CN103188461A - Display method and electronic device - Google Patents

Abstract

The invention discloses a display method and an electronic device. The method is applied to an electronic terminal of a display screen which displays two-dimensional (2D) video signals and three-dimensional (3D) video signals. The display screen comprises at least two displaying areas, the at least two displaying areas comprise a first displaying area and a second displaying area, and the method includes: video signals to be displayed are received; the video signals to be displayed are processed, the 2D video signals which need to be displayed on the first displaying area and the 3D video signals which need to be displayed on the second displaying area are obtained; the 2D video signals are displayed on the first displaying area; and the 3D video signals are displayed on the second displaying area.

Description

A kind of display packing and electronic equipment

Technical field

The present invention relates to the Display Technique field, relate in particular to a kind of display packing and electronic equipment.

Background technology

Maturation day by day along with Display Technique, the user more and more favors stereo display, but the inventor finds in the invention process, in some specific application scenarios, as advertisement, contrast test etc., a certain zone or certain object require emphasis, but, just in 3D demonstration at present and the treatment technology (change 3D as 2D, 3D changes 2D etc.), generally all handle entire image, only adopt 3D to show to entire image, perhaps only adopt 2D to show, therefore, can't realize emphasizing a certain zone or certain object by existing technical scheme.

Summary of the invention

The embodiment of the present application provides a kind of display packing and electronic equipment, only adopt 3D to show or the 2D demonstration in order to solve in the prior art to entire image, in some application-specific, the problem that lacks contrast property, realized in piece image, 3D is carried out in the zone that needs 3D to show show, 2D is carried out in the zone that needs 2D to show show.

The embodiment of the present application one provides a kind of display packing, be applied to have in the electric terminal of the display screen that shows 2D vision signal and 3D vision signal, described display screen comprises at least two viewing areas, comprise first viewing area and second viewing area at least in described two viewing areas, described method comprises:

Receive vision signal to be shown;

Described vision signal to be shown is handled the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area;

Show described 2D vision signal in described first viewing area;

Show described 3D vision signal in described second viewing area.

Wherein, described vision signal to be shown is: one tunnel vision signal; Or two-path video signal.

One, when described signal to be shown is one tunnel vision signal, described described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area specifically comprise:

Judge whether described vision signal to be shown is the 2D vision signal;

When described vision signal to be shown is the 2D vision signal, convert described 2D vision signal to the 3D vision signal, obtain the 3D vision signal that shows in described second viewing area;

When described vision signal to be shown is the 3D vision signal, convert described 3D vision signal to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area;

Wherein, described second viewing area is surrounded by described first viewing area.

Two, when described signal to be shown is one tunnel vision signal, described described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area specifically comprise:

Determine that from described vision signal to be shown first's vision signal to be shown need carry out 3D and show, determine that second portion vision signal to be shown need carry out 2D and show;

Judge whether described vision signal to be shown is the 2D vision signal;

When described vision signal to be shown is the 2D vision signal, described first vision signal to be shown is converted to the 3D vision signal, obtain the 3D vision signal that shows in described second viewing area;

When described vision signal to be shown is the 3D vision signal, described second portion vision signal to be shown is converted to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area.

Three, when described signal to be shown is the two-path video signal, described described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area specifically comprise:

When described two-path video signal all is the 2D vision signal, the 2D vision signal of importing described second viewing area is converted to the 3D vision signal, obtain the 3D vision signal that shows in described second viewing area;

When described two-path video signal all is the 3D vision signal, the 3D vision signal of importing described first viewing area is converted to the 2D vision signal, obtain the 3D vision signal that shows in described first viewing area;

Wherein, described second viewing area is surrounded by described first viewing area.

Four, when described signal to be shown is the two-path video signal, described described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area specifically comprise:

When the described two-path video signal first via is the 2D vision signal, the second tunnel when being the 3D vision signal, judges whether the vision signal to be shown of described first viewing area of input is the 2D vision signal;

When the vision signal to be shown of described first viewing area of input is the 3D vision signal, convert described 3D vision signal to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area;

Whether the vision signal to be shown of judging described second viewing area of input is the 3D vision signal;

When the vision signal to be shown of described second viewing area of input is the 2D vision signal, convert described 2D vision signal to the 3D vision signal, obtain the 3D vision signal that shows in described second viewing area.

The embodiment of the present application two provides a kind of electronic equipment, and this equipment specifically comprises:

Receiver is used for receiving vision signal to be shown;

Processor is used for described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area;

Display screen, described display screen comprises at least two viewing areas, comprises first viewing area and second viewing area at least in described two viewing areas, is used for showing described 2D vision signal in described first viewing area; And show described 3D vision signal in described second viewing area.

Wherein, described vision signal to be shown is: one tunnel vision signal; Or two-path video signal.

Described processor specifically comprises:

First judging unit is used for judging whether described vision signal to be shown is the 2D vision signal;

Second converting unit is used for converting described 2D vision signal to the 3D vision signal when described vision signal to be shown is the 2D vision signal, obtains the 3D vision signal that shows in described second viewing area; When described vision signal to be shown is the 3D vision signal, convert described 3D vision signal to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area;

Wherein, described second viewing area is surrounded by described first viewing area.

Determining unit is used for determining that from described vision signal to be shown first's vision signal to be shown need carry out 3D and show, determines that second portion vision signal to be shown need carry out 2D and show;

Second judging unit is used for judging whether described vision signal to be shown is the 2D vision signal;

Second converting unit is used for when described vision signal to be shown is the 2D vision signal described first vision signal to be shown being converted to the 3D vision signal, obtains the 3D vision signal that shows in described second viewing area; When described vision signal to be shown is the 3D vision signal, described second portion vision signal to be shown is converted to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area.

The technical scheme that the application provides by an embodiment or a plurality of embodiment, has following useful technique effect: in some specific application, such as the intelligent television picture-in-picture function, in contrast test and the advertisement applications, by the conversion between 2D and the 3D, only some specific object or specific region are carried out the 3D demonstration, remainder carries out 2D and shows, given prominence to visual effect, special object or specific region are played the effect emphasized, solved in the prior art piece image is carried out disposed of in its entirety, only adopt 3D to show or the 2D demonstration, in some application-specific, lack the problem of contrast property.

Description of drawings

Fig. 1 is the method flow diagram of display packing in the embodiment of the present application one;

Fig. 2 is the PIP in the intelligent television in the embodiment of the present application one (Picture in Picture, picture-in-picture) display interface;

Fig. 3 is the display interface of piece image;

Fig. 4 is the different dimensions display interface of identical two width of cloth images;

Fig. 5 is the structure chart of electronic equipment in the embodiment of the present application two.

Embodiment

The embodiment of the present application provides a kind of display packing and electronic equipment, only adopt 3D to show or the 2D demonstration in order to solve in the prior art to entire image, in some application-specific, the problem that lacks contrast property, realized in piece image, 3D is carried out in the zone that needs 3D to show show, 2D is carried out in the zone that needs 2D to show show.

In order better to understand technique scheme, below in conjunction with description of drawings and specific embodiment such scheme is described in detail.

Embodiment 1

As shown in Figure 1, the method flow diagram of a kind of display packing that provides for the embodiment of the present application one, be applied to have in the electric terminal of the display screen that shows 2D vision signal and 3D vision signal, this display screen comprises at least two viewing areas, comprise first viewing area and second viewing area at least in its two viewing areas, described method comprises:

Step s101 receives vision signal to be shown;

Step s102 treats display video signal and handles, the 2D vision signal that acquisition need show in first viewing area, and the 3D vision signal that shows in second viewing area;

Step s103 shows described 2D vision signal in first viewing area, show described 3D vision signal in second viewing area.

Wherein, described vision signal to be shown is: one tunnel vision signal; Or two-path video signal.

One, when described signal to be shown is one tunnel vision signal, for step s102, described vision signal to be shown is handled the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area, specifically comprise:

Judge whether described vision signal to be shown is the 2D vision signal;

When described vision signal to be shown is the 2D vision signal, convert described 2D vision signal to the 3D vision signal, obtain the 3D vision signal that shows in described second viewing area;

When described vision signal to be shown is the 3D vision signal, convert described 3D vision signal to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area;

Wherein, described second viewing area is surrounded by described first viewing area.

For example, as shown in Figure 2, be the PIP in the intelligent television (Picture in Picture, picture-in-picture) display interface, adopt 2D to show in the a-quadrant, adopt 3D to show in the B zone, when vision signal to be shown is the 2D vision signal, and the B zone is to adopt 3D to show, therefore, just convert the 2D vision signal to the 3D vision signal, show in the B zone then; The video input signals of a-quadrant just need not be changed, and shows the 2D vision signal;

When vision signal to be shown was the 3D vision signal, the B zone directly showed this 3D vision signal; And the a-quadrant is to adopt 2D to show, so just the 3D vision signal is converted to the 2D vision signal, shows in the a-quadrant.

Two, for step s102, when described signal to be shown is one tunnel vision signal, describedly described vision signal to be shown is handled the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area, specifically comprise:

Determine that from described vision signal to be shown first's vision signal to be shown need carry out 3D and show, determine that second portion vision signal to be shown need carry out 2D and show;

Judge whether described vision signal to be shown is the 2D vision signal;

When described vision signal to be shown is the 2D vision signal, described first vision signal to be shown is converted to the 3D vision signal, obtain the 3D vision signal that shows in described second viewing area;

When described vision signal to be shown is the 3D vision signal, described second portion vision signal to be shown is converted to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area.

For example, as shown in Figure 3, be the display interface of piece image, suppose in an advertising sheet, need publicize a mobile phone that at this moment, if this mobile phone is shown with 3D, remaining image all shows that with 2D user's observing effect can be more vivid.

Suppose that the square among Fig. 3 partly is a mobile phone, at first determine this mobile phone for carrying out the object that 3D shows, remaining image carries out 2D and shows; This mobile phone can also can be the object that uses remarkable object detection method to detect for the special object of user's setting.

Determine the vision signal of handset image correspondence and need carry out the 3D demonstration from described vision signal to be shown, remaining image partly carries out 2D and shows;

When described vision signal to be shown is the 2D vision signal, convert the vision signal of handset image correspondence to the 3D vision signal; When described vision signal to be shown is the 3D vision signal, will all convert the 2D vision signal to except the vision signal of handset image correspondence.

As shown in Figure 4, be the different display interfaces of two identical width of cloth images, left image adopts 2D to show, right image adopts 3D to show.This example can apply in some contrast tests, and same image is carried out 2D and 3D demonstration, can better compare visual effect.Certainly, also can be divided into demonstration up and down, not repeat them here.

When described vision signal to be shown is the 2D vision signal, convert the vision signal of right image correspondence to the 3D vision signal; When described vision signal to be shown is the 3D vision signal, convert the vision signal of left image correspondence to the 2D vision signal.

Three, when described signal to be shown is the two-path video signal, described described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area specifically comprise:

When described two-path video signal all is the 2D vision signal, the 2D vision signal of described second viewing area of input is carried out the 3D conversion, obtain the 3D vision signal that shows in described second viewing area;

When described two-path video signal all is the 3D vision signal, the 3D vision signal of described first viewing area of input is carried out the 2D conversion, obtain the 3D vision signal that shows in described first viewing area;

Wherein, described second viewing area is surrounded by described first viewing area.

Equally, as shown in Figure 2, suppose that the program of going up the tableland adopts 2D to show that picture-in-picture region is the CCTV, adopts 3D to show.

When described two-path video signal all is the 2D vision signal, the 2D vision signal of CCTV is converted to the 3D vision signal; When described two-path video signal all is the 3D vision signal, the 3D vision signal of last tableland is converted to the 2D vision signal.

Four, when described signal to be shown is the two-path video signal, described described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area specifically comprise:

When the described two-path video signal first via is the 2D vision signal, the second tunnel when being the 3D vision signal, judges whether the vision signal to be shown of described first viewing area of input is the 2D vision signal;

When the vision signal to be shown of described first viewing area of input is the 3D vision signal, convert described 3D vision signal to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area;

Whether the vision signal to be shown of judging described second viewing area of input is the 3D vision signal;

When the vision signal to be shown of described second viewing area of input is the 2D vision signal, convert described 2D vision signal to the 3D vision signal, obtain the 3D vision signal that shows in described second viewing area.

As shown in Figure 2, same hypothesis adopts 2D to show that picture-in-picture region is the CCTV to the program of last tableland, adopts 3D to show.

The program video signal of supposing to go up the tableland is the 3D vision signal, and the program video signal of CCTV is the 2D vision signal, and the program video signal that will go up the tableland so converts the 2D vision signal to, and the program video signal of CCTV is converted to the 3D vision signal.

Embodiment 2

As shown in Figure 5, the embodiment of the present application two provides a kind of electronic equipment, and this equipment specifically comprises:

Receiver 201 is used for receiving vision signal to be shown;

Processor 202 is used for described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area;

Display screen 203, described display screen comprises at least two viewing areas, comprises first viewing area and second viewing area at least in described two viewing areas, is used for showing described 2D vision signal in described first viewing area; And show described 3D vision signal in described second viewing area.

Wherein, described vision signal to be shown is: one tunnel vision signal; Or two-path video signal.

Described processor 202 specifically comprises:

First judging unit is used for judging whether described vision signal to be shown is the 2D vision signal;

Second converting unit is used for converting described 2D vision signal to the 3D vision signal when described vision signal to be shown is the 2D vision signal, obtains the 3D vision signal that shows in described second viewing area; When described vision signal to be shown is the 3D vision signal, convert described 3D vision signal to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area;

Wherein, described second viewing area is surrounded by described first viewing area.

Further, described processor 202 specifically also comprises:

Determining unit is used for determining that from described vision signal to be shown first's vision signal to be shown need carry out 3D and show, determines that second portion vision signal to be shown need carry out 2D and show;

Second judging unit is used for judging whether described vision signal to be shown is the 2D vision signal;

Second converting unit is used for when described vision signal to be shown is the 2D vision signal described first vision signal to be shown being converted to the 3D vision signal, obtains the 3D vision signal that shows in described second viewing area; When described vision signal to be shown is the 3D vision signal, described second portion vision signal to be shown is converted to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area.

Further, described processor 202 specifically also comprises:

The 3rd judging unit is used for judging that described vision signal to be shown is that one tunnel vision signal still is the two-path video signal;

The 3rd converting unit is used for when described two-path video signal all is the 2D vision signal 2D vision signal of importing described second viewing area being converted to the 3D vision signal, obtains the 3D vision signal that shows in described second viewing area; When described two-path video signal all is the 3D vision signal, the 3D vision signal of importing described first viewing area is converted to the 2D vision signal, obtain the 3D vision signal that shows in described first viewing area; Wherein, described second viewing area is surrounded by described first viewing area.

Further, described processor 202 specifically also comprises:

The 4th judging unit, be used for when the described two-path video signal first via be the 2D vision signal, the second tunnel when being the 3D vision signal, judges whether the vision signal to be shown of described first viewing area of input is the 2D vision signal;

The 4th converting unit is used for converting described 3D vision signal to the 2D vision signal when the vision signal to be shown of described first viewing area of input is the 3D vision signal, obtains the 2D vision signal that shows in described first viewing area;

Further, described processor 202 specifically also comprises:

The 5th judging unit is used for judging whether the vision signal to be shown of described second viewing area of input is the 3D vision signal;

The 5th converting unit is used for converting described 2D vision signal to the 3D vision signal when the vision signal to be shown of described second viewing area of input is the 2D vision signal, obtains the 3D vision signal that shows in described second viewing area.

The technical scheme that the application provides by an embodiment or a plurality of embodiment, has following useful technique effect: in some specific application, such as the intelligent television picture-in-picture function, in contrast test and the advertisement applications, by the conversion between 2D and the 3D, only some specific object or specific region are carried out the 3D demonstration, remainder carries out 2D and shows, given prominence to visual effect, special object or specific region are played the effect emphasized, solved in the prior art piece image is carried out disposed of in its entirety, only adopt 3D to show or the 2D demonstration, in some application-specific, lack the problem of contrast property.

Although described the preferred embodiments of the present invention, in a single day those skilled in the art get the basic creative concept of cicada, then can make other change and modification to these embodiment.So claims are intended to all changes and the modification that are interpreted as comprising preferred embodiment and fall into the scope of the invention.

Obviously, those skilled in the art can carry out various changes and modification to the present invention and not break away from the spirit and scope of the present invention.Like this, if of the present invention these are revised and modification belongs within the scope of claim of the present invention and equivalent technologies thereof, then the present invention also is intended to comprise these changes and modification interior.

Claims (12)

1. display packing, be applied to have in the electric terminal of the display screen that shows 2D vision signal and 3D vision signal, described display screen comprises at least two viewing areas, comprise first viewing area and second viewing area at least in described two viewing areas, it is characterized in that described method comprises:

Receive vision signal to be shown;

Described vision signal to be shown is handled the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area;

Show described 2D vision signal in described first viewing area;

Show described 3D vision signal in described second viewing area.

2. the method for claim 1 is characterized in that, described vision signal to be shown is: one tunnel vision signal; Or two-path video signal.

3. method as claimed in claim 2, it is characterized in that, when described signal to be shown is one tunnel vision signal, described described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area, specifically comprise:

Judge whether described vision signal to be shown is the 2D vision signal;

When described vision signal to be shown is the 2D vision signal, convert described 2D vision signal to the 3D vision signal, obtain the 3D vision signal that shows in described second viewing area;

When described vision signal to be shown is the 3D vision signal, convert described 3D vision signal to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area;

Wherein, described second viewing area is surrounded by described first viewing area.

4. method as claimed in claim 2, it is characterized in that, when described signal to be shown is one tunnel vision signal, described described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area, specifically comprise:

Determine that from described vision signal to be shown first's vision signal to be shown need carry out 3D and show, determine that second portion vision signal to be shown need carry out 2D and show;

Judge whether described vision signal to be shown is the 2D vision signal;

When described vision signal to be shown is the 2D vision signal, described first vision signal to be shown is converted to the 3D vision signal, obtain the 3D vision signal that shows in described second viewing area;

When described vision signal to be shown is the 3D vision signal, described second portion vision signal to be shown is converted to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area.

5. method as claimed in claim 2, it is characterized in that, when described signal to be shown is the two-path video signal, described described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area, specifically comprise:

When described two-path video signal all is the 2D vision signal, the 2D vision signal of importing described second viewing area is converted to the 3D vision signal, obtain the 3D vision signal that shows in described second viewing area;

When described two-path video signal all is the 3D vision signal, the 3D vision signal of importing described first viewing area is converted to the 2D vision signal, obtain the 3D vision signal that shows in described first viewing area;

Wherein, described second viewing area is surrounded by described first viewing area.

6. method as claimed in claim 2, it is characterized in that, when described signal to be shown is the two-path video signal, described described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area, specifically comprise:

When the described two-path video signal first via is the 2D vision signal, the second tunnel when being the 3D vision signal, judges whether the vision signal to be shown of described first viewing area of input is the 2D vision signal;

When the vision signal to be shown of described first viewing area of input is the 3D vision signal, convert described 3D vision signal to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area;

Whether the vision signal to be shown of judging described second viewing area of input is the 3D vision signal;

When the vision signal to be shown of described second viewing area of input is the 2D vision signal, convert described 2D vision signal to the 3D vision signal, obtain the 3D vision signal that shows in described second viewing area.

7. an electronic equipment is characterized in that, comprising:

Receiver is used for receiving vision signal to be shown;

Processor is used for described vision signal to be shown is handled, the 2D vision signal that acquisition need show in described first viewing area, and the 3D vision signal that shows in described second viewing area;

Display screen, described display screen comprises at least two viewing areas, comprises first viewing area and second viewing area at least in described two viewing areas, is used for showing described 2D vision signal in described first viewing area; And show described 3D vision signal in described second viewing area.

8. equipment as claimed in claim 7 is characterized in that, described vision signal to be shown is: one tunnel vision signal; Or two-path video signal.

9. equipment as claimed in claim 7 is characterized in that, described processor specifically comprises:

First judging unit is used for judging whether described vision signal to be shown is the 2D vision signal;

Second converting unit is used for converting described 2D vision signal to the 3D vision signal when described vision signal to be shown is the 2D vision signal, obtains the 3D vision signal that shows in described second viewing area; When described vision signal to be shown is the 3D vision signal, convert described 3D vision signal to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area;

Wherein, described second viewing area is surrounded by described first viewing area.

10. equipment as claimed in claim 7 is characterized in that, described processor specifically comprises:

Determining unit is used for determining that from described vision signal to be shown first's vision signal to be shown need carry out 3D and show, determines that second portion vision signal to be shown need carry out 2D and show;

Second judging unit is used for judging whether described vision signal to be shown is the 2D vision signal;

Second converting unit is used for when described vision signal to be shown is the 2D vision signal described first vision signal to be shown being converted to the 3D vision signal, obtains the 3D vision signal that shows in described second viewing area; When described vision signal to be shown is the 3D vision signal, described second portion vision signal to be shown is converted to the 2D vision signal, obtain the 2D vision signal that shows in described first viewing area.

11. equipment as claimed in claim 7 is characterized in that, described processor specifically comprises:

The 3rd judging unit is used for judging that described vision signal to be shown is that one tunnel vision signal still is the two-path video signal;

The 3rd converting unit is used for when described two-path video signal all is the 2D vision signal 2D vision signal of importing described second viewing area being converted to the 3D vision signal, obtains the 3D vision signal that shows in described second viewing area; When described two-path video signal all is the 3D vision signal, the 3D vision signal of importing described first viewing area is converted to the 2D vision signal, obtain the 3D vision signal that shows in described first viewing area; Wherein, described second viewing area is surrounded by described first viewing area.

12. equipment as claimed in claim 7 is characterized in that, described processor specifically comprises:

The 4th judging unit, be used for when the described two-path video signal first via be the 2D vision signal, the second tunnel when being the 3D vision signal, judges whether the vision signal to be shown of described first viewing area of input is the 2D vision signal;

The 4th converting unit is used for converting described 3D vision signal to the 2D vision signal when the vision signal to be shown of described first viewing area of input is the 3D vision signal, obtains the 2D vision signal that shows in described first viewing area;

The 5th judging unit is used for judging whether the vision signal to be shown of described second viewing area of input is the 3D vision signal;

The 5th converting unit is used for converting described 2D vision signal to the 3D vision signal when the vision signal to be shown of described second viewing area of input is the 2D vision signal, obtains the 3D vision signal that shows in described second viewing area.

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