CN102186092A

CN102186092A - Method, system and display for displaying two-dimensional (2D) menu in three-dimensional (3D) display mode

Info

Publication number: CN102186092A
Application number: CN 201110105527
Authority: CN
Inventors: 侯亚荣; 陈敏锐
Original assignee: Shenzhen Skyworth RGB Electronics Co Ltd
Current assignee: Shenzhen Skyworth RGB Electronics Co Ltd
Priority date: 2011-04-26
Filing date: 2011-04-26
Publication date: 2011-09-14

Abstract

The invention is applied in the field of three-dimensional (3D) display, and provides a method, a system and a display for displaying a two-dimensional (2D) menu in a 3D display mode. The method comprises the following steps of: copying the 2D menu into two completely identical plane menus; and displaying the two plane menus at the central positions of a left-eye image and a right-eye image respectively. In the method provided by the invention, requirements on the manufacturing two 2D menus and a 3D menu are avoided, so the complexity of displaying the 2D menu in the 3D display mode is greatly reduced; the shortcomings of a conventional processing method on definition, working efficiency, resource allocation, material cost even labor cost are overcome; and the display method provided by the invention can be rapidly developed, the increasing of the cost and definition loss are avoided, a development cycle is shortened, and great contributions to the faster updating of 3D display products are made.

Description

Under the 3D display mode, realize method, system and the display that the 2D menu shows

Technical field

The invention belongs to 3D and show the field, relate in particular to a kind of method, system and display that the 2D menu shows of under the 3D display mode, realizing.

Background technology

It is that a kind of binocular stereo vision principle of utilizing makes the people obtain the Display Technique of three dimensions sense that 3D shows.In the current polarization type 3D display device, the plane menu that remains 2D that custom menu adopts.This is because if custom menu is also made the 3D form, then needs to make a cover 2D menu and a cover 3D menu, expends a large amount of time and manpower and materials.If a large amount of time is used on the making 3D menu, that will incur loss through delay the progress of entire product listing greatly.So, in the current 3D display device, still adopt the plane menu of 2D basically.But, when showing, adopts 3D common 2D plane menu, and the menu that the user saw is more smudgy.This is because when carrying out the 3D mode switch, and the 2D menu has been changed by simple 3D very clearly originally, and the result causes the user not see Chu whatever.

Under the 3D display mode, the processing method of custom menu mainly contains following two kinds at present: first kind, make two cover 2D menus.One is enclosed within when 2D shows and uses, and one is enclosed within when 3D shows and uses.When showing, uses 2D common planar 2D menu.What use when 3D shows is the superposed type 2D menu of making according to the 3D form of being supported (also can be called the 3D menu), two cover 2D menus are superimposed, send into user's right and left eyes separately, the menu striking resemblances when menu that the user is put on see behind the 3D glasses and 2D show.This processing method must need to expend a large amount of time and manpower and materials.And, be subjected to the restriction in chip-stored space, need in the program memory space of menu is redistributed.Overflow if produce, then need to add the memory space of large chip, Material Cost has also increased thereupon.Second kind, only make a cover 2D menu.Judge voluntarily that by the demonstration process chip under the display mode of 3D, the 3D rendering that the user play is shown as 3D, custom menu then continues to be output as 2D and shows.This has been subjected to the restriction of process chip again, and present demonstration process chip is not all also accomplished this point.The design manufacturer of present 3D display device is in order to pursue the speed of Product Renewal, can be chosen in mostly increase outside the current demonstration process chip one independently the 3D processing module carry out the processing of 3D rendering.Like this, the demonstration problem of custom menu is just following, above-mentioned first kind of processing method all selected by most of manufacturer, has greatly increased the complexity of making menu, takes time and effort and increases production cost.

Summary of the invention

The purpose of the embodiment of the invention is to provide a kind of method that the 2D menu shows that realizes under the 3D display mode, be intended to solve the existing high problem of complex disposal process, production cost that the 2D menu shows of carrying out under the 3D display mode.

The embodiment of the invention is achieved in that a kind of method that the 2D menu shows that realizes under the 3D display mode, described method comprises the steps:

The 2D menu is copied into two parts of identical plane menus;

Two parts of plane menus are presented at the middle position of left-eye image and eye image respectively.

Another purpose of the embodiment of the invention is to provide a kind of 3D display system, and described system comprises:

Image processing module, 3D processing module and 3D display screen;

Described image processing module is used for Low Voltage Differential Signal that the 3D rendering conversion of signals can be discerned for the 3D processing module, and described Low Voltage Differential Signal is sent to the 3D processing module;

Described image processing module comprises a copied cells, is used for the 2D menu is copied into two parts of identical plane menus, and exports to the 3D processing module;

Described 3D processing module is used for converting the 3D form of described Low Voltage Differential Signal according to the signal source correspondence to form that the 3D display screen can show, and the picture signal after will changing and plane menu signal output to the 3D display screen;

Described 3D display screen is used to show 3D rendering, and two parts of plane menus is presented at the middle position of left-eye image and eye image respectively.

Another purpose of the embodiment of the invention is to provide a kind of 3D display that comprises above-mentioned 3D display system.

The embodiment of the invention is duplicated the 2D menu or is compressed and replication processes, then two parts of menus is presented at the middle position of left-and right-eye images respectively, and the user puts on corresponding polaroid glasses just can watch 3D rendering and 2D menu clearly simultaneously.This method does not need to make two width of cloth 2D menus, does not need to make the 3D menu yet, has significantly reduced the complexity that shows the 2D menu under the 3D display mode; Remedied the deficiency of existing processing method on definition, operating efficiency, resource allocation, material cost even cost of labor; Providing a kind of can develop fast, neither increases the display packing that cost does not lose the custom menu of definition again, has reduced the construction cycle, makes a great contribution for 3D demonstration product updates faster.

Description of drawings

Fig. 1 is the flow chart of realizing the method that the 2D menu shows under the 3D display mode that first embodiment of the invention provides;

Fig. 2 is the principle schematic that realizes the demonstration of 2D menu under the 3D display mode that second embodiment of the invention provides;

Fig. 3 is the flow chart of realizing the method that the 2D menu shows under the 3D display mode that second embodiment of the invention provides;

Fig. 4 is the 3D display system schematics that third embodiment of the invention provides.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer,, the present invention is further elaborated below in conjunction with drawings and Examples.Should be appreciated that specific embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.

The embodiment of the invention is duplicated the 2D menu or is compressed and replication processes, then two parts of menus is presented at the middle position of left-and right-eye images respectively, makes the user can watch 3D rendering and 2D menu clearly simultaneously.

The embodiment of the invention provides a kind of method that the 2D menu shows that realizes under the 3D display mode, this method comprises the steps:

The 2D menu is copied into two parts of identical plane menus;

The embodiment of the invention also provides a kind of 3D display system, and this system comprises:

Image processing module, 3D processing module and 3D display screen;

This image processing module is used for Low Voltage Differential Signal that the 3D rendering conversion of signals can be discerned for the 3D processing module, and Low Voltage Differential Signal is sent to the 3D processing module;

This image processing module comprises a copied cells, is used for the 2D menu is copied into two parts of identical plane menus, and exports to the 3D processing module;

This 3D processing module is used for converting the 3D form of Low Voltage Differential Signal according to the signal source correspondence to form that the 3D display screen can show, and the picture signal after will changing and plane menu signal output to the 3D display screen;

This 3D display screen is used to show 3D rendering, and two parts of plane menus is presented at the middle position of left-eye image and eye image respectively.

The embodiment of the invention also provides a kind of 3D display that comprises above-mentioned 3D display system.

Below in conjunction with specific embodiment specific implementation of the present invention is described in detail:

Embodiment one:

Fig. 1 shows the flow chart of realizing the method that the 2D menu shows under the 3D display mode that first embodiment of the invention provides, and for convenience of explanation, only shows the part relevant with present embodiment.

The method that the 2D menu shows that realizes under the 3D display mode that the embodiment of the invention provides realizes by following method:

In step S101, the 2D menu is copied into two parts of identical plane menus;

In step S102, above-mentioned two parts of plane menus are presented at the middle position of left-eye image and eye image respectively.

The method that present embodiment provides is applicable to polarization type 3D display system.Wherein the processing procedure of step S101 and S102 is extremely of short duration, and the user can not feel and the process of conversion, can hide by the mode of closing image even this process is consuming time longer relatively yet, makes the imperceptible conversion process of user.

This as follows: the centre position that is in left-and right-eye images through two parts of plane menus after the replication processes respectively in the principle of carrying out the demonstration of 2D menu under the 3D display mode, the user receives two parts of menu informations by the left eyeglass lens and the right eye eyeglass of polaroid glasses respectively, though system is in the 3D display mode, but these two parts of menus are duplicate plane menus, so two parts of menus synthetic image in brain that user's images of left and right eyes receives remains 2D's.So just, under the 3D display mode, realized the clear demonstration of 2D menu.Certainly, handle by different 3D effect, the effect of 2D menu can be adjusted to suspension, perhaps depression is to improve user's sense organ visual experience greatly.

The described method of the embodiment of the invention does not need to make two width of cloth 2D menus, does not need to make the 3D menu yet, has significantly reduced the complexity that shows the 2D menu under the 3D display mode; Remedied the deficiency of existing processing method on definition, operating efficiency, resource allocation, material cost even cost of labor; More providing a kind of can develop fast, neither increases the display packing that cost does not lose the custom menu of definition again, has reduced the construction cycle, makes a great contribution for 3D demonstration product updates faster.

Embodiment two:

Fig. 2 shows the principle schematic that realizes the demonstration of 2D menu under the 3D display mode that second embodiment of the invention provides, Fig. 3 shows the flow chart of realizing the method that the 2D menu shows under the 3D display mode that second embodiment of the invention provides, for convenience of explanation, only show the part relevant with present embodiment.

The described method of the foregoing description is applicable to polarization type 3D display system, and this system can support multiple 3D display mode, as left and right sides form, form or the 3D display mode of form isogonic light formula of intersecting up and down.

Present embodiment is mainly to realizing that under the 3D of the left and right sides form display mode method that the 2D menu shows is elaborated.

Please refer to the displaying principle shown in the accompanying drawing 2, the picture signal of importing as the user is the 3D information source, and when display system was in the 2D display mode, the 2D menu then normally was presented at the middle position of screen, as Fig. 2 a.When display system is the 3D pattern by the 2D mode switch, the left and right two halves display interface of screen shows the left-and right-eye images of 3D rendering respectively, this moment, system compressed half with the 2D menu at horizontal (left and right directions), and be copied into two parts of identical plane menus, and it is presented at the centre position of left-and right-eye images respectively, as accompanying drawing 2b.After the user puts on the 3D glasses, a copy of it plane menu and left-eye image are received by left eye by left eyeglass lens, another part plane menu and eye image are received by right eye by the right eye eyeglass, left-eye image and eye image be synthetic stereo image in user's brain, two parts of plane menus synthetic portion and the same menu of original 2D menu in user's brain are as Fig. 2 c.

Be appreciated that, when display system support up and down during the 3D display mode of form, upper and lower two parts of display interface show left-eye image and eye image respectively, system can compress half at vertical (above-below direction) with the 2D menu, and be copied into two parts of duplicate plane menus, and two parts of menus are presented at the middle position of the first half and the latter half of screen respectively, and the user puts on polaroid glasses and just can see and the same effect of original 2D menu.

For the left and right sides form or the 3D display mode of form up and down, thisly under the 3D display mode, carry out the method that the 2D menu shows and can further be refined as following steps:

In step S301,2D menu to be shown laterally or is vertically compressed half;

In step S302, the 2D menu after the above-mentioned compression is copied into two parts of identical plane menus;

In step S303, two parts of above-mentioned plane menus are presented at the middle position of left-eye image and eye image respectively.

Be appreciated that, when display system is in the 3D display mode of intersection form, the odd column pixel and the even column pixel of display floater show left-eye image and eye image respectively, only the 2D menu need be copied into two parts and do not need compression this moments, system is presented at two parts of 2D menus respectively the middle position of left-eye image and eye image then.Certainly, left-eye image and eye image are that approximate the coincidence distributes, and therefore two parts of 2D menus also are approximate the coincidences.The user puts on polaroid glasses and still can see and the same effect of original 2D menu.

The method of carrying out the demonstration of 2D menu under the 3D display mode that the embodiment of the invention provides also is applicable to other polarization types 3D display mode.Display system is duplicated original 2D menu according to the display mode of reality or is compressed and replication processes, then two width of cloth plane menus are presented at the middle position of left-and right-eye images respectively, make the user when watching the 3D image, can see the 2D menu clearly.

Embodiment three:

Fig. 4 shows the 3D display system schematics that third embodiment of the invention provides, and for convenience of explanation, only shows the part relevant with present embodiment.

The embodiment of the invention provides a kind of polarization type 3D display system that is applicable to the described method of the foregoing description.This system comprises: image processing module 41,3D processing module 42 and 3D display screen 43.Wherein, image processing module 41 receives and handles the picture signal (comprising the 3D rendering signal) of input, the picture signal of input is converted to LVDS signal (the Low Voltage DifferentialSignaling that the 3D processing module can be discerned, Low Voltage Differential Signal), and with the LVDS signal send to 3D processing module 42.3D processing module 42 is handled the LVDS signal that transmits from image processing module 41, with the 3D form of LVDS signal according to the signal source correspondence, convert 43 forms that can show of 3D display screen to, and the signal after will changing outputs to 3D display screen 43.3D display screen 43 shows the man-machine interaction menu (being the 2D menu in the foregoing description) of 3D rendering content and user's operation.

Wherein, image processing module 41 comprises a copied cells 411, and in the process that shows the 2D custom menu, image processing module 41 can be handled menu signal, by copied cells 411 the 2D menu is copied into two identical menus.Menu signal after will handling then outputs to 3D display screen 43 by 3D processing module 42, menu is presented at the centre position of the left-and right-eye images of display screen 43 respectively.

In embodiments of the present invention, image processing module 41 also can further comprise compression unit 412.When the picture signal of input was the 3D information source of left and right sides form, compression unit 412 can compress half at left and right directions with custom menu, and by copied cells 411 it is copied into two identical menus.Then two parts of menu signal are outputed to the left-half of 3D display screen 43 and the centre position of right half part by 3D processing module 42.

In embodiments of the present invention, when the picture signal of input was the 3D information source of form up and down, the compression unit 412 of image processing module can compress half at above-below direction with custom menu, and by copied cells 411 it is copied into two identical menus.Then two parts of menus are outputed to the centre position of the first half and the latter half of 3D display screen 43 by 3D processing module 42.

In embodiments of the present invention, when the picture signal of input was the 3D information source of intersection form, the copied cells 411 of image processing module can be copied into two identical menus with custom menu.Then two parts of menu signal are outputed on the 3D display screen 43 by 3D processing module 42, be presented at the centre position of left-eye image and eye image respectively, be appreciated that this moment, these two parts of 2D menus were similar to overlapping.

The method that realizes that under the 3D display mode 2D menu shows provided by the invention is applicable to form, left and right sides form or the form isogonic light formula 3D display system of intersecting up and down.This method is duplicated the 2D menu or is compressed and replication processes, then two parts of menus is presented at the middle position of left-and right-eye images respectively, and the user puts on corresponding polaroid glasses just can watch 3D rendering and 2D menu clearly simultaneously.This method does not need to make two width of cloth 2D menus, does not need to make the 3D menu yet, has significantly reduced the complexity that shows the 2D menu under the 3D display mode; Remedied the deficiency of existing processing method on definition, operating efficiency, resource allocation, material cost even cost of labor; Providing a kind of can develop fast, neither increases the display packing that cost does not lose the custom menu of definition again, has reduced the construction cycle, makes a great contribution for 3D demonstration product updates faster.Accordingly, 3D display system bag provided by the invention has expanded and can handle to make it the clear image processing module that is presented on the screen the 2D menu, and this image processing module has also further comprised compression unit and copied cells, in order to the operation of the 2D menu being carried out laterally or vertically compress and duplicate, make the 3D display system improve viewing quality simultaneously to the 3D rendering and the 2D menu of user's clear display.

The above only is preferred embodiment of the present invention, not in order to restriction the present invention, all any modifications of being done within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims

1. under the 3D display mode, realize the method that the 2D menu shows for one kind, it is characterized in that described method comprises the steps:

The 2D menu is copied into two parts of identical plane menus;

2. the method for claim 1 is characterized in that, the described step that the 2D menu is copied into two parts of identical plane menus is specially:

Directly 2D menu to be shown is copied into two parts of identical plane menus.

3. the method for claim 1 is characterized in that, the described step that the 2D menu is copied into two parts of identical plane menus is specially:

With 2D menu transverse compression 1/2nd to be shown;

2D menu after the compression is copied into two parts of identical plane menus.

4. method as claimed in claim 3 is characterized in that, the described step that two parts of plane menus are presented at the middle position of left-eye image and eye image respectively is specially:

Two parts of plane menus are presented at the left-half of display screen and the middle position of right half part respectively.

5. the method for claim 1 is characterized in that, the described step that the 2D menu is copied into two parts of identical plane menus is specially:

With vertically compression 1/2nd of 2D menu to be shown;

6. method as claimed in claim 5 is characterized in that, the described step that two parts of plane menus are presented at the middle position of left-eye image and eye image respectively is specially:

Two parts of plane menus are presented at the middle position of the first half and the latter half of display screen respectively.

7. a 3D display system is characterized in that, described system comprises:

Image processing module, 3D processing module and 3D display screen;

8. system as claimed in claim 7 is characterized in that described image processing module also comprises the transverse compression unit, be used for 2D menu transverse compression 1/2nd to be shown, and the menu signal after will compressing exports described copied cells to.

9. system as claimed in claim 7 is characterized in that described image processing module also comprises vertical compression unit, be used for vertically compression 1/2nd of 2D menu to be shown, and the menu signal after will compressing exports described copied cells to.

10. 3D display that comprises each described 3D display system of claim 7 to 9.