CN108134928A - VR display methods and device - Google Patents
VR display methods and device Download PDFInfo
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- CN108134928A CN108134928A CN201711438819.6A CN201711438819A CN108134928A CN 108134928 A CN108134928 A CN 108134928A CN 201711438819 A CN201711438819 A CN 201711438819A CN 108134928 A CN108134928 A CN 108134928A
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Abstract
The invention discloses a kind of VR display methods and device, the VR display methods obtains the eye movement data of user by the eyeball capture module, and the eye movement data is sent to the processing module;The processing module generates visual angle rotational parameters, and the visual angle rotational parameters are sent to the control module according to the eye movement data;The control module obtains VR video contents and the corresponding video parameter of the VR video contents, and the visual angle rotational parameters, VR video contents and video parameter are sent to the display module;The display module plays the VR video contents according to the visual angle rotational parameters and video parameter, corresponding display.Present invention can be implemented in VR video contents are watched in the open environment such as TV or display, user may be viewed by the VR videos of specific stereoscopic effect by simple 3D glasses, promote user experience and viewing cost.
Description
Technical field
The present invention relates to technical field of virtual reality more particularly to a kind of VR display methods and devices.
Background technology
With the development of science and technology, Virtual Reality (Virtual Reality) technology is also gradually popularized, more and more people
The distinctive visual of virtual reality caused by VR technologies is experienced.But existing VR technologies are confined to the mode of immersion,
Need user by wearing huge virtual reality head-mounted display apparatus (i.e. VR aobvious), in narrow enclosed environment into
Row VR is experienced.Therefore, traditional VR technologies are not only watched of high cost, but also poor user experience.
Invention content
It is a primary object of the present invention to provide a kind of VR display methods and device, it is intended to solve existing VR technologies limitation
In immersion mode and caused by watch of high cost and poor user experience the technical issues of.
To achieve the above object, the present invention provides a kind of VR display methods, and the VR display methods is applied to VR display dresses
It puts, the VR display devices include eyeball capture module, processing module, control module and display module, the VR display methods
Include the following steps:
The eyeball capture module obtains the eye movement data of user, and the eye movement data is sent to described
Processing module;
The processing module generates visual angle rotational parameters, and the visual angle is rotated and is joined according to the eye movement data
Number is sent to the control module;
The control module obtains VR video contents and the corresponding video parameter of the VR video contents, and is regarded by described in
Angle rotational parameters, VR video contents and video parameter are sent to the display module;
The display module is played according to the visual angle rotational parameters and video parameter, corresponding display in the VR videos
Hold.
Optionally, the processing module is according to the eye movement data, generates visual angle rotational parameters, and by the visual angle
Rotational parameters are sent to the step of control module and specifically include:
The processing module is transported when receiving the eye movement data according to eyeball described in pre-stored data threshold decision
It whether there is lost motion data in dynamic data;
The processing module, there are during lost motion data, deletes the lost motion in the judgement eye movement data
Data.
Optionally, the processing module is according to the eye movement data, generates visual angle rotational parameters, and by the visual angle
Rotational parameters are sent to the step of control module and include:
For the processing module when receiving the eye movement data, according to prestoring, mobile angular threshold of eye judges the eye
Whether ball exercise data is mobile perspective data;
The processing module deletes the mobile visual angle number when judging the eye movement data for mobile perspective data
According to.
Optionally, the eyeball capture module obtains the eye movement data of user, and the eye movement data is sent out
It send to the step of processing module and includes:
The eyeball capture module obtains the eyeball fixes time of the user;
The eyeball capture module obtains corresponding when detecting that the eyeball fixes time is more than preset time threshold
Eye position data, as eye data initial value;
The eyeball capture module obtains the eye movement data of the user according to the eye data initial value, and
The eye movement data is sent to the processing module.
Optionally, the control module obtains VR video contents and the corresponding video parameter of the VR video contents, and
The step of visual angle rotational parameters, VR video contents and video parameter are sent to the display module specifically includes:
The control module receives the visual angle rotational parameters that the processing module is sent, and obtains the VR video contents;
The control module generates corresponding display vision data according to the visual angle rotational parameters and VR video contents;
The module of controlling obtains the corresponding video parameter of the VR video contents, by the video parameter and display vision
Data are sent to the display module.
Optionally, the display module plays the VR according to the visual angle rotational parameters and video parameter, corresponding display
The step of video content, specifically includes:
The display module shows the corresponding display area of the VR video contents, and root according to the display vision data
Corresponding visual angle switching is carried out according to the video parameter;
Display plays the VR video contents, so that user is watched by the 3D glasses.
Optionally, the VR display methods further includes:
The processing module, according to preset rules, is caught when detecting multiple eyeball capture modules in the multiple eyeball
It catches and main capture module is determined in module, and the eye movement data of the user is obtained by the main capture module.
In addition, to achieve the above object, the present invention also provides a kind of VR display devices, the VR display devices include eyeball
Capture module, processing module, control module and display module,
The eyeball capture module for obtaining the eye movement data of user, and the eye movement data is sent
To the processing module;
The processing module, for receiving the eye movement data that the eyeball capture module is sent, according to the eyeball
Exercise data generates visual angle rotational parameters, and the visual angle rotational parameters is sent to the control module;
The control module for the vision rotational parameters that receiving processing module is sent, obtains VR video contents and institute
The corresponding video parameter of VR video contents is stated, and the visual angle rotational parameters, VR video contents and video parameter are sent to institute
State display module;
The display module, for receiving visual angle rotational parameters, VR video contents and the video that the control module is sent
Parameter, and according to the visual angle rotational parameters and video parameter, corresponding display plays the VR video contents.
Optionally, the processing module is additionally operable to:
Obtain the eyeball fixes time of the user;
When detecting that the eyeball fixes time is more than preset time threshold, corresponding eye position data is obtained, is made
For eye data initial value;
According to the eye data initial value, the eye movement data of the user is obtained, and by the eye movement number
According to being sent to the processing module
Optionally, the processing module is additionally operable to when detecting multiple eyeball capture modules, according to preset rules, in institute
It states and main capture module is determined in multiple eyeball capture modules, and the eye movement of the user is obtained by the main capture module
Data.
The present invention provides a kind of VR display methods and device, and the VR display methods is applied to VR display devices, the VR
Display device includes eyeball capture module, processing module, control module and display module, and the VR display methods passes through the eye
Ball capture module obtains the eye movement data of user, and the eye movement data is sent to the processing module;It is described
Processing module generates visual angle rotational parameters according to the eye movement data, and the visual angle rotational parameters is sent to described
Control module;The control module obtains VR video contents and the corresponding video parameter of the VR video contents, and by described in
Visual angle rotational parameters, VR video contents and video parameter are sent to the display module;The display module is according to the visual angle
Rotational parameters and video parameter, corresponding display play the VR video contents.In the above manner, the present invention will be by that will show mould
Block is embedded in TV or other displays, you can is realized in the open environment such as TV or display in viewing VR videos
Hold, user need not wear huge closed VR and show, and carry out new perspective without rotating body or head, it is only necessary to pass through
Simple 3D glasses may be viewed by the entire video contents of VR with 3D stereoscopic effects.User experience is improved as a result, is reduced
Watch cost, solve existing VR technologies be confined to immersion mode and caused by viewing it is of high cost and poor user experience
Technical problem.
Description of the drawings
Fig. 1 is the VR display terminal hardware architecture diagrams that the embodiment of the present invention is related to;
Fig. 2 is the flow diagram of VR display methods first embodiment of the present invention;
Fig. 3 is the movement schematic diagram of user eyeball exercise data of the present invention;
Fig. 4 is the flow diagram of VR display methods second embodiment of the present invention.
The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.
Specific embodiment
It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.
The main thought of the embodiment of the present invention is:The VR display methods is applied to VR display devices, and the VR is shown
Showing device includes eyeball capture module, processing module, control module and display module, and the VR display methods includes following step
Suddenly:The eyeball capture module obtains the eye movement data of user, and the eye movement data is sent to the processing
Module;The processing module generates visual angle rotational parameters, and the visual angle rotational parameters are sent out according to the eye movement data
It send to the control module;The control module obtains VR video contents and the corresponding video parameter of the VR video contents,
And the visual angle rotational parameters, VR video contents and video parameter are sent to the display module;The display module according to
The visual angle rotational parameters and video parameter, corresponding display play the VR video contents, solve existing VR technologies limitation
In immersion mode and caused by watch of high cost and poor user experience the technical issues of.
The present embodiments relate to VR display methods be mainly used in VR display terminals, which can pass through a variety of sides
Formula is realized.For example, terminal can include the mobile terminals such as mobile phone, tablet computer, laptop, palm PC and
The fixed terminals such as smart television, PC terminals.
It will be illustrated in subsequent descriptions using smart television as VR display terminals, it will be appreciated by those skilled in the art that
It is that other than being used in particular for the element of mobile purpose, construction according to the embodiment of the present invention can also apply to other
The terminal of type.
With reference to Fig. 1, Fig. 1 is the VR display terminal hardware architecture diagrams involved in the embodiment of the present invention.The present invention
In embodiment, VR display terminals can include processor 1001 (such as CPU), communication bus 1002, user interface 1003, network
Interface 1004, memory 1005.Wherein, communication bus 1002 is used to implement the connection communication between these components;User interface
1003 can include display screen (Display), input unit such as keyboard (Keyboard);Network interface 1004 optionally can be with
Including standard wireline interface and wireless interface (such as WI-FI interfaces);Memory 1005 can be high-speed RAM memory, can also
It is stable memory (non-volatile memory), such as magnetic disk storage, memory 1005 optionally can also be only
Stand on the storage device of aforementioned processor 1001.
It will be understood by those skilled in the art that the terminal hardware structure shown in Fig. 1 is not formed to VR display terminals
It limits, can include either combining certain components or different components arrangement than illustrating more or fewer components.
With continued reference to Fig. 1, operation system can be included as a kind of memory 1005 of computer readable storage medium in Fig. 1
System, network communication module and VR show program.
In Fig. 1, network communication module is mainly used for Connection Service device, with server into row data communication;And processor
1001 can call the VR stored in memory 1005 to show program, and perform following operate:
The eye movement data of user is obtained, and according to the eye movement data, generates visual angle rotational parameters;
Obtain VR video contents and the corresponding video parameter of the VR video contents;
According to the visual angle rotational parameters and video parameter, corresponding display plays the VR video contents.
Further, the dispaly state picture includes complete white field picture and chessboard trrellis diagram piece, and processor 1001 can be with
The VR stored in memory 1005 is called to show program, and performs following operate:
When receiving the eye movement data, according in eye movement data described in pre-stored data threshold decision whether
There are lost motion data;
In the judgement eye movement data there are during lost motion data, the lost motion data are deleted.
Further, processor 1001 may call upon the VR stored in memory 1005 and show program, and perform following
Operation:
When receiving the eye movement data, judge that the eye movement data is according to the mobile angular threshold of eye that prestores
No is mobile perspective data;
When judging the eye movement data for mobile perspective data, the mobile perspective data is deleted.
Further, the preset reference data include with reference to low pass pixel data and refer to high pass pixel data, processing
Device 1001 may call upon the VR stored in memory 1005 and show program, and perform following operate:
Obtain the eyeball fixes time of the user;
When detecting that the eyeball fixes time is more than preset time threshold, corresponding eye position data is obtained, is made
For eye data initial value;
According to the eye data initial value, the eye movement data of the user is obtained.
Further, the preset reference data include with reference to low pass pixel data and refer to high pass pixel data, processing
Device 1001 may call upon the VR stored in memory 1005 and show program, and perform following operate:
The VR video contents are obtained, according to the visual angle rotational parameters and VR video contents, corresponding display is generated and regards
Feel data;
Obtain the corresponding video parameter of the VR video contents.
Further, the preset reference data include with reference to low pass pixel data and refer to high pass pixel data, processing
Device 1001 may call upon the VR stored in memory 1005 and show program, and perform following operate:
The corresponding display area of the VR video contents is shown, and join according to the video according to the display vision data
Number carries out corresponding visual angle switching;
Display plays the VR video contents, so that user is watched by the 3D glasses.
Further, the preset reference data include with reference to low pass pixel data and refer to high pass pixel data, processing
Device 1001 may call upon the VR stored in memory 1005 and show program, and perform following operate:
When detecting multiple eyeball capture modules, according to preset rules, determined in the multiple eyeball capture module
Main capture module, and pass through the eye movement data of the main capture module acquisition user.
Based on above-mentioned VR display terminals hardware configuration, each embodiment of VR display methods of the present invention is proposed.
The present invention provides a kind of VR display methods.
With reference to Fig. 2, Fig. 2 is the flow diagram of VR display methods first embodiment of the present invention.
In the present embodiment, the VR display methods is applied to VR display devices, and the VR display devices are captured including eyeball
Module, processing module, control module and display module, the VR display methods include the following steps:
Step S10, the eyeball capture module obtain the eye movement data of user, and the eye movement data is sent out
It send to the processing module;
In the present embodiment, in order to solve in existing VR technologies, the uniqueness of VR videos is experienced in the immersive environment of closing
During visual effect, user must reach the viewing effect of different visual angle and scene by rotating head, i.e., in practical VR
User must pay the effect that can be only achieved with the physical demands of practical equity and enjoy 3D stereo sound effects in the viewing of video, thus
It further reduced the viewing experience of user.In order to solve the above-mentioned technical problem, the present embodiment will pass through eyeball tracking technology, 3D
The set of the devices such as technology and TV or display, to realize the VR panoramic televisions for having more preferable virtual reality experience or display
Device, so as to promote the viewing experience of user.Specifically, the display system further includes processing module and is embedded in 3D described
Eyeball capture module in mirror.Tend to be ripe in the operation of the mouse and keyboard equipment of eyeball tracking technology in a computer,
The viewing experience of user can further be promoted by being applied in the technology that VR is virtually shown.I.e. we be now to solve be
VR panoramas and stereoscopic effect is presented in the finite region of TV or VR display devices, and does not need to user by rotating body
Body or head are come to reach the conversion of panoramic view be our current problems to be solved.Wherein, the eyeball capture module
It is mainly used for capturing the eyeball action of user, and eye movement data is passed into processing module.
Further, step S10 is specifically included:
Step S11 obtains the eyeball fixes time of the user by the eyeball capture module;
Specifically, before capturing user eyeball exercise data by the eyeball capture module, it is necessary to carry out data school
Just, that is, an eye data initial value is determined.The eyeball fixes time of viewing user, such as user are obtained by eyeball capture module
Normal viewing TV when eyeball fixes are more than 1S, then judge that user normally watches TV, obtains user's pupil position at this time
Data are as eye data initial value.
Step S12 when detecting that the eyeball fixes time is more than preset time threshold, obtains corresponding eyeball position
Data, as eye data initial value;
Specifically, the eyeball fixes time normally watches the duration of fixation of TV for user.In the eyeball fixes
Between when being more than preset time threshold, be such as more than 1S, 2S, that is, judge user normally to watch regarding in TV or display
Frequently.To the corresponding eye position data of user eyeball at this time, as eye data initial value, i.e., the eyeball number not moved
According to.
Step S13 according to the eye data initial value, obtains the eye movement data of the user, and by the eye
Ball exercise data is sent to the processing module.
It specifically, can be as origin as shown in figure 3, the eye data initial value is center intersection point in figure.Eye
Ball is denoted as eyeball and generates displacement data to X-axis positive direction i.e. X1 directions toward during the left side, that is, a directions movement.Eyeball is toward the left side, that is, a side
When moving round about, it is denoted as eyeball and generates displacement data to X-axis negative direction i.e. X2 directions.Eyeball is transported toward the left side, that is, b directions
When dynamic, it is denoted as eyeball and generates displacement data to Y-axis positive direction i.e. Y1 directions.Eyeball is remembered toward during the left side, that is, b directions negative direction movement
It does eyeball and generates displacement data to Y-axis negative direction i.e. Y2 directions.I.e. by using eye data initial value as origin, recording the use
Then the eye movement data is sent to the processing module by the eye movement data at family.
Step S20, the processing module generate visual angle rotational parameters, and regarded by described according to the eye movement data
Angle rotational parameters are sent to the control module;
Specifically, the processing module is when receiving the eye movement data that the eyeball capture module is sent, according to
The eye movement that the eye movement data analyzes user is intended to, and to be converted to user corresponding by eye movement intention
Vision rotational parameters send the vision rotational parameters to control module.
Further, step S20 is specifically included:
Step S21, the processing module is when receiving the eye movement data, according to pre-stored data threshold decision institute
It states and whether there is lost motion data in eye movement data;
Specifically, the processing module is needed when receiving the eye movement data that the eyeball capture module is sent
Data processing, analysis and comparison is carried out to judge, it is dry so as to prevent the action for obtaining invalid data and non-viewing video from generating
Disturb data.Such as when user occurs to close one's eyes or situations such as fast transfer sight, the exercise data of above-mentioned eyeball alreadys exceed preset shifting
Dynamic range, therefore judge above-mentioned corresponding exercise data for lost motion data, i.e., the corresponding user of described lost motion data
It acts the eye movement generated for non-viewing video and acts and be intended to.It is preset i.e. according to the pre-stored data threshold value for the storage that prestores
Moving range, the eye movement data got described in judgement whether there is lost motion data.Or got described in judging
Whether eye movement data is lost motion data.
Step S22 there are during lost motion data in the eye movement data, deletes the lost motion data.
Specifically, in the eye movement data there are during lost motion data, i.e. the lost motion data should not be by
The processing module is adopted, and the lost motion data are filtered, that is, deletes the lost motion data.Or in the eye
When ball exercise data is lost motion data, then this time collected eye movement data is meaningless, that is, deletes and this time acquire
All eye movement datas, reacquire the eye movement data of user.
Further, step S20 is specifically further included:
Step S23, the processing module when receiving the eye movement data, according to prestoring, sentence by mobile angular threshold of eye
Whether the eye movement data of breaking is mobile perspective data;
Specifically, when user, which moves eyeball, is restored to the initial position normally watched from the position for being intended to mobile visual angle,
The corresponding eye movement data got is also required to be filtered, i.e., the corresponding exercise data of above-mentioned eyeball is also and non-user is being watched
The exercise data that transfer vision is needed in the case of video and is generated, in order to avoid display module processing shows that vision can be according to eye
The technical issues of switching over and move known to ball exercise data, picture is caused not watch normally.The processing module can be
When receiving the eye movement data, according to the moving-vision threshold value that prestores, that is, the maximum visual data deviated judge the eye
Whether ball exercise data is moving-vision data.Wherein, the moving-vision data represent that user is carrying out non-viewing video
Shift action and the eye movement data generated.
Step S24 when the eye movement data is mobile perspective data, deletes the mobile perspective data.
Specifically, when judging the eye movement data for mobile perspective data, then this time eye movement number of acquisition
According to the eye movement data generated for user in the shift action for carrying out non-viewing video, the eye movement of filtering this time acquisition
Data delete the mobile perspective data.
Step S30, the control module obtain VR video contents and the corresponding video parameter of the VR video contents, and
The visual angle rotational parameters, VR video contents and video parameter are sent to the display module;
At full speed with the technologies such as VR display devices or curved surface TV, 3D in the present embodiment, people have no longer met three-dimensional
More good image quality experience.Therefore, it is necessary to be applied to TV or other VR are shown by the technology of VR and panoramic virtual reality
In device, so as to further improve the viewing experience of user.It must be by wearing huge closing in order to solve existing VR technologies
The aobvious viewing VR panoramic videos of Formula V R, therefore, solve existing VR technologies be confined to immersion mode and caused by watch cost
The technical issues of high and poor user experience, obtains VR video contents and corresponding video parameter, then basis by control module
The video parameter carries out corresponding angle switching to the VR video contents, plays the VR video contents so as to show, uses
Family can watch the VR video contents by 3D glasses, experience the 3D stereoscopic effects that the VR video contents are brought.User passes through simple
The 3D glasses of low cost can experience VR technologies caused by stereoscopic effect, reduce user and watch cost and improve user's body
It tests.Specifically, the VR display devices by the control module, display module by being embedded in the playing devices such as TV or display screen
It is interior, increase VR panorama display functions so as to fulfill for TV or display.By control module receive it is extraneous send or
When obtaining the VR video content film sources of extraneous storage, the corresponding video parameter of the VR video contents is obtained.Wherein, due to described
VR video contents have multiple angle shot angles, as above plane, lower plane, left plane, right plane, frontal plane and rear plane
Etc. shooting angle.The video content of each shooting angle is spliced by a VR video content by artificial or device, and
When being played to corresponding shooting angle, the switching of respective angles is carried out, is played so as to fulfill 360 degree of environment, and thus use is provided
Enjoy the visual experience of 3D stereoscopic effects in family.Wherein, video parameter is used to record the switch data of the angle.
Step S40, the display module play the VR according to the visual angle rotational parameters and video parameter, corresponding display
Video content.
Specifically, the display module is receiving video parameter and the VR video contents that the control module is sent
When, the corresponding switching for playing angle is carried out according to the broadcasting angle changed time point recorded in the video parameter.I.e.
By can in embedded to TV or display display module, the video that the display module is obtained according to control module
Parameter realizes the broadcasting of the VR video contents.When user watches the full screen video content by the 3D glasses, to be
User provides the visual experience of 3D stereoscopic effects, and it is aobvious with the ability under the immersive environment of closing to wear huge VR heads without user
The stereo sound effect of VR technologies can be experienced, the VR video contents that TV or other displays broadcast are watched by simple 3D glasses
.
The present embodiment provides a kind of VR display methods and device, the VR display methods is applied to VR display devices, described
VR display devices include eyeball capture module, processing module, control module and display module, and the VR display methods passes through described
Eyeball capture module obtains the eye movement data of user, and the eye movement data is sent to the processing module;Institute
Processing module is stated according to the eye movement data, generates visual angle rotational parameters, and the visual angle rotational parameters are sent to institute
State control module;The control module obtains VR video contents and the corresponding video parameter of the VR video contents, and by institute
It states visual angle rotational parameters, VR video contents and video parameter and is sent to the display module;The display module is regarded according to
Angle rotational parameters and video parameter, corresponding display play the VR video contents.In the above manner, the present invention will be by that will show
In Module-embedding TV or other displays, you can realize in the open environment such as TV or display in viewing VR videos
Hold, user need not wear huge closed VR and show, and carry out new perspective without rotating body or head, it is only necessary to pass through
Simple 3D glasses may be viewed by the entire video contents of VR with 3D stereoscopic effects.User experience is improved as a result, is reduced
Watch cost, solve existing VR technologies be confined to immersion mode and caused by viewing it is of high cost and poor user experience
Technical problem.
With reference to Fig. 4, Fig. 4 is the flow diagram of VR display methods second embodiment of the present invention.
Based on above-mentioned embodiment illustrated in fig. 2, step S30 is specifically included:
Step S31, the control module receives the visual angle rotational parameters that the processing module is sent, and obtains the VR and regard
Frequency content;
Specifically, it when the control module receives the vision rotational parameters that the processing module is sent, obtains the VR and regards
Frequency content.Wherein described vision rotational parameters are used for when playing the VR video contents, are adjusted play area and are played angle
Degree is watched convenient for user, need not rotate body part thereby using family and may be viewed by panoramic video.
Step S32, the control module generate corresponding display and regard according to the visual angle rotational parameters and VR video contents
Feel data;
Specifically, the control module is when receiving the user eyeball movement generation i.e. rotational parameters of data, by institute
User eyeball rotational angle and direction of displacement are stated, calculates the display vision that VR video contents are currently shown relative to display module
Data, wherein, the display vision data, which includes display module, will show the visual angle of VR video contents and specific region.
Step S33, the module of controlling obtain the corresponding video parameter of the VR video contents, by the video parameter and
Display vision data is sent to the display module.
Specifically, the control module further obtains the i.e. video of the corresponding switching vision parameter of the VR video contents and joins
The video parameter and display vision data are sent to the display module by number.
Step S40 is specifically included:
Step S41, the display module show the corresponding display of the VR video contents according to the display vision data
Region, and corresponding visual angle switching is carried out according to the video parameter;
Specifically, the display module can correspond to switching according to the video parameter and play the VR video contents, then tie
The display vision data is closed to determine to play specific region and perspective data.
Step S42, display plays the VR video contents, so that user is watched by the 3D glasses.
Specifically, switch visual angle when needing to switch broadcasting camera lens visual angle by above-mentioned data, detect user's rotation
During the display vision data that eyeball generates, play area and visual angle are shifted, thus shows and plays the VR video contents.User is only
The distinctive visual of 3D stereoscopic effects can be experienced by simple 3D glasses.
The present embodiment provides a kind of VR display methods and device, the present invention by by display module be embedded in TV or other
In display, you can realize and watch VR video contents in the open environment such as TV or display, user need not wear huge
Closed VR it is aobvious, carry out new perspective without rotating body or head, it is only necessary to by simple 3D glasses, that is, considerable
See the entire video contents of VR with 3D stereoscopic effects.User experience is improved as a result, reduces viewing cost, is solved existing
Some VR technologies be confined to the mode of immersion and caused by the technical issues of watching of high cost and poor user experience.
Further, the VR display methods further includes:
Step S30, when the processing module detects multiple eyeball capture modules, according to preset rules, described more
Main capture module is determined in a eyeball capture module, and the eye movement number of the user is obtained by the main capture module
According to.
Specifically, it when more people watch simultaneously, i.e., with multiple eyeball capture modules, needs to set main control visual angle, by
Main control viewing angle control display view angle.Eyeball can be caught by the way that main capture module is set to be set at setting main control visual angle
The ID for catching module is set as main capture module ID etc..Be achieved in, can multiple users simultaneously in the same virtual panoramic scene
It is watched.
Further, the present invention also provides a kind of VR display terminals.
VR display terminals of the present invention include processor, memory and are stored on the memory and can be by the place
It manages the VR that device performs and shows program, when the VR shows that program is performed by the processor, realize VR display methods as described above
The step of.
Wherein, VR shows that program is performed each implementation that realized method can refer to VR display methods of the present invention
Example, details are not described herein again.
Further, the present invention also provides a kind of computer readable storage mediums.
VR is stored on computer readable storage medium of the present invention and shows program, wherein the VR shows program by processor
During execution, the step of realizing VR display methods as described above.
Wherein, VR shows that program is performed each implementation that realized method can refer to VR display methods of the present invention
Example, details are not described herein again.
It should be noted that herein, term " comprising ", "comprising" or its any other variant are intended to non-row
His property includes, so that process, method, article or system including a series of elements not only include those elements, and
And it further includes other elements that are not explicitly listed or further includes intrinsic for this process, method, article or system institute
Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including this
Also there are other identical elements in the process of element, method, article or system.
The embodiments of the present invention are for illustration only, do not represent the quality of embodiment.
Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side
Method can add the mode of required general hardware platform to realize by software, naturally it is also possible to by hardware, but in many cases
The former is more preferably embodiment.Based on such understanding, technical scheme of the present invention substantially in other words does the prior art
Going out the part of contribution can be embodied in the form of software product, which is stored in one as described above
In storage medium (such as ROM/RAM, magnetic disc, CD), including some instructions use so that a station terminal equipment (can be mobile phone,
Computer, server, air conditioner or network equipment etc.) perform method described in each embodiment of the present invention.
It these are only the preferred embodiment of the present invention, be not intended to limit the scope of the invention, it is every to utilize this hair
The equivalent structure or equivalent flow shift that bright specification and accompanying drawing content are made directly or indirectly is used in other relevant skills
Art field, is included within the scope of the present invention.
Claims (10)
1. a kind of VR display methods, which is characterized in that the VR display methods is applied to VR display devices, the VR display devices
Including eyeball capture module, processing module, control module and display module, the VR display methods includes the following steps:
The eyeball capture module obtains the eye movement data of user, and the eye movement data is sent to the processing
Module;
The processing module generates visual angle rotational parameters, and the visual angle rotational parameters are sent out according to the eye movement data
It send to the control module;
The control module obtains VR video contents and the corresponding video parameter of the VR video contents, and the visual angle is turned
Dynamic parameter, VR video contents and video parameter are sent to the display module;
The display module plays the VR video contents according to the visual angle rotational parameters and video parameter, corresponding display.
2. VR display methods as described in claim 1, which is characterized in that the processing module is according to the eye movement number
According to generating visual angle rotational parameters, and the step of visual angle rotational parameters are sent to the control module specifically includes:
The processing module is when receiving the eye movement data, according to eye movement number described in pre-stored data threshold decision
It whether there is lost motion data in;
The processing module, there are during lost motion data, deletes the lost motion number in the judgement eye movement data
According to.
3. VR display methods as described in claim 1, which is characterized in that the processing module is according to the eye movement number
According to generating visual angle rotational parameters, and the step of visual angle rotational parameters are sent to the control module includes:
The processing module judges that the eyeball is transported when receiving the eye movement data, according to the mobile angular threshold of eye that prestores
Whether dynamic data are mobile perspective data;
The processing module deletes the mobile perspective data when judging the eye movement data for mobile perspective data.
4. VR display methods as described in claim 1, which is characterized in that the eyeball capture module obtains the eyeball fortune of user
The step of moving data, and the eye movement data is sent to the processing module includes:
The eyeball capture module obtains the eyeball fixes time of the user;
The eyeball capture module obtains corresponding eyeball when detecting that the eyeball fixes time is more than preset time threshold
Position data, as eye data initial value;
The eyeball capture module obtains the eye movement data of the user according to the eye data initial value, and by institute
It states eye movement data and is sent to the processing module.
5. VR display methods as described in claim 1, which is characterized in that the control module obtains VR video contents and institute
The corresponding video parameter of VR video contents is stated, and the visual angle rotational parameters, VR video contents and video parameter are sent to institute
The step of stating display module specifically includes:
The control module receives the visual angle rotational parameters that the processing module is sent, and obtains the VR video contents;
The control module generates corresponding display vision data according to the visual angle rotational parameters and VR video contents;
The module of controlling obtains the corresponding video parameter of the VR video contents, by the video parameter and display vision data
It is sent to the display module.
6. VR display methods as claimed in claim 5, which is characterized in that the display module is according to the visual angle rotational parameters
And video parameter, it is corresponding to show that the step of playing the VR video contents specifically includes:
The display module shows the corresponding display area of the VR video contents, and according to institute according to the display vision data
It states video parameter and carries out corresponding visual angle switching;
Display plays the VR video contents, so that user is watched by the 3D glasses.
7. the VR display methods as described in any one in claim 1-6, which is characterized in that the VR display methods is also wrapped
It includes:
The processing module, according to preset rules, mould is captured in the multiple eyeball when detecting multiple eyeball capture modules
Main capture module is determined in block, and the eye movement data of the user is obtained by the main capture module.
8. a kind of VR display devices, which is characterized in that the VR display devices include eyeball capture module, processing module, control
Module and display module,
The eye movement data for obtaining the eye movement data of user, and is sent to institute by the eyeball capture module
State processing module;
The processing module, for receiving the eye movement data that the eyeball capture module is sent, according to the eye movement
Data generate visual angle rotational parameters, and the visual angle rotational parameters are sent to the control module;
The control module for the vision rotational parameters that receiving processing module is sent, obtains VR video contents and the VR
The corresponding video parameter of video content, and the visual angle rotational parameters, VR video contents and video parameter are sent to described show
Show module;
The display module, for receiving visual angle rotational parameters, VR video contents and the video parameter that the control module is sent,
And according to the visual angle rotational parameters and video parameter, corresponding display plays the VR video contents.
9. VR display devices as claimed in claim 8, which is characterized in that the processing module is additionally operable to:
Obtain the eyeball fixes time of the user;
When detecting that the eyeball fixes time is more than preset time threshold, corresponding eye position data is obtained, as eye
Ball data initial value;
According to the eye data initial value, the eye movement data of the user is obtained, and the eye movement data is sent out
It send to the processing module.
10. VR display devices as claimed in claim 8, which is characterized in that the processing module be additionally operable to detect it is multiple
During eyeball capture module, according to preset rules, main capture module is determined in the multiple eyeball capture module, and is passed through described
Main capture module obtains the eye movement data of the user.
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