CN106385578B - A kind of display methods - Google Patents
A kind of display methods Download PDFInfo
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- CN106385578B CN106385578B CN201610875316.4A CN201610875316A CN106385578B CN 106385578 B CN106385578 B CN 106385578B CN 201610875316 A CN201610875316 A CN 201610875316A CN 106385578 B CN106385578 B CN 106385578B
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0481—Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
- G06F3/04815—Interaction with a metaphor-based environment or interaction object displayed as three-dimensional, e.g. changing the user viewpoint with respect to the environment or object
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N13/00—Stereoscopic video systems; Multi-view video systems; Details thereof
- H04N13/10—Processing, recording or transmission of stereoscopic or multi-view image signals
- H04N13/106—Processing image signals
- H04N13/128—Adjusting depth or disparity
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2203/00—Indexing scheme relating to G06F3/00 - G06F3/048
- G06F2203/048—Indexing scheme relating to G06F3/048
- G06F2203/04802—3D-info-object: information is displayed on the internal or external surface of a three dimensional manipulable object, e.g. on the faces of a cube that can be rotated by the user
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Theoretical Computer Science (AREA)
- Human Computer Interaction (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Multimedia (AREA)
- Signal Processing (AREA)
- User Interface Of Digital Computer (AREA)
- Controls And Circuits For Display Device (AREA)
- Position Input By Displaying (AREA)
Abstract
The application provides a kind of display methods, is carried out interacting display with the solid of user according to the operation information of user so that touch-screen can be realized.The display methods that the application provides includes:Monitor the operation information that user is directed to stereoscopic display picture;According to the operation information, control stereoscopic picture plane is shown.
Description
Technical field
The application is related to display field, more particularly to a kind of display methods.
Background technology
The mankind are that the nuance for the object seen by right eye and left eye perceives the depth of object, so as to identify
Stereo-picture.Stereo display technique is exactly come the parallax of the right and left eyes of manufacturer by artificial means, i.e. to images of left and right eyes point
The two images of parallax are not sent to, make brain after the different images that right and left eyes are seen are obtained, and produce viewing true three
Tie up the sensation of object.
With the development of stereo display technique, solid interaction also seems more and more important, still, due to stereo display technique
The information of the Z-direction of a normal to screen more than existing plane 2D Display Techniques, so it is aobvious with solid in display device
When showing, the solid interaction for making 3 d display device be shown according to the touch action of user is also more difficult.
The content of the invention
The application provides a kind of display methods, so that touch-screen can be realized according to the progress of the operation information of user and user
Solid interaction display.
The embodiment of the present application one provides a kind of display methods, and methods described includes:
Monitor the operation information that user is directed to stereoscopic display picture;
According to the operation information, control stereoscopic picture plane is shown.
The display methods that the embodiment of the present application one provides, user can be examined for the operation information of display picture
Survey, and according to the operation information of user, the display to three-dimensional display picture is accordingly controlled, i.e. by make touch-screen according to
The operation information of user carries out corresponding stereoscopic display, so can make touch-screen realize according to the operation information of user carry out with
The solid interaction display of user.
Preferably, it is described to be shown according to the operation information, control stereoscopic picture plane, including:
According to, to the touch action of the touch-screen, determining the touch action in screen corresponding to the touch-screen when touching
The first parallax of location point in the first display mode, first display pattern are that the display scene for watching user is whole
The display pattern of the recessed touch-screen;
According to default touch action and the corresponding relation of parallax, it is determined that the second parallax corresponding to current touch action;
If second parallax is more than or equal to first parallax, the touch-screen is controlled in first display pattern
It is lower that three-dimensional interaction is carried out according to the touch action.
The display methods that the embodiment of the present application one provides, can be by comparing user when touching, and touch action is touching
Screen position corresponding to screen o'clock the first display pattern the first parallax, and user touch action convert to be formed it is corresponding
Second parallax, and when the second parallax is more than the first parallax, it is determined as that user touches the scene image that the touch-screen is shown,
The display screen is carried out corresponding stereoscopic display according to touch action, and then the touch for making touch-screen according to user can be realized
Action carries out interacting display with the solid of user.
Preferably, determine the touch action in the touch-screen touch action of the touch-screen when according to touch
Before the first parallax of corresponding screen position point in the first display mode, in addition to:
When detecting that touch-screen is touched, the touch-screen is controlled to be adjusted to the first display mould by current display mode
Formula, the current display mode are that the part for watching user shows that scene protrudes the touch-screen, part shows that scene is recessed
Enter the display pattern of the touch-screen.
The display methods that the embodiment of the present application one provides, to the touch action of the touch-screen when according to touch, it is determined that
The touch action before the first parallax of screen position point in the first display mode corresponding to the touch-screen, in addition to,
When detecting that touch-screen is touched, control the touch-screen to be adjusted to the first display pattern by current display mode, pass through by
Current stereoscopic display mode, the display scene that being converted to watches user are entirely recessed the stereoscopic display mould of the touch-screen
Formula, and then touch-screen can be made to be realized during follow-up and interact display with the solid of user.
Preferably, it is described according to, to the touch action of the touch-screen, determining the touch action in the touch when touching
The first parallax of screen position point in the first display mode, is specifically included corresponding to screen:
According to the touch location and touching intensity of touch point, it is determined that including touching vectorial starting point and touching touching for vectorial terminal
Vector is touched, the vectorial starting point of touch includes representing the first coordinate and the second coordinate of the start position, and represents the starting point
3rd coordinate of corresponding touching intensity, the 4-coordinate and the 5th seat for touching vectorial terminal and including representing the final position
Mark, and represent the 6th coordinate of touching intensity corresponding to the terminal;
Determine it is described touch vectorial terminal screen position point corresponding to the touch-screen in the first display mode the
One parallax.
Preferably, the touch location and touching intensity according to touch point, it is determined that including touching vectorial starting point and touch
The touch vector of vectorial terminal, is specifically included:
According to the touch location of multiple touch points, it is determined that touching vectorial starting point;
According to the touch location and touching intensity of multiple touch points, it is determined that touching vectorial terminal;
The touch vector is determined according to the vectorial starting point of the touch and the vectorial terminal of touch.
Preferably, according to the touch location of multiple touch points, it is determined that touching vectorial starting point, specifically include:
The vectorial starting point of touch is determined by below equation:
PbZ=0,
Wherein, PbX represents first coordinate for touching vectorial starting point abscissa, P1X、P2X……PNX distinguishes table
Show the abscissa of the first touch point, the second touch point ... N touch points on the touch-screen, PbY represent it is described touch to
Measure second coordinate of starting point ordinate, P1Y、P2Y……PNY represents the first touch point, the second touch point ... N respectively
Ordinate of the touch point on the touch-screen, PbZ represents described and touches the described 3rd of touching intensity corresponding to vectorial starting point
Coordinate.
Preferably, according to the touch location and touching intensity of multiple touch points, it is determined that vectorial terminal is touched, specific bag
Include:
The vectorial terminal of touch is determined by below equation:
Wherein, PeX represents the 4-coordinate for touching vectorial terminal abscissa, P1Z、P2Z……PNZ distinguishes table
Show the first touch point, the touching intensity size of the second touch point ... N touch points, PeY represents that the vectorial terminal of touch is indulged
The Five Axis of coordinate, PeZ represents the 6th coordinate for touching touching intensity corresponding to vectorial terminal.
Preferably, determine the vectorial terminal of touch in screen position o'clock corresponding to the touch-screen in the first display pattern
Under the first parallax, specifically include:
Determine the vectorial terminal of touch in screen position point corresponding to the touch-screen;
Determine that the screen position point is forming first position point corresponding to the first image of first display pattern;
Determine that the first position point is forming second place point corresponding to the second image of first display pattern;
According to the coordinate difference of the first position point and second place point, first parallax is determined.
Preferably, it is described to determine that the screen position point is forming corresponding to the first image of first display pattern the
One location point, is specifically included:
Determine the screen position point in first position point corresponding to described first image by below equation:
Wherein, P3dlX represents the screen position point in the abscissa of first position point corresponding to described first image, W3d
Represent the width of described first image, PeX represents described and touches vectorial terminal in screen position point corresponding to the touch-screen
Abscissa, WsRepresent the width of the touch-screen, P3dlY represents the screen position point corresponding to described first image first
The ordinate of location point, PeY represents described and touches vectorial terminal in the ordinate of screen position point corresponding to the touch-screen, H3d
Represent the height of the first image, HsRepresent the height of the touch-screen.
Preferably, it is described according to default touch action and the corresponding relation of parallax, it is determined that current touch action is corresponding
The second parallax, specifically include:
Second parallax is determined by below equation:
Wherein, X2Represent second parallax, XmaxRepresent the maximum disparity under default first display pattern, Fmax
Represent maximum touch force degree corresponding to the maximum disparity of default first display pattern, PeZ represents described and touches vector eventually
Touching intensity corresponding to point.
The embodiment of the present application two provides a kind of display device, and the display device includes:
Detection module, the operation information of stereoscopic display picture is directed to for monitoring user;
Control module, for being shown according to the operation information, control stereoscopic picture plane.
Preferably, the control module specifically includes:
First parallax determining module, for according to, to the touch action of the touch-screen, determining the touch action when touching
In the first parallax of screen position point in the first display mode corresponding to the touch-screen, first display pattern is use
The display scene that family is watched is entirely recessed the display pattern of the touch-screen;
Second parallax determining module, for the corresponding relation according to default touch action and parallax, it is determined that current touches
Touch the second parallax corresponding to action;
Comparison module, for when second parallax is more than or equal to first parallax, controlling the touch-screen to exist
Three-dimensional interaction is carried out according to the touch action under first display pattern.
Preferably, the display device that the embodiment of the present application two provides also includes adjusting module, in first parallax
Before determining module determines first parallax,
When detecting that touch-screen is touched, the touch-screen is controlled to be adjusted to the first display mould by current display mode
Formula, the current display mode are that the part for watching user shows that scene protrudes the touch-screen, part shows that scene is recessed
Enter the display pattern of the touch-screen.
Preferably, the first parallax determining module, is specifically included:
Vectorial determining module is touched, for the touch location and touching intensity according to touch point, it is determined that including touching vector
Starting point and the touch vector for touching vectorial terminal, it is described to touch vectorial starting point and include representing the first coordinate of the start position and the
Two coordinates, and the 3rd coordinate of touching intensity corresponding to the starting point is represented, it is described to touch vectorial terminal including representing the terminal
The 4-coordinate and Five Axis of position, and represent the 6th coordinate of touching intensity corresponding to the terminal;
Position determination module, for determining described to touch vectorial terminal in screen position o'clock corresponding to the touch-screen the
The first parallax under one display pattern.
Preferably, it is described to touch vectorial determining module, specifically include:
First son touches vectorial determining module, for the touch location according to multiple touch points, it is determined that touching vectorial starting point;
Second son touches vectorial determining module, for the touch location and touching intensity according to multiple touch points, it is determined that
Touch vectorial terminal;
3rd son touches vectorial determining module, for touching vectorial starting point and the vectorial terminal determination of the touch according to described
It is described to touch vector.
Preferably, first son touches vectorial determining module, is specifically used for:
The vectorial starting point of touch is determined by below equation:
PbZ=0,
Wherein, PbX represents first coordinate for touching vectorial starting point abscissa, P1X、P2X……PNX distinguishes table
Show the abscissa of the first touch point, the second touch point ... N touch points on the touch-screen, PbY represent it is described touch to
Measure second coordinate of starting point ordinate, P1Y、P2Y……PNY represents the first touch point, the second touch point ... N respectively
Ordinate of the touch point on the touch-screen, PbZ represents described and touches the described 3rd of touching intensity corresponding to vectorial starting point
Coordinate.
Preferably, second son touches vectorial determining module, is specifically used for:
The vectorial terminal of touch is determined by below equation:
Wherein, PeX represents the 4-coordinate for touching vectorial terminal abscissa, P1Z、P2Z……PNZ distinguishes table
Show the first touch point, the touching intensity size of the second touch point ... N touch points, PeY represents that the vectorial terminal of touch is indulged
The Five Axis of coordinate, PeZ represents the 6th coordinate for touching touching intensity corresponding to vectorial terminal.
Preferably, the position determination module, is specifically included:
Screen position point determining module, for determining the vectorial terminal of touch in screen position corresponding to the touch-screen
Point;
First position point determining module, for determining that the screen position point is forming the first of first display pattern
First position point corresponding to image;
Second place point determining module, for determining that the first position point is forming the second of first display pattern
Second place point corresponding to image;
Difference determining module, for the coordinate difference according to the first position point and second place point, determine institute
State the first parallax.
Preferably, the first position point determining module, is specifically used for:
Determine the screen position point in first position point corresponding to described first image by below equation:
Wherein, P3dlX represents the screen position point in the abscissa of first position point corresponding to described first image, W3d
Represent the width of described first image, PeX represents described and touches vectorial terminal in screen position point corresponding to the touch-screen
Abscissa, WsRepresent the width of the touch-screen, P3dlY represents the screen position point corresponding to described first image first
The ordinate of location point, PeY represents described and touches vectorial terminal in the ordinate of screen position point corresponding to the touch-screen, H3d
Represent the height of the first image, HsRepresent the height of the touch-screen.
Preferably, the second parallax determining module, is specifically used for:
Second parallax is determined by below equation:
Wherein, X2Represent second parallax, XmaxRepresent the maximum disparity under default first display pattern, Fmax
Represent maximum touch force degree corresponding to the maximum disparity of default first display pattern, PeZ represents described and touches vector eventually
Touching intensity corresponding to point.
The embodiment of the present application three provides a kind of display, including the described display device that the embodiment of the present application two provides.
Brief description of the drawings
Fig. 1 is a kind of schematic flow sheet for display methods that the embodiment of the present application one provides;
Fig. 2 is that a kind of flow for controlling stereoscopic picture plane to show according to operation information that the embodiment of the present application one provides is illustrated
Figure;
Fig. 3 is that another flow for controlling stereoscopic picture plane to show according to operation information that the embodiment of the present application one provides is illustrated
Figure;
Fig. 4 is that the flow that the first display pattern is converted into by current display mode that the embodiment of the present application one provides is illustrated
Figure;
Fig. 5 is that the screen position point according to corresponding to touch action in touch-screen that the embodiment of the present application one provides determines first
The schematic flow sheet of parallax;
Fig. 6 is the first parallax flow of the determination screen position point of the offer of the embodiment of the present application one in the first display mode
Schematic diagram;
Fig. 7 is a kind of specific display methods schematic flow sheet that the embodiment of the present application one provides;
Fig. 8 is a kind of structural representation for display device that the embodiment of the present application two provides;
Fig. 9 is a kind of structural representation for control module that the embodiment of the present application two provides;
Figure 10 is the structural representation for another control module that the embodiment of the present application two provides;
Figure 11 is a kind of structural representation for first parallax determining module that the embodiment of the present application two provides;
Figure 12 is a kind of structural representation for touch vector determining module that the embodiment of the present application two provides;
Figure 13 is a kind of structural representation for position determination module that the embodiment of the present application two provides.
Embodiment
The implementation process of the embodiment of the present application is described in detail with reference to Figure of description.It should be noted that
Same or similar label represents same or similar element or the element with same or like function from beginning to end.Lead to below
It is exemplary to cross the embodiment being described with reference to the drawings, and is only used for explaining the application, and it is not intended that limitation to the application.
As shown in figure 1, the embodiment of the present application one provides a kind of display methods, the display methods includes:
Step 200, monitoring user are directed to the operation information of stereoscopic display picture.
Step 300, according to operation information, control stereoscopic picture plane is shown.
The display methods that the embodiment of the present application one provides, user can be examined for the operation information of display picture
Survey, and according to the operation information of user, the display process to three-dimensional display picture is accordingly controlled, by make touch-screen according to
The operation information of user carries out corresponding stereoscopic display, so can make touch-screen realize according to the operation information of user carry out with
The solid interaction display of user.
In the specific implementation, the operation information of user can be the instruction for the specific scenery that user shows for display device
Sexual act, i.e. user are not contacted directly with display screen, and the specific scenery that user watches according to itself is operated accordingly
Action, for example, the bird in the stereoscopic display picture that user watches according to itself carries out trial grasping movement.And display device
The corresponding relation for the scenery that the grasping movement by detecting user is currently shown with display device, and then control stereoscopic picture plane to enter
The corresponding display of row.The operation information of user can also be touch action of the user to display screen.When operation information is specially to use
When family is to the touch action of touch-screen, accordingly, as shown in Fig. 2 on step 300, according to operation information, stereoscopic picture plane is controlled
It has been shown that, can specifically include:
Step 310, according to, to the touch action of touch-screen, determining the touch action in screen corresponding to touch-screen when touching
The first parallax of location point in the first display mode;
Step 320, the corresponding relation according to default touch action and parallax, it is determined that corresponding to current touch action
Two parallaxes;
If step 330, the second parallax are more than or equal to the first parallax, control touch-screen is in the first display mode according to tactile
Touch action and carry out three-dimensional interaction.
The display methods that the embodiment of the present application one provides, can be by comparing user when touching, and touch action is touching
On screen corresponding to screen position o'clock the first display pattern the first parallax, and user touch action convert to be formed it is corresponding
The second parallax, and when the second parallax is more than the first parallax, is determined as that user touches the scene image that touch-screen is shown, makes
Display screen carries out corresponding stereoscopic display according to touch action, and then can realize makes touch-screen be entered according to the touch action of user
Row interacts display with the solid of user.
Preferably, as shown in figure 3, on step 310, to the touch action of touch-screen when according to touch, determine that this is touched
Action is touched before the first parallax of screen position point in the first display mode corresponding to touch-screen, in addition to:
Step 340, when detecting that touch-screen is touched, control touch-screen the first display is adjusted to by current display mode
Pattern.It should be noted that the embodiment of the present application one is mainly to provide under a kind of stereoscopic display mode, touch-screen and user's is vertical
Body interactive display method, and then in the embodiment of the present application one, it is a kind of stereoscopic display mode to be defaulted as current display mode, and if
Current display mode is not stereoscopic display mode, i.e. is plane 2D display patterns, then, the 2D that can be shown to touch-screen shows mould
Formula does not process, and continues to show with plane 2D display patterns.In addition, existing stereoscopic display mode generally sees user
The part seen shows that scene protrusion touch-screen, part show the display pattern of the recessed touch-screen of scene, and is shown for this kind
Pattern, generally scenery can not accurately be chosen, thus, the display methods that the embodiment of the present application one provides passes through inspection first
Survey whether user touches to touch-screen, if detecting touch, existing display scene protrusion touch-screen is had into display field again
The current display mode of the recessed touch-screen of scape, it is converted into the first display pattern that display scene is entirely recessed touch-screen.Certainly, show
Show the vision difference that scene protrusion or recessed touch-screen are watched for user, in the processing of specific stereo-picture, if regulation is vertical
In the display surface of touch-screen, and the direction for pointing to user's observation side is the positive direction of parallax, then, and display scene protrusion touch-screen
The parallax that display pattern can refer to image is positive display pattern, and the display pattern of the display recessed touch-screen of scene can refer to regarding for image
Difference is negative display pattern.If on the contrary, providing the display surface perpendicular to touch-screen, and it is parallax backwards to the direction of user's observation side
Positive direction, then, the display pattern of display scene protrusion touch-screen can refer to the parallax of image as negative display pattern, show scene
The parallax that the display pattern of recessed touch-screen can refer to image is positive display pattern.Accordingly, in the embodiment of the present application one
One parallax and the second parallax are that its is specific in order to judge whether the touch action of user touches the scene image that touch-screen is shown
It can be regarded as the absolute value of parallax.That is, in the processing of specific stereo-picture, if providing the display surface perpendicular to touch-screen, and carry on the back
To the positive direction that the direction of user's viewing side is parallax, then in the recessed touch-screen of display scene, the first parallax and the second parallax
It is on the occasion of when the second parallax is more than or equal to the first parallax, can determine whether to touch the scenery of the stereo-picture for user.If
The display surface perpendicular to touch-screen is provided, and the direction for pointing to user's viewing side is the positive direction of parallax, then it is recessed in display scene
When entering touch-screen, the actual parallax of image is negative, and the first parallax and the second parallax can refer to the opposite number of actual parallax, be regarded second
When difference is more than or equal to the first parallax, it can determine whether to touch the scenery of the stereo-picture for user.
As shown in figure 4, for the display pattern of touch-screen is touched by making the part that user watches show that scene is protruded
Screen, part show the current display mode of the recessed touch-screen of scene, and it is recessed to be converted to the whole display scenes for watching user
First display pattern of touch-screen, can be realized by following steps.
Step 301, the parallax for obtaining each pixel of stereoscopic picture plane that current display mode is shown, and it is therein most
Big parallax and minimum parallax.Acquisition on the parallax of each pixel, and maximum disparity and minimum parallax can be by not
Same mode.If for example, current stereoscopic display picture be by solid render acquisition, can be according to left and right camera
Position, the angle of camera optical axis and stereoscopic display content apart from camera distance, to calculate each of stereoscopic display picture
The parallax of pixel, and minimax parallax.In another example if the content currently shown is to open image by left and right two to be formed
, then, it can be calculated by way of images match when the parallax of front left and right figure.It can be obtained by both the above method
The parallax of each pixel of one secondary 3D display picture, and maximum disparity XmaxWith minimum parallax-Xmin, here, with perpendicular to tactile
The display surface of screen is touched, and the direction for pointing to user's observation side is illustrated for the positive direction of parallax.It is specific herein to calculate
Method can combine prior art and obtain, and will not be repeated here.
Step 302, the parallax of the stereoscopic picture plane shown to current display mode are adjusted, and make the stereoscopic display after adjustment
The maximum disparity of picture is zero, and minimum parallax is the minimum parallax of stereoscopic picture plane and the difference of maximum disparity before adjustment.Specifically,
If the content currently shown be by left and right two open figure into, a width of X is cropped to the right-hand component of left figuremax/ 2, it is a height of
The high region of artwork, while fill X in the left-hand component of left figuremaxThe black region of/2 pixels, that is to say, that left figure is to right translation
Xmax/ 2 pixels;Meanwhile a width of X is cropped to the left-hand component of right figuremax/ 2, the high region of a height of artwork, while in right figure
Right-hand component fills XmaxThe black region of/2 pixels, that is, to right figure to left Xmax/ 2 pixels.So cut and fill up
Afterwards, image size is constant, but stereoscopic parallax is adjusted, and maximum disparity is 0 and minimum parallax-X after adjusting parallaxmin-Xmax,
Display pattern after adjusting is that the display scene for watching user is entirely recessed the display pattern of touch-screen.
Step 303, control touch-screen are shown with the display pattern after adjusting.
In the specific implementation, for touch action, it can specifically include, touching when user is touched on the touchscreen
Touch position and touching intensity.In the specific implementation, on touch location and touching intensity.It can be represented by vector.Enter
And accordingly, as shown in figure 5, the step 310 on the embodiment of the present application one, according to when touching to the touch action of touch-screen,
Determine that the touch action in the first parallax of screen position point in the first display mode corresponding to touch-screen, can specifically wrap
Include:
Step 311, touch location and touching intensity according to touch point, it is determined that including touching vectorial starting point and touching vector
The touch vector of terminal, touching vectorial starting point includes representing the first coordinate and the second coordinate of the start position, and represents to be somebody's turn to do
3rd coordinate of touching intensity corresponding to starting point, the 4-coordinate and the 5th that touching vectorial terminal includes representing the final position are sat
Mark, and represent the 6th coordinate of touching intensity corresponding to the terminal.
In view of user when touching, multiple location points of touch-screen may be touched simultaneously, accordingly, with respect to according to touch
The touch location and touching intensity of point, specifically can be with it is determined that including touching vectorial starting point and touching the touch vector of vectorial terminal
According to the touch location of multiple touch points, and the touching intensity that multiple touch points are accordingly subject to, and then determine to touch vector
Beginning and end.For example, specifically, can determine to touch vectorial starting point by below equation,
PbZ=0,
Wherein, PbX represents to touch the first coordinate of vectorial starting point abscissa, P1X、P2X……PNX represents that first touches respectively
Touch point, the abscissa of the second touch point ... N touch points on the touchscreen, PbY represents to touch the of vectorial starting point ordinate
Two coordinates, P1Y、P2Y……PNY represents the first touch point, the second touch point ... N touch points on the touchscreen vertical respectively
Coordinate, PbZ represents to touch the 3rd coordinate of touching intensity corresponding to vectorial starting point.
On touching the terminal of vector, determine to touch vectorial terminal by below equation:
Wherein, PeX represents to touch the 4-coordinate of vectorial terminal abscissa, P1Z、P2Z……PNZ represents that first touches respectively
Touch point, the touching intensity size of the second touch point ... N touch points, PeY represents that the touch vectorial terminal ordinate the 5th sits
Mark, PeZ represents to touch the 6th coordinate of touching intensity corresponding to vectorial terminal.
It should be noted that the average value of the above-mentioned coordinate simply by the multiple points touched come determine touch vector
Starting point, in the specific implementation, it can also determine to touch the starting point of vector by another way, for example, can be by multiple
The central point for the maximum matrix area that touched point determines determines to touch vectorial starting point.In another example can also be by multiple
The central point for the maximum border circular areas that touch point determines determines to touch vectorial starting point.Equally, for touching vectorial terminal,
It can be obtained by other reasonable manners and touch vectorial terminal, be not limited herein.
Step 312, determine to touch vectorial terminal screen position point corresponding to touch-screen in the first display mode the
One parallax.In the specific implementation, as shown in fig. 6, on determining that touch vectorial terminal exists in screen position point corresponding to touch-screen
The first parallax under first display pattern, can specifically include:
Step 3121, determine to touch vectorial terminal in screen position point corresponding to touch-screen.Wherein, the screen position point
Abscissa is the 4-coordinate for representing to touch vectorial terminal abscissa, and the ordinate of the screen position point is to represent touch vector eventually
The Five Axis of point ordinate.
Step 3122, determine that screen position point is forming first position point corresponding to the first image of the first display pattern.
In the specific implementation, if stereoscopic display content is full screen display, a width of W of screens, a height of Hs, form the of stereoscopic display content
A width of W of one image3d, a height of H3d, then screen position point formed the first display pattern the first image corresponding to first position
Point can be by being determined with formula:
Wherein, P3dlX represents screen position o'clock in the abscissa of first position point corresponding to the first image, W3dRepresent first
The width of image, PeX represents to touch vectorial terminal in the abscissa of screen position point corresponding to touch-screen, WsRepresent touch-screen
Width, P3dlY represents screen position o'clock in the ordinate of first position point corresponding to the first image, PeY represents to touch vectorial terminal
In the ordinate of screen position point corresponding to touch-screen, H3dRepresent the height of the first image, HsRepresent the height of touch-screen.
Step 3123, determine that first position point is forming second place point corresponding to the second image of the first display pattern.
Specifically, forming the first image of stereoscopic display picture, take with point P3dlCentered on, a width of W, a length of H rectangular area RT0,
Such as W=9, H=9 are taken, as matching template;The second image of stereoscopic display picture is being formed, with point P3dlCentered on, it is a width of
Wt, a length of Ht rectangular area, for example, Wt=2 × |-Xmin-Xmax|, Ht=2 × H, as the matching area RT being matched.Profit
With the method for template matches, matching template region RT1 most like in matching area is sought out, and then in the RT1 to calculate
Second place point P of the heart o'clock as the second image3dr。
Step 3124, the coordinate difference according to first position point and second place point, determine the first parallax.Specifically, can
To determine the first parallax by below equation:
X1=P3dlX-P3drX,
Wherein, X1Represent the first parallax, P3dlX represents the abscissa of first position point, P3drX represents the horizontal stroke of second place point
Coordinate.
On asking for for the parallax of the embodiment of the present application one second, i.e., on step 320, according to default touch action with regarding
The corresponding relation of difference, it is determined that the second parallax corresponding to current touch action.In the specific implementation, because touch action can wrap
Touch location and touching intensity are included, and then, on the corresponding relation according to default touch action and parallax, it is determined that current touches
Second parallax corresponding to touching action, is specifically as follows the corresponding relation according to touching intensity and parallax, it is determined that current touch force
Second parallax corresponding to degree, the second parallax can be specifically determined by below equation:
Wherein, X2The second parallax is represented, | X |maxThe maximum of default parallax absolute value is represented, is known quantity, specifically
, if display pattern is the first display pattern that the display scene for watching user is entirely recessed touch-screen, i.e., by making user
The part watched shows that scene protrusion touch-screen, part are formed after showing the current display mode adjustment of the recessed touch-screen of scene
Display pattern, then | X |max=-Xmin-Xmax, the minimum parallax of as the first display pattern.FmaxRepresent that default parallax is absolute
Maximum touch force degree corresponding to the maximum of value, F represent current touching intensity, and when touch action is by vector representation, F's is big
I is specially to touch the 6th coordinate P of vectorial terminaleZ。
In order to more specifically understand display methods that the embodiment of the present invention is provided, with reference to Fig. 7, embodiment is provided
Display methods carry out further specific detailed description:
Step 701, whether monitoring touch-screen is touched in real time.If detecting, touch-screen is touched, and performs step 702,
Otherwise, step 701 is performed.
Step 702, judge whether current display mode is stereoscopic display mode.If current display pattern is stereoscopic display
Pattern, then step 703 is performed, if current display pattern is not stereoscopic display mode, for example, being plane 2D display patterns, then
Perform step 715.
Step 703, the parallax for obtaining each pixel of stereoscopic picture plane that current display mode is shown, and it is therein most
Big parallax XmaxWith minimum parallax-Xmin, with perpendicular to the display surface of touch-screen, and the direction for pointing to user's observation side is parallax
Positive direction is illustrated, Xmax, XminItself represents a numerical values recited.Wherein, existing three-dimensional 3D display pattern is general
For, the existing display scene for watching user protrudes touch-screen, there is the stereoscopic display mode of the display recessed touch-screen of scene again,
On obtaining the parallax of this kind of stereoscopic display mode, and maximum disparity XmaxWith minimum parallax-Xmin, can be shown according to this kind
The generation type of pattern is accordingly obtained., then can be with for example, current stereoscopic display mode is formed by two images
By way of images match, calculate when the parallax of front left and right figure, and then the disparity map of each pixel can be got, with
And maximum disparity X thereinmaxWith minimum parallax-Xmin。
The parallax of step 704, the stereoscopic picture plane shown according to the current display mode of acquisition, adjust the stereoscopic picture plane of display
Parallax so that the maximum disparity of stereoscopic picture plane after adjustment is zero, minimum parallax is most neglected for the stereoscopic picture plane before adjustment
The difference of difference and maximum disparity, even if minimum parallax is-Xmin-Xmax, i.e., the part watched currently used family shows that scene is convex
Go out touch-screen, the current display mode of the part display recessed touch-screen of scene, the display scene for being adjusted to watch user is complete
First display pattern of the recessed touch-screen in portion.
Step 705, control touch-screen are shown with the first display pattern after adjusting.
Step 706, the touch location according to multiple touch points, it is determined that touching vectorial starting point.Specifically, pass through below equation
It is determined that touch vectorial starting point:
PbZ=0,
Wherein, PbX represents to touch the first coordinate of vectorial starting point abscissa, P1X、P2X……PNX represents that first touches respectively
Touch point, the abscissa of the second touch point ... N touch points on the touchscreen, PbY represents to touch the of vectorial starting point ordinate
Two coordinates, P1Y、P2Y……PNY represents the first touch point, the second touch point ... N touch points on the touchscreen vertical respectively
Coordinate, PbZ represents to touch the 3rd coordinate of touching intensity corresponding to vectorial starting point.
Step 707, touch location and touching intensity according to multiple touch points, it is determined that touching vectorial terminal.Specifically,
Determine to touch vectorial terminal by below equation:
Wherein, PeX represents to touch the 4-coordinate of vectorial terminal abscissa, P1Z、P2Z……PNZ represents that first touches respectively
Touch point, the touching intensity size of the second touch point ... N touch points, PeY represents that the touch vectorial terminal ordinate the 5th sits
Mark, PeZ represents to touch the 6th coordinate of touching intensity corresponding to vectorial terminal.
Step 708, according to touch vector starting point and touch vector terminal, it is determined that touch vector.
Step 709, determine to touch vectorial terminal in screen position point corresponding to touch-screen.In the specific implementation, touch to
It is true on screen in screen position point corresponding to touch-screen, Five Axis and the 6th coordinate for as touching vectorial terminal to measure terminal
Fixed location point.
Step 710, determine that screen position point is forming first position point corresponding to the first image of the first display pattern.
When it is implemented, determine screen position o'clock in first position point corresponding to the first image by below equation:
Wherein, P3dlX represents screen position o'clock in the abscissa of first position point corresponding to the first image, W3dRepresent first
The width of image, PeX represents to touch vectorial terminal in the abscissa of screen position point corresponding to touch-screen, WsRepresent touch-screen
Width, P3dlY represents screen position o'clock in the ordinate of first position point corresponding to the first image, PeY represents to touch vectorial terminal
In the ordinate of screen position point corresponding to touch-screen, H3dRepresent the height of the first image, HsRepresent the height of touch-screen.
Step 711, determine that first position point is forming second place point corresponding to the second image of the first display pattern.Tool
Body, the first image of stereoscopic display picture is being formed, is being taken with point P3dlCentered on, a width of W, a length of H rectangular area RT0, such as
W=9, H=9 are taken, as matching template;The second image of stereoscopic display picture is being formed, with point P3dlCentered on, a width of Wt is long
For Ht rectangular area, for example, Wt=2 × |-Xmin-Xmax|, Ht=2 × H, as the matching area RT being matched.Utilize mould
The method of plate matching, seeks out matching template region RT1 most like in matching area, and then the RT1 central points to calculate
As the second place point P of the second image3dr。
Step 712, the difference according to first position point and the coordinate of second place point, determine the first parallax.That is, specific
During implementation, the first parallax can be determined by below equation:
X1=P3dlX-P3drX,
Wherein, X1Represent the first parallax, P3dlX represents the abscissa of first position point, P3drX represents the horizontal stroke of second place point
Coordinate.
Step 713, the corresponding relation according to default touching intensity and parallax, it is determined that corresponding to current touching intensity
Two parallaxes.The second parallax can be specifically determined by below equation:
Wherein, X2Represent the second parallax ,-Xmin-XmaxIt is that the display scene for watching user is whole to represent display pattern
During the first display pattern of recessed touch-screen, the minimum parallax of the first display pattern.FmaxRepresent default parallax absolute value most
Maximum touch force degree corresponding to big value, PeZ represents to touch the 6th coordinate P of vectorial terminaleZ。
If step 714, the second parallax are more than or equal to the first parallax, control touch-screen is in the first display mode according to tactile
Touch action and carry out three-dimensional interaction.Specifically, if touch action is changed with the time, touch location and touching intensity can be with
Time change, and then by controlling touch-screen, make touch-screen according to the touch location and touching intensity of change to show, to reach
Touch-screen is set to interact display with user.
Step 715, control touch-screen are shown with current display mode.
As shown in figure 8, the embodiment of the present application two provides a kind of display device, the display device includes:
Detection module 2, the operation information of stereoscopic display picture is directed to for monitoring user;
Control module 3, for being shown according to operation information, control stereoscopic picture plane.
As shown in Figure 9, it is preferred that control module 3 specifically includes:
First parallax determining module 31, for according to, to the touch action of touch-screen, determining that the touch action exists when touching
The first parallax of screen position point in the first display mode, the first display pattern watch user corresponding to touch-screen
Display scene is entirely recessed the display pattern of touch-screen;
Second parallax determining module 32, for the corresponding relation according to default touch action and parallax, it is determined that current
Second parallax corresponding to touch action;
Comparison module 33, for when the second parallax is more than or equal to the first parallax, control touch-screen to show mould first
Three-dimensional interaction is carried out according to touch action under formula.
As shown in Figure 10, it is preferred that the embodiment of the present application two provide control module also include adjusting module 30, for
Before first parallax determining module determines the first parallax,
When detecting that touch-screen is touched, control touch-screen is adjusted to the first display pattern by current display mode, when
Preceding display pattern is that the part for watching user shows that scene protrusion touch-screen, part show the display of the recessed touch-screen of scene
Pattern.
As shown in figure 11, it is preferred that the first parallax determining module 31, specifically include:
Touch vectorial determining module 311, for the touch location and touching intensity according to touch point, it is determined that including touch to
Measure starting point and touch the touch vector of vectorial terminal, touching vectorial starting point includes representing the first coordinate and second of the start position
Coordinate, and the 3rd coordinate of touching intensity corresponding to the starting point is represented, touching vectorial terminal includes representing the final position
4-coordinate and Five Axis, and represent the 6th coordinate of touching intensity corresponding to the terminal;
Position determination module 312, for determining that touch vectorial terminal shows in screen position corresponding to touch-screen o'clock first
Show the first parallax under pattern.
As shown in figure 12, it is preferred that touch vectorial determining module 311, specifically include:
First son touches vectorial determining module 3111, for the touch location according to multiple touch points, it is determined that touching vector
Starting point;
Second son touches vectorial determining module 3112, for the touch location and touching intensity according to multiple touch points,
It is determined that touch vectorial terminal;
3rd son touches vectorial determining module 3113, for determining to touch according to the vectorial starting point of touch and the vectorial terminal of touch
Vector.
Preferably, the first son touches vectorial determining module 3111, is specifically used for:
Determine to touch vectorial starting point by below equation:
PbZ=0,
Wherein, PbX represents to touch the first coordinate of vectorial starting point abscissa, P1X、P2X……PNX represents that first touches respectively
Touch point, the abscissa of the second touch point ... N touch points on the touchscreen, PbY represents to touch the of vectorial starting point ordinate
Two coordinates, P1Y、P2Y……PNY represents the first touch point, the second touch point ... N touch points on the touchscreen vertical respectively
Coordinate, PbZ represents to touch the 3rd coordinate of touching intensity corresponding to vectorial starting point.
Preferably, the second son touches vectorial determining module, is specifically used for:
Determine to touch vectorial terminal by below equation:
Wherein, PeX represents to touch the 4-coordinate of vectorial terminal abscissa, P1Z、P2Z……PNZ represents that first touches respectively
Touch point, the touching intensity size of the second touch point ... N touch points, PeY represents that the touch vectorial terminal ordinate the 5th sits
Mark, PeZ represents to touch the 6th coordinate of touching intensity corresponding to vectorial terminal.
As shown in figure 13, it is preferred that position determination module 312, specifically include:
Screen position point determining module 3121, for determining to touch vectorial terminal in screen position point corresponding to touch-screen;
First position point determining module 3122, for determining that screen position point is forming the first image of the first display pattern
Corresponding first position point;
Second place point determining module 3123, for determining that first position point is forming the second image of the first display pattern
Corresponding second place point;
Difference determining module 3124, for the coordinate difference according to first position point and second place point, determine that first regards
Difference.
Preferably, first position point determining module 3122, is specifically used for:
Determine screen position o'clock in first position point corresponding to the first image by below equation:
Wherein, P3dlX represents screen position o'clock in the abscissa of first position point corresponding to the first image, W3dRepresent first
The width of image, PeX represents to touch vectorial terminal in the abscissa of screen position point corresponding to touch-screen, WsRepresent touch-screen
Width, P3dlY represents screen position o'clock in the ordinate of first position point corresponding to the first image, PeY represents to touch vectorial terminal
In the ordinate of screen position point corresponding to touch-screen, H3dRepresent the height of the first image, HsRepresent the height of touch-screen.
Preferably, the second parallax determining module 32, is specifically used for:
Second parallax is determined by below equation:
Wherein, X2Represent the second parallax, XmaxRepresent the maximum disparity under default first display pattern, FmaxRepresent default
The first display pattern maximum disparity corresponding to maximum touch force degree, PeZ represents to touch touching intensity corresponding to vectorial terminal.
The embodiment of the present application three provides a kind of display, including the display device that the embodiment of the present application two provides.
In summary, the display methods that the embodiment of the present application provides, the operation information of display picture can be directed to user
Detected, and according to the operation information of user, the display to three-dimensional display picture is accordingly controlled, by making touch-screen root
Corresponding stereoscopic display is carried out according to the operation information of user, and then can realize touch-screen and be carried out according to the operation information of user
Display is interacted with the solid of user.
Obviously, those skilled in the art can carry out the essence of various changes and modification without departing from the application to the application
God and scope.So, if these modifications and variations of the application belong to the scope of the application claim and its equivalent technologies
Within, then the application is also intended to comprising including these changes and modification.
Claims (9)
1. a kind of display methods, it is characterised in that methods described includes:
Monitor the operation information that user is directed to stereoscopic display picture;
According to, to the touch action of the touch-screen, determining the touch action in screen position corresponding to the touch-screen when touching
The first parallax of point in the first display mode, first display pattern is that the display scene for watching user is entirely recessed
The display pattern of the touch-screen;
According to default touch action and the corresponding relation of parallax, it is determined that the second parallax corresponding to current touch action;
If second parallax is more than or equal to first parallax, touch-screen root under first display pattern is controlled
Three-dimensional interaction is carried out according to the touch action.
2. display methods as claimed in claim 1, it is characterised in that moved according to touch when touching to the touch-screen
Make, determine the touch action before the first parallax of screen position point in the first display mode corresponding to the touch-screen,
Also include:
When detecting that touch-screen is touched, the touch-screen is controlled to be adjusted to the first display pattern, institute by current display mode
It is that the part for watching user shows that scene protrudes the touch-screen, part shows that scene is recessed described to state current display mode
The display pattern of touch-screen.
3. display methods as claimed in claim 2, it is characterised in that the touch according to when touching to the touch-screen is moved
Make, determine the touch action in the first parallax of screen position point in the first display mode corresponding to the touch-screen, specifically
Including:
According to the touch location and touching intensity of touch point, it is determined that including touch vectorial starting point and touch the touch of vectorial terminal to
Amount, the vectorial starting point of touch includes representing the first coordinate and the second coordinate of the start position, and represents that the starting point is corresponding
Touching intensity the 3rd coordinate, the 4-coordinate and Five Axis for touching vectorial terminal and including representing the final position,
And represent the 6th coordinate of touching intensity corresponding to the terminal;
Determine it is described touch vectorial terminal in screen position point corresponding to the touch-screen first regarding in the first display mode
Difference.
4. display methods as claimed in claim 3, it is characterised in that the touch location and touch force according to touch point
Degree, it is determined that including touching vectorial starting point and touching the touch vector of vectorial terminal, specifically include:
According to the touch location of multiple touch points, it is determined that touching vectorial starting point;
According to the touch location and touching intensity of multiple touch points, it is determined that touching vectorial terminal;
The touch vector is determined according to the vectorial starting point of the touch and the vectorial terminal of touch.
5. display methods as claimed in claim 4, it is characterised in that according to the touch location of multiple touch points, it is determined that touching
Vectorial starting point, is specifically included:
The vectorial starting point of touch is determined by below equation:
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Wherein, PbX represents first coordinate for touching vectorial starting point abscissa, P1X、P2X……PNX represents first respectively
The abscissa of touch point, the second touch point ... N touch points on the touch-screen, PbY represents described and touches vectorial starting point
Second coordinate of ordinate, P1Y、P2Y……PNY represents the first touch point, the second touch point ... N touch points respectively
Ordinate on the touch-screen, PbZ represents the 3rd coordinate for touching touching intensity corresponding to vectorial starting point.
6. display methods as claimed in claim 5, it is characterised in that according to the touch location and touch force of multiple touch points
Degree, it is determined that touching vectorial terminal, is specifically included:
The vectorial terminal of touch is determined by below equation:
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Wherein, PeX represents the 4-coordinate for touching vectorial terminal abscissa, P1Z、P2Z……PNZ represents first respectively
Touch point, the touching intensity size of the second touch point ... N touch points, PeY represents the vectorial terminal ordinate of touch
The Five Axis, PeZ represents the 6th coordinate for touching touching intensity corresponding to vectorial terminal.
7. display methods as claimed in claim 3, it is characterised in that determine the vectorial terminal of touch in the touch-screen pair
The first parallax of the screen position point answered in the first display mode, is specifically included:
Determine the vectorial terminal of touch in screen position point corresponding to the touch-screen;
Determine that the screen position point is forming first position point corresponding to the first image of first display pattern;
Determine that the first position point is forming second place point corresponding to the second image of first display pattern;
According to the coordinate difference of the first position point and second place point, first parallax is determined.
8. display methods as claimed in claim 7, it is characterised in that described to determine that the screen position point is forming described first
First position point, is specifically included corresponding to first image of display pattern:
Determine the screen position point in first position point corresponding to described first image by below equation:
<mrow>
<msub>
<mi>P</mi>
<mrow>
<mn>3</mn>
<mi>d</mi>
<mi>l</mi>
</mrow>
</msub>
<mi>X</mi>
<mo>=</mo>
<mfrac>
<mrow>
<msub>
<mi>W</mi>
<mrow>
<mn>3</mn>
<mi>d</mi>
</mrow>
</msub>
<mo>&times;</mo>
<msub>
<mi>P</mi>
<mi>e</mi>
</msub>
<mi>X</mi>
</mrow>
<msub>
<mi>W</mi>
<mi>s</mi>
</msub>
</mfrac>
<mo>,</mo>
</mrow>
<mrow>
<msub>
<mi>P</mi>
<mrow>
<mn>3</mn>
<mi>d</mi>
<mi>l</mi>
</mrow>
</msub>
<mi>Y</mi>
<mo>=</mo>
<mfrac>
<mrow>
<msub>
<mi>H</mi>
<mrow>
<mn>3</mn>
<mi>d</mi>
</mrow>
</msub>
<mo>&times;</mo>
<msub>
<mi>P</mi>
<mi>e</mi>
</msub>
<mi>Y</mi>
</mrow>
<msub>
<mi>H</mi>
<mi>s</mi>
</msub>
</mfrac>
<mo>,</mo>
</mrow>
Wherein, P3dlX represents the screen position point in the abscissa of first position point corresponding to described first image, W3dRepresent
The width of described first image, PeX represents the horizontal seat for touching vectorial terminal in screen position point corresponding to the touch-screen
Mark, WsRepresent the width of the touch-screen, P3dlY represents the screen position point in first position corresponding to described first image
The ordinate of point, PeY represents described and touches vectorial terminal in the ordinate of screen position point corresponding to the touch-screen, H3dRepresent
The height of first image, HsRepresent the height of the touch-screen.
9. display methods as claimed in claim 3, it is characterised in that described corresponding with parallax according to default touch action
Relation, it is determined that the second parallax corresponding to current touch action, is specifically included:
Second parallax is determined by below equation:
<mrow>
<msub>
<mi>X</mi>
<mn>2</mn>
</msub>
<mo>=</mo>
<mfrac>
<mrow>
<mo>|</mo>
<msub>
<mi>X</mi>
<mrow>
<mi>m</mi>
<mi>a</mi>
<mi>x</mi>
</mrow>
</msub>
<mo>|</mo>
</mrow>
<msub>
<mi>F</mi>
<mi>max</mi>
</msub>
</mfrac>
<mo>&times;</mo>
<msub>
<mi>P</mi>
<mi>e</mi>
</msub>
<mi>Z</mi>
<mo>,</mo>
</mrow>
Wherein, X2Represent second parallax, XmaxRepresent the maximum disparity under default first display pattern, FmaxRepresent
Maximum touch force degree corresponding to the maximum disparity of default first display pattern, PeZ represents described and touches vectorial terminal pair
The touching intensity answered.
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CN102331903A (en) * | 2010-07-12 | 2012-01-25 | Lg电子株式会社 | Mobile terminal and controlling method thereof |
CN103488413A (en) * | 2013-04-26 | 2014-01-01 | 展讯通信(上海)有限公司 | Touch equipment and control method and device for displaying 3D (3-dimensional) interface on touch equipment |
CN103513879A (en) * | 2013-04-26 | 2014-01-15 | 展讯通信(上海)有限公司 | Touch control device and display control method and device thereof |
CN103729118A (en) * | 2012-10-16 | 2014-04-16 | 北京三星通信技术研究有限公司 | Method and mobile equipment for zooming display |
CN104282029A (en) * | 2013-07-11 | 2015-01-14 | 北京中盈安信技术服务有限公司 | Three-dimensional model image processing method and electronic terminal |
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CN102331903A (en) * | 2010-07-12 | 2012-01-25 | Lg电子株式会社 | Mobile terminal and controlling method thereof |
CN103729118A (en) * | 2012-10-16 | 2014-04-16 | 北京三星通信技术研究有限公司 | Method and mobile equipment for zooming display |
CN103488413A (en) * | 2013-04-26 | 2014-01-01 | 展讯通信(上海)有限公司 | Touch equipment and control method and device for displaying 3D (3-dimensional) interface on touch equipment |
CN103513879A (en) * | 2013-04-26 | 2014-01-15 | 展讯通信(上海)有限公司 | Touch control device and display control method and device thereof |
CN104282029A (en) * | 2013-07-11 | 2015-01-14 | 北京中盈安信技术服务有限公司 | Three-dimensional model image processing method and electronic terminal |
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