CN105467641A - Pixel arrangement method - Google Patents

Abstract

The invention relates to a pixel arrangement method used for a display device. The display device comprises several pixels, and each pixel comprises several sub-pixels which are different in color. The pixel arrangement method comprises that the sub-pixels in the display device are transformed into pixel values, each kind of sub-pixel corresponds to a pixel value, different sub-pixels correspond to different pixel values, and pixel values are continuous natural numbers; minimum repetitive units of the sub-pixels are set, each minimum repetitive unit comprises several rows of pixel distribution units and several columns of pixel distribution units, and each pixel distribution unit is inside provided with one sub-pixel; one pixel value is randomly distributed to each pixel distribution unit; the relationship of the pixel values of the pixel distribution units in the minimum repetitive units is set; the minimum repetitive units are traversed, when the pixel values of the pixel distribution units in the minimum repetitive units satisfy preset conditions, the pixel arrangement is obtained. By employing the pixel arrangement method, cost of manpower, material and financial resources are greatly reduced.

Description

Pixel arrangement method

Technical field

The present invention relates to technical field of liquid crystal display, particularly relate to a kind of pixel arrangement method.

Background technology

Pixel is the base unit of image display.On general liquid crystal panel, each pixel is made up of red bluish-green (RGB) three primary colors, and often kind of color in each pixel is a sub-pixel, and display screen is made up of various pixels.When needs display different colours time, three sub-pixels, respectively with different Intensity LEDs, visually will be mixed into required color.

Along with the resolution of liquid crystal is more and more higher, pixel is more and more less, and when being difficult to sub-pixel to accomplish smaller szie in the prior art, now, needing to adopt better pixel to arrange, make low resolution to reach high-resolution display effect.Carry out pixel arrangement, need to consider all many-sided factors, as: the homogeneity of sub-pixel, brightness etc., and evade existing pixel arrangement, and due to pixel number of the arrangement huge, need to expend larger manpower and time cost, and As time goes on, need the pixel number of the arrangement evaded to get more and more, the pixel arrangement how fast searching goes out display effect better is the problem needing solution badly.

Summary of the invention

Based on this, be necessary to need to expend larger manpower and the defect of time cost for pixel arrangement, a kind of pixel arrangement method be provided, seldom decrease manpower, material resources and financial resources cost, decrease time consumption.

A kind of pixel arrangement method, for display device, described display device comprises several pixels, and pixel described in each comprises the different sub-pixel of several colors, comprises the following steps:

Be pixel value by each described number of sub-pixels value in display device, wherein, the corresponding pixel value of sub-pixel described in each, the corresponding different pixel value of different sub-pixel, and each described pixel value is continuous print natural number;

Set the minimum repetitive of described sub-pixel, minimum repetitive described in each comprises the pixel distribution unit of several rows and some row, and in pixel distribution unit described in each, correspondence arranges sub-pixel described in;

Pixel value described in Random assignment one in pixel distribution unit described in each;

Relation between the described pixel value setting pixel distribution unit described in described minimum repetitive;

Travel through described minimum repetitive, when the described pixel value of the described pixel distribution unit in described minimum repetitive meets pre-conditioned, obtain pixel arrangement.

Wherein in an embodiment, described sub-pixel comprises sky pixel, red sub-pixel, green sub-pixels and blue subpixels, and the pixel value of described empty pixel is zero.

Wherein in an embodiment, also comprise step before the relation between the described pixel value setting pixel distribution unit described in described minimum repetitive: set the size of described sub-pixel, shape, the side-play amount of sub-pixel and the anglec of rotation.

Wherein in an embodiment, in described pixel distribution unit described in each, described in Random assignment one, the step of pixel value is specially:

Pixel value described in one is distributed by preset ratio pixel distribution unit described in each.

Wherein in an embodiment, set the relation of the described pixel value of pixel distribution unit described in described minimum repetitive, specifically comprise:

Set the described pixel value sum of every a line in described minimum repetitive in the first preset range.

Wherein in an embodiment, also comprise:

Set the described pixel value sum of each row in described minimum repetitive in the second preset range.

Wherein in an embodiment, also comprise:

The described pixel value that the described pixel value and i-th+1 setting the i-th row in described minimum repetitive arranges is different.

Wherein in an embodiment, also comprise:

What define described pixel value in pixel distribution unit described in each and luminance factor amasss as pixel product value, in definition predeterminable area, the pixel product value sum of multiple described pixel distribution unit gets pixel and value, sets described pixel and value in the 3rd preset range.

Wherein in an embodiment, also comprise:

Set the pixel of multiple described pixel distribution unit in predeterminable area and be worth in the 4th preset range.

Wherein in an embodiment, also comprise after obtaining pixel arrangement: show described minimum repetitive and 3 × 3 described minimum repetitives.

The method of above-mentioned pixel arrangement, by being pixel value by number of sub-pixels value, the traversal of setting minimum unit is realized by program, and the qualified relation between pixel value is screened traversing result, not only make the pixel arrangement obtained meet the demands, and existing design can be evaded, considerably reduce manpower, material resources and financial resources cost, decrease time consumption, improve efficiency.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of the system of selection of the pixel arrangement of one embodiment of the invention.

Embodiment

For the ease of understanding the present invention, below with reference to relevant drawings, the present invention is described more fully.Preferred embodiment of the present invention is given in accompanying drawing.But the present invention can realize in many different forms, is not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make the understanding of disclosure of the present invention more comprehensively thorough.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present invention understand usually.The object of term used in the description of the invention herein just in order to describe specific embodiment, is not intended to be restriction the present invention.Term as used herein "and/or" comprises arbitrary and all combinations of one or more relevant Listed Items.

Refer to Fig. 1, it is the schematic flow sheet of pixel arrangement method in one embodiment of the invention.

A method for pixel arrangement, for display device, described display device comprises several pixels, and pixel described in each comprises the different sub-pixel of several colors, comprises the following steps:

S100, be pixel value by each described number of sub-pixels value in display device, the corresponding pixel value of sub-pixel described in each, multiple described pixel value is continuous print natural number;

Such as, sub-pixel comprises sky pixel (dummy), red sub-pixel (R), green sub-pixels (G) and blue subpixels (B).And for example, the pixel value of empty pixel, red sub-pixel, green sub-pixels and blue subpixels is respectively 0,1,2,3.It should be noted that, the empty pixel of the application's indication, namely not containing any sub-pixel, it is used for the space filled up between sub-pixel.Certainly, in other embodiments, also can adopt other order, such as, the pixel value of empty pixel, red sub-pixel, green sub-pixels and blue subpixels is respectively 0,2,3,1.

S200, set the minimum repetitive of described sub-pixel, minimum repetitive described in each comprises the pixel distribution unit of several rows and some row, and in pixel distribution unit described in each, correspondence arranges sub-pixel described in;

It should be noted that, the minimum repetitive of the application's indication refers to, on the horizontal and vertical direction of display device, arrangement of subpixels can be described as minimum repetitive and repeat self, in other words, the regular tiling of minimum repetitive on the display apparatus.Such as, minimum repetitive is 4 matrixes taking advantage of 4, that is, it includes the pixel distribution unit of four lines and four row, and in other words, minimum repetitive includes four lines and four row sub-pixels.

Pixel value described in Random assignment one in S300, pixel distribution unit described in each;

Such as, in each pixel distribution unit, a pixel value is distributed according to predetermined ratio.Such as, set in minimum repetitive, R:G:B=1:2:1, that is, in minimum repetitive, the ratio of the number of red sub-pixel, green sub-pixels and blue subpixels is 1:2:1, that is, in minimum repetitive, the ratio that the pixel value representing each sub-pixel occurs is 1:2:1.

S400, set pixel distribution unit described in described minimum repetitive described pixel value between relation;

Such as, the described pixel value sum setting every a line in described minimum repetitive in the first preset range, that is, makes the described pixel value sum of every a line in minimum repetitive in a certain interval, to discharge obvious irrational pixel arrangement.And for example, the described pixel value sum of each row in described minimum repetitive is set in the second preset range.And for example, the described pixel value that the described pixel value and i-th+1 setting the i-th row in described minimum repetitive arranges is different.And for example, what define described pixel value in pixel distribution unit described in each and luminance factor amasss as pixel product value, in definition predeterminable area, the pixel product value sum of multiple described pixel distribution unit gets pixel and value, sets described pixel and value in the 3rd preset range.And for example, set the pixel of multiple described pixel distribution unit in predeterminable area and be worth in the 4th preset range.Both can have been limited the appearance of undesirable pixel arrangement by the relation between setting pixel value, the arrangement of existing pixel can also have been evaded, and make the pixel obtained be arranged as new pixel arrangement.

S500, travel through described minimum repetitive, when the described pixel value of the described pixel distribution unit in described minimum repetitive meets pre-conditioned, obtain pixel arrangement.Such as, also comprise: show described minimum repetitive and 3 × 3 described minimum repetitives; Also comprise step: the display situation checking described display device according to described pixel arrangement; Such as, after obtaining pixel arrangement, control the described display device described minimum repetitive of display and/or display 3 × 3 described minimum repetitives; Like this, can confirm that whether the display situation of described display device is normal easily.Preferably, also comprise step: confirm that the display situation of described display device is normal, then described display device is set and selects described pixel to arrange, or, adopt the arrangement of described pixel as a kind of Show Options of described display device.Like this, under the prerequisite that display device is constant, make it when low resolution shows, high-resolution display effect can be reached, not only make the pixel arrangement obtained meet the demands, and existing design can be evaded, considerably reduce manpower, material resources and financial resources cost, decrease time consumption, improve work efficiency.

Such as, by following program, minimum repetitive is traveled through:

for(kind_total＝1；kind_total<＝pow(n,COLUMN*ROW)；kind_total++)

{

for(row＝0；row<ROW；row++)

{

kind_column＝(int)((kind_total-1)/pow(n,COLUMN*(ROW-row-1)))％(int)pow(n,COLUMN)+1；

for(column＝0；column<COLUMN；column++)

pixel_arrangement[row][column]＝(int)((kind_column-1)/pow(n,COLUMN-column-1))％n；

}

... // pixel arrangement screening, display pixel arranges

}

When the pixel value of pixel distribution unit meets the relation of step S400 setting, show the arrangement of qualified pixel.Concrete, show qualified minimum repetitive and 3 × 3 minimum repetitives, and applied in display device, to check the effect that pixel arranges, like this, be conducive to further selecting, to get rid of the not good pixel arrangement of display effect, under the prerequisite that display device is constant, make it when low resolution shows, high-resolution display effect can be reached.

In an embodiment of the present invention, before step S400, also comprise the size, the shape that set described sub-pixel, the side-play amount of sub-pixel and the anglec of rotation.Such as, according to size, the shape of the setting such as size, the resolution requirement sub-pixel of display device, the side-play amount of sub-pixel and the anglec of rotation.In the present embodiment, sub-pixel represents in the pixel region of display m*n, the shape of each sub pixel can be represented by a wherein part like this in the pixel region of m*n, size, the anglec of rotation, and the side-play amount (i.e. reference position) between sub-pixel, like this, after traversal screening, directly can obtain the arrangement of satisfactory pixel.

The method of above-mentioned pixel arrangement, by being pixel value by number of sub-pixels value, the traversal of setting minimum unit is realized by program, and the qualified relation between pixel value is screened traversing result, not only can obtain the combination of all satisfactory pixels arrangement, and existing design can be evaded, greatly must decrease manpower, material resources and financial resources cost, decrease time consumption, improve efficiency.

Below in conjunction with specific embodiment, set forth the present invention further.Should be understood that these embodiments are only not used in for illustration of the present invention to limit the scope of the invention.

Embodiment 1

Such as, set a minimum repetitive and comprise 2 row 4 row sub-pixels, and the ratio of red sub-pixel, green sub-pixels, blue subpixels is 1:2:1, red sub-pixel, green sub-pixels, blue subpixels are standard pixel, side-play amount, the anglec of rotation be zero pixel arrangement, can realize as follows:

Be pixel value by each number of sub-pixels value, that is, make dummy=0, R=2, G=3, B=1.

The line number of the minimum repetitive of setting pixel arrangement and columns, that is, make the line number COLUMN=4 of minimum repetitive, line number ROW=2.

Proportionate relationship between each sub-pixel is set, that is, makes dummy:R:G:B=0:1:2:1; In other words, in the present embodiment, in display, pixel region is made up of RGB tri-sub pixel.

Set the side-play amount up and down of each sub-pixel, that is, make the side-play amount of each sub-pixel be 0;

The shape of chooser pixel and size, that is, make R, G, B be standard sub-pixel, in other words, R, G, B are square, and size is all equal;

Select the anglec of rotation of each sub-pixel, that is, make the anglec of rotation of each sub-pixel be 0;

Numerical relation between setting sub-pixel;

That is, make in minimum repetitive,

1) pixel value sum≤9 of 7≤every a line;

2) 7≤(2*2 area pixel value sum)≤9;

3) the i-th row sub-pixel ≠ the (i+1) row sub-pixel, namely i-th row sub-pixel value and the i-th+1 sub-pixel value arranged incomplete same;

4) (LR+LG+2*LB)≤(2*2 regional luminance sum)≤(LR+2*LG+LB), wherein, L is luminance factor, and LR is the brightness value of red sub-pixel, LG is the brightness value of green sub-pixels, and LB is the brightness value of blue subpixels.By the restriction of above-mentioned relation formula, ensure the luminescence efficiency of the luminescence efficiency > blue subpixels of the luminescence efficiency > red sub-pixel of green sub-pixels in minimum repetitive, namely, by limiting pixel and value, obvious irrational pixel arrangement can be discharged thus;

Numerical relation between the sub-pixel that setting needs are evaded;

For existing already present pixel arrangement,

RGBG

BGRG，

That is, corresponding pixel value is

2313

1323，

By limiting the relation between pixel value, that is:

1) pixel value sum ≠ 9 described in every a line;

2) (2*2 area pixel value sum) ≠ 9;

Or making relevant position is not above-mentioned numerical value; By limiting the relation between pixel value, to evade the arrangement of existing pixel.

Travel through minimum repetitive, if eligible, then output display; That is, by following program:

for(kind_total＝1；kind_total<＝pow(4,COLUMN*ROW)；kind_total++)

{

for(row＝0；row<ROW；row++)

{

kind_column＝(int)((kind_total-1)/pow(4,COLUMN*(ROW-row-1)))％(int)pow(4,COLUMN)+1；

for(column＝0；column<COLUMN；column++)

pixel_arrangement[row][column]＝(int)((kind_column-1)/pow(4,COLUMN-column-1))％4；

}

... // pixel arrangement screening, display pixel arranges

}

Traversal completes, and obtains pixel arrangement.

Embodiment 2

Such as, set a minimum repetitive and comprise 4 row 4 row sub-pixels, and empty pixel: the ratio of red sub-pixel, green sub-pixels, blue subpixels is 4:1:2:1, red sub-pixel, blue subpixels be amplify that sub-pixel, green sub-pixels are standard sub-pixel, side-play amount is zero, the anglec of rotation is the pixel arrangement of 45 °, can realize as follows:

Be pixel value by each number of sub-pixels value, that is, make dummy=0, R=2, G=3, B=1.

The line number of the minimum repetitive of setting pixel arrangement and columns, that is, make the line number COLUMN=4 of minimum repetitive, line number ROW=4.

Proportionate relationship between each sub-pixel is set, that is, makes dummy:R:G:B=4:1:2:1;

Set the side-play amount up and down of each sub-pixel, that is, make the side-play amount of each sub-pixel be 0;

Select the shape of each sub-pixel, size, that is, make R and B be amplify after sub-pixel, G is standard sub-pixel;

Select the anglec of rotation of each sub-pixel, that is, make each sub-pixel anglec of rotation be 45 °;

Set the numerical relation between each sub-pixel;

That is, make in minimum repetitive,

1) pixel value sum≤6 of 2≤every a line;

2) pixel value sum≤6 of 2≤each row;

3) 2≤(2*2 area pixel value sum)≤6;

4) 4≤(3*3 area pixel value sum)≤14;

5) the i-th row sub-pixel ≠ the (i+1) row sub-pixel, that is, i-th row sub-pixel value and the i-th+1 sub-pixel value arranged incomplete same;

Numerical relation between the sub-pixel that setting needs are evaded;

For existing already present pixel arrangement,

RB

GG

BR

GG，

That is, corresponding pixel value is

2010

0303

1020

0303，

By limiting the relation between pixel value, that is:

1) every a line pixel value sum ≠ 3 or 6;

2) each row pixel value sum ≠ 3 or 6;

3) (2*2 area pixel value sum) ≠ 4 or 5;

Or making relevant position is not above-mentioned numerical value; By limiting the relation between pixel value, to evade the arrangement of existing pixel.

Travel through minimum repetitive, if eligible, then output display; That is, by following program:

for(kind_total＝1；kind_total<＝pow(4,COLUMN*ROW)；kind_total++)

{

for(row＝0；row<ROW；row++)

{

kind_column＝(int)((kind_total-1)/pow(4,COLUMN*(ROW-row-1)))％(int)pow(4,COLUMN)+1；

for(column＝0；column<COLUMN；column++)

pixel_arrangement[row][column]＝(int)((kind_column-1)/pow(4,COLUMN-column-1))％4；

}

... // pixel arrangement screening, display pixel arranges

}

Traversal completes, and obtains pixel arrangement.

In addition, one of ordinary skill in the art will appreciate that all or part of step realized in the various embodiments described above method is that the hardware that can carry out instruction relevant by program has come, corresponding program can be stored in read/write memory medium.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this instructions is recorded.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. a pixel arrangement method, for display device, described display device comprises several pixels, and pixel described in each comprises the different sub-pixel of several colors, it is characterized in that, comprises the following steps:

Be pixel value by each described number of sub-pixels value in display device, wherein, the corresponding pixel value of sub-pixel described in each, the corresponding different pixel value of different sub-pixel, and each described pixel value is continuous print natural number;

Set the minimum repetitive of described sub-pixel, minimum repetitive described in each comprises the pixel distribution unit of several rows and some row, and in pixel distribution unit described in each, correspondence arranges sub-pixel described in;

Pixel value described in Random assignment one in pixel distribution unit described in each;

Relation between the described pixel value setting pixel distribution unit described in described minimum repetitive;

Travel through described minimum repetitive, when the described pixel value of the described pixel distribution unit in described minimum repetitive meets pre-conditioned, obtain pixel arrangement.

2. pixel arrangement method according to claim 1, is characterized in that, described sub-pixel comprises sky pixel, red sub-pixel, green sub-pixels and blue subpixels, and the pixel value of described empty pixel is zero.

3. pixel arrangement method according to claim 1, it is characterized in that, also step is comprised: set the size of described sub-pixel, shape, the side-play amount of sub-pixel and the anglec of rotation before relation between the described pixel value setting pixel distribution unit described in described minimum repetitive.

4. pixel arrangement method according to claim 1, is characterized in that, in described pixel distribution unit described in each, described in Random assignment one, the step of pixel value is specially:

Pixel value described in one is distributed by preset ratio pixel distribution unit described in each.

5. pixel arrangement method according to claim 1, is characterized in that, sets the relation of the described pixel value of pixel distribution unit described in described minimum repetitive, specifically comprises:

Set the described pixel value sum of every a line in described minimum repetitive in the first preset range.

6. pixel arrangement method according to claim 5, is characterized in that, also comprises:

Set the described pixel value sum of each row in described minimum repetitive in the second preset range.

7. pixel arrangement method according to claim 5, is characterized in that, also comprises:

The described pixel value that the described pixel value and i-th+1 setting the i-th row in described minimum repetitive arranges is different.

8. pixel arrangement method according to claim 5, is characterized in that, also comprises:

What define described pixel value in pixel distribution unit described in each and luminance factor amasss as pixel product value, in definition predeterminable area, the pixel product value sum of multiple described pixel distribution unit gets pixel and value, sets described pixel and value in the 3rd preset range.

9. pixel arrangement method according to claim 5, is characterized in that, also comprises:

Set the pixel of multiple described pixel distribution unit in predeterminable area and be worth in the 4th preset range.

10. pixel arrangement method according to claim 1, is characterized in that, also comprises: show described minimum repetitive and 3 × 3 described minimum repetitives after obtaining pixel arrangement.