KR100406868B1 - method and apparatus for selecting an experimentation image in a display device - Google Patents

Abstract

The present invention provides a display gamut input unit which receives RGB to L * a * b * (9 * 9 * 9) information of a display device and stores the information in a lookup table; The RGB to L * a * b * value of (9 * 9 * 9) input from the display gamut input unit is extended to the RGB to L * a * b * value of (33 * 33 * 33) using 3D interpolation. A display gamut extension unit; The RGB to L * a * b * value of (33 * 33 * 33) extended by the display gamut extension unit is composed of 30 * 30 of the maximum and minimum values of each L * a * b * value. A display gamut generation unit constituting 30 cells; An experimental image converting unit which converts the input experimental image into an XYZ value and obtains L * a * b *, which is color gamut data for the converted XYZ value, when an experimental image RGB to be determined is inputted; When the entire experimental image is converted to RGB to L * a * b *, data of the experimental image is sequentially assigned to 30 gamut (30 * 30 * 30) cells of the gamut generated by the display gamut generation unit so that the cell is not included in the cell. After accumulating the data and calculating the number, the experiment image verification unit selects an experiment image according to the accumulated pixel number, and selects an image with a large color gamut that cannot be represented by the display device as an experiment image. It will greatly affect the quality judgment.

Description

Experimental image selection system and method for display device {method and apparatus for selecting an experimentation image in a display device}

The present invention relates to an experimental image selection system and a method of the display device, to determine the color gamut characteristics of the display device to select an image with a large gamut that cannot be expressed by the display device as an experimental image for algorithm development and efficient image quality determination. An experimental image selection system of a display device and a method thereof are provided.

In general, the selection of experimental images to determine the algorithm plays a significant role because of the color representation of the display itself.

Extremely, the experimental image composed only of the color configuration that is well represented on the display device cannot naturally determine the algorithm. In this way, when colors that cannot be represented by the display are reflected to the maximum by reflecting the characteristics of the color representation of the display device, expressing them is the main goal of the algorithm development. Its importance is highlighted.

However, experimental images that are necessary for display developers to develop algorithms and for general users to evaluate color quality, but the experimental images that do not properly reflect the characteristics of the display device, cannot analyze the developed algorithms and evaluate the image quality. I can't do it properly.

As a conventional method for selecting experimental images. Although the images provided by ISO or the images produced and owned by the developer are used as experimental images, this method has difficulty in developing and discriminating algorithms by not considering the characteristics of the display device.

Accordingly, the present invention has been made to solve the above-described problems according to the prior art, and an object of the present invention is to grasp the color characteristics of the display device and look up the data as an input area of the display device in the color coordinate system. Provided is a test image selection system and a method of a display device for determining the suitability of a test image by a ratio between a display display area and a non-display area in the color gamut of the test image. Is in.

1 is a block diagram showing an experimental image selection system of a display device according to the present invention;

2 is a diagram illustrating a lookup table (LUT) configuration for a gamut configuration method applied to the present invention.

3 is a flowchart illustrating an operation of a method for selecting an experimental image of a display device according to the present invention;

* Description of the symbols for the main parts of the drawings *

100: experiment image selection device 101: display color gamut input unit

102: display gamut expansion unit 103: display gamut generation unit

104: experimental image converter 105: experimental image verification unit

201: Lookup Table

According to an aspect of the experimental image selection system of the display device according to the present invention for achieving the above object, a look up by receiving the information of RGB to L * a * b * (9 * 9 * 9) of the display device A display gamut input unit for storing in a table form; The RGB to L * a * b * value of (9 * 9 * 9) input from the display gamut input unit is extended to the RGB to L * a * b * value of (33 * 33 * 33) using 3D interpolation. A display gamut extension unit; The RGB to L * a * b * value of (33 * 33 * 33) extended by the display gamut extension unit is composed of 30 * 30 of the maximum and minimum values of each L * a * b * value. A display gamut generation unit constituting 30 cells; An experimental image converting unit which converts the input experimental image into an XYZ value and obtains L * a * b *, which is color gamut data for the converted XYZ value, when an experimental image RGB to be determined is inputted; When the entire experimental image is converted to RGB to L * a * b *, data of the experimental image is sequentially assigned to 30 gamut (30 * 30 * 30) cells of the gamut generated by the display gamut generation unit so that the cell is not included in the cell. After accumulating the data to calculate the number, and includes an experimental image verification unit for selecting the experimental image according to the accumulated number of pixels. The data input to the display gamut input unit may generate 9 * 9 * 9 samples of equally spaced RGB values of each color sample in the display device, and measure the respective samples using a measuring instrument (9 * 9 * L * a * b * value of 9).

In addition, when 30 * 30 * 30 cells are filled with L * a * b * values of 33 * 33 * 33 made by the display gamut generation unit and the cells are filled, the cell is determined to be a gamut that the display can represent.

In the experimental image converter, the input experimental image RGB may be converted to an XYZ value using a three-dimensional interpolation method as in the following equation.

In the experimental image converter, the following equation may be used to convert the converted XYZ values into L * a * b * values, which are gamut data.

Here, X ₀ , Y ₀ , and Z ₀ are values when each of RGB has a value of 1 (maximum).

In the method for selecting an experimental image of a display apparatus according to the present invention, measuring display samples with a measuring instrument, constructing a lookup table of RGB to L * a * b * of 9 * 9 * 9, and inputting the measured samples. ; Expanding the input RGB to L * a * b * values of 9 * 9 * 9 * to RGB to L * a * b * values of 33 * 33 * 33 using 3D interpolation; After expansion, configuring the display color gamut in these areas by dividing the entire area into 30 * 30 * 30 cells by forming the RGB to L * a * b * values of 33 * 33 * 33; Converting the input experimental image RGB into an XYZ value when an experimental image RGB to determine suitability is input; Converting the converted XYZ values into L * a * b * which is color gamut data; When the entire experimental image is converted to XYZ to L * a * b *, it is determined whether the converted L * a * b * value is included in the color gamut, and when the converted L * a * b * value is included in the gamut Accumulating pixel data not included in the data; Comparing the ratio of the accumulated number of pixels to the number of pixels of an experimental image to determine whether pixel data not included in a gamut exceeds 10%; As a result of the determination, when the pixel data not included in the gamut exceeds 10%, selecting the corresponding image as an experimental image.

On the other hand, in order to perform the method for selecting an experimental image of the display apparatus according to the present invention, a program of instructions that can be executed by the digital processing apparatus is tangibly embodied, and on one side of a recording medium that can be read by the digital processing apparatus. According to one or more exemplary embodiments, measuring display samples with an instrument, constructing a lookup table of 9 * 9 * 9 RGB to L * a * b *, and inputting the measured samples; Expanding the input RGB to L * a * b * values of 9 * 9 * 9 * to RGB to L * a * b * values of 33 * 33 * 33 using 3D interpolation; After expansion, configuring the display color gamut in these areas by dividing the entire area into 30 * 30 * 30 cells by forming the RGB to L * a * b * values of 33 * 33 * 33; Converting the input experimental image RGB into an XYZ value when an experimental image RGB to determine suitability is input; Converting the converted XYZ values into L * a * b * which is color gamut data; When the entire experimental image is converted to XYZ to L * a * b *, it is determined whether the converted L * a * b * value is included in the color gamut, and when the converted L * a * b * value is included in the gamut Accumulating pixel data not included in the data; Comparing the ratio of the accumulated number of pixels to the number of pixels of an experimental image to determine whether pixel data not included in a gamut exceeds 10%; As a result, when the pixel data not included in the gamut exceeds 10%, the step of selecting the image as an experimental image is performed.

Hereinafter, an exemplary embodiment of an experimental image selection system and a method of a display device according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating an experimental image selection system of a display device according to an embodiment of the present invention, and FIG. 2 is a block diagram illustrating a lookup table (LUT) for a color gamut configuration method applied to the present invention.

As illustrated in FIG. 1, the experimental image selection system of the display apparatus may include a display color gamut input unit 101 and an experimental image selection apparatus 100.

The experiment image selecting apparatus 100 may include a display gamut extension unit 102, a display gamut generator 103, an experiment image converter 104, and an experiment image verifier 105.

The display gamut input unit 101 receives RGB to L * a * b * (9 * 9 * 9) information of the display device and stores the information in the form of a lookup table. Here, the color sample in the display device is a sample of 9 * 9 * 9 at equal intervals for each channel of RGB, and the L * a * b * value of (9 * 9 * 9) by measuring each sample with a measuring instrument. To get.

In the display gamut extension unit 102, the RGB to L * a * b * values of (9 * 9 * 9) input from the display gamut input unit 101 are obtained by using a three-dimensional interpolation method of (33 * 33 * 33). Expand to RGB to L * a * b * values and save.

The RGB to L * a * b * values of (33 * 33 * 33) extended by the display gamut expansion unit 102 are measured by each L * measured by the display gamut generation unit 103 as shown in FIG. 2. The maximum and minimum values of a * b * values are composed of 30 equal parts to make 30 * 30 * 30 cells.

The 30 * 30 * 30 cells are filled with L * a * b * values of 33 * 33 * 33 made by the display gamut generation unit 103 and when the cells are filled, the cell is determined to be a gamut that the display device can express. .

When the experimental image RGB to be determined is input, the experimental image converter 104 converts the experimental image into an XYZ value using Equation 1 below.

By applying the converted X, Y, and Z values using Equation 1 to Equation 2 below, L * a * b *, which is gamut data, may be obtained. Here, X ₀ , Y ₀ , and Z ₀ are values when each of RGB has a value of 1 (maximum).

As such, when the entire experimental image is converted to RGB to L * a * b *, the experimental image verification unit 105 verifies the suitability as the experimental image.

In the experiment image verification method in the experiment image verification unit 105, data of the experiment image is sequentially included in the gamut (30 * 30 * 30) cells of the gamut generation unit 103 to be included in the cell. Accumulate data that does not and count the number.

If the cumulative calculated number satisfies Equation 3 below, the given image is selected as the experimental image, and if not, it is determined that the image is not suitable as the experimental image.

That is, when the cumulative number of pixels not included in the cell occupies 10% or more of the entire image, it means that the image is selected as the experimental image.

The experiment image selection method of the display apparatus according to the present invention corresponding to the operation of the experiment image selection system of the display apparatus according to the present invention will be described step by step with reference to FIG. 3.

3 is a flowchart illustrating an operation of a method of selecting an experimental image of a display apparatus according to the present invention.

First, the display samples are measured with a measuring instrument (S301), and the measured samples are configured after a lookup table of RGB to L * a * b * of 9 * 9 * 9 and input (S302).

Subsequently, the input RGB to L * a * b * values of 9 * 9 * 9 * are extended to RGB to L * a * b * values of 33 * 33 * 33 using 3D interpolation (S303). .

After expansion, the RGB to L * a * b * values of the 33 * 33 * 33 are divided into 30 * 30 * 30 cells by dividing the entire area (S304) to form the display color gamut in these areas (S305). ).

On the other hand, if the experimental image (RGB) to determine the suitability is input (S306), the input experimental image RGB is converted to the XYZ value using the above equation (1) (S307).

X, Y, and Z values converted as described above are applied to Equation 2 to obtain L * a * b *, which is gamut data. Here, X ₀ , Y ₀ , and Z ₀ are values when each of RGB has a value of 1 (maximum). The converted XYZ values are converted into L * a * b * values (S308).

As such, when the entire experimental image is converted into XYZ to L * a * b *, the experimental image verification unit 105 verifies the suitability as the experimental image.

That is, it is determined whether the converted L * a * b * value is included in the color gamut (S309).

As a result of the determination, when the converted L * a * b * value is included in the color gamut, pixel data not included is accumulated (S310).

However, when the converted L * a * b * value is not included in the color gamut, the next pixel is processed, and it is determined whether accumulation processing of all pixels is completed (S311).

As a result of the determination, when the cumulative processing of all the pixels is completed, it is determined whether the pixel data not included in the color gamut exceeds 10% by comparing the ratio of the cumulative number of pixels and the number of pixels of the experimental image (S312). That is, it is determined whether it is suitable as an experimental image by using Equation 3 described above.

If the ratio of the cumulative number of pixels and the number of pixels of the experimental image, that is, the pixel data not included in the gamut exceeds 10%, the corresponding image is selected as the experimental image (S313), and the cumulative number of pixels and the experimental image If the ratio of the number of pixels (pixel data not included in the gamut) does not exceed 10%, it is determined that it is not suitable as an experimental image (S314).

Summarizing the experimental image selection system and method thereof of the display device according to the present invention, the samples of the display are measured by a measuring instrument and a lookup table of 9 * 9 * 9 RGB to L * a * b * is configured. The lookup table is extended to 33 * 33 * 33 * using cubic interpolation, and the whole area is divided into 30 * 30 * 30 cells.

The color gamut of the display is configured in these areas, and the suitability of the experimental image is verified.

When an experimental image RGB for verifying the suitability of the experimental image is input, the image is converted into an XYZ value, and then the converted XYZ value is converted into an L * a * b * value.

If the converted image is not included in the color gamut, the number of pixels is accumulated. Otherwise, the next pixel is processed.

After that, the ratio of the cumulative number of pixels and the number of pixels of the experimental image is compared, and when the pixel data not included in the gamut exceeds 10%, the experimental image is selected, otherwise the experimental image is not selected.

As described above, the experimental image selection system and method of the display apparatus according to the present invention provide a developer with an experimental image necessary for developing an algorithm suitable for the display apparatus, and unlike the conventional method of using an arbitrary image, By grasping the gamut characteristics of the device to be displayed and selecting an image having a large color gamut that cannot be expressed by the display device as an experimental image, it is expected to have a great influence on the algorithm development and the image quality determination.

Claims (10)

In the experiment image selection system of the display device, A display gamut input unit configured to receive RGB to L * a * b * (9 * 9 * 9) information of the display device and store the information in a lookup table; The RGB to L * a * b * value of (9 * 9 * 9) input from the display gamut input unit is extended to the RGB to L * a * b * value of (33 * 33 * 33) using 3D interpolation. A display gamut extension unit; The RGB to L * a * b * value of (33 * 33 * 33) extended by the display gamut extension unit is composed of 30 * 30 of the maximum and minimum values of each L * a * b * value. A display gamut generation unit constituting 30 cells; An experimental image converting unit which converts the input experimental image into an XYZ value and obtains L * a * b *, which is color gamut data for the converted XYZ value, when an experimental image RGB to be determined is inputted; When the entire experimental image is converted to RGB to L * a * b *, data of the experimental image is sequentially assigned to 30 gamut (30 * 30 * 30) cells of the gamut generated by the display gamut generation unit so that the cell is not included in the cell. And an experiment image verification unit configured to select an experiment image according to the accumulated number of pixels after accumulating data and calculating the number thereof. The method of claim 1, The data input to the display gamut input unit is In the display device, samples of 9 * 9 * 9 of equally spaced samples are prepared for each channel by RGB values of color samples, and each sample is measured with a measuring instrument to measure L * a * b * of (9 * 9 * 9). Experimental image selection system of display device which is a value. The method of claim 1, Experiment of a display apparatus that fills 30 * 30 * 30 cells with L * a * b * values of 33 * 33 * 33 made by the display gamut generation unit and determines that the cell is a gamut that the display can express when the cells are filled Image Selection System. The method of claim 1, In the experimental image converter, An experimental image selection system of a display apparatus using a three-dimensional interpolation method for converting an input experimental image RGB into an XYZ value. According to claim 1, And converting the converted XYZ values into L * a * b * values, which are color gamut data, by using the following equation. Where X ₀ , Y ₀ , and Z ₀ are the values where each of RGB has a value of 1 (maximum). The method of claim 1, And an experimental image selection system of the display apparatus which selects an experimental image when the accumulated number of data satisfies the following equation. In the experimental image selection method of the display device, Measuring display samples with a meter, constructing a lookup table of RGB to L * a * b * of 9 * 9 * 9 and inputting the measured samples; Expanding the input RGB to L * a * b * values of 9 * 9 * 9 * to RGB to L * a * b * values of 33 * 33 * 33 using 3D interpolation; After expansion, configuring the display color gamut in these areas by dividing the entire area into 30 * 30 * 30 cells by forming the RGB to L * a * b * values of 33 * 33 * 33; Converting the input experimental image RGB into an XYZ value when an experimental image RGB to determine suitability is input; Converting the converted XYZ values into L * a * b * which is color gamut data; When the entire experimental image is converted to XYZ to L * a * b *, it is determined whether the converted L * a * b * value is included in the color gamut, and when the converted L * a * b * value is included in the gamut Accumulating pixel data not included in the data; Comparing the ratio of the accumulated number of pixels to the number of pixels of an experimental image to determine whether pixel data not included in a gamut exceeds 10%; And when the pixel data not included in the color gamut exceeds 10%, determining the corresponding image as an experimental image. The method of claim 7, wherein 3D interpolation in the step of extending to the RGB to L * a * b * value of 33 * 33 * 33 is the experimental image selection method of the display device using the following equation. The method of claim 7, wherein And converting the converted XYZ values into color gamut data, L * a * b *, using the following equation. Where X ₀ , Y ₀ , and Z ₀ are the values where each of RGB has a value of 1 (maximum). In order to perform a method for selecting an experimental image of a display apparatus, a program of instructions executable by a digital processing apparatus is tangibly implemented, and in a recording medium that can be read by a digital processing apparatus, Measuring display samples with a meter, constructing a lookup table of RGB to L * a * b * of 9 * 9 * 9 and inputting the measured samples; Expanding the input RGB to L * a * b * values of 9 * 9 * 9 * to RGB to L * a * b * values of 33 * 33 * 33 using 3D interpolation; After expansion, configuring the display color gamut in these areas by dividing the entire area into 30 * 30 * 30 cells by forming the RGB to L * a * b * values of 33 * 33 * 33; Converting the input experimental image RGB into an XYZ value when an experimental image RGB to determine suitability is input; Converting the converted XYZ values into L * a * b * which is color gamut data; When the entire experimental image is converted to XYZ to L * a * b *, it is determined whether the converted L * a * b * value is included in the color gamut, and when the converted L * a * b * value is included in the gamut Accumulating pixel data not included in the data; Comparing the ratio of the accumulated number of pixels to the number of pixels of an experimental image to determine whether pixel data not included in a gamut exceeds 10%; And when the pixel data not included in the gamut exceeds 10% as a result of the determination, selecting the image as an experimental image.