye of the VR glasses wearer, respectively, the left-side logo and the right-side logo are invisible at the same time in the process of moving from far to near.

8. The left-eye image interchange recognition assistance system according to claim 5, wherein in the virtual environment, the virtual FOV is divided into a left-side FOV and a right-side FOV by the virtual object, wherein the left-side logo can be observed only in the left-side FOV and the right-side logo can be observed only in the right-side FOV.

9. A computer-readable storage medium storing a computer program, wherein the computer program is executed by a processor to implement the steps of the left-eye and right-eye image interchange recognition assistance method according to any one of claims 1 to 4.

10. VR glasses comprising the left-eye and right-eye image interchange recognition assistance system according to any one of claims 5 to 8, or comprising the computer-readable storage medium storing the computer program according to claim 9.

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