CN107707901A - A kind of display methods, device and equipment for bore hole 3D display screen - Google Patents
A kind of display methods, device and equipment for bore hole 3D display screen Download PDFInfo
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- CN107707901A CN107707901A CN201710919940.4A CN201710919940A CN107707901A CN 107707901 A CN107707901 A CN 107707901A CN 201710919940 A CN201710919940 A CN 201710919940A CN 107707901 A CN107707901 A CN 107707901A
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Abstract
The invention provides a kind of display methods, device and equipment for bore hole 3D display screen, the bore hole 3D display screen includes the light-dividing device of display panel and setting on a display panel, and the light-dividing device is in light splitting state, and this method includes:Determine the 3D display region and 2D viewing areas on the bore hole 3D display screen;3D display content in content to be displayed is subjected to bore hole 3D display in the 3D display region, and the 2D display contents in the content to be displayed are subjected to 2D in the 2D viewing areas and shown, so as to which the 3D display content shown in a manner of bore hole 3D and the 2D display contents shown in a 2D way be presented simultaneously on the bore hole 3D display screen.Therefore, the solution of the present invention, solve bore hole 3D display system of the prior art and showing 2D display contents and during 3D display content, the problem of its display pattern needs to toggle between 2D display patterns and 3D display pattern.
Description
Technical field
The present invention relates to 3D system control fields, more particularly to a kind of display methods for bore hole 3D display screen, dress
Put and equipment.
Background technology
Bore hole 3D display technology can provide the user with extraordinary 3D stereoscopic visions viewing experience.Bore hole 3D display screen
Generally include display panel and be arranged on the light-dividing device of display panel, such as grating, carried out on bore hole 3D display screen naked
During eye 3D display, row's figure is carried out to stereo-picture first, i.e., by left-eye image and eye image according to certain regularly arranged display
On the display panel of bore hole 3D display screen, while the light splitting effect of light-dividing device on a display panel is equipped with, will
Left-eye image is sent into the left eye of user, eye image is sent into the right eye of user, so that user watches 3D images.
However, generally it is all based on full screen when carrying out bore hole 3D display on bore hole 3D display screen at present and is shown
Show, i.e., 3D contents full screen is turned on or off.So when user needs to watch 2D display contents on bore hole 3D display screen
When, it has to 3D display content is closed, lays equal stress on and newly switches to 2D to show.
It follows that in the prior art, bore hole 3D display system when showing 2D display contents and 3D display content, its
Display pattern needs to toggle between 2D display patterns and 3D display pattern, causes that user's is inconvenient to watch.
The content of the invention
The embodiment provides a kind of display methods, device and equipment for bore hole 3D display screen, with solution
When showing 2D display contents and 3D display content, its display pattern needs in 2D bore hole 3D display system certainly of the prior art
The problem of being toggled between display pattern and 3D display pattern.
The embodiment provides a kind of display methods for bore hole 3D display screen, the bore hole 3D display screen
Curtain includes the light-dividing device of display panel and setting on a display panel, and the light-dividing device is in light splitting state, methods described
Including:
Determine the 3D display region and 2D viewing areas on the bore hole 3D display screen;
3D display content in content to be displayed is subjected to bore hole 3D display in the 3D display region, and treated described
2D display contents in display content carry out 2D in the 2D viewing areas and shown, so as on the bore hole 3D display screen
The 3D display content shown in a manner of bore hole 3D and the 2D display contents shown in a 2D way are presented simultaneously.
Wherein, in such scheme, the 3D display region and 2D viewing areas determined on the bore hole 3D display screen
The step of, including:
Identified according to display pattern set in advance, determine that the 3D display region on the bore hole 3D display screen and 2D show
Show region;
Or
The viewing area inputted according to user indicates, determines that the 3D display region on the bore hole 3D display screen and 2D show
Show region.
Wherein, in such scheme, in addition to:
Receive the move in the 3D display region;
The position in the 3D display region is adjusted according to the move, and by the 3D display content in adjustment position
Bore hole 3D display is carried out in the 3D display region afterwards;Or the 3D display region is adjusted according to the move
Position and the position of the 2D viewing areas, and the 3D display content is entered in the 3D display region after adjustment position
Row bore hole 3D display, and the 2D display contents are subjected to 2D in the 2D viewing areas after adjustment position and shown;
And/or
Receive the scaling instruction in the 3D display region;
The position in the 3D display region is adjusted according to the scaling instruction, and by the 3D display content in adjustment position
Bore hole 3D display is carried out in the 3D display region afterwards;Or the 3D display region is adjusted according to the scaling instruction
Position and the position of the 2D viewing areas, and the 3D display content is entered in the 3D display region after adjustment position
Row bore hole 3D display, and the 2D display contents are subjected to 2D in the 2D viewing areas after adjustment position and shown.
Wherein, in such scheme, the 3D display content by content to be displayed is carried out in the 3D display region
The step of bore hole 3D display, including:
Determine the conversion of the displaing coordinate system in the 3D display region and the displaing coordinate system of the bore hole 3D display screen
Relation;
According to the transformational relation, and row's graph parameter of the predetermined bore hole 3D display screen, it is determined that described
Row's figure information in 3D display region;
According to row's figure information in the 3D display region, the 3D display content is shown in the 3D display region.
Wherein, in such scheme, the displaing coordinate system for determining the 3D display region and the bore hole 3D display screen
The step of transformational relation of the displaing coordinate system of curtain, including:
Obtain displaing coordinate system of the origin in the bore hole 3D display screen of the displaing coordinate system in the 3D display region
In coordinate;
According to the origin of the displaing coordinate system in the 3D display region the bore hole 3D display screen displaing coordinate system
In coordinate, determine the conversion of the displaing coordinate system in the 3D display region and the displaing coordinate system of the bore hole 3D display screen
Relation is:
Wherein, (a, b) represents the origin of the displaing coordinate system in the 3D display region in the bore hole 3D display screen
Coordinate in displaing coordinate system, (x, y) represent that display of the pixel in the 3D display region in the 3D display region is sat
Coordinate in mark system, (xs, ys) represent displaing coordinate of the pixel in the 3D display region in the bore hole 3D display screen
Coordinate in system.
Wherein, in such scheme, row's figure information includes the location index of the pixel in the 3D display region;
It is described according to the transformational relation, and row's graph parameter of the predetermined bore hole 3D display screen, it is determined that
The step of row's figure information in the 3D display region, including:
According to the transformational relation, determine the pixel in the 3D display region in the aobvious of the bore hole 3D display screen
Show the coordinates of targets in coordinate system;
According to the coordinates of targets and row's graph parameter of the predetermined bore hole 3D display screen, the 3D is determined
The location index of the pixel of viewing area;
Row's figure information according to the 3D display region, the 3D display content is shown in the 3D display region
The step of, including:
According to the location index, the pixel in the 3D display region and the pixel of the 3D display content are determined
Mapping relations;
According to the mapping relations of the pixel in the 3D display region and the pixel of the 3D display content, in the 3D
The 3D display content is shown in viewing area.
Wherein, in such scheme, row's graph parameter includes the displacement of row's figure, row's figure cycle and row's figure inclination angle, the 3D and shown
Show that content includes left-eye view and right-eye view;
It is described according to the coordinates of targets and the predetermined bore hole 3D display screen row's graph parameter, determine institute
The step of stating the location index of the pixel in 3D display region, including:
The location index of the pixel in the 3D display region is determined according to equation below;
Index=(xs-ys× cot (θ)-offset) %pitch,
Wherein, index represents location index, (xs, ys) represent pixel in the 3D display region in the bore hole 3D
Coordinates of targets in the displaing coordinate system of display screen, θ represent row's figure inclination angle, and offset represents row's figure displacement, and pitch represents row
Figure inclination angle;
It is described according to the location index, determine the pixel in the 3D display region and the pixel of the 3D display content
The step of mapping relations of point, including:
Judge whether the location index of the pixel in the 3D display region is less than the half that the row schemes the cycle;
When location index be less than the row scheme the cycle half when, determine in the 3D display region with the position rope
Mapping relations be present in pixel corresponding to drawing and the pixel of corresponding position in the left-eye view;
When location index be more than the row scheme the cycle half when, determine in the 3D display region with the position rope
Mapping relations be present in pixel corresponding to drawing and the pixel of corresponding position in the right-eye view;
The mapping relations of the pixel according to the 3D display region and the pixel of the 3D display content, in institute
State and show that the 3D display content includes in 3D display region:
The display color of pixel in the 3D display region is shown as with the 3D showing in the 3D display content
Show that the pixel in region has the display color of the pixel of mapping relations.
Wherein, in such scheme, described according to the transformational relation, and the predetermined bore hole 3D display screen
Row's graph parameter of curtain, before the step of determining row's figure information in the 3D display region, methods described also includes:
Obtain the viewing location of user;
According to the viewing location of the user and light-dividing device parameter set in advance, the bore hole 3D display screen is determined
Row's graph parameter.
Wherein, in such scheme, the 2D display contents by the content to be displayed are in the 2D viewing areas
The step of carrying out 2D displays, including:
Smoothing processing object in the 2D display contents is smoothed, the smoothing processing object is included all
Specific region in the 2D display contents or the 2D display contents;
The 2D display contents after smoothing processing are carried out into 2D in the 2D viewing areas to show.
Wherein, in such scheme, step that the smoothing processing object in the 2D display contents is smoothed
Suddenly, including:
Using square frame filtering algorithm, Mean Filtering Algorithm or Gaussian filter algorithm to the smooth place in the 2D display contents
Reason object is smoothed.
Embodiments of the invention additionally provide a kind of display device for bore hole 3D display screen, the bore hole 3D display
Screen includes the light-dividing device of display panel and setting on a display panel, and the light-dividing device is in light splitting state, the dress
Put including:
Viewing area determining module, for determining 3D display region and 2D viewing areas on the bore hole 3D display screen
Domain;
Display module, show for the 3D display content in content to be displayed to be carried out into bore hole 3D in the 3D display region
Show, and the 2D display contents in the content to be displayed are subjected to 2D in the 2D viewing areas and shown, so as to described naked
The 3D display content shown in a manner of bore hole 3D and the 2D display contents shown in a 2D way are presented simultaneously on eye 3D display screen.
Wherein, in such scheme, the viewing area determining module includes:
First determining unit, for being identified according to display pattern set in advance, determine on the bore hole 3D display screen
3D display region and 2D viewing areas;
Or
Second determining unit, for the viewing area instruction inputted according to user, determine on the bore hole 3D display screen
3D display region and 2D viewing areas.
Wherein, in such scheme, described device also includes:
First command reception module, for receiving the move in the 3D display region;
The display module is additionally operable to adjust the position in the 3D display region according to the move, and by the 3D
Display content carries out bore hole 3D display in the 3D display region after adjustment position;Or adjusted according to the move
The position in the whole 3D display region and the position of the 2D viewing areas, and by the 3D display content after adjustment position
Bore hole 3D display, and the 2D viewing areas by the 2D display contents after adjustment position are carried out in the 3D display region
2D is carried out in domain to show;
And/or
Second command reception module, the scaling for receiving the 3D display region instruct;
The display module is additionally operable to adjust the position in the 3D display region according to the scaling instruction, and by the 3D
Display content carries out bore hole 3D display in the 3D display region after adjustment position;Or adjusted according to the scaling instruction
The position in the whole 3D display region and the position of the 2D viewing areas, and by the 3D display content after adjustment position
Bore hole 3D display, and the 2D viewing areas by the 2D display contents after adjustment position are carried out in the 3D display region
2D is carried out in domain to show.
Wherein, in such scheme, the display module includes:
Transformational relation determining unit, for the displaing coordinate system for determining the 3D display region and the bore hole 3D display screen
The transformational relation of the displaing coordinate system of curtain;
Figure information determination unit is arranged, for according to the transformational relation, and the predetermined bore hole 3D display screen
Row's graph parameter of curtain, determine row's figure information in the 3D display region;
3D display unit, for row's figure information according to the 3D display region, institute is shown in the 3D display region
State 3D display content.
Wherein, in such scheme, the transformational relation determining unit includes:
Origin obtain subelement, for obtain the 3D display region displaing coordinate system origin in the bore hole
Coordinate in the displaing coordinate system of 3D display screen;
Transformational relation determination subelement, the origin for the displaing coordinate system according to the 3D display region is in the bore hole
Coordinate in the displaing coordinate system of 3D display screen, determine the displaing coordinate system in the 3D display region and the bore hole 3D display
The transformational relation of the displaing coordinate system of screen is:
Wherein, (a, b) represents the origin of the displaing coordinate system in the 3D display region in the bore hole 3D display screen
Coordinate in displaing coordinate system, (x, y) represent that display of the pixel in the 3D display region in the 3D display region is sat
Coordinate in mark system, (xs, ys) represent displaing coordinate of the pixel in the 3D display region in the bore hole 3D display screen
Coordinate in system.
Wherein, in such scheme, row's figure information includes the location index of the pixel in the 3D display region;
Row's figure information determination unit includes:
Coordinate Conversion subelement, for according to the transformational relation, determining the pixel in the 3D display region in institute
State the coordinates of targets in the displaing coordinate system of bore hole 3D display screen;
Location index determination subelement, for according to the coordinates of targets and the predetermined bore hole 3D display screen
Row's graph parameter of curtain, determine the location index of the pixel in the 3D display region;
The 3D display unit includes:
Mapping relations determination subelement, for according to the location index, determine the pixel in the 3D display region with
The mapping relations of the pixel of the 3D display content;
3D display subelement, for the pixel according to the 3D display region and the pixel of the 3D display content
Mapping relations, the 3D display content is shown in the 3D display region.
Wherein, in such scheme, row's graph parameter includes the displacement of row's figure, row's figure cycle and row's figure inclination angle, the 3D and shown
Show that content includes left-eye view and right-eye view;
The location index determination subelement is specifically used for:
The location index of the pixel in the 3D display region is determined according to equation below;
Index=(xs-ys× cot (θ)-offset) %pitch,
Wherein, index represents location index, (xs, ys) represent pixel in the 3D display region in the bore hole 3D
Coordinates of targets in the displaing coordinate system of display screen, θ represent row's figure inclination angle, and offset represents row's figure displacement, and pitch represents row
Figure inclination angle;
The mapping relations determination subelement is specifically used for:
Judge whether the location index of the pixel in the 3D display region is less than the half that the row schemes the cycle;
When location index be less than the row scheme the cycle half when, determine in the 3D display region with the position rope
Mapping relations be present in pixel corresponding to drawing and the pixel of corresponding position in the left-eye view;
When location index be more than the row scheme the cycle half when, determine in the 3D display region with the position rope
Mapping relations be present in pixel corresponding to drawing and the pixel of corresponding position in the right-eye view;
The 3D display subelement is specifically used for:
The display color of pixel in the 3D display region is shown as with the 3D showing in the 3D display content
Show that the pixel in region has the display color of the pixel of mapping relations.
Wherein, in such scheme, the display module also includes:
Position acquisition unit, for obtaining the viewing location of user;
Graph parameter determining unit is arranged, for the viewing location according to the user and light-dividing device parameter set in advance,
Determine row's graph parameter of the bore hole 3D display screen.
Wherein, in such scheme, the display module includes:
Smoothing processing unit is described flat for being smoothed to the smoothing processing object in the 2D display contents
Sliding process object includes the specific region in all 2D display contents or the 2D display contents;
2D display units, show for the 2D display contents after smoothing processing to be carried out into 2D in the 2D viewing areas
Show.
Wherein, in such scheme, the smoothing processing unit is specifically used for:
Using square frame filtering algorithm, Mean Filtering Algorithm or Gaussian filter algorithm to the smooth place in the 2D display contents
Reason object is smoothed.
Embodiments of the invention additionally provide a kind of bore hole 3D display equipment, and the bore hole 3D display equipment includes bore hole 3D
Display screen, the bore hole 3D display screen include the light-dividing device of display panel and setting on a display panel, the light splitting
Device is in light splitting state, and the equipment also includes:
Processor and memory;
The processor calls the computer program in the memory to perform described above to be used for bore hole 3D display screen
The display methods of curtain.
Embodiments of the invention additionally provide a kind of computer-readable recording medium, the computer-readable recording medium bag
Include computer program, the computer program can be executed by processor to complete the described above bore hole 3D display screen that is used for
Display methods.
The beneficial effect of the embodiment of the present invention is:
Embodiments of the invention, can be in the case where the light-dividing device of bore hole 3D display screen be in light splitting state, in bore hole 3D
3D display region and 2D viewing areas are determined in display screen, so that by the 3D display content in content to be displayed in 3D display
Bore hole 3D display is carried out in region, and the 2D display contents in content to be displayed are subjected to 2D in 2D viewing areas and shown, from
And the 2D that the 3D display content shown in a manner of bore hole 3D is presented simultaneously on bore hole 3D display screen and shows in a 2D way shows
Show content.Therefore, embodiments of the invention, bore hole 3D display screen can be utilized to watch simultaneously in 2D display contents and 3D display
Hold, without being toggled between 2D display patterns and 3D display pattern, greatly improve the viewing convenience of user.
Brief description of the drawings
In order to illustrate the technical solution of the embodiments of the present invention more clearly, below by institute in the description to the embodiment of the present invention
The accompanying drawing needed to use is briefly described, it should be apparent that, drawings in the following description are only some implementations of the present invention
Example, for those of ordinary skill in the art, without having to pay creative labor, can also be according to these accompanying drawings
Obtain other accompanying drawings.
Fig. 1 represents the flow chart of the display methods for bore hole 3D display screen of the embodiment of the present invention;
Fig. 2 represents to carry out 2D simultaneously in embodiments of the invention and one of show with the interface schematic diagram of 3D display;
Fig. 3 represents that carrying out 2D in embodiments of the invention simultaneously show and the two of the interface schematic diagram of 3D display;
Fig. 4 represents that carrying out 2D in embodiments of the invention simultaneously show and the three of the interface schematic diagram of 3D display;
Fig. 5 represents to calculate the principle schematic of location index in embodiments of the invention;
Fig. 6 represents the principle cooperation schematic diagram of display panel and light-dividing device in the embodiment of the present invention;
Fig. 7 represents the structured flowchart of the display device for bore hole 3D display screen of the embodiment of the present invention;
Fig. 8 represents the structured flowchart of the bore hole 3D display equipment of the embodiment of the present invention.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is part of the embodiment of the present invention, rather than whole embodiments.Based on this hair
Embodiment in bright, the every other implementation that those of ordinary skill in the art are obtained under the premise of creative work is not made
Example, belongs to the scope of protection of the invention.
The embodiment provides a kind of display methods for bore hole 3D display screen, as shown in figure 1, this method
Including:
Step 101:Determine the 3D display region and 2D viewing areas on bore hole 3D display screen.
Wherein, the bore hole 3D display screen that embodiments of the invention are applied includes display panel and is arranged on display panel
On light-dividing device.The light-dividing device can be static grating, such as slit grating, lenticulation etc., and it is constantly in light splitting
State, the light-dividing device can also be switchable or adjustable dynamic raster, for example, liquid crystal lens grating, liquid crystal slit
Grating.Wherein, dynamic raster can switch, and static grating can not then close.
In an embodiment of the present invention, bore hole 3D display screen can also carry out 2D and show except that can show 3D stereoeffects
Show, 2D/3D can also be carried out while shown.
And in embodiments of the invention, due to needing to carry out 3D display and 2D is shown simultaneously, and 3D display is to need to be divided
The light splitting effect of device, therefore, the light-dividing device of the bore hole 3D display screen is in during 2D and 3D is shown simultaneously
Light splitting state.
In this step, it is thus necessary to determine that 3D display region and 2D viewing areas on bore hole 3D display screen, that is, determine bore hole
The display pattern of each viewing area on 3D display screen.In one embodiment of the invention, the region is alternatively referred to as window,
I.e. it needs to be determined that 3D display window and 2D display windows on screen, that is, it needs to be determined that the display pattern of each display window.
3D display region and 2D viewing areas may each comprise at least one.Wherein, the 3D display region is at least one, when user needs
When watching multiple 3D contents, then multiple 3D display regions are needed to show different 3D contents.Such as:The display of two 3D pictures,
After bore hole 3D display screen loads two 3D pictures, then it can be shown respectively in two 3D display regions, such as Fig. 3 institutes
Show.Thus, the embodiment provides more display modes.
In addition, for 3D display region and 2D viewing areas, can be separate in display, it is independent of each other, such as Fig. 4 institutes
Show.It is 2D viewing areas that the region on bore hole 3D display screen outside 3D display region, which can also be set, as shown in Figures 2 and 3.
Certainly, for 3D display region and 2D viewing areas, the size in region can also be relative to each other both during display, and a region is expanded
Greatly, another region accordingly reduces.
Alternatively, step 101 includes:Identified, determined on bore hole 3D display screen according to display pattern set in advance
3D display region and 2D viewing areas.
For each window area, display pattern mark can be set with advance, indicate the window for 3D display pattern or
2D display patterns, for distinguishing 3D display region and 2D viewing areas on bore hole 3D display screen.In this step, it can read
The display pattern identifies, so that it is determined that the display pattern of the window, that is, determine the 3D display region on bore hole 3D display screen
With 2D viewing areas.
Optionally, step 101 includes:The viewing area inputted according to user indicates, determines on bore hole 3D display screen
3D display region and 2D viewing areas.
In one kind is embodied, the display pattern of each window can be configured by user, i.e., user can be with defeated
Enter viewing area instruction, the instruction is used for the display pattern for setting window, for example, the viewing area of user's input is designated as being used for
The instruction of the display pattern for any region changed on bore hole 3D screens., can be according to the viewing area of user's input in this step
Domain indicates, determines the display pattern of window, that is, determines the 3D display region and 2D viewing areas on bore hole 3D display screen.With
Family can be by way of touch-control, such as the various ways input viewing area instruction such as draws a circle to approve, clicks on, choosing.
From the foregoing, for the different viewing areas divided on bore hole 3D display screen, it can be respectively adopted and set in advance
Fixed display pattern mark makes a distinction.Such as 3D display region is provided with the mark of " 3D " printed words, 2D viewing areas are provided with
The mark of " 2D " printed words, or, with 1 and 0 grade spcial character, the display pattern of each window is identified, so as in bore hole 3D display
When content to be shown is shown on screen, 3D display region and 2D viewing areas can be made a distinction according to this kind of mark.
In addition, for the different viewing areas divided on bore hole 3D display screen, 3D display pattern and 2D can be respectively provided with
Display pattern, then when showing content to be shown on bore hole 3D display screen, it can be set each according to the actual selection of user
Individual viewing area is 3D display region or 2D viewing areas.
Step 102:3D display content in content to be displayed is subjected to bore hole 3D display in 3D display region, and will be treated
2D display contents in display content carry out 2D in 2D viewing areas and shown, so as to be presented on bore hole 3D display screen simultaneously
The 3D display content shown in a manner of bore hole 3D and the 2D display contents shown in a 2D way.
In embodiments of the invention, bore hole 3D display screen can be utilized to watch simultaneously in 2D display contents and 3D display
Hold, without being toggled between 2D display patterns and 3D display pattern, greatly improve the viewing convenience of user.
In one embodiment of the invention, any one of 3D display region and 2D viewing areas are to move
, you can selection of land, embodiments of the invention may also include:
Receive the move in 3D display region;
The position in 3D display region, and the 3D display area by 3D display content after adjustment position are adjusted according to move
Bore hole 3D display is carried out in domain;Or the position in 3D display region and the position of 2D viewing areas are adjusted according to move, and
3D display content is subjected to bore hole 3D display in the 3D display region after adjustment position, and by 2D display contents in adjustment position
2D is carried out in the 2D viewing areas postponed to show;
In one embodiment of the invention, any one of 3D display region and 2D viewing areas can also be carried out certainly
Scaling, you can selection of land, embodiments of the invention may also include:
Receive the scaling instruction in 3D display region;
The position in adjustment 3D display region, and the 3D display area by 3D display content after adjustment position are instructed according to scaling
Bore hole 3D display is carried out in domain;Or the position in adjustment 3D display region and the position of 2D viewing areas are instructed according to scaling, and
3D display content is subjected to bore hole 3D display in the 3D display region after adjustment position, and by 2D display contents in adjustment position
2D is carried out in the 2D viewing areas postponed to show.
From the foregoing, in an embodiment of the present invention, 3D display region can move, can also zoom in and out.Wherein,
When 3D display region and 2D viewing areas are separate, when being independent of each other, then no matter 3D display region are moved or contracted
Put, all without the position for influenceing 2D viewing areas, now, directly by 3D display content in 3D display region after adjustment position
Bore hole 3D display is carried out, and the display to 2D display contents is adjusted.
However, when 2D viewing areas are region outside 3D display region on bore hole 3D display screen, bore hole 3D is shown
While showing that region moves and scaled, the position of 2D viewing areas can be caused to produce change, thus, in such cases,
Not only need 3D display content carrying out bore hole 3D display in 3D display region after adjustment position, and need to show 2D
Content is shown in the 2D viewing areas after adjustment position.
Specifically, the above-mentioned 3D display content by content to be displayed carries out the step of bore hole 3D display in 3D display region
Suddenly, including:
Determine the transformational relation of the displaing coordinate system in 3D display region and the displaing coordinate system of bore hole 3D display screen;
According to transformational relation, and row's graph parameter of predetermined bore hole 3D display screen, 3D display region is determined
Arrange figure information;
According to row's figure information in 3D display region, 3D display content is shown in 3D display region.
It is understood that for 3D display screen and 3D display region, light-dividing device is all 3D display screen
Light-dividing device, carries out 3D display on whole 3D display screen and the subregion on screen carries out 3D display, and it is divided dress
It is identical to put and arrange graph parameter.
It is, for example, to arrange figure displacement, row figure inclination angle and row's figure cycle etc. to arrange graph parameter.
3D display content includes left-eye image and eye image, it is, in principle, that the display panel of bore hole 3D display screen
For according to certain regularly arranged left-eye image and eye image (i.e. row schemes), i.e., according to row's graph parameter arrangement left-eye image and
Eye image, light-dividing device are divided, and left-eye image are projected into the left eye of user, eye image projects the right side of access customer
Eye, so as to be that user perceives stereoscopic vision, even if user watches 3D images, realize bore hole stereoscopic display.That is, row's figure
It is engaged with light-dividing device.In bore hole 3D display screen, light-dividing device is relative to the long side or short side of display panel
Tilted-putted, i.e., with certain angle, and row's figure will be engaged with light-dividing device, then row's figure is the need for certain angle
, the angle is referred to as arranging figure inclination angle, and light-dividing device is periodically to be divided, and row's figure and periodically row's figure, i.e. row's figure have row
Scheme the cycle, i.e. recurring cyclically arrangement right and left eyes image, each row's figure cycle half arrangement left-eye image, second half arrangement right eye
Image.And row's figure displacement refers to, the distance of the nearest row's figure cycle starting point distance row's primitive point of distance row's primitive point.
3D display is carried out due to carrying out 3D display and the subregion on screen on whole 3D display screen, it is divided
Device and row's graph parameter are identicals, and there is respective display to sit respectively for whole bore hole 3D display screen and 3D display region
Mark system, therefore, when 3D display content is included in the 3D display region on bore hole 3D screens, then need 3D display region
Displaing coordinate system in Coordinate Conversion into the displaing coordinate system of bore hole 3D display screen, that is, obtain the transformational relation of the two,
Then according to transformational relation and row's graph parameter of bore hole 3D display screen, row's figure information in 3D display region, i.e. 3D are determined
The corresponding relation of each pixel and pixel in right and left eyes image in viewing area, and then just can be by 3D display content according to this
Figure presentation of information is arranged in 3D display region.Row's figure information is used to indicate each pixel and right and left eyes image in 3D display region
Each pixel of the corresponding relation of middle pixel, i.e. 3D display region is shown as which of left-eye image or eye image picture
Vegetarian refreshments.
Further, the displaing coordinate system in above-mentioned determination 3D display region and the displaing coordinate system of bore hole 3D display screen
The step of transformational relation, including:
Obtain coordinate of the origin of the displaing coordinate system in 3D display region in the displaing coordinate system of bore hole 3D display screen;
According to coordinate of the origin of the displaing coordinate system in 3D display region in the displaing coordinate system of bore hole 3D display screen,
The transformational relation for determining the displaing coordinate system and the displaing coordinate system of bore hole 3D display screen in 3D display region is:
Wherein, (a, b) represents displaing coordinate of the origin in bore hole 3D display screen of the displaing coordinate system in 3D display region
Coordinate in system, (x, y) represent coordinate of the pixel in the displaing coordinate system in 3D display region in 3D display region, (xs,
ys) represent coordinate of the pixel in the displaing coordinate system of bore hole 3D display screen in 3D display region.
That is, the coordinate of a certain pixel displaing coordinate system with 3D display region respectively in the displaing coordinate system in 3D display region
Coordinate of the origin in the displaing coordinate system of bore hole 3D display screen be added, you can obtain the pixel in bore hole 3D display screen
Displaing coordinate system in coordinate.
Further, arranging figure information includes the location index of the pixel in 3D display region;The location index represents 3D
Which of pixel in viewing area and 3D display content pixel is corresponding;
It is above-mentioned according to transformational relation, and row's graph parameter of predetermined bore hole 3D display screen, determine 3D display area
The step of row's figure information in domain, including:
According to transformational relation, determine the pixel in 3D display region in the displaing coordinate system of bore hole 3D display screen
Coordinates of targets;
According to coordinates of targets and row's graph parameter of predetermined bore hole 3D display screen, the picture in 3D display region is determined
The location index of vegetarian refreshments;
Accordingly, above-mentioned row's figure information according to 3D display region, the step of 3D display content is shown in 3D display region
Suddenly, including:
According to location index, the mapping relations of the pixel in 3D display region and the pixel of 3D display content are determined;
According to the mapping relations of the pixel in 3D display region and the pixel of 3D display content, show in 3D display region
Show 3D display content.
From the foregoing, turn according to the displaing coordinate system in 3D display region and the displaing coordinate system of bore hole 3D display screen
Relation is changed, can after in the displaing coordinate system of the Coordinate Conversion of each pixel in 3D display region to bore hole 3D display screen
To be shown according to coordinate of each pixel in 3D display region in the displaing coordinate system of bore hole 3D display screen and bore hole 3D
Row's graph parameter of display screen curtain, determine which of each pixel and 3D display content pixel are corresponding in 3D display region,
So as to which when 3D display content is shown in 3D display region, the pixel in 3D display region is shown as in 3D display
Pixel in appearance corresponding thereto.
Further, arranging graph parameter includes the displacement of row's figure, arranges figure cycle and row's figure inclination angle, and 3D display content regards including left eye
Figure and right-eye view;
According to coordinates of targets and row's graph parameter of predetermined bore hole 3D display screen, the picture in 3D display region is determined
The step of location index of vegetarian refreshments, including:
The location index of the pixel in 3D display region is determined according to equation below;
Index=(xs-ys× cot (θ)-offset) %pitch,
Wherein, index represents location index, (xs, ys) represent pixel in 3D display region in bore hole 3D display screen
Displaing coordinate system in coordinates of targets, θ represents row figure inclination angle, and offset represents row's figure displacement, and pitch represents row's figure inclination angle;
Accordingly, according to location index, the mapping of the pixel in 3D display region and the pixel of 3D display content is determined
The step of relation, including:
Judge whether the location index of the pixel in 3D display region is less than the half in row's figure cycle;
When location index is less than the half in row's figure cycle, determine corresponding with the location index in 3D display region
Mapping relations be present in pixel and the pixel of corresponding position in left-eye view;It is less than two points of row's figure cycle in location index
For the moment, then the pixel is used to show left-eye view, that is, shows the pixel of left-eye view relevant position.
When location index is more than the half in row's figure cycle, determine corresponding with the location index in 3D display region
Mapping relations be present in pixel and the pixel of corresponding position in right-eye view;It is more than two points of row's figure cycle in location index
For the moment, then the pixel is used to show right-eye view, that is, shows the pixel of right-eye view relevant position.
When location index is equal to the half in row's figure cycle, determine corresponding with the location index in 3D display region
Mapping relations be present in pixel and the pixel of corresponding position in right-eye view or left-eye view.It is equal to row in location index to scheme
During the half in cycle, then the pixel can be used for display right-eye view to can also be used for showing left-eye view.
Certainly, conventionally preceding 1/2nd corresponding left-eye views in row's figure cycle, rear half correspond to right-eye view, but
It is the possibility for being not excluded for exchanging, i.e., preceding 1/2nd corresponding right-eye view, rear half corresponds to left-eye view.
Accordingly, the mapping relations of the above-mentioned pixel according to 3D display region and the pixel of 3D display content, in 3D
Show that 3D display content includes in viewing area:
The display color (i.e. pixel value) of pixel in 3D display region is shown as in 3D display content and 3D display
The display color (i.e. pixel value) of the pixel of mapping relations be present in the pixel in region.
Wherein, as shown in figure 5, big square frame represents screen, small square frame represents 3D display region, and O points are screen display coordinate
The origin of system arranges primitive point, and offset represents to arrange figure displacement, and θ represents row's figure inclination angle, and pitch represents that row schemes the cycle, in figure
Dotted line represents that the row on bore hole 3D screens schemes distribution.Then as shown in Figure 5, line segment CB length=line segment OA length-line segment OC
Length-line segment BA length, and line segment OA length is pixel Ps in 3D display region in bore hole 3D display screen
In abscissa x0, line segment OC length is to arrange figure displacement offset, line segment BA length=y0 × cot (θ), thus can be with
Line segment CB length=x0-y0 × cot (θ)-offset is obtained, CB is the location index for representing Ps points.And then according to CB length
Degree with row figure period p itch halfs relation, it may be determined that go out B points be located at row figure the cycle preceding half, or after
Half, it is determined that go out the corresponding relation of Ps points and left and right view, preceding half is left-eye view, and rear half is the right side
Eye view.
In addition, it will be appreciated from fig. 6 that the display panel 602 of bore hole 3D display screen shows stereo-picture (i.e. left view L and the right side
View R) when, light-dividing device 601 is divided to stereo-picture, and so as to which left-eye view to be sent into the left eye of user, right eye is regarded
Figure is sent into the right eye of user, so that user watches 3D images, realizes bore hole stereoscopic display.Wherein, one group of LR is corresponding one
Row's figure cycle.It should be noted that Fig. 6, which is only principle signal, is not offered as real row's figure, in fact, light-dividing device and display
Panel has certain distance, and row is greater than the cycle of light-dividing device the figure cycle.
Thus, after determining that Ps points are located at the preceding half that row schemes the cycle, or rear half, then it can determine
Be present mapping relations in the pixel for going out Ps points and correspondence position in left-eye view or right-eye view, and then closed according to the mapping
System, the Ps points in 3D display region is shown as the pixel of mapping relations be present with the point in left-eye view or right-eye view
Color.
In addition, when bore hole 3D screens are arranged on mobile terminal (such as mobile phone, tablet personal computer), mobile terminal is in transverse screen
Can the display methods for bore hole 3D display screen of the embodiment of the present invention be used to show simultaneously under state and portrait layout state
3D contents and 2D contents.Wherein, " scheme to join according to the row of coordinates of targets and predetermined bore hole 3D display screen for above-mentioned
Number, determine the location index of the pixel in 3D display region " detailed process, transverse screen state for above-mentioned mobile terminal and perpendicular
Screen state is applicable, i.e., the transverse screen state and portrait layout shape of the Computing Principle of the location index shown in Fig. 5 for above-mentioned mobile terminal
State is applicable.
Preferably, above-mentioned according to transformational relation, and row's graph parameter of predetermined bore hole 3D display screen, it is determined that
Before the step of row's figure information in 3D display region, method also includes:
Obtain the viewing location of user;
According to the viewing location of user and light-dividing device parameter set in advance, determine that the row of bore hole 3D display screen schemes ginseng
Number.
That is row's graph parameter of bore hole 3D display screen, can set according to the viewing location of the user of real-time tracking and in advance
The parameter of fixed light-dividing device is determined, so that the bore hole 3D display effect in 3D display region can be with the sight of user
See that position is adapted, i.e. the display content watched when the viewing location of user changes in 3D display region user
Carry out accommodation.
Wherein it is possible to understand, according to identified viewing location and can be preset by the way of any known
Light-dividing device parameter come the row's of determination graph parameter, specifically refer to prior art, the present invention is not limited this.For example, in advance
Viewing location, light-dividing device parameter and the respective function relation of row's graph parameter are set, it is determined that after viewing location, by viewing location
And light-dividing device parameter set in advance substitutes into functional relation, so that it is determined that row's graph parameter.
In general, row's figure inclination angle and light-dividing device inclination angle be consistent, the displacement of row's figure also with from the cycle of light-dividing device
Point is corresponding, generally also fixed, row's figure cycle is related to the cycle of spectrophotometric unit in light-dividing device, but the viewing of user
Position is different, and row can change in the figure cycle.
Preferably, the above-mentioned 2D display contents by content to be displayed carry out the step of 2D displays in 2D viewing areas,
Including:
Smoothing processing object in 2D display contents is smoothed, in smoothing processing object is shown including whole 2D
Specific region in appearance or 2D display contents;Wherein, specific region is breakpoint or sawtooth etc. easily occur in 2D display contents
The region of bad phenomenon, such as borderline region;
The 2D display contents after smoothing processing are carried out into 2D in 2D viewing areas to show.
In embodiments of the invention, the light-dividing device of bore hole 3D display screen is in light splitting state, thus, work as light-dividing device
Under light splitting state in 2D viewing areas during progress 2D displays, because the light splitting of light-dividing device acts on, 2D can be shown
There are the bad phenomenons such as breakpoint or sawtooth in picture, so as to reduce 2D display effects.And embodiments of the invention, asked for this
Topic, is smoothed to 2D contents, then can reduce the breakpoint or sawtooth in the display picture in 2D viewing areas.
Wherein, for one of pixel in 2D display contents, smoothing processing is according to the picture around the pixel
Element adjusts the pixel value of its own, so that the pixel value difference of the pixel value of itself and surrounding reduces.Therefore, by smooth place
After reason, after 2D display contents are shown in 2D viewing areas, the bad phenomenon such as breakpoint or sawtooth in display picture is then carried out
Optimization, so as to improve the 2D display effects when light-dividing device of bore hole 3D display screen is in light splitting state.
Further, the step of being smoothed to the smoothing processing object in 2D display contents, including:
Using square frame filtering algorithm, Mean Filtering Algorithm or Gaussian filter algorithm to the smoothing processing pair in 2D display contents
As being smoothed.
, wherein it is desired to it is noted that algorithm used by for smoothing processing, it is not limited to which above-mentioned square filtering is calculated
Method, Mean Filtering Algorithm and Gaussian filter algorithm.
It is to sum up shown, embodiments of the invention, can in the case where the light-dividing device of bore hole 3D display screen is in light splitting state,
3D display region and 2D viewing areas are determined in bore hole 3D display screen, so as to by the 3D display content in content to be displayed
Bore hole 3D display is carried out in 3D display region, and the 2D display contents in content to be displayed are subjected to 2D in 2D viewing areas
It has been shown that, so as to which the 3D display content shown in a manner of bore hole 3D be presented simultaneously on bore hole 3D display screen and show in a 2D way
2D display contents.Therefore, embodiments of the invention, bore hole 3D display screen can be utilized to watch 2D display contents and 3D simultaneously
Display content, without being toggled between 2D display patterns and 3D display pattern, greatly improve the viewing facility of user
Property.
Embodiments of the invention additionally provide a kind of display device for bore hole 3D display screen, the bore hole 3D display
Screen includes the light-dividing device of display panel and setting on a display panel, and the light-dividing device is in light splitting state, such as Fig. 7 institutes
Show, described device includes:
Viewing area determining module 701, for determining that 3D display region on the bore hole 3D display screen and 2D are shown
Region;
Display module 702, for the 3D display content in content to be displayed to be carried out into bore hole in the 3D display region
3D display, and the 2D display contents in the content to be displayed are subjected to 2D in the 2D viewing areas and shown, so as in institute
The 2D on bore hole 3D display screen while the 3D display content shown in a manner of bore hole 3D being presented and shows in a 2D way is stated to show
Content.
Preferably, the viewing area determining module 701 includes:
First determining unit, for being identified according to display pattern set in advance, determine on the bore hole 3D display screen
3D display region and 2D viewing areas;
Or
Second determining unit, for the viewing area instruction inputted according to user, determine on the bore hole 3D display screen
3D display region and 2D viewing areas.
Preferably, described device also includes:
First command reception module, for receiving the move in the 3D display region;
Display module 702 is additionally operable to adjust the position in the 3D display region according to the move, and by the 3D
Display content carries out bore hole 3D display in the 3D display region after adjustment position;Or adjusted according to the move
The position in the whole 3D display region and the position of the 2D viewing areas, and by the 3D display content after adjustment position
Bore hole 3D display, and the 2D viewing areas by the 2D display contents after adjustment position are carried out in the 3D display region
2D is carried out in domain to show;
And/or
Second command reception module, the scaling for receiving the 3D display region instruct;
Display module 702 is additionally operable to adjust the position in the 3D display region according to the scaling instruction, and by the 3D
Display content carries out bore hole 3D display in the 3D display region after adjustment position;Or adjusted according to the scaling instruction
The position in the whole 3D display region and the position of the 2D viewing areas, and by the 3D display content after adjustment position
Bore hole 3D display, and the 2D viewing areas by the 2D display contents after adjustment position are carried out in the 3D display region
2D is carried out in domain to show.
Preferably, the display module 702 includes:
Transformational relation determining unit, for the displaing coordinate system for determining the 3D display region and the bore hole 3D display screen
The transformational relation of the displaing coordinate system of curtain;
Figure information determination unit is arranged, for according to the transformational relation, and the predetermined bore hole 3D display screen
Row's graph parameter of curtain, determine row's figure information in the 3D display region;
3D display unit, for row's figure information according to the 3D display region, institute is shown in the 3D display region
State 3D display content.
Preferably, the transformational relation determining unit includes:
Origin obtain subelement, for obtain the 3D display region displaing coordinate system origin in the bore hole
Coordinate in the displaing coordinate system of 3D display screen;
Transformational relation determination subelement, the origin for the displaing coordinate system according to the 3D display region is in the bore hole
Coordinate in the displaing coordinate system of 3D display screen, determine the displaing coordinate system in the 3D display region and the bore hole 3D display
The transformational relation of the displaing coordinate system of screen is:
Wherein, (a, b) represents the origin of the displaing coordinate system in the 3D display region in the bore hole 3D display screen
Coordinate in displaing coordinate system, (x, y) represent that display of the pixel in the 3D display region in the 3D display region is sat
Coordinate in mark system, (xs, ys) represent displaing coordinate of the pixel in the 3D display region in the bore hole 3D display screen
Coordinate in system.
Preferably, row's figure information includes the location index of the pixel in the 3D display region;
Row's figure information determination unit includes:
Coordinate Conversion subelement, for according to the transformational relation, determining the pixel in the 3D display region in institute
State the coordinates of targets in the displaing coordinate system of bore hole 3D display screen;
Location index determination subelement, for according to the coordinates of targets and the predetermined bore hole 3D display screen
Row's graph parameter of curtain, determine the location index of the pixel in the 3D display region;
The 3D display unit includes:
Mapping relations determination subelement, for according to the location index, determine the pixel in the 3D display region with
The mapping relations of the pixel of the 3D display content;
3D display subelement, for the pixel according to the 3D display region and the pixel of the 3D display content
Mapping relations, the 3D display content is shown in the 3D display region.
Preferably, row's graph parameter, which includes the displacement of row's figure, row's figure cycle and row's figure inclination angle, the 3D display content, includes
Left-eye view and right-eye view;
The location index determination subelement is specifically used for:
The location index of the pixel in the 3D display region is determined according to equation below;
Index=(xs-ys× cot (θ)-offset) %pitch,
Wherein, index represents location index, (xs, ys) represent pixel in the 3D display region in the bore hole 3D
Coordinates of targets in the displaing coordinate system of display screen, θ represent row's figure inclination angle, and offset represents row's figure displacement, and pitch represents row
Figure inclination angle;
The mapping relations determination subelement is specifically used for:
Judge whether the location index of the pixel in the 3D display region is less than the half that the row schemes the cycle;
When location index be less than the row scheme the cycle half when, determine in the 3D display region with the position rope
Mapping relations be present in pixel corresponding to drawing and the pixel of corresponding position in the left-eye view;
When location index be more than the row scheme the cycle half when, determine in the 3D display region with the position rope
Mapping relations be present in pixel corresponding to drawing and the pixel of corresponding position in the right-eye view;
The 3D display subelement is specifically used for:
The display color of pixel in the 3D display region is shown as with the 3D showing in the 3D display content
Show that the pixel in region has the display color of the pixel of mapping relations.
Preferably, the display module 702 also includes:
Position acquisition unit, for obtaining the viewing location of user;
Graph parameter determining unit is arranged, for the viewing location according to the user and light-dividing device parameter set in advance,
Determine row's graph parameter of the bore hole 3D display screen.
Preferably, the display module 702 includes:
Smoothing processing unit is described flat for being smoothed to the smoothing processing object in the 2D display contents
Sliding process object includes the specific region in all 2D display contents or the 2D display contents;
2D display units, show for the 2D display contents after smoothing processing to be carried out into 2D in the 2D viewing areas
Show.
Preferably, the smoothing processing unit is specifically used for:
Using square frame filtering algorithm, Mean Filtering Algorithm or Gaussian filter algorithm to the smooth place in the 2D display contents
Reason object is smoothed.
From the foregoing, embodiments of the invention, can be in light splitting state in the light-dividing device of bore hole 3D display screen
Under, 3D display region and 2D viewing areas are determined in bore hole 3D display screen, so as to by the 3D display in content to be displayed
Content carries out bore hole 3D display in 3D display region, and the 2D display contents in content to be displayed are entered in 2D viewing areas
Row 2D shows, so as to which the 3D display content that is shown in a manner of bore hole 3D and in a 2D way be presented simultaneously on bore hole 3D display screen
The 2D display contents of display.Therefore, embodiments of the invention, bore hole 3D display screen can be utilized to watch 2D display contents simultaneously
With 3D display content, without being toggled between 2D display patterns and 3D display pattern, the viewing of user is greatly improved
Convenience.
Embodiments of the invention additionally provide a kind of bore hole 3D display equipment, as shown in figure 8, the bore hole 3D display equipment
Including bore hole 3D display screen 803, the bore hole 3D display screen 803 includes display panel 8031 and is arranged on display panel
Light-dividing device 8032 on 8031, the light-dividing device 8032 are in light splitting state, and the equipment also includes:
Processor 801 and memory 802;
The processor 801 calls computer program in the memory 802 to perform described above to be used for bore hole 3D
The display methods of display screen.
Therefore, embodiments of the invention, can be in the case where the light-dividing device of bore hole 3D display screen be in light splitting state, naked
3D display region and 2D viewing areas are determined in eye 3D display screen, so that by the 3D display content in content to be displayed in 3D
Bore hole 3D display is carried out in viewing area, and the 2D display contents in content to be displayed are subjected to 2D in 2D viewing areas and shown
Show, so as to be presented the 3D display content shown in a manner of bore hole 3D simultaneously on bore hole 3D display screen and show in a 2D way
2D display contents.Therefore, embodiments of the invention, 2D display contents can be watched simultaneously using bore hole 3D display screen and 3D shows
Show content, without being toggled between 2D display patterns and 3D display pattern, greatly improve the viewing convenience of user.
Embodiments of the invention additionally provide a kind of computer-readable recording medium, the computer-readable recording medium bag
Include computer program, the computer program can be executed by processor to complete the described above bore hole 3D display screen that is used for
Display methods.
The above computer readable storage medium storing program for executing of the present invention, can be in bore hole 3D display screen due to the program of its storage
Light-dividing device be under light splitting state, determine 3D display region and 2D viewing areas in bore hole 3D display screen, so as to
3D display content in content to be displayed is subjected to bore hole 3D display in 3D display region, and the 2D in content to be displayed is shown
Show that content carries out 2D in 2D viewing areas and shown, shown so as to be presented on bore hole 3D display screen simultaneously in a manner of bore hole 3D
3D display content and the 2D display contents that show in a 2D way.Therefore, embodiments of the invention, bore hole 3D display can be utilized
Screen watches 2D display contents and 3D display content simultaneously, without carrying out switchback between 2D display patterns and 3D display pattern
Change, greatly improve the viewing convenience of user.
Above-described is the preferred embodiment of the present invention, it should be pointed out that is come for the ordinary person of the art
Say, some improvements and modifications can also be made under the premise of principle of the present invention is not departed from, and these improvements and modifications also exist
In protection scope of the present invention.
Claims (22)
1. a kind of display methods for bore hole 3D display screen, the bore hole 3D display screen includes display panel and is arranged on
Light-dividing device on display panel, the light-dividing device are in light splitting state, it is characterised in that methods described includes:
Determine the 3D display region and 2D viewing areas on the bore hole 3D display screen;
3D display content in content to be displayed is subjected to bore hole 3D display in the 3D display region, and will be described to be shown
2D display contents in content carry out 2D in the 2D viewing areas and shown, so that on the bore hole 3D display screen simultaneously
The 3D display content shown in a manner of bore hole 3D and the 2D display contents shown in a 2D way is presented.
2. according to the method for claim 1, it is characterised in that the 3D display determined on the bore hole 3D display screen
The step of region and 2D viewing areas, including:
Identified according to display pattern set in advance, determine the 3D display region and 2D viewing areas on the bore hole 3D display screen
Domain;
Or
The viewing area inputted according to user indicates, determines the 3D display region and 2D viewing areas on the bore hole 3D display screen
Domain.
3. according to the method for claim 1, it is characterised in that methods described also includes:
Receive the move in the 3D display region;
The position in the 3D display region is adjusted according to the move, and by the 3D display content after adjustment position
Bore hole 3D display is carried out in the 3D display region;Or the position in the 3D display region is adjusted according to the move
With the position of the 2D viewing areas, and the 3D display content carried out in the 3D display region after adjustment position naked
Eye 3D display, and the 2D display contents are subjected to 2D in the 2D viewing areas after adjustment position and shown;
And/or
Receive the scaling instruction in the 3D display region;
The position in the 3D display region is adjusted according to the scaling instruction, and by the 3D display content after adjustment position
Bore hole 3D display is carried out in the 3D display region;Or the position in the 3D display region is adjusted according to the scaling instruction
With the position of the 2D viewing areas, and the 3D display content carried out in the 3D display region after adjustment position naked
Eye 3D display, and the 2D display contents are subjected to 2D in the 2D viewing areas after adjustment position and shown.
4. according to the method described in any one of claims 1 to 3, it is characterised in that the 3D display by content to be displayed
Content is carried out the step of bore hole 3D display in the 3D display region, including:
Determine the transformational relation of the displaing coordinate system in the 3D display region and the displaing coordinate system of the bore hole 3D display screen;
According to the transformational relation, and row's graph parameter of the predetermined bore hole 3D display screen, determine that the 3D shows
Show row's figure information in region;
According to row's figure information in the 3D display region, the 3D display content is shown in the 3D display region.
5. according to the method for claim 4, it is characterised in that the displaing coordinate system for determining the 3D display region with
The step of transformational relation of the displaing coordinate system of the bore hole 3D display screen, including:
The origin of the displaing coordinate system in the 3D display region is obtained in the displaing coordinate system of the bore hole 3D display screen
Coordinate;
According to the origin of the displaing coordinate system in the 3D display region in the displaing coordinate system of the bore hole 3D display screen
Coordinate, determine the transformational relation of the displaing coordinate system in the 3D display region and the displaing coordinate system of the bore hole 3D display screen
For:
<mrow>
<mfenced open = "{" close = "">
<mtable>
<mtr>
<mtd>
<mrow>
<msub>
<mi>x</mi>
<mi>s</mi>
</msub>
<mo>=</mo>
<mi>x</mi>
<mo>+</mo>
<mi>a</mi>
</mrow>
</mtd>
</mtr>
<mtr>
<mtd>
<mrow>
<msub>
<mi>y</mi>
<mi>s</mi>
</msub>
<mo>=</mo>
<mi>y</mi>
<mo>+</mo>
<mi>b</mi>
</mrow>
</mtd>
</mtr>
</mtable>
</mfenced>
<mo>;</mo>
</mrow>
Wherein, (a, b) represents display of the origin in the bore hole 3D display screen of the displaing coordinate system in the 3D display region
Coordinate in coordinate system, (x, y) represent displaing coordinate system of the pixel in the 3D display region in the 3D display region
In coordinate, (xs, ys) represent pixel in the 3D display region in the displaing coordinate system of the bore hole 3D display screen
Coordinate.
6. according to the method for claim 4, it is characterised in that
Row's figure information includes the location index of the pixel in the 3D display region;
It is described according to the transformational relation, and row's graph parameter of the predetermined bore hole 3D display screen, it is determined that described
The step of row's figure information in 3D display region, including:
According to the transformational relation, determine that the pixel in the 3D display region is sat in the display of the bore hole 3D display screen
Coordinates of targets in mark system;
According to the coordinates of targets and row's graph parameter of the predetermined bore hole 3D display screen, the 3D display is determined
The location index of the pixel in region;
Row's figure information according to the 3D display region, the step of the 3D display content is shown in the 3D display region
Suddenly, including:
According to the location index, the mapping of the pixel in the 3D display region and the pixel of the 3D display content is determined
Relation;
According to the mapping relations of the pixel in the 3D display region and the pixel of the 3D display content, in the 3D display
The 3D display content is shown in region.
7. according to the method for claim 6, it is characterised in that row's graph parameter include row's figure displacement, row's figure cycle and
Figure inclination angle is arranged, the 3D display content includes left-eye view and right-eye view;
It is described according to the coordinates of targets and the predetermined bore hole 3D display screen row's graph parameter, determine the 3D
The step of location index of the pixel of viewing area, including:
The location index of the pixel in the 3D display region is determined according to equation below;
Index=(xs-ys× cot (θ)-offset) %pitch,
Wherein, index represents location index, (xs, ys) represent pixel in the 3D display region in the bore hole 3D display
Coordinates of targets in the displaing coordinate system of screen, θ represent row's figure inclination angle, and offset represents row's figure displacement, and pitch represents that row's figure inclines
Angle;
It is described according to the location index, determine the pixel in the 3D display region and the pixel of the 3D display content
The step of mapping relations, including:
Judge whether the location index of the pixel in the 3D display region is less than the half that the row schemes the cycle;
When location index be less than the row scheme the cycle half when, determine in the 3D display region with the location index pair
Mapping relations be present in the pixel answered and the pixel of corresponding position in the left-eye view;
When location index be more than the row scheme the cycle half when, determine in the 3D display region with the location index pair
Mapping relations be present in the pixel answered and the pixel of corresponding position in the right-eye view;
The mapping relations of the pixel according to the 3D display region and the pixel of the 3D display content, in the 3D
Show that the 3D display content includes in viewing area:
The display color of pixel in the 3D display region is shown as in the 3D display content and the 3D display area
The display color of the pixel of mapping relations be present in the pixel in domain.
8. according to the method for claim 4, it is characterised in that
Described according to the transformational relation, and row's graph parameter of the predetermined bore hole 3D display screen, institute is determined
Before the step of stating row's figure information in 3D display region, methods described also includes:
Obtain the viewing location of user;
According to the viewing location of the user and light-dividing device parameter set in advance, the row of the bore hole 3D display screen is determined
Graph parameter.
9. according to the method for claim 1, it is characterised in that the 2D display contents by the content to be displayed exist
The step of 2D displays are carried out in the 2D viewing areas, including:
Smoothing processing object in the 2D display contents is smoothed, the smoothing processing object is included described in whole
Specific region in 2D display contents or the 2D display contents;
The 2D display contents after smoothing processing are carried out into 2D in the 2D viewing areas to show.
10. according to the method for claim 9, it is characterised in that the smoothing processing pair in the 2D display contents
The step of as being smoothed, including:
Using square frame filtering algorithm, Mean Filtering Algorithm or Gaussian filter algorithm to the smoothing processing pair in the 2D display contents
As being smoothed.
11. a kind of display device for bore hole 3D display screen, the bore hole 3D display screen includes display panel and setting
Light-dividing device on a display panel, the light-dividing device are in light splitting state, it is characterised in that described device includes:
Viewing area determining module, for determining 3D display region and 2D viewing areas on the bore hole 3D display screen;
Display module, for the 3D display content in content to be displayed to be carried out into bore hole 3D display in the 3D display region,
And the 2D display contents in the content to be displayed are subjected to 2D in the 2D viewing areas and shown, so as in the bore hole 3D
The 3D display content shown in a manner of bore hole 3D and the 2D display contents shown in a 2D way is presented on display screen simultaneously.
12. device according to claim 11, it is characterised in that the viewing area determining module includes:
First determining unit, for being identified according to display pattern set in advance, determine the 3D on the bore hole 3D display screen
Viewing area and 2D viewing areas;
Or
Second determining unit, for the viewing area instruction inputted according to user, determine the 3D on the bore hole 3D display screen
Viewing area and 2D viewing areas.
13. device according to claim 11, it is characterised in that described device also includes:
First command reception module, for receiving the move in the 3D display region;
The display module is additionally operable to adjust the position in the 3D display region according to the move, and by the 3D display
Content carries out bore hole 3D display in the 3D display region after adjustment position;Or institute is adjusted according to the move
State the position in 3D display region and the position of the 2D viewing areas, and by the 3D display content after adjustment position described in
Bore hole 3D display is carried out in 3D display region, and by the 2D display contents in the 2D viewing areas after adjustment position
2D is carried out to show;
And/or
Second command reception module, the scaling for receiving the 3D display region instruct;
The display module is additionally operable to adjust the position in the 3D display region according to the scaling instruction, and by the 3D display
Content carries out bore hole 3D display in the 3D display region after adjustment position;Or according to the scaling instruction adjustment institute
State the position in 3D display region and the position of the 2D viewing areas, and by the 3D display content after adjustment position described in
Bore hole 3D display is carried out in 3D display region, and by the 2D display contents in the 2D viewing areas after adjustment position
2D is carried out to show.
14. according to the device described in any one of claim 11 to 13, it is characterised in that the display module includes:
Transformational relation determining unit, for the displaing coordinate system for determining the 3D display region and the bore hole 3D display screen
The transformational relation of displaing coordinate system;
Figure information determination unit is arranged, for according to the transformational relation, and the predetermined bore hole 3D display screen
Graph parameter is arranged, determines row's figure information in the 3D display region;
3D display unit, for row's figure information according to the 3D display region, the 3D is shown in the 3D display region
Display content.
15. device according to claim 14, it is characterised in that the transformational relation determining unit includes:
Origin obtains subelement, shows for obtaining the origin of displaing coordinate system in the 3D display region in the bore hole 3D
Coordinate in the displaing coordinate system of display screen curtain;
Transformational relation determination subelement, the origin for the displaing coordinate system according to the 3D display region show in the bore hole 3D
Coordinate in the displaing coordinate system of display screen curtain, determine the displaing coordinate system in the 3D display region and the bore hole 3D display screen
The transformational relation of displaing coordinate system be:
<mrow>
<mfenced open = "{" close = "">
<mtable>
<mtr>
<mtd>
<mrow>
<msub>
<mi>x</mi>
<mi>s</mi>
</msub>
<mo>=</mo>
<mi>x</mi>
<mo>+</mo>
<mi>a</mi>
</mrow>
</mtd>
</mtr>
<mtr>
<mtd>
<mrow>
<msub>
<mi>y</mi>
<mi>s</mi>
</msub>
<mo>=</mo>
<mi>y</mi>
<mo>+</mo>
<mi>b</mi>
</mrow>
</mtd>
</mtr>
</mtable>
</mfenced>
<mo>;</mo>
</mrow>
Wherein, (a, b) represents display of the origin in the bore hole 3D display screen of the displaing coordinate system in the 3D display region
Coordinate in coordinate system, (x, y) represent displaing coordinate system of the pixel in the 3D display region in the 3D display region
In coordinate, (xs, ys) represent pixel in the 3D display region in the displaing coordinate system of the bore hole 3D display screen
Coordinate.
16. device according to claim 14, it is characterised in that
Row's figure information includes the location index of the pixel in the 3D display region;
Row's figure information determination unit includes:
Coordinate Conversion subelement, for according to the transformational relation, determining the pixel in the 3D display region described naked
Coordinates of targets in the displaing coordinate system of eye 3D display screen;
Location index determination subelement, for according to the coordinates of targets and the predetermined bore hole 3D display screen
Graph parameter is arranged, determines the location index of the pixel in the 3D display region;
The 3D display unit includes:
Mapping relations determination subelement, for according to the location index, determine the pixel in the 3D display region with it is described
The mapping relations of the pixel of 3D display content;
3D display subelement, the mapping for the pixel according to the 3D display region and the pixel of the 3D display content
Relation, the 3D display content is shown in the 3D display region.
17. device according to claim 16, it is characterised in that row's graph parameter includes the displacement of row's figure, row's figure cycle
With row's figure inclination angle, the 3D display content includes left-eye view and right-eye view;
The location index determination subelement is specifically used for:
The location index of the pixel in the 3D display region is determined according to equation below;
Index=(xs-ys× cot (θ)-offset) %pitch,
Wherein, index represents location index, (xs, ys) represent pixel in the 3D display region in the bore hole 3D display
Coordinates of targets in the displaing coordinate system of screen, θ represent row's figure inclination angle, and offset represents row's figure displacement, and pitch represents that row's figure inclines
Angle;
The mapping relations determination subelement is specifically used for:
Judge whether the location index of the pixel in the 3D display region is less than the half that the row schemes the cycle;
When location index be less than the row scheme the cycle half when, determine in the 3D display region with the location index pair
Mapping relations be present in the pixel answered and the pixel of corresponding position in the left-eye view;
When location index be more than the row scheme the cycle half when, determine in the 3D display region with the location index pair
Mapping relations be present in the pixel answered and the pixel of corresponding position in the right-eye view;
The 3D display subelement is specifically used for:
The display color of pixel in the 3D display region is shown as in the 3D display content and the 3D display area
The display color of the pixel of mapping relations be present in the pixel in domain.
18. device according to claim 14, it is characterised in that the display module also includes:
Position acquisition unit, for obtaining the viewing location of user;
Graph parameter determining unit is arranged, for the viewing location according to the user and light-dividing device parameter set in advance, it is determined that
Row's graph parameter of the bore hole 3D display screen.
19. device according to claim 11, it is characterised in that the display module includes:
Smoothing processing unit, for being smoothed to the smoothing processing object in the 2D display contents, the smooth place
Managing object includes the specific region in all 2D display contents or the 2D display contents;
2D display units, shown for the 2D display contents after smoothing processing to be carried out into 2D in the 2D viewing areas.
20. device according to claim 19, it is characterised in that the smoothing processing unit is specifically used for:
Using square frame filtering algorithm, Mean Filtering Algorithm or Gaussian filter algorithm to the smoothing processing pair in the 2D display contents
As being smoothed.
21. a kind of bore hole 3D display equipment, the bore hole 3D display equipment includes bore hole 3D display screen, the bore hole 3D display
Screen includes the light-dividing device of display panel and setting on a display panel, and the light-dividing device is in light splitting state, its feature
It is, the equipment also includes:
Processor and memory;
The processor calls the computer program execution in the memory to be used for as described in any one of claim 1~10
The display methods of bore hole 3D display screen.
22. a kind of computer-readable recording medium, it is characterised in that the computer-readable recording medium includes computer journey
Sequence, the computer program can be executed by processor to complete to be used for bore hole 3D display described in any one of claim 1~10
The display methods of screen.
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| CN107707901B (en) | 2019-10-25 |
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