CN104318913A - Display control method and device for terminal - Google Patents

Abstract

The invention discloses a display control method and device for a terminal. The specific implementation mode of the display control method for the terminal comprises the steps that according to a staggered display mode, a display controlled area in a display area of the terminal is determined; the display brightness of the display controlled area is adjusted. According to the implementation mode, images are displayed in a staggered mode, and thus the purpose of saving the electric quantity under the situation that the display effect is ensured is achieved.

Description

For display control method and the device of terminal

Technical field

The application relates to electronic technology field, is specifically related to field of terminal technology, particularly relates to the display control method for terminal and device.

Background technology

Along with the development of terminal technology, large-sized display screen has become one of requisite hardware configuration of each Terminal Type institute gradually.Size due to screen its power consumption larger is also higher, and therefore the power consumption of screen has become the main cause having a strong impact on terminal flying power.In the prior art, in order to reduce power consumption, terminal automatically or can carry out the brightness value of adjusting screen usually by the mode that user is manual, reach the object reducing electric quantity consumption with the display brightness by reducing whole screen.

Summary of the invention

This application provides a kind of display control method for terminal and device.

On the one hand, this application provides a kind of display control method for terminal, described method comprises:

According to staggered display mode, determine to show controlled area in the viewing area of terminal;

Adjust the display brightness of described display controlled area.

In some embodiments, described staggered display mode comprises at least one that pixel is interlocked in the staggered display mode of display mode, line interlacing display mode and row.

In some embodiments, described staggered display mode is attached with frame and interlocks display mode.

In some embodiments, described viewing area is the viewing area that Organic Light Emitting Diode OLED is formed.

In some embodiments, described determine in the viewing area of terminal display controlled area comprise:

Determine to show controlled area by the image pixel of image to be displayed in the viewing area of terminal.

In some embodiments, the display brightness of the described display controlled area of described adjustment comprises:

By the mode of image procossing, adjust the brightness value of image pixel corresponding to described display controlled area;

The luminous intensity of the OLED light source corresponding with described image pixel is adjusted according to described brightness value.

In some embodiments, described determine in the viewing area of terminal display controlled area comprise:

Determine to show controlled area by OLED pixel in the viewing area of terminal.

In some embodiments, described OLED pixel comprises:

The OLED pixel formed by one or more OLED light source.

In some embodiments, described by OLED pixel determine display controlled area comprise:

OLED pixel by being formed by an OLED light source in same glow color is determined to show controlled area.

In some embodiments, the display brightness of the described display controlled area of described adjustment comprises:

Adjust the luminous intensity of the OLED light source that OLED pixel comprises described in described display controlled area.

In some embodiments, the display brightness of the described display controlled area of described adjustment comprises:

Reduce the display brightness of described display controlled area;

Or, described display controlled area is shown as black.

Second aspect, this application provides a kind of display control unit for terminal, and described device comprises:

Determination module, for according to staggered display mode, determines to show controlled area in the viewing area of terminal;

Adjusting module, for adjusting the display brightness of described display controlled area.

In some embodiments, described staggered display mode comprises at least one that pixel is interlocked in the staggered display mode of display mode, line interlacing display mode and row.

In some embodiments, described staggered display mode is attached with frame and interlocks display mode.

In some embodiments, described viewing area is the viewing area that Organic Light Emitting Diode OLED is formed.

In some embodiments, described determination module comprises:

Image pixel elements, determines to show controlled area for the image pixel by image to be displayed in the viewing area of terminal.

In some embodiments, described adjusting module comprises:

Pixel adjustment unit, for the mode by image procossing, adjusts the brightness value of image pixel corresponding to described display controlled area;

Light intensity adjustment unit, for adjusting the luminous intensity of the OLED light source corresponding with described image pixel according to described brightness value.

In some embodiments, described determination module comprises:

Light source pixel unit, for determining to show controlled area by OLED pixel in the viewing area of terminal.

In some embodiments, described OLED pixel comprises:

The OLED pixel formed by one or more OLED light source.

In some embodiments, described light source pixel unit comprises:

Include monochrome pixels subelement, for determining to show controlled area by the OLED pixel formed by an OLED light source in same glow color.

In some embodiments, it is characterized in that, described adjusting module comprises:

Light source adjustment unit, for adjusting the luminous intensity of the OLED light source that OLED pixel comprises described in described display controlled area.

In some embodiments, described adjusting module specifically for:

Reduce the display brightness of described display controlled area;

Or, described display controlled area is shown as black.

The display control method for terminal that the application provides, first according to staggered display mode, determines to show controlled area, then adjusts the display brightness of described display controlled area in the viewing area of terminal.Power consumption is reduced by the display brightness of changing section viewing area, the state and the region of the region changed due to brightness and the former brightness of maintenance is interspersed, because this reducing the impact of brightness change on display effect, thus achieve power saving object when ensureing display effect.

Accompanying drawing explanation

By reading the detailed description done non-limiting example done with reference to the following drawings, the other features, objects and advantages of the application will become more obvious:

Fig. 1 is the process flow diagram of the application for an embodiment of the display control method of terminal;

Fig. 2 is the schematic diagram of several staggered display mode embodiment illustrated in fig. 1;

Fig. 3 is that another kind embodiment illustrated in fig. 1 interlocks the schematic diagram of display mode;

Fig. 4 is that a kind of example frame embodiment illustrated in fig. 1 is interlocked the schematic diagram of display mode;

Fig. 5 is the process flow diagram of the application for another embodiment of the display control method of terminal;

Fig. 6 is the schematic diagram of display controlled area embodiment illustrated in fig. 5;

Fig. 7 is the process flow diagram of the application for another embodiment of the display control method of terminal;

Fig. 8 is that pixel embodiment illustrated in fig. 7 is interlocked a kind of schematic diagram of implementation of display;

Fig. 9 is the pixel staggered display schematic diagram of the application;

Figure 10 is the structural representation of the application for an embodiment of the display control unit of terminal;

Figure 11 is the structural representation of an optional implementation embodiment illustrated in fig. 10;

Figure 12 is the structural representation of another optional implementation embodiment illustrated in fig. 10.

Embodiment

Below in conjunction with drawings and Examples, the application is described in further detail.Be understandable that, specific embodiment described herein is only for explaining related invention, but not the restriction to this invention.It also should be noted that, for convenience of description, in accompanying drawing, illustrate only the part relevant to Invention.

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the application in detail in conjunction with the embodiments.

Please refer to Fig. 1, it illustrates the flow process 100 of an embodiment of the display control method for terminal.In the present embodiment, for the ease of understanding, illustrate in conjunction with the terminal with display screen.It will be understood by those skilled in the art that this terminal can include but not limited to smart mobile phone, intelligent television, panel computer, E-book reader, pocket computer on knee and desk-top computer etc.

As shown in Figure 1, in a step 101, according to staggered display mode, determine to show controlled area in the viewing area of terminal.

In the present embodiment, the viewing area of terminal can refer to the display screen of terminal, and shows controlled area and can refer to the subregion marked off on the display screen.Particularly, when determining display controlled area from the viewing area of terminal, can determine according to the staggered display mode preset to show the particular location of controlled area in whole viewing area and area occupied.That is, display controlled area can be made up of multiple display and control subregion, and display and control subregion presents the state spaced apart of rule in display controlled area according to this staggered display mode preset.

In an optional implementation of the present embodiment, staggered display mode comprises at least one that pixel is interlocked in the staggered display mode of display mode, line interlacing display mode and row.Wherein, pixel refers to the basic coding of basic protochrome and gray scale thereof.Pixel forms the elementary cell of digital image, usually with pixel per inch PPI (pixels per inch) for unit represents the size of image resolution.Particularly, in the present embodiment because Region dividing can be carried out in the viewing area of terminal in units of pixel, therefore, staggered display mode can contain the various interlace modes carried out in units of pixel, comprise at least one that pixel is interlocked in the staggered display mode of display mode, line interlacing display mode and row, wherein row, column refers to the pixel set of the pixel composition being positioned at same row, column.

Fig. 2 shows the schematic diagram of the several staggered display mode of the present embodiment.As shown in Figure 2,201,202 and 203 respectively illustrate pixel interlocks the areal distribution schematic diagram of display mode, line interlacing display mode and the staggered display mode of row, and wherein, the region 204 of black may be used for representative display controlled area.

It should be noted that, display controlled area can be interspersed in whole viewing area, also only can be interspersed in part viewing area, specifically can be arranged voluntarily by user according to the actual requirements.

Such as, the another kind that Fig. 3 shows the present embodiment interlocks the schematic diagram of display mode.As shown in Figure 3, the left-half in whole viewing area 301 defines display controlled area 302 according to pixel interlace mode, and the right half part in viewing area 301 does not exist display controlled area.It will be understood by those skilled in the art that display controlled area can distribute on the complete display area, also can distribute on part viewing area, the application does not limit in this regard.Those skilled in the art are further appreciated that no matter showing controlled area is distributed in where, and display controlled area is determined according to above-mentioned staggered display mode.

In an optional implementation of the present embodiment, staggered display mode can also be attached with frame and to interlock display mode.In the present embodiment, frame can refer to the single width image frame of least unit in image animation.One frame is exactly a secondary static picture.The quantity of the picture frame that graphic process unit is transmitted in 1 seconds can be considered to the refreshing frequency of image.The frame of the present embodiment display mode of interlocking means, line interlacing staggered in above-mentioned pixel or staggered display mode between additional frame in staggered display mode in these frames such as row are staggered.In other words, the position of the display controlled area between two continuous frames can be different.Such as, in one implementation, when image processor refreshes, odd-numbered frame and even frame can adopt contrary staggered display mode to carry out image display.

A kind of example frame that Fig. 4 shows the present embodiment is interlocked the schematic diagram of display mode, and wherein 401 is that odd-numbered frame is carried out pixel and to be interlocked the schematic diagram of display, and 402 is that even frame is carried out pixel and to be interlocked the schematic diagram of display.As can be seen from Figure 4 showing the position that controlled area 403 distributes in odd-numbered frame and even frame is contrary just, and like this when constantly refreshing display image, interlocking just can reduce further by frame shows controlled area to the impact of image display effect.

Return Fig. 1, in a step 102, the display brightness of adjustment display controlled area.

In the present embodiment, when adjusting the display brightness of display controlled area, can be realized by the luminous intensity adjusting light source corresponding to display controlled area, the display brightness of other viewing areas shown beyond controlled area also will be kept simultaneously constant.

In an optional implementation of the present embodiment, the display brightness of adjustment display controlled area specifically can comprise the display brightness reducing display controlled area, maybe display controlled area is shown as black.Namely reduce the luminous intensity of light source corresponding to display controlled area, maybe light source corresponding for display controlled area is closed.No matter be the light source luminescent intensity or the closedown light source that reduce display controlled area, the power consumption of screen can be reduced.And, because other viewing areas outside display controlled area also maintain original display brightness, the display of image therefore can also be realized preferably.Especially when terminal is under strong illumination, the present embodiment still can keep good display effect, there is not prior art owing to reducing the display brightness of whole screen and the problem that cannot show under high light.

The display control method for terminal that above-described embodiment of the application provides, first according to staggered display mode, determine to show controlled area in the viewing area of terminal, then the display brightness of adjustment display controlled area, power consumption is reduced by the display brightness of changing section viewing area, the state and the region of the region changed due to brightness and the former brightness of maintenance is interspersed, because this reducing the impact of brightness change on display effect, thus achieve power saving object when ensureing display effect.

With further reference to Fig. 5, it illustrates the flow process 500 of another embodiment of the display control method for terminal.In the present embodiment, viewing area is the viewing area that Organic Light Emitting Diode OLED is formed.

As shown in Figure 5, in step 501, according to staggered display mode, determine to show controlled area by the image pixel of image to be displayed in the viewing area of terminal.

In the present embodiment, when determining display controlled area, can, in units of the image pixel of image to be displayed, determine to show controlled area according to above-mentioned staggered display mode.Particularly, form because image is always arranged by the image slices vegetarian refreshments of some, therefore can first in described image to be displayed according to above-mentioned staggered display mode, determine the image pixel point set needing to carry out brilliance control, then can using the viewing area corresponding to these image slices vegetarian refreshments as display controlled area.

It should be noted that, when the image pixel by image to be displayed determines display controlled area, the pixel unit carrying out staggered display only can comprise an image pixel, also can comprise multiple image pixel.Fig. 6 shows the schematic diagram of the determined display controlled area of the present embodiment.As shown in Figure 6, carry out pixel interlock display image pixel unit include two image pixels.It will be understood by those skilled in the art that the concrete composition of the image pixel unit carrying out staggered display can carry out difference and arrange according to different display demands, the application is not limited in this respect display controlled area.

Then, in step 502, by the mode of image procossing, the brightness value of the image pixel that adjustment display controlled area is corresponding.

In the present embodiment, the image pixel that display controlled area is corresponding, the image slices vegetarian refreshments needing to carry out brilliance control determined in above-mentioned steps 501 in fact exactly.Therefore being sent to by image to be displayed before viewing area shows, the brightness value of these pixels can be adjusted by the mode of image procossing.In one implementation, frame buffer zone (frame buffer) can be utilized to process image to be displayed, directly adjustment need to carry out brilliance control the brightness value of image pixel.In another kind of implementation, for the terminal platform having Layering manifestation mechanism, such as Android platform, a netted layer can be covered again going up most on layer of image to be displayed, and this netted layer can be shown as black at display controlled area, then be shown as transparent in other regions, so just achieve blocking completely display controlled area.It will be understood by those skilled in the art that and can also utilize other possible image processing methods in prior art, adjustment needs the brightness value of the image pixel carrying out brilliance control.In the present embodiment, adjust the brightness value of pixel mainly to refer to and brightness value turned down or image pixel is shown as black.

Finally, in step 503, the luminous intensity of the OLED light source corresponding with image pixel is adjusted according to brightness value.

In the present embodiment, each image pixel can be made up of one or more OLED light source, and the luminous intensity of described OLED light source is determined by the brightness value of described pixel.When the viewing area that the image to be displayed after above-mentioned steps 502 being processed is transferred to terminal shows, when namely showing the image to be displayed after this process by the OLED display module of terminal, because the brightness value of the image pixel of image to be displayed is changed by image processing method, the luminous intensity thus forming the OLED light source of image pixel also will change thereupon.

Become example with an image pixel by red R, green G and blue B tri-sub-pixel groups below to illustrate.The corresponding OLED light source of each sub-pixel.When display white (brightness 255) pixel, sub-pixel R, G, B will show its maximum brightness value 255, and the luminous intensity of three now corresponding OLED light source can think 100%.When this pixel by image procossing from white grizzle (such as, brightness 128) time, this gray scale be shown, its sub-pixel R, G, B display brightness value also must be 128.Now, OLED display module will adjust the luminous intensity of three corresponding OLED light source according to the brightness value 128 after adjustment, make it be reduced to about 50%, thus achieve the adjustment of the luminous intensity to OLED light source.

As can be seen from Figure 5, compared to the embodiment shown in Fig. 1, the present embodiment describe in further detail when viewing area is the viewing area of OLED formation, how to determine to show controlled area, and how to adjust a kind of example implementations of the display brightness showing controlled area.Particularly, first according to staggered display mode, determine to show controlled area by the image pixel of image to be displayed in the viewing area of terminal, then by the mode of image procossing, adjust the brightness value of image pixel corresponding to described display controlled area, finally adjust the luminous intensity of the OLED light source corresponding with described image pixel according to described brightness value.The present embodiment is determined to show controlled area in units of image pixel, only just need can be realized the adjustment of the display brightness to display controlled area by the mode of image procossing, makes to be easy to realize to the display and control of terminal.

With further reference to Fig. 7, it illustrates the flow process 700 of another embodiment of the display control method for terminal.In the present embodiment, viewing area is the viewing area that Organic Light Emitting Diode OLED is formed.

As shown in Figure 7, in step 701, according to staggered display mode, determine to show controlled area by OLED pixel in the viewing area of terminal.

In the present embodiment, when determining display controlled area, can, according to above-mentioned staggered display mode, determine to show controlled area in units of OLED pixel in the viewing area of terminal.In this application, OLED pixel can refer in the viewing area formed by OLED, the pixel of carrying out image display formed by one or more OLED light source.In one implementation, the glow color of light source can not be considered, and using each OLED light source as an independently OLED pixel.In another kind of implementation, can using the combination of multiple OLED light source as an OLED pixel.Such as, can using three light sources R, G, B all as a sub-pixel, then according to their arrangement feature by the combination of sub-pixel, such as RGB, RGBG, RG or BG are overall as an OLED pixel.In another implementation, can determine to show controlled area by the OLED pixel formed by an OLED light source in same glow color.That is, in monochromatic source, using each OLED as an independently pixel.

Fig. 8 is that the pixel of the present embodiment is interlocked a kind of schematic diagram of implementation of display.As shown in Figure 8, the arrangement mode of the sub-pixel of OLED viewing area 801 is that RGB PenTile arranges, and it is different that itself and standard RGB arrange single pixel.The pixel of standard RGB arrangement is made up of RGB three sub-pixels, and the single pixel of PenTile only has " red green " or the sub-pixel composition of " bluish-green " two.When carrying out the staggered display of pixel, can by staggered for packed-pixel (RG or BG) display to obtain showing controlled area 802, also by staggered for single OLED display to obtain showing controlled area 803, single for monochrome OLED can also be carried out staggered display to obtain showing controlled area 804.It should be noted that, when carrying out line interlacing or the staggered display of row, the identical method of display format of interlocking with above-mentioned pixel also can be adopted to determine the composition of OLED pixel, its principle and pixel are interlocked and are shown similar, do not repeat them here.

Return Fig. 7, in a step 702, the luminous intensity of the OLED light source that OLED pixel comprises in adjustment display controlled area.

In the present embodiment, after determined display controlled area by above-mentioned steps 701, just can adjust the luminous intensity of the OLED light source of these display controlled areas of composition according to the actual requirements.Particularly, the luminous intensity of these light sources can be dimmed, also these light sources can be closed and make it be shown as black.

It should be noted that, power saving object can be realized by the luminous intensity directly controlling OLED light source in the present embodiment, and not need by determining that the brightness value of image pixel controls the luminous intensity of OLED light source.Therefore, image pixel all can not affect power saving effect with whether OLED pixel is completely corresponding.

Fig. 9 is the pixel staggered display schematic diagram of the application.For the OLED of traditional RGB arrangement 901, its OLED pixel and image pixel are completely corresponding.Because each OLED pixel includes RGB three sub-pixels, the color of image pixel itself therefore accurately can be demonstrated.That is image pixel accurately can control the luminous intensity of each OLED light source.Such as, no matter be determine to show controlled area based on image pixel or based on OLED pixel, when carrying out can obtaining showing controlled area 902 when pixel is staggered to be shown.By comparison, 903 are arranged for unconventional RGB PenTile, because its OLED pixel only includes two colors (RG or BG), therefore cannot realize the function being made up of all colours three primary colours.So when actual displayed image, a pixel of RGB PenTile always " can be borrowed " and form three primary colours by the another kind of color of the pixel be adjacent.Like this, when by image procossing mode, the display controlled area in image to be displayed being shown as black, and after other regions retain original color, then during by image to be displayed after OLED Graphics Processing, the OLED light source in display controlled area 904 cannot be shown as all black.This is because its neighbor will be shown as original color, just probably need to use the color of dotted portion sub-pixel in figure, so dotted line sub-pixel still can send the light of some strength, and the display effect preset when image procossing cannot be reached, therefore also just cannot realize the power saving effect of expecting completely.As can be seen here, when the composition of OLED pixel is not traditional RGB sub-pixel, image pixel just probably cannot control the luminous situation of the OLED light source of its correspondence completely, thus can not exactly according to processing result image adjustment luminous intensity.The present embodiment is by directly determining to show controlled area based on OLED pixel, and higher to the control accuracy of OLED light source, power savings is better.

As can be seen from Figure 7, compared to the embodiment shown in Fig. 1, the present embodiment describe in further detail when viewing area is the viewing area of OLED formation, how to determine to show controlled area, and how to adjust another example implementations of the display brightness showing controlled area.Particularly, first according to staggered display mode, determine to show controlled area by OLED pixel in the viewing area of terminal, then adjust the luminous intensity of the OLED light source that OLED pixel comprises described in described display controlled area.The present embodiment is determined to show controlled area in units of OLED pixel, achieves the direct regulation and control to OLED light source, further increases the display and control precision to terminal.

With further reference to Figure 10, it illustrates the structural representation of an embodiment of the display control unit for terminal.As shown in Figure 10, the display control unit for terminal described in the present embodiment comprises: determination module 1010 and adjusting module 1020.

Determination module 1010 is configured for according to staggered display mode, determines to show controlled area in the viewing area of terminal.

Adjusting module 1020 is configured for the display brightness of the display controlled area that the described determination module 1010 of adjustment is determined.

In an optional implementation of the present embodiment, described staggered display mode comprises at least one that pixel is interlocked in the staggered display mode of display mode, line interlacing display mode and row.

In an optional implementation of the present embodiment, described staggered display mode is attached with frame and interlocks display mode.

In an optional implementation of the present embodiment, described viewing area is the viewing area that Organic Light Emitting Diode OLED is formed.

Above-described embodiment of the application provide for the determination module in the display control unit of terminal first according to staggered display mode, determine to show controlled area in the viewing area of terminal, then adjusting module adjusts the display brightness of described display controlled area, power consumption is reduced by the display brightness of changing section viewing area, the state and the region of the region changed due to brightness and the former brightness of maintenance is interspersed, because this reducing the impact of brightness change on display effect, thus achieve power saving object when ensureing display effect.

Figure 11 shows an optional implementation of the present embodiment.As shown in figure 11, described determination module 1010 comprises:

Image pixel elements 1011 is configured for be determined to show controlled area by the image pixel of image to be displayed in the viewing area of terminal.

In an optional implementation of the present embodiment, described adjusting module 1020 comprises: pixel adjustment unit 1021 and light intensity adjustment unit 1022.

Pixel adjustment unit 1021 is configured for the mode by image procossing, adjusts the brightness value of image pixel corresponding to described display controlled area.

Light intensity adjustment unit 1022 is configured for the luminous intensity that the brightness value adjusted according to described pixel adjustment unit 1021 adjusts the OLED light source corresponding with described image pixel.

As can be seen from Figure 11, compared to the embodiment shown in Figure 10, the present embodiment describe in further detail when viewing area is the viewing area of OLED formation, how to determine to show controlled area, and how to adjust a kind of example implementations of the display brightness showing controlled area.Particularly, the image pixel elements of the display control unit for terminal in the present embodiment is first according to staggered display mode, determine to show controlled area by the image pixel of image to be displayed in the viewing area of terminal, then pixel adjustment unit is by the mode of image procossing, adjust the brightness value of image pixel corresponding to described display controlled area, last light intensity adjustment unit adjusts the luminous intensity of the OLED light source corresponding with described image pixel according to described brightness value, the present embodiment is determined to show controlled area in units of image pixel, as long as just can be realized the adjustment of the display brightness to described display controlled area by the mode of image procossing, make to be easy to realize to the display and control of terminal.

Figure 12 shows another optional implementation of the present embodiment.As shown in figure 12, described determination module 1010 comprises:

Light source pixel unit 1012, for determining to show controlled area by OLED pixel in the viewing area of terminal.

In an optional implementation of the present embodiment, described OLED pixel comprises: the OLED pixel formed by one or more OLED light source.

In an optional implementation of the present embodiment, described light source pixel unit 1012 comprises:

Include monochrome pixels subelement (not shown), for determining to show controlled area by the OLED pixel formed by an OLED light source in same glow color.

In an optional implementation of the present embodiment, described adjusting module 1020 comprises:

Light source adjustment unit 1023, for adjusting the luminous intensity of the OLED light source that OLED pixel comprises described in described display controlled area.

As can be seen from Figure 12, compared to the embodiment shown in Figure 10, the present embodiment describe in further detail when viewing area is the viewing area of OLED formation, how to determine to show controlled area, and how to adjust another example implementations of the display brightness showing controlled area.Particularly, the light source pixel unit of the display control unit for terminal in the present embodiment is first according to staggered display mode, determine to show controlled area by OLED pixel in the viewing area of terminal, then light source adjustment unit adjusts the luminous intensity of the OLED light source that OLED pixel comprises described in described display controlled area, the present embodiment is determined to show controlled area in units of OLED pixel, achieve the direct regulation and control to OLED light source, further increase the display and control precision to terminal.

Be described in module involved in the embodiment of the present application to be realized by the mode of software, also can be realized by the mode of hardware.Described module also can be arranged within a processor, such as, can be described as: a kind of processor comprises determination module and adjusting module.Wherein, the title of these modules does not form the restriction to this module itself under certain conditions, and such as, determination module can also be described to " for according to staggered display mode, determining the module showing controlled area in the viewing area of terminal ".

As another aspect, present invention also provides a kind of computer-readable recording medium, this computer-readable recording medium can be the computer-readable recording medium comprised in device described in above-described embodiment; Also can be individualism, be unkitted the computer-readable recording medium allocated in terminal.Described computer-readable recording medium stores more than one or one program, and described program is used for performance description in the display control method for terminal of the application by one or more than one processor.

More than describe and be only the preferred embodiment of the application and the explanation to institute's application technology principle.Those skilled in the art are to be understood that, invention scope involved in the application, be not limited to the technical scheme of the particular combination of above-mentioned technical characteristic, also should be encompassed in when not departing from described inventive concept, other technical scheme of being carried out combination in any by above-mentioned technical characteristic or its equivalent feature and being formed simultaneously.The technical characteristic that such as, disclosed in above-mentioned feature and the application (but being not limited to) has similar functions is replaced mutually and the technical scheme formed.

Claims (22)

1. for a display control method for terminal, it is characterized in that, described method comprises:

According to staggered display mode, determine to show controlled area in the viewing area of terminal;

Adjust the display brightness of described display controlled area.

2. the display control method for terminal according to claim 1, is characterized in that, described staggered display mode comprises at least one that pixel is interlocked in the staggered display mode of display mode, line interlacing display mode and row.

3. the display control method for terminal according to claim 2, is characterized in that, described staggered display mode is attached with frame and interlocks display mode.

4. according to the display control method for terminal one of claims 1 to 3 Suo Shu, it is characterized in that, described viewing area is the viewing area that Organic Light Emitting Diode OLED is formed.

5. the display control method for terminal according to claim 4, is characterized in that, described determine in the viewing area of terminal display controlled area comprise:

Determine to show controlled area by the image pixel of image to be displayed in the viewing area of terminal.

6. the display control method for terminal according to claim 5, is characterized in that, the display brightness of the described display controlled area of described adjustment comprises:

By the mode of image procossing, adjust the brightness value of image pixel corresponding to described display controlled area;

The luminous intensity of the OLED light source corresponding with described image pixel is adjusted according to described brightness value.

7. the display control method for terminal according to claim 4, is characterized in that, described determine in the viewing area of terminal display controlled area comprise:

Determine to show controlled area by OLED pixel in the viewing area of terminal.

8. the display control method for terminal according to claim 7, is characterized in that, described OLED pixel comprises:

The OLED pixel formed by one or more OLED light source.

9. the display control method for terminal according to claim 8, is characterized in that, described by OLED pixel determine display controlled area comprise:

OLED pixel by being formed by an OLED light source in same glow color is determined to show controlled area.

10. the display control method for terminal according to any one of claim 7 to 9, is characterized in that, the display brightness of the described display controlled area of described adjustment comprises:

Adjust the luminous intensity of the OLED light source that OLED pixel comprises described in described display controlled area.

11. display control methods for terminal according to any one of claim 1 to 10, it is characterized in that, the display brightness of the described display controlled area of described adjustment comprises:

Reduce the display brightness of described display controlled area;

Or, described display controlled area is shown as black.

12. 1 kinds, for the display control unit of terminal, is characterized in that, described device comprises:

Determination module, for according to staggered display mode, determines to show controlled area in the viewing area of terminal;

Adjusting module, for adjusting the display brightness of described display controlled area.

13. display control units for terminal according to claim 12, is characterized in that, described staggered display mode comprises at least one that pixel is interlocked in the staggered display mode of display mode, line interlacing display mode and row.

14. display control units for terminal according to claim 13, is characterized in that, described staggered display mode is attached with frame and interlocks display mode.

15., according to claim 12 to the display control unit for terminal one of 14 described, is characterized in that, described viewing area is the viewing area that Organic Light Emitting Diode OLED is formed.

16. display control units for terminal according to claim 15, it is characterized in that, described determination module comprises:

Image pixel elements, determines to show controlled area for the image pixel by image to be displayed in the viewing area of terminal.

17. display control units for terminal according to claim 16, it is characterized in that, described adjusting module comprises:

Pixel adjustment unit, for the mode by image procossing, adjusts the brightness value of image pixel corresponding to described display controlled area;

Light intensity adjustment unit, for adjusting the luminous intensity of the OLED light source corresponding with described image pixel according to described brightness value.

18. display control units for terminal according to claim 15, it is characterized in that, described determination module comprises:

Light source pixel unit, for determining to show controlled area by OLED pixel in the viewing area of terminal.

19. display control units for terminal according to claim 18, is characterized in that, described OLED pixel comprises:

The OLED pixel formed by one or more OLED light source.

20. display control units for terminal according to claim 19, is characterized in that, described light source pixel unit comprises:

Include monochrome pixels subelement, for determining to show controlled area by the OLED pixel formed by an OLED light source in same glow color.

21., according to claim 15 to the display control unit for terminal described in 20 any one, is characterized in that, described adjusting module comprises:

Light source adjustment unit, for adjusting the luminous intensity of the OLED light source that OLED pixel comprises described in described display controlled area.

22., according to claim 12 to the display control unit for terminal described in 21 any one, is characterized in that, described adjusting module specifically for:

Reduce the display brightness of described display controlled area;

Or, described display controlled area is shown as black.