CN108174193B - A kind of image processing method and image processing apparatus - Google Patents
A kind of image processing method and image processing apparatus Download PDFInfo
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- CN108174193B CN108174193B CN201810007058.7A CN201810007058A CN108174193B CN 108174193 B CN108174193 B CN 108174193B CN 201810007058 A CN201810007058 A CN 201810007058A CN 108174193 B CN108174193 B CN 108174193B
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N17/00—Diagnosis, testing or measuring for television systems or their details
- H04N17/004—Diagnosis, testing or measuring for television systems or their details for digital television systems
Abstract
The embodiment of the present invention provides a kind of image processing method and image processing apparatus, this method is applied in the display panel of BV3 dot structure, it include: corresponding first image information of Real rgb pixel structure for receiving input, Real rgb pixel structure includes the first sub-pixel of array arrangement;BV3 pixel includes the second sub-pixel of array arrangement;The type of the first image information is determined according to the first image information;Wherein, the type of the first image information includes: vertical direction type or horizontal direction type;According to the type of the first image information and the first image information, obtain corresponding second image information of BV3 dot structure for image resolution ratio test, technical solution of the present invention obtains corresponding second image information of BV3 dot structure for image resolution ratio test by corresponding first image information of Real rgb pixel structure of input, it can be realized the resolution test of the display panel of BV3 dot structure, the popularization for the display panel using BV3 dot structure is laid a good foundation.
Description
Technical field
The present embodiments relate to technical field of information processing, and in particular to a kind of image processing method and image procossing dress
It sets.
Background technique
With the development of display technology, the resolution ratio of display screen is higher and higher, and high-resolution display screen has processing
Data volume is big, transmits difficult problem, and it is big to solve quantity amount using the display panel of BV3 dot structure in the prior art, passes
The problem of defeated difficulty.
The image information for the display panel for being input to BV3 dot structure at present is the image letter of Real rgb pixel structure
Breath, specifically, using image rendering method by the corresponding image of Real rgb pixel structure in the display panel of BV3 dot structure
Information is rendered to the corresponding image information of BV3 dot structure.
Through inventor the study found that cannot achieve according to the corresponding image information of BV3 dot structure to BV3 dot structure
Display panel resolution test, be unfavorable for using BV3 dot structure display panel popularization.
Summary of the invention
In order to solve the above-mentioned technical problem, the embodiment of the invention provides a kind of image processing methods and image procossing to fill
It sets, can be realized the resolution test of the display panel of BV3 dot structure, for pushing away using the display panel of BV3 dot structure
Extensively lay a good foundation.
On one side, the embodiment of the invention provides a kind of image processing methods, the display surface applied to BV3 dot structure
In plate, which comprises
Corresponding first image information of Real rgb pixel structure of input is received, the Real rgb pixel structure includes
First sub-pixel of array arrangement;The BV3 pixel includes the second sub-pixel of array arrangement;
The type of the first image information is determined according to the first image information;Wherein, the first image information
Type include: vertical direction type or horizontal direction type;
According to the type of the first image information and the first image information, obtain for image resolution ratio test
Corresponding second image information of BV3 dot structure.
Optionally, the type that the first image information is determined according to the first image information includes:
According to the first image information and default detective operators, the type of the first image information is determined.
Optionally, described according to the first image information and default detective operators, determine the first image information
Type includes:
According to the first image information, R component matrix, G Component Matrices and B points of adjacent three pixel of adjacent column are obtained
Moment matrix;
According to the R component matrix, the G Component Matrices and the B component matrix and the default detective operators, determine
The type of first image information.
Optionally, the default detective operators are as follows:Or
Optionally, the type according to the first image information and the first image information obtains and is used for image
Corresponding second image information of the BV3 dot structure of resolution test includes:
If the type of the first image information is vertical direction type, according to the first image rendering method by first figure
As the second image information that information processing is the BV3 dot structure tested for image resolution ratio;
If the type of the first image information is horizontal direction type, according to the second image rendering method by first figure
As the second image information that information processing is the BV3 dot structure tested for image resolution ratio.
Optionally, the first image rendering method includes: the first odd-numbered line rendering method and the first even number line rendering side
Method;Wherein;
The first odd-numbered line rendering method includes:
Rxy=rxy;Gxy=gxy;Bxy=bxy;
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second son
The columns of pixel is positive integer;
rxyIndicate the corresponding gray value of the first red sub-pixel for being located at xth row y column, gxyIt indicates to be located at xth row y
The corresponding gray value of the first green sub-pixels of column, bxyIndicate the corresponding gray scale of the first blue subpixels for being located at xth row y column
Value;
RxyIndicate the corresponding gray value of the second red sub-pixel for being located at xth row y column, GxyIt indicates to be located at xth row y
The corresponding gray value of the second green sub-pixels of column, BxyIndicate the corresponding gray scale of the second blue subpixels for being located at xth row y column
Value;
The first even number line rendering method includes:
Bmn=bm1;Rmn=rm1;Gmn=gm1;
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second son
The columns of pixel is positive integer;
rm1It indicates to be located at the corresponding gray value of the first red sub-pixel that m row the 1st arranges, gm1It indicates to be located at m row the 1st
The corresponding gray value of the first green sub-pixels of column, bm1It indicates to be located at the corresponding gray scale of the first blue subpixels that m row the 1st arranges
Value;
BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;RmnIt indicates to be located at m row n-th
The corresponding gray value of the second red sub-pixel of column, GmnIt indicates to be located at the corresponding gray scale of the second green sub-pixels that m row n-th arranges
Value.
Optionally, second image rendering method includes:
Second odd-numbered line rendering method and the second even number line rendering method;Wherein;
The second odd-numbered line rendering method includes:
Rxy=rx(2y-1);Gxy=gx(2y-1);Bxy=bx(2y);
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second son
The columns of pixel is positive integer;
rx(2y-1)Indicate the corresponding gray value of the first red sub-pixel for being located at xth row 2y-1 column, gx(2y-1)Expression is located at
The corresponding gray value of the first green sub-pixels of xth row 2y-1 column, bx(2y)Indicate the first blue for being located at xth row 2y column
The corresponding gray value of pixel;
RxyIndicate the corresponding gray value of the second red sub-pixel for being located at xth row y column, GxyIt indicates to be located at xth row y
The corresponding gray value of the second green sub-pixels of column, BxyIndicate the corresponding gray scale of the second blue subpixels for being located at xth row y column
Value;
The second even number line rendering method includes:
Bmn=bm(2n-1);Rmn=rm(2n);Gmn=gm(2n);
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second son
The columns of pixel is positive integer;
rm(2n)Indicate the corresponding gray value of the first red sub-pixel for being located at m row 2n column, gm(2n)It indicates to be located at m
The corresponding gray value of the first green sub-pixels of row 2n column, bm(2n-1)Indicate the first blue for being located at m row 2n-1 column
The corresponding gray value of pixel;
BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;RmnIt indicates to be located at m row n-th
The corresponding gray value of the second red sub-pixel of column, GmnIt indicates to be located at the corresponding gray scale of the second green sub-pixels that m row n-th arranges
Value.
On the other hand, the embodiment of the present invention also provides a kind of image processing apparatus, applies the display surface in BV3 dot structure
In plate, which includes:
Receiving module is configured as receiving corresponding first image information of Real rgb pixel structure of input, described
Real rgb pixel structure includes the first sub-pixel of array arrangement;The BV3 pixel includes the second sub-pixel of array arrangement;
Determining module, for determining the type of the first image information according to the first image information;Wherein, described
The type of first image information includes: vertical direction type or horizontal direction type;
Processing module is obtained for the type according to the first image information and the first image information for scheming
As corresponding second image information of the BV3 dot structure of resolution test.
Optionally, the determining module is specifically used for: according to the first image information, obtaining adjacent three picture of adjacent column
R component matrix, G Component Matrices and the B component matrix of element;According to the R component matrix, the G Component Matrices and the B component
Matrix and default detective operators, determine the type of the first image information.
Optionally, the default detective operators are as follows:Or
Optionally, if the type of the first image information is vertical direction type, the processing module is according to the first image
The first image information processing is the second image letter for being used for the BV3 dot structure of image resolution ratio test by rendering method
Breath;If the type of the first image information is horizontal direction type, the processing module is according to the second image rendering method by institute
State the second image information that the first Image Information Processing is the BV3 dot structure tested for image resolution ratio.
Optionally, the first image rendering method includes: the first odd-numbered line rendering method and the first even number line rendering side
Method;Wherein;
The first odd-numbered line rendering method includes:
Rxy=rxy;Gxy=gxy;Bxy=bxy;
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second son
The columns of pixel is positive integer;
rxyIndicate the corresponding gray value of the first red sub-pixel for being located at xth row y column, gxyIt indicates to be located at xth row y
The corresponding gray value of the first green sub-pixels of column, bxyIndicate the corresponding gray scale of the first blue subpixels for being located at xth row y column
Value;
RxyIndicate the corresponding gray value of the second red sub-pixel for being located at xth row y column, GxyIt indicates to be located at xth row y
The corresponding gray value of the second green sub-pixels of column, BxyIndicate the corresponding gray scale of the second blue subpixels for being located at xth row y column
Value;
The first even number line rendering method includes:
Bmn=bm1;Rmn=rm1;Gmn=gm1;
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second son
The columns of pixel is positive integer;
rm1It indicates to be located at the corresponding gray value of the first red sub-pixel that m row the 1st arranges, gm1It indicates to be located at m row the 1st
The corresponding gray value of the first green sub-pixels of column, bm1It indicates to be located at the corresponding gray scale of the first blue subpixels that m row the 1st arranges
Value;
BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;RmnIt indicates to be located at m row n-th
The corresponding gray value of the second red sub-pixel of column, GmnIt indicates to be located at the corresponding gray scale of the second green sub-pixels that m row n-th arranges
Value;
Second image rendering method includes: the second odd-numbered line rendering method and the second even number line rendering method;Wherein;
The second odd-numbered line rendering method includes:
Rxy=rx(2y-1);Gxy=gx(2y-1);Bxy=bx(2y);
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second son
The columns of pixel is positive integer;
rx(2y-1)Indicate the corresponding gray value of the first red sub-pixel for being located at xth row 2y-1 column, gx(2y-1)Expression is located at
The corresponding gray value of the first green sub-pixels of xth row 2y-1 column, bx(2y)Indicate the first blue for being located at xth row 2y column
The corresponding gray value of pixel;
RxyIndicate the corresponding gray value of the second red sub-pixel for being located at xth row y column, GxyIt indicates to be located at xth row y
The corresponding gray value of the second green sub-pixels of column, BxyIndicate the corresponding gray scale of the second blue subpixels for being located at xth row y column
Value;
The second even number line rendering method includes:
Bmn=bm(2n-1);Rmn=rm(2n);Gmn=gm(2n);
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second son
The columns of pixel is positive integer;
rm(2n)Indicate the corresponding gray value of the first red sub-pixel for being located at m row 2n column, gm(2n)It indicates to be located at m
The corresponding gray value of the first green sub-pixels of row 2n column, bm(2n-1)Indicate the first blue for being located at m row 2n-1 column
The corresponding gray value of pixel;
BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;RmnIt indicates to be located at m row n-th
The corresponding gray value of the second red sub-pixel of column, GmnIt indicates to be located at the corresponding gray scale of the second green sub-pixels that m row n-th arranges
Value.
The embodiment of the present invention provides a kind of image processing method and image processing apparatus, the image processing method are applied to
In the display panel of BV3 dot structure, which comprises receive corresponding first image of Real rgb pixel structure of input
Information, Real rgb pixel structure include the first sub-pixel of array arrangement;BV3 pixel includes the second sub- picture of array arrangement
Element;The type of the first image information is determined according to the first image information;Wherein, the type of the first image information includes: Vertical Square
To type or horizontal direction type;According to the type of the first image information and the first image information, obtains and be used for image resolution ratio
Corresponding second image information of the BV3 dot structure of test, the Real rgb pixel structure that technical solution of the present invention passes through input
Corresponding first image information obtains corresponding second image information of BV3 dot structure for image resolution ratio test, can
Realize the resolution test of the display panel of BV3 dot structure, the popularization for the display panel using BV3 dot structure is established
Basis.
Certainly, implement any of the products of the present invention or method it is not absolutely required at the same reach all the above excellent
Point.Other features and advantages of the present invention will illustrate in subsequent specification embodiment, also, partly implement from specification
It is become apparent in example, or understand through the implementation of the invention.The purpose of the embodiment of the present invention and other advantages can pass through
Specifically noted structure is achieved and obtained in the specification, claims and drawings.
Detailed description of the invention
Attached drawing is used to provide one for further understanding technical solution of the embodiment of the present invention, and constituting specification
Point, it is used to explain the present invention the technical solution of embodiment together with embodiments herein, does not constitute to the embodiment of the present invention
The limitation of technical solution.
Fig. 1 is the structural schematic diagram of the display panel of prior art BV3 dot structure;
Fig. 2 is the structural schematic diagram of the display panel of prior art Real rgb pixel structure;
Fig. 3 is the flow chart of image processing method provided in an embodiment of the present invention;
Fig. 4 is one of the schematic diagram of the first image information;
Fig. 5 is the two of the schematic diagram of the first image information;
Fig. 6 is the second image information of BV3 dot structure corresponding with Fig. 4;
Fig. 7 is the second image information of BV3 dot structure corresponding with Fig. 5;
Fig. 8 is the structural schematic diagram of image processing apparatus provided in an embodiment of the present invention.
Specific embodiment
Understand in order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with attached drawing pair
The embodiment of the embodiment of the present invention is described in detail.It should be noted that in the absence of conflict, the implementation in the application
Feature in example and embodiment can mutual any combination.
Unless otherwise defined, the embodiment of the present invention discloses the technical term used or scientific term should be institute of the present invention
The ordinary meaning that personage in category field with general technical ability is understood." first ", " second " used in the embodiment of the present invention
And similar word is not offered as any sequence, quantity or importance, and be used only to distinguish different component parts.
Fig. 1 is the structural schematic diagram of the display panel of prior art BV3 dot structure;As shown in Figure 1, BV3 dot structure
Red (R) sub-pixel, green (G) sub-pixel and blue (B) sub-pixel including the arrangement of several arrays, it is in a column direction, same
The sub-pixel of color is non-conterminous, and the sub-pixel of odd-numbered line and even number line is misaligned, that is to say, that the display of BV3 dot structure
It does not go together and is misaligned in panel, is i.e. initial position " being staggered " half of sub-pixel of adjacent rows, thus in a column direction, each son
Pixel is adjacent with the two sub-pixels of one adjacent rows simultaneously, and is located among person's two sub-pixels, at this time three kinds of different face
Intersect between the sub-pixel of color, in the shape of approximate " isosceles triangle ".
Fig. 2 is the structural schematic diagram of the display panel of prior art Real rgb pixel structure;As shown in Fig. 2, Real
Rgb pixel structure includes the R sub-pixel of several array arrangements, G sub-pixel and B sub-pixel, in a column direction, the son of same color
Pixel is adjacent, and the sub-pixel of odd-numbered line and even number line is aligned;And by six adjacent sub- pictures in Real rgb pixel structure
The size of the pixel of element composition is identical as the size of pixel being made of in BV3 structure three adjacent sub-pixels.
Specifically, the display panel of BV3 dot structure when carrying out resolution test, needs to input vertically and horizontally
Single pixel structured data, but the BV3 dot structure pair being rendered to according to the corresponding image information of Real rgb pixel structure
The image information answered can not obtain single pixel structured data both vertically and horizontally, i.e., corresponding according to BV3 dot structure
Image information, cannot achieve the resolution test of the display panel to BV3 dot structure, be unfavorable for using BV3 dot structure
Display panel popularization, for this purpose, the embodiment of the invention provides a kind of image processing method and image processing apparatus.
Embodiment one
Fig. 3 is the flow chart of image processing method provided in an embodiment of the present invention, as shown in figure 3, the embodiment of the present invention mentions
Supplied a kind of image processing method, in the display panel applied to BV3 dot structure, this method specifically includes the following steps:
Step 100, corresponding first image information of Real rgb pixel structure for receiving input.
Specifically, Real rgb pixel structure includes the first sub-pixel of array arrangement;BV3 pixel includes what array arranged
Second sub-pixel.
Specifically, the image information in the embodiment of the present invention is the gray value of image, image information is selected as gray value,
It is more convenient, simple in image rendering method.
Step 200, the type that the first image information is determined according to the first image information.
Specifically, the type of the first image information includes: vertical direction type or horizontal direction type.
Step 300, according to the type of the first image information and the first image information, obtain for image resolution ratio test
Corresponding second image information of BV3 dot structure.
It should be noted that method provided in an embodiment of the present invention further include: the second image information is sent to BV3 pixel
The test of resolution ratio is carried out in the logic card of the display panel of structure.
Image processing method provided in an embodiment of the present invention is applied in the display panel of BV3 dot structure, comprising: receives
Corresponding first image information of Real rgb pixel structure of input, Real rgb pixel structure include the first son of array arrangement
Pixel;BV3 pixel includes the second sub-pixel of array arrangement;The type of the first image information is determined according to the first image information;
Wherein, the type of the first image information includes: vertical direction type or horizontal direction type;According to the first image information and first
The type of image information obtains corresponding second image information of BV3 dot structure for image resolution ratio test, skill of the present invention
Art scheme obtains the BV3 for image resolution ratio test by corresponding first image information of Real rgb pixel structure of input
Corresponding second image information of dot structure, can be realized the resolution test of the display panel of BV3 dot structure, to use
The popularization of the display panel of BV3 dot structure is laid a good foundation.
Optionally, step 200 includes: to determine the first image information according to the first image information and default detective operators
Type.
Optionally, according to the first image information and default detective operators, determine that the type of the first image information includes: basis
First image information obtains R component matrix, G Component Matrices and the B component matrix of adjacent three pixel of adjacent column;According to R component
Matrix, G Component Matrices and B component matrix and default detective operators, determine the type of the first image information.
Specifically, Fig. 4 is one of the schematic diagram of the first image information, Fig. 5 is the two of the schematic diagram of the first image information,
In, rxyIndicate the corresponding gray value of the first red sub-pixel for being located at xth row y column, gxyIt indicates to be located at the of xth row y column
The corresponding gray value of one green sub-pixels, bxyIndicate the corresponding gray value of the first blue subpixels for being located at xth row y column.Its
In, the corresponding gray value of the sub-pixel that black square represents is 0, and the corresponding gray value of the sub-pixel that white square represents is 255,
For example, r in Fig. 411=0, r21=255, the corresponding gray value of other sub-pixels and so on, r in Fig. 511=255, r12=0,
The corresponding gray value of other sub-pixels and so on.
Specifically, the corresponding R component matrix of the first image information of Fig. 4 and Fig. 5, G Component Matrices and B component matrix difference
Are as follows:
With
Optionally, detective operators are preset are as follows:
Or
According to R component matrix, G Component Matrices and B component matrix and default detective operators, the class of the first image information is determined
Type specifically includes: respectively simultaneously by R component matrix, G Component Matrices and B component matrix element multiplication corresponding with default detective operators
Summation, if being equal to 0, for horizontal direction type, if not being 0, for vertical direction type.
By taking Fig. 4 as an example, R component matrix element multiplication corresponding with default detective operators and sum obtain:
Flag1=r11+r12+r13-r21+r22-r23
Flag2=g11+g12+g13-g21+g22-g23
Flag3=b11+b12+b13-b21+b22-b23
Due to the r in Fig. 411=0, r12=0, r13=0, r21=255, r22=255, r23=255, therefore, flag1 ≠ 0,
Similarly, flag2 and flag3 is not equal to 0, G Component Matrices and B component matrix, and therefore, the first image of Fig. 4 is believed
The type of breath be vertical direction type, it should be noted that the embodiment of the present invention be by taking the first presets detective operators as an example into
Row explanation.
By taking Fig. 5 as an example, R component matrix element multiplication corresponding with default detective operators and sum obtain:
Flag1=r11+r12+r13-r21+r22-r23
Flag2=g11+g12+g13-g21+g22-g23
Flag3=b11+b12+b13-b21+b22-b23
Due to the r in Fig. 511=255, r12=0, r13=255, r21=255, r22=0, r23=255, therefore, flag1=
0, similarly, flag2 and flag3 are equal to 0, G Component Matrices and B component matrix, and therefore, the first image of Fig. 5 is believed
The type of breath is horizontal direction type.
Optionally, if the type that step 300 includes: the first image information is vertical direction type, according to the first image
First Image Information Processing is to be used for the second image information of the BV3 dot structure of image resolution ratio test by rendering method;If
The type of first image information is horizontal direction type, then is to use by the first Image Information Processing according to the second image rendering method
In the second image information of the BV3 dot structure of image resolution ratio test.
In the present embodiment, the first image rendering method includes: the first odd-numbered line rendering method and the rendering of the first even number line
Method.
In the present embodiment, the first odd-numbered line rendering method includes: Rxy=rxy;Gxy=gxy;Bxy=bxy。
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second son
The columns of pixel is positive integer;rxyIndicate the corresponding gray value of the first red sub-pixel for being located at xth row y column, gxyIt indicates
Positioned at the corresponding gray value of the first green sub-pixels of xth row y column, bxyIndicate the first sub- picture of blue for being located at xth row y column
The corresponding gray value of element;RxyIndicate the corresponding gray value of the second red sub-pixel for being located at xth row y column, GxyIt indicates to be located at the
The corresponding gray value of the second green sub-pixels of x row y column, BxyIndicate that the second blue subpixels for being located at xth row y column are corresponding
Gray value;
In the present embodiment, the first even number line rendering method includes: Bmn=bm1;Rmn=rm1;Gmn=gm1。
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second son
The columns of pixel is positive integer;rm1It indicates to be located at the corresponding gray value of the first red sub-pixel that m row the 1st arranges, gm1It indicates
The corresponding gray value of the first green sub-pixels arranged positioned at m row the 1st, bm1It indicates to be located at the first sub- picture of blue that m row the 1st arranges
The corresponding gray value of element;BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;RmnIt indicates to be located at the
The corresponding gray value of the second red sub-pixel that m row n-th arranges, GmnIndicate that being located at the second green sub-pixels that m row n-th arranges corresponds to
Gray value.
It should be noted that Fig. 6 is the second image information of BV3 dot structure corresponding with Fig. 4, Fig. 6 is according to the first figure
As rendering method obtains.
Optionally, the second image rendering method includes: the second odd-numbered line rendering method and the second even number line rendering method.
In the present embodiment, the second odd-numbered line rendering method includes: Rxy=rx(2y-1);Gxy=gx(2y-1);Bxy=bx(2y)。
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second son
The columns of pixel is positive integer;rx(2y-1)Indicate the corresponding gray value of the first red sub-pixel for being located at xth row 2y-1 column,
gx(2y-1)Indicate the corresponding gray value of the first green sub-pixels for being located at xth row 2y-1 column, bx(2y)It indicates to be located at xth row 2y
The corresponding gray value of the first blue subpixels of column;RxyIndicate the corresponding gray scale of the second red sub-pixel for being located at xth row y column
Value, GxyIndicate the corresponding gray value of the second green sub-pixels for being located at xth row y column, BxyIt indicates to be located at the of xth row y column
The corresponding gray value of two blue subpixels.
In the present embodiment, the second even number line rendering method includes: Bmn=bm(2n-1);Rmn=rm(2n);Gmn=gm(2n)。
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second son
The columns of pixel is positive integer;rm(2n)Indicate the corresponding gray value of the first red sub-pixel for being located at m row 2n column, gm(2n)
Indicate the corresponding gray value of the first green sub-pixels for being located at m row 2n column, bm(2n-1)It indicates to be located at m row 2n-1 column
The corresponding gray value of first blue subpixels;BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;
RmnIt indicates to be located at the corresponding gray value of the second red sub-pixel that m row n-th arranges, GmnIt indicates to be located at m row n-th arranges second
The corresponding gray value of green sub-pixels.
It should be noted that Fig. 7 is the second image information of BV3 dot structure corresponding with Fig. 5, Fig. 7 is according to the second figure
As rendering method obtains.
Embodiment two
Inventive concept based on the above embodiment, Fig. 8 are that the structure of image processing apparatus provided in an embodiment of the present invention is shown
It is intended to, the embodiment of the present invention provides a kind of image processing apparatus, applies in the display panel of BV3 dot structure, such as Fig. 8 institute
Show, which includes: receiving module 11, determining module 12 and processing module 13.
In the present embodiment, receiving module 11 are configured as receiving the Real rgb pixel structure corresponding first of input
Image information.
Specifically, Real rgb pixel structure includes the first sub-pixel of array arrangement;BV3 pixel includes what array arranged
Second sub-pixel.
Determining module 12, for determining the type of the first image information according to the first image information.
Wherein, the type of the first image information includes: vertical direction type or horizontal direction type.
Optionally it is determined that module 12 is specifically used for: according to the first image information, obtaining the R of adjacent three pixel of adjacent column
Component Matrices, G Component Matrices and B component matrix;It is calculated according to R component matrix, G Component Matrices and B component matrix and default detection
Son determines the type of the first image information.
Processing module 13 obtains for the type according to the first image information and the first image information and is used for image resolution
Corresponding second image information of BV3 dot structure of rate test.
Optionally, if the type of the first image information is vertical direction type, processing module 13 is according to the first image wash with watercolours
First Image Information Processing is to be used for the second image information of the BV3 dot structure of image resolution ratio test by dyeing method;If the
The type of one image information is horizontal direction type, then processing module 13 is according to the second image rendering method by the first image information
Processing is the second image information of the BV3 dot structure tested for image resolution ratio.
Image processing apparatus provided in an embodiment of the present invention is applied in the display panel of BV3 dot structure, the device packet
Include: receiving module receives corresponding first image information of Real rgb pixel structure of input;Determining module is according to the first image
Information determines the type of the first image information;Wherein, the type of the first image information includes: vertical direction type or horizontal direction
Type;Processing module obtains the BV3 for image resolution ratio test according to the type of the first image information and the first image information
Corresponding second image information of dot structure, the Real rgb pixel structure corresponding first that technical solution of the present invention passes through input
Image information obtains corresponding second image information of BV3 dot structure for image resolution ratio test, can be realized BV3 pixel
The resolution test of the display panel of structure, the popularization for the display panel using BV3 dot structure are laid a good foundation.
Optionally, the first image rendering method includes: the first odd-numbered line rendering method and the first even number line rendering method.
Wherein;First odd-numbered line rendering method includes: Rxy=rxy;Gxy=gxy;Bxy=bx。
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second son
The columns of pixel is positive integer;rxyIndicate the corresponding gray value of the first red sub-pixel for being located at xth row y column, gxyIt indicates
Positioned at the corresponding gray value of the first green sub-pixels of xth row y column, bxyIndicate the first sub- picture of blue for being located at xth row y column
The corresponding gray value of element;RxyIndicate the corresponding gray value of the second red sub-pixel for being located at xth row y column, GxyIt indicates to be located at the
The corresponding gray value of the second green sub-pixels of x row y column, BxyIndicate that the second blue subpixels for being located at xth row y column are corresponding
Gray value;
First even number line rendering method includes: Bmn=bm1;Rmn=rm1;Gmn=gm1。
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second son
The columns of pixel is positive integer;rm1It indicates to be located at the corresponding gray value of the first red sub-pixel that m row the 1st arranges, gm1It indicates
The corresponding gray value of the first green sub-pixels arranged positioned at m row the 1st, bm1It indicates to be located at the first sub- picture of blue that m row the 1st arranges
The corresponding gray value of element;BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;RmnIt indicates to be located at the
The corresponding gray value of the second red sub-pixel that m row n-th arranges, GmnIndicate that being located at the second green sub-pixels that m row n-th arranges corresponds to
Gray value.
Optionally, the second image rendering method includes: the second odd-numbered line rendering method and the second even number line rendering method.
Second odd-numbered line rendering method includes: Rxy=rx(2y-1);Gxy=gx(2y-1);Bxy=bx(2y)。
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second son
The columns of pixel is positive integer;rx(2y-1)Indicate the corresponding gray value of the first red sub-pixel for being located at xth row 2y-1 column,
gx(2y-1)Indicate the corresponding gray value of the first green sub-pixels for being located at xth row 2y-1 column, bx(2y)It indicates to be located at xth row 2y
The corresponding gray value of the first blue subpixels of column;RxyIndicate the corresponding gray scale of the second red sub-pixel for being located at xth row y column
Value, GxyIndicate the corresponding gray value of the second green sub-pixels for being located at xth row y column, BxyIt indicates to be located at the of xth row y column
The corresponding gray value of two blue subpixels.
Second even number line rendering method includes: Bmn=bm(2n-1);Rmn=rm(2n);Gmn=gm(2n)。
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second son
The columns of pixel is positive integer;rm(2n)Indicate the corresponding gray value of the first red sub-pixel for being located at m row 2n column, gm(2n)
Indicate the corresponding gray value of the first green sub-pixels for being located at m row 2n column, bm(2n-1)It indicates to be located at m row 2n-1 column
The corresponding gray value of first blue subpixels;BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;
RmnIt indicates to be located at the corresponding gray value of the second red sub-pixel that m row n-th arranges, GmnIt indicates to be located at m row n-th arranges second
The corresponding gray value of green sub-pixels.
Although embodiment disclosed by the embodiment of the present invention is as above, only the present invention is real for ease of understanding for the content
The embodiment applying example and using is not intended to limit the invention embodiment.Skill in any fields of the embodiment of the present invention
Art personnel can be in the form and details of implementation under the premise of not departing from spirit and scope disclosed by the embodiment of the present invention
It is upper to carry out any modification and variation, but the scope of patent protection of the embodiment of the present invention, it still must be with appended claims institute
Subject to the range defined.
Claims (12)
1. a kind of image processing method, which is characterized in that in the display panel applied to BV3 dot structure, which comprises
Corresponding first image information of Real rgb pixel structure of input is received, the Real rgb pixel structure includes array
First sub-pixel of arrangement;The BV3 pixel includes the second sub-pixel of array arrangement;
The type of the first image information is determined according to the first image information;Wherein, the class of the first image information
Type includes: vertical direction type or horizontal direction type;Wherein, in the first image information of vertical direction type, according to
R component matrix, G Component Matrices and the B component matrix of adjacent three pixel for the adjacent column that one image information obtains and default detection
The corresponding element multiplication of operator and sum be not 0, in the horizontal direction in the first image information of type, according to the first image believe
The R component matrix, G Component Matrices and B component matrix for ceasing adjacent three pixel of the adjacent column obtained are corresponding with default detective operators
Element multiplication and summation be equal to 0;
According to the type of the first image information and the first image information, the BV3 for image resolution ratio test is obtained
Corresponding second image information of dot structure.
2. the method according to claim 1, wherein described determine described first according to the first image information
The type of image information includes:
According to the first image information and default detective operators, the type of the first image information is determined.
3. according to the method described in claim 2, it is characterized in that, described calculate according to the first image information and default detection
Son determines that the type of the first image information includes:
According to the first image information, R component matrix, G Component Matrices and the B component square of adjacent three pixel of adjacent column are obtained
Battle array;
According to the R component matrix, the G Component Matrices and the B component matrix and the default detective operators, first is determined
The type of image information.
4. according to the method in claim 2 or 3, which is characterized in that the default detective operators are as follows:Or
5. the method according to claim 1, wherein described according to the first image information and first figure
As the type of information, obtaining corresponding second image information of BV3 dot structure tested for image resolution ratio includes:
If the type of the first image information is vertical direction type, the first image is believed according to the first image rendering method
Breath processing is the second image information of the BV3 dot structure tested for image resolution ratio;
If the type of the first image information is horizontal direction type, the first image is believed according to the second image rendering method
Breath processing is the second image information of the BV3 dot structure tested for image resolution ratio.
6. according to the method described in claim 5, it is characterized in that, the first image rendering method includes: the first odd-numbered line
Rendering method and the first even number line rendering method;Wherein;
The first odd-numbered line rendering method includes:
Rxy=rxy;Gxy=gxy;Bxy=bxy;
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second sub-pixel
Columns, be positive integer;
rxyIndicate the corresponding gray value of the first red sub-pixel for being located at xth row y column, gxyIt indicates to be located at the of xth row y column
The corresponding gray value of one green sub-pixels, bxyIndicate the corresponding gray value of the first blue subpixels for being located at xth row y column;
RxyIndicate the corresponding gray value of the second red sub-pixel for being located at xth row y column, GxyIt indicates to be located at the of xth row y column
The corresponding gray value of two green sub-pixels, BxyIndicate the corresponding gray value of the second blue subpixels for being located at xth row y column;
The first even number line rendering method includes:
Bmn=bm1;Rmn=rm1;Gmn=gm1;
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second sub-pixel
Columns, be positive integer;
rm1It indicates to be located at the corresponding gray value of the first red sub-pixel that m row the 1st arranges, gm1It indicates to be located at m row the 1st arranges the
The corresponding gray value of one green sub-pixels, bm1It indicates to be located at the corresponding gray value of the first blue subpixels that m row the 1st arranges;
BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;RmnIt indicates to be located at m row n-th arranges the
The corresponding gray value of two red sub-pixels, GmnIt indicates to be located at the corresponding gray value of the second green sub-pixels that m row n-th arranges.
7. according to the method described in claim 5, it is characterized in that, second image rendering method includes: the second odd-numbered line
Rendering method and the second even number line rendering method;Wherein;
The second odd-numbered line rendering method includes:
Rxy=rx(2y-1);Gxy=gx(2y-1);Bxy=bx(2y);
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second sub-pixel
Columns, be positive integer;
rx(2y-1)Indicate the corresponding gray value of the first red sub-pixel for being located at xth row 2y-1 column, gx(2y-1)It indicates to be located at xth
The corresponding gray value of the first green sub-pixels of row 2y-1 column, bx(2y)Indicate the first sub- picture of blue for being located at xth row 2y column
The corresponding gray value of element;
RxyIndicate the corresponding gray value of the second red sub-pixel for being located at xth row y column, GxyIt indicates to be located at the of xth row y column
The corresponding gray value of two green sub-pixels, BxyIndicate the corresponding gray value of the second blue subpixels for being located at xth row y column;
The second even number line rendering method includes:
Bmn=bm(2n-1);Rmn=rm(2n);Gmn=gm(2n);
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second sub-pixel
Columns, be positive integer;
rm(2n)Indicate the corresponding gray value of the first red sub-pixel for being located at m row 2n column, gm(2n)It indicates to be located at m row 2n
The corresponding gray value of the first green sub-pixels of column, bm(2n-1)Indicate the first blue subpixels pair for being located at m row 2n-1 column
The gray value answered;
BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;RmnIt indicates to be located at m row n-th arranges the
The corresponding gray value of two red sub-pixels, GmnIt indicates to be located at the corresponding gray value of the second green sub-pixels that m row n-th arranges.
8. a kind of image processing apparatus, which is characterized in that apply in the display panel of BV3 dot structure, which includes:
Receiving module is configured as receiving corresponding first image information of Real rgb pixel structure of input, the Real
Rgb pixel structure includes the first sub-pixel of array arrangement;The BV3 pixel includes the second sub-pixel of array arrangement;
Determining module, for determining the type of the first image information according to the first image information;Wherein, described first
The type of image information includes: vertical direction type or horizontal direction type;Wherein, believe in the first image of vertical direction type
In breath, according to R component matrix, G Component Matrices and the B component matrix of adjacent three pixel of the adjacent column of the first image information acquisition
Element multiplication corresponding with default detective operators and sum be not 0, in the horizontal direction in the first image information of type, according to
R component matrix, G Component Matrices and the B component matrix of adjacent three pixel for the adjacent column that first image information obtains and default inspection
Calculate the corresponding element multiplication of son and sum and is equal to 0;
Processing module is obtained for the type according to the first image information and the first image information for image point
Corresponding second image information of BV3 dot structure of resolution test.
9. device according to claim 8, which is characterized in that the determining module is specifically used for: according to first figure
As information, R component matrix, G Component Matrices and the B component matrix of adjacent three pixel of adjacent column are obtained;According to the R component square
Battle array, the G Component Matrices and the B component matrix and default detective operators, determine the type of the first image information.
10. device according to claim 9, which is characterized in that the default detective operators are as follows:Or
11. device according to claim 8, which is characterized in that if the type of the first image information is vertical direction type,
Then the first image information processing is to be used for image resolution ratio test according to the first image rendering method by the processing module
BV3 dot structure the second image information;If the type of the first image information is horizontal direction type, the processing module
According to the second image rendering method by the first image information processing be used for image resolution ratio test BV3 dot structure
Second image information.
12. device according to claim 11, which is characterized in that the first image rendering method includes: the first odd number
Row rendering method and the first even number line rendering method;Wherein;
The first odd-numbered line rendering method includes:
Rxy=rxy;Gxy=gxy;Bxy=bxy;
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second sub-pixel
Columns, be positive integer;
rxyIndicate the corresponding gray value of the first red sub-pixel for being located at xth row y column, gxyIt indicates to be located at the of xth row y column
The corresponding gray value of one green sub-pixels, bxyIndicate the corresponding gray value of the first blue subpixels for being located at xth row y column;
RxyIndicate the corresponding gray value of the second red sub-pixel for being located at xth row y column, GxyIt indicates to be located at the of xth row y column
The corresponding gray value of two green sub-pixels, BxyIndicate the corresponding gray value of the second blue subpixels for being located at xth row y column;
The first even number line rendering method includes:
Bmn=bm1;Rmn=rm1;Gmn=gm1;
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second sub-pixel
Columns, be positive integer;
rm1It indicates to be located at the corresponding gray value of the first red sub-pixel that m row the 1st arranges, gm1It indicates to be located at m row the 1st arranges the
The corresponding gray value of one green sub-pixels, bm1It indicates to be located at the corresponding gray value of the first blue subpixels that m row the 1st arranges;
BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;RmnIt indicates to be located at m row n-th arranges the
The corresponding gray value of two red sub-pixels, GmnIt indicates to be located at the corresponding gray value of the second green sub-pixels that m row n-th arranges;
Second image rendering method includes: the second odd-numbered line rendering method and the second even number line rendering method;Wherein;
The second odd-numbered line rendering method includes:
Rxy=rx(2y-1);Gxy=gx(2y-1);Bxy=bx(2y);
Wherein, x indicates the line number of the first sub-pixel or the second sub-pixel, is odd number, and y indicates the first sub-pixel or the second sub-pixel
Columns, be positive integer;
rx(2y-1)Indicate the corresponding gray value of the first red sub-pixel for being located at xth row 2y-1 column, gx(2y-1)It indicates to be located at xth
The corresponding gray value of the first green sub-pixels of row 2y-1 column, bx(2y)Indicate the first sub- picture of blue for being located at xth row 2y column
The corresponding gray value of element;
RxyIndicate the corresponding gray value of the second red sub-pixel for being located at xth row y column, GxyIt indicates to be located at the of xth row y column
The corresponding gray value of two green sub-pixels, BxyIndicate the corresponding gray value of the second blue subpixels for being located at xth row y column;
The second even number line rendering method includes:
Bmn=bm(2n-1);Rmn=rm(2n);Gmn=gm(2n);
Wherein, m indicates the line number of the first sub-pixel or the second sub-pixel, is even number, and n indicates the first sub-pixel or the second sub-pixel
Columns, be positive integer;
rm(2n)Indicate the corresponding gray value of the first red sub-pixel for being located at m row 2n column, gm(2n)It indicates to be located at m row 2n
The corresponding gray value of the first green sub-pixels of column, bm(2n-1)Indicate the first blue subpixels pair for being located at m row 2n-1 column
The gray value answered;
BmnIt indicates to be located at the corresponding gray value of the second blue subpixels that m row n-th arranges;RmnIt indicates to be located at m row n-th arranges the
The corresponding gray value of two red sub-pixels, GmnIt indicates to be located at the corresponding gray value of the second green sub-pixels that m row n-th arranges.
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