WO2022199332A1 - Procédé de correction de couleur, procédé d'affichage corrigible, dispositif électronique et puce - Google Patents

Procédé de correction de couleur, procédé d'affichage corrigible, dispositif électronique et puce Download PDF

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WO2022199332A1
WO2022199332A1 PCT/CN2022/078370 CN2022078370W WO2022199332A1 WO 2022199332 A1 WO2022199332 A1 WO 2022199332A1 CN 2022078370 W CN2022078370 W CN 2022078370W WO 2022199332 A1 WO2022199332 A1 WO 2022199332A1
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color
response data
mapping relationship
correction
corrected
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PCT/CN2022/078370
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English (en)
Chinese (zh)
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张钧凯
杨洋
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Oppo广东移动通信有限公司
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Publication of WO2022199332A1 publication Critical patent/WO2022199332A1/fr

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    • G06T5/90
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T15/003D [Three Dimensional] image rendering
    • G06T15/10Geometric effects
    • G06T15/20Perspective computation
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T7/00Image analysis
    • G06T7/90Determination of colour characteristics
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N9/00Details of colour television systems
    • H04N9/64Circuits for processing colour signals
    • H04N9/73Colour balance circuits, e.g. white balance circuits or colour temperature control
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T2207/00Indexing scheme for image analysis or image enhancement
    • G06T2207/10Image acquisition modality
    • G06T2207/10024Color image

Definitions

  • the embodiments of the present application relate to the technical field of machine vision, and in particular, to a color correction method, a correctable display method, an electronic device, and a chip.
  • the CIE 1931 XYZ color space (also known as the CIE 1931 color space) is one of the first color spaces to be defined mathematically.
  • the CIE 1931 color space usually gives the tristimulus values of colors, and represented by X, Y and Z.
  • CIE 1931 XYZ tristimulus values are mainly used to define the human eye's response to color.
  • Embodiments of the present application provide a color correction method, a correctable display method, an electronic device, and a chip.
  • an embodiment of the present application provides a color correction method, the method comprising:
  • an embodiment of the present application provides a calibratable display method, the method comprising:
  • Color display is performed according to the corrected color mapping relationship.
  • an embodiment of the present application provides an electronic device, the electronic device includes: a detection unit, a generation unit, a correction unit,
  • the detection unit is configured to detect the response data of the target observer to the reference picture
  • the generating unit configured to generate a color correction instruction based on the response data
  • the correction unit is configured to, in response to the color correction instruction, perform correction processing on a preset color mapping relationship based on the response data to obtain a corrected color mapping relationship; and color the image according to the corrected color mapping relationship. Correction processing, providing a color-corrected image.
  • an embodiment of the present application provides an electronic device, the electronic device includes a processor, a memory storing instructions executable by the processor, and a display, and when the instructions are executed by the processor, the The color correction method according to the first aspect or the correctable display method according to the second aspect.
  • an embodiment of the present application provides a chip, the chip is coupled to a display, and the chip includes: a receiving module, a generating module, a correcting module, and an outputting module,
  • the receiving module is configured to obtain the response data of the target observer to the reference picture
  • the generation module configured to generate a color correction instruction based on the response data
  • the correction module configured to perform correction processing on a preset color mapping relationship based on the color correction instruction and the response data, and obtain a corrected color mapping relationship
  • the output module is configured to perform color correction on the image according to the corrected color mapping relationship, and/or, configured to provide a driving voltage for the display according to the corrected color mapping relationship.
  • Figure 1 is the spectral response curve of CIE 1931 tristimulus values
  • FIG. 2 is a schematic diagram of a color sensor measuring the brightness of a display
  • Figure 3 is a schematic diagram of brightness levels
  • Figure 4 is the tristimulus value X spectral response
  • Figure 5 is the tristimulus value Y spectral response
  • Fig. 6 is the Z spectral response of tristimulus value
  • Fig. 7 is the realization flow schematic diagram 1 of the color correction method
  • FIG. 8 is a schematic diagram 1 of acquiring a detection instruction
  • 9 is a schematic diagram 2 of acquiring a detection instruction
  • Fig. 10 is the schematic diagram of detection result
  • 11 is a schematic diagram 1 of obtaining a correction instruction
  • 12 is a schematic diagram 2 of obtaining a correction instruction
  • Fig. 14 is the realization flow schematic diagram II of the color correction method
  • FIG. 15 is a schematic flowchart of the implementation of the correctable display method
  • Fig. 16 is the realization flow schematic diagram three of the color correction method
  • FIG. 17 is a schematic diagram of a background interface
  • 20 is a schematic diagram 2 of a reference picture
  • Fig. 21 is the realization schematic diagram of color correction
  • FIG. 22 is a schematic diagram of the composition structure of an electronic device
  • FIG. 23 is a second schematic diagram of the composition structure of an electronic device
  • FIG. 24 is a schematic diagram of the composition structure of the chip.
  • the electronic device needs to perform color correction to establish a corresponding relationship between the digital signal of the display channel and the display color, wherein the displayed color needs to be represented by the color perceived by the human eye.
  • Color-corrected monitors display accurate colors.
  • the International Commission on Illumination (CIE) in 1931 recommended the human eye's sensitivity spectrum curve for color by measuring the data of thousands of people, as shown in Figure 1.
  • the CIE 1931 tristimulus spectral response curve, shown in Figure 1 is the average response to color for thousands of observers.
  • the XYZ tristimulus response of the human eye can be obtained by integrating the spectrum reflected by the light source or the object and the corresponding wavelength of the XYZ tristimulus spectral response curve.
  • the human eye has receptors (called cones) for short (S), medium (M) and long (L) wavelengths of light, so in principle only three parameters can describe color perception.
  • cones for short (S), medium (M) and long (L) wavelengths of light
  • M medium
  • L long
  • the weights of the three primary colors the color.
  • the tristimulus value usually gives the tristimulus values of a color, represented by X, Y, and Z.
  • a color space refers to any method of relating each color to three numbers (or tristimulus values), and the CIE 1931 color space is one such color space.
  • the CIE XYZ color space is special because it is based on a direct measurement of human color vision and serves as the basis for the definition of many other color spaces.
  • tristimulus values do not refer to the human eye's response to short, medium, and long wavelengths (S, M, and L), but rather a set of values called X, Y, and Z, roughly corresponding to red , green and blue (where the X, Y and Z values do not really appear to be red, green and blue, but are parameters derived from red, green and blue), and use the CIE 1931 XYZ colors matching function to calculate.
  • Two light sources made up of a mixture of different wavelengths of light can exhibit the same color, which is called "metamerism". When two light sources have the same apparent color to a standard observer (CIE 1931 standard chromaticity observer), they have the same tristimulus value, regardless of the spectral distribution of the light that generated them.
  • Figure 2 is a schematic diagram of the color sensor measuring the brightness of the display. As shown in Figure 2, the color measurement sensor can be attached to the central surface of the display;
  • FIG. 3 is a schematic diagram of the brightness level, as shown in Figure 3, the display can be from small to large to Display the R channel at a certain grayscale interval, for example, display the R channel with 0, 1, ..., 255;
  • step c Perform the operation of step c on the G channel, the B channel, the R+B channel, the R+G channel, the B+G channel and the R+G+B channel in turn;
  • RGB electronic signal strength and XYZ tristimulus values.
  • Table 1 shows the brightness levels and corresponding XYZ values displayed by the bit numbers of different channels of the display. As shown in Table 1, RGB can be established in the form of a 3D comparison table. Corresponding relationship between electronic signal strength and XYZ tristimulus value;
  • the 3D comparison table can be called for color display.
  • the monitor When the monitor performs color correction according to the color perception curve of a standard observer, the displayed colors will make different observers see different colors, especially for very saturated colors, the color perception color difference between different people will further increase .
  • the present application proposes a method for establishing a personalized color correction scheme, so that the display can display different RGB values for different observers, and can combine the color responses of different observers, so that they can see the same s color.
  • the electronic device may first detect the actual color response of the target observer to obtain corresponding response data, and then use the response data to correct the preset color mapping relationship corresponding to the standard observer, Thereby, the corrected color mapping relationship representing the corresponding relationship between the tristimulus values of the target observer and the RGB values is obtained, and then the personalized color display for the target observer can be realized through the corrected color mapping relationship.
  • the color correction scheme proposed in the present application can solve the problem of color perception color difference between different observers, improve the display effect of the electronic device, meet the individual requirements of color display, and greatly improve the intelligence of the electronic device.
  • FIG. 7 is a schematic diagram of the first implementation flow of the color correction method.
  • the method for performing color correction by an electronic device may include the following steps :
  • Step 101 Detect response data of the target observer to the reference picture, and generate a color correction instruction based on the response data.
  • the electronic device may first detect the response data of the target observer to the reference picture, and then may generate the color correction instruction based on the response data.
  • the electronic device may respond to the detection instruction and acquire response data corresponding to the target observer according to a preset detection strategy.
  • the above-mentioned electronic device may be any terminal device configured with a display screen, such as a tablet computer, a mobile phone, an electronic reader, a personal computer (Personal Computer, PC), a notebook computer, Vehicle-mounted equipment, Internet TV, wearable equipment, Personal Digital Assistant (PDA), Portable Media Player (PMP), navigation device, etc.
  • a tablet computer such as a tablet computer, a mobile phone, an electronic reader, a personal computer (Personal Computer, PC), a notebook computer, Vehicle-mounted equipment, Internet TV, wearable equipment, Personal Digital Assistant (PDA), Portable Media Player (PMP), navigation device, etc.
  • PDA Personal Digital Assistant
  • PMP Portable Media Player
  • the detection device is configured with a display screen, and the display screen can display colors according to a preset color mapping relationship.
  • the preset color mapping relationship may represent the corresponding relationship between the reference tristimulus values corresponding to the standard observer and RGB.
  • the electronic device may acquire a detection instruction corresponding to the target observer, where the detection instruction is used to perform personalized detection instructions on the spectral response data corresponding to the target observer.
  • the electronic device may acquire the detection instruction corresponding to the target observer through the touch operation detected on the display screen.
  • FIG. 8 is the first schematic diagram of acquiring the detection instruction.
  • the electronic device calls out the display interface corresponding to the detection function through the touch operation detected on the display screen, and acquires the detection instruction in the display interface.
  • the electronic device may also acquire the detection instruction corresponding to the target observer through a preset trigger mechanism.
  • FIG. 9 is a second schematic diagram of acquiring a detection instruction. As shown in FIG. 9 , when the electronic device detects a pressing operation with a pressure greater than a preset threshold on the physical buttons on both sides, the detection function is triggered, that is, the target observer is acquired detection command.
  • the electronic device after acquiring the detection instruction corresponding to the target observer, the electronic device can detect the color response of the target observer according to the preset detection strategy, so as to obtain the corresponding response of the target observer. data.
  • the response data of the target observer detected by the electronic device to the reference picture may be spectral response data corresponding to the target observer.
  • the preset detection strategy may be used to detect the actual color response of the target observer in combination with the Gamma value of the display screen in the electronic device.
  • the tristimulus value is the amount of three primary color stimuli required to match the color of the avenue to be measured in the three-color system, which can be represented by XYZ, X is the red primary color stimulus, Y is the green primary color stimulus, Z For the blue primary color stimulus.
  • the stimulus amount of red, green and blue can be represented by R, G, and B respectively. Since the three primary colors of red, green and blue selected from the actual spectrum cannot be mixed with all the colors that exist in nature, CIE It is assumed that there are three primary colors in nature, that is, the theoretical three primary colors, which are represented by XYZ, in order to theoretically mix colors together, thus forming the XYZ color measurement system.
  • the reference tristimulus value corresponding to the standard observer may be expressed as XYZ
  • the tristimulus value corresponding to the target observer may be expressed as (XYZ)′.
  • the electronic device may further generate a color correction instruction based on the response data.
  • the electronic device can adjust the preset color mapping relationship.
  • the electronic device may start the correction process of color display by receiving a color correction instruction corresponding to the target observer. That is, the color correction instruction can be used as an instruction to perform personalized adjustment processing of color display for the target observer.
  • the method for performing color display by the electronic device may further include the following steps:
  • Step 104 Generate a detection result according to the response data and the reference color response data.
  • Step 105 displaying the detection result.
  • the electronic device can respond to the color detection result according to the response data and the reference color data corresponding to the standard observer, and then The detection result can be displayed.
  • the detection result can be generated by using the response data and the reference color response data, that is, the electronic device can pass the detection result. Indicates the difference and difference between the response data and the reference color response data, so that after the detection results are displayed, the target observer can more intuitively understand their own personalized needs.
  • the form of the detection result generated by the electronic device may include various forms such as graphics and tables, which are not specifically limited in the present application.
  • FIG. 10 is a schematic diagram of the detection result.
  • the detection result generated by the electronic device according to the response data and the reference color response data may be a comparison diagram of different colors. It is more intuitive to reflect the difference between the response data of the target observer and the reference color response data of the standard observer.
  • the electronic device may directly obtain the correction instruction corresponding to the target observer, or may first respond to the data based on the response data and the reference color. Generate and display the detection results, and then obtain the correction instructions corresponding to the target observer.
  • the electronic device may acquire the correction instruction corresponding to the target observer through a touch operation detected on the display screen.
  • FIG. 11 is a schematic diagram 1 of obtaining a calibration instruction.
  • the electronic device calls out the display interface corresponding to the calibration function through a touch operation detected on the display screen, and obtains the calibration instruction in the display interface.
  • the electronic device may also acquire the correction instruction corresponding to the target observer through a preset trigger mechanism.
  • FIG. 12 is the second schematic diagram of obtaining the correction instruction.
  • the electronic device corrects the pressing operation with the pressure greater than the preset threshold on the physical buttons on both sides, the correction function is triggered, that is, the target observer is obtained. correction command.
  • Step 102 In response to the color correction instruction, perform correction processing on the preset color mapping relationship based on the response data, and obtain the corrected color mapping relationship.
  • the electronic device may respond to the color correction instruction, and perform correction processing on the preset color mapping relationship based on the response data, so as to obtain the corrected color mapping relationship .
  • the electronic device displays colors according to a preset color mapping relationship, wherein the preset color mapping relationship can be used for the reference corresponding to the standard observer.
  • the corresponding relationship between the tristimulus values and the RGB values is determined, that is, the reference color response data is the standard spectral response data corresponding to the standard observer; correspondingly, the preset color mapping relationship is the reference three corresponding to the standard observer. Correspondence between stimulus values and RGB values.
  • the electronic device can correct the preset color mapping relationship according to the response data corresponding to the target observer, that is, change the corresponding relationship between the reference tristimulus value and the RGB value, and finally obtain the corrected color Mapping relations.
  • the corrected color mapping relationship can be used to determine the correspondence between the tristimulus values corresponding to the target observer and the RGB values. That is to say, the response data is the spectral response data corresponding to the target observer; correspondingly, the corrected color mapping relationship is the corresponding relationship between the tristimulus values corresponding to the target observer and the RGB values.
  • the electronic device performs correction processing on the preset color mapping relationship based on the response data
  • the method for obtaining the corrected color mapping relationship may include the following steps:
  • Step 102a Determine a correction matrix according to the response data and the reference color response data.
  • the electronic device may first determine a correction matrix according to the response data and the reference color response data, wherein the correction matrix is used to convert the reference color response data into response data, and the response data is the target observation data
  • the spectral response data corresponding to the observer; the reference color response data is the standard spectral response data corresponding to the standard observer.
  • the conversion between the spectral response data corresponding to the standard observer and the standard spectral response data corresponding to the target observer may be implemented by a 3 ⁇ 3 conversion matrix.
  • the standard spectral response data of a standard observer can be expressed as
  • the spectral response data corresponding to the target observer can be expressed as Then, when using the transformation matrix for transformation, the following formula can be used:
  • Step 102b Based on the calibration matrix, establish a conversion relationship between the tristimulus values corresponding to the target observer and the reference tristimulus values corresponding to the standard observer.
  • the electronic device can use the correction matrix to establish the tristimulus value corresponding to the target observer and the standard observer. Refer to the conversion relationship between tristimulus values.
  • the difference between the reference tristimulus value XYZ corresponding to the standard observer and the tristimulus value (XYZ)' corresponding to the target observer can be determined based on the conversion matrix.
  • the conversion relationship is expressed as the following formula:
  • the reference tristimulus value XYZ can be expressed as
  • the tristimulus values (XYZ)' corresponding to the target observer can be expressed as
  • Step 102c Determine the corrected color mapping relationship based on the conversion relationship and the preset color mapping relationship.
  • the electronic device can use the conversion relationship and the preset color mapping relationship to further determine the corrected value Color mapping relationship.
  • the preset color mapping relationship is pre-stored by the electronic device and used to determine the corresponding relationship between the reference tristimulus values and the RGB values. Therefore, when establishing the target observation On the basis of the conversion relationship between the corresponding tristimulus value and the reference tristimulus value, the electronic device can complete the correction of the color display, and convert the preset color mapping relationship into the corrected color mapping relationship, wherein the color mapping relationship uses The corresponding relationship between the tristimulus values corresponding to the target observer and the RGB values is determined.
  • FIG. 13 is a schematic diagram of color display calibration.
  • the corresponding relationship between the RGB values of the electronic device and the reference tristimulus values corresponding to the standard observer is the preset color mapping relationship.
  • the corresponding relationship between the tristimulus value corresponding to the target observer and the RGB value of the electronic device can be further obtained based on the conversion relationship, that is, the corrected color can be obtained. Mapping relations.
  • the reference color response data and the preset color mapping relationship are all pre-stored by the electronic device.
  • the method for performing color display by the electronic device may further include the following steps:
  • Step 102d If the correction matrix satisfies the preset correction condition, perform correction processing on the preset color mapping relationship according to the correction matrix, and obtain the corrected color mapping relationship.
  • Step 102e If the calibration matrix does not meet the preset calibration condition, directly determine the preset color mapping relationship as the corrected color mapping relationship.
  • the electronic device may first determine whether correction processing is required, and then perform the next processing according to the determination result.
  • the electronic device can determine the degree of deviation between the response data and the reference color response data through the transformation matrix, that is, the difference in the color response between the target observer and the standard observer. If the deviation between the reference color response data is large, the electronic device may consider that the display effect will be reduced, so it is determined that correction processing is required; if the deviation between the response data and the reference color response data is small enough, the electronic device may consider that It will not affect the display effect, so it is determined that correction processing is not required.
  • the electronic device may preset a calibration condition, that is, a preset calibration condition, and if the calibration matrix satisfies the preset calibration condition, it is determined to perform calibration processing, and then the calibration process can be performed according to the calibration matrix.
  • the preset color mapping relationship is corrected, and the corrected color mapping relationship is obtained.
  • the electronic device may directly determine the preset color mapping relationship as the corrected color mapping relationship, that is, continue to perform color display according to the preset color mapping relationship.
  • FIG. 14 is a schematic diagram 2 of the implementation flow of the color correction method.
  • the method for performing color display by the electronic device may further include the following steps :
  • Step 106 Determine a deviation parameter between the response data and the reference color response data.
  • Step 107 If the deviation parameter is greater than the preset deviation threshold, perform correction processing.
  • the electronic device may compare the response data with the pre-stored reference color response data, calculate and obtain the deviation parameter between the two, and then according to The deviation parameter judges whether correction of color display is required.
  • the deviation parameter can determine the degree of deviation between the response data and the reference color response data, that is, the deviation parameter can determine the difference between the target observer and the standard observer on the color. Response gaps are determined.
  • the electronic device presets a threshold value to determine whether the correction process needs to be determined.
  • the electronic device can compare the deviation parameter between the calculated response data and the reference color response data with a preset deviation threshold, and if the comparison result is that the deviation parameter is greater than the preset deviation threshold, it can It is considered that for the target observer, the display effect of color display according to the original preset color mapping relationship is not ideal, so it is determined that correction processing is required; if the comparison result is that the deviation parameter is less than or equal to the preset deviation threshold, according to the original Some preset color mapping relationships for color display will not reduce the effect for the target observer, so it is determined that correction processing is not required.
  • the electronic device when it performs the correction process for color display, it may first detect the correction instruction corresponding to the target observer, and then respond to the correction instruction, based on the response data corresponding to the target observer.
  • the original preset color mapping relationship is adjusted to obtain the corrected color mapping relationship, so as to complete the correction processing.
  • the electronic device when the electronic device performs the correction process for color display, it can also directly determine whether to perform the correction process according to the obtained response data corresponding to the target observer.
  • the original preset color mapping relationship is adjusted based on the response data corresponding to the target observer, and the corrected color mapping relationship is obtained to complete the calibration process.
  • Step 103 Perform color correction processing on the image according to the corrected color mapping relationship to provide a color corrected image.
  • the electronic device after the electronic device responds to the color correction instruction, performs correction processing on the preset color mapping relationship based on the response data, and obtains the corrected color mapping relationship, it can adjust the color mapping relationship according to the corrected color mapping relationship.
  • the image is color-corrected to provide a color-corrected image to complete the personalized color display for the target observer.
  • the electronic device first performs color display processing according to the preset color mapping relationship corresponding to the standard observer, and after completing the acquisition of the response data for the target observer, the electronic device can use The response data completes the conversion of the preset color mapping relationship, obtains the corrected color mapping relationship corresponding to the target observer, and then performs color correction processing on the image according to the corrected color mapping relationship to provide the color-corrected image, thus completing the Correction processing of color display for target observers.
  • the electronic device before performing color correction processing on an image according to the corrected color mapping relationship and providing a color corrected image, displays colors according to the preset color mapping relationship.
  • the electronic device when the electronic device performs color correction processing on the image according to the corrected color mapping relationship and provides a color corrected image, it can first determine the initial RGB values corresponding to the image; and then according to the corrected color mapping The relationship and the initial RGB value are used to determine the target tristimulus value; finally, the display driving voltage can be adjusted according to the target tristimulus value, thereby obtaining a color-corrected image.
  • the electronic device when it displays an image, it may first determine the RGB value of the image itself, that is, the initial RGB value, and then use the corrected color mapping relationship corresponding to the target observer to determine the initial RGB value
  • the tristimulus value corresponding to the value is the target tristimulus value.
  • the electronic device Based on the correspondence between the RGB electronic signal strength and the XYZ tristimulus values shown in Table 1 above, the brightness level displayed by the number of bits of different channels corresponding to the target tristimulus values can be further determined. Therefore, the electronic device can be based on the above Table 1, The display driving voltage is adjusted according to the target tristimulus value, and then the color-corrected image can be obtained and displayed, and finally the personalized color display for the target observer is completed.
  • the electronic device when the electronic device performs color correction processing on the image according to the corrected color mapping relationship and provides a color corrected image, it may first determine the initial RGB values corresponding to the image; and then according to the corrected color mapping The relationship and the initial RGB value are used to determine the target tristimulus value; finally, the color-corrected image is obtained according to the target tristimulus value.
  • the electronic device when it displays an image, it may first determine the RGB value of the image itself, that is, the initial RGB value, and then use the corrected color mapping relationship corresponding to the target observer to determine the initial RGB value The corresponding tristimulus value, that is, the target tristimulus value, then adjust and correct the displayed image data according to the target tristimulus value, obtain and display the color-corrected image, and finally complete the personalized color for the target observer. show.
  • the electronic device can provide customized color display schemes for different observers, so that different groups of people can perceive the same color.
  • the color correction method proposed in some embodiments of the present application can not only establish a customized color display scheme for color blindness and color weakness, but also establish a personalized display for the differences in color perception of normal visual observers of a larger population scheme so that different observers can perceive the same color.
  • the present application does not limit the specific group of target observers.
  • an electronic device detects response data of a target observer to a reference picture, and generates a color correction instruction based on the response data; in response to the color correction instruction, a preset color mapping relationship is corrected based on the response data processing to obtain a corrected color mapping relationship; and performing color correction processing on the image according to the corrected color mapping relationship to provide a color corrected image. It can be seen that, in the color correction method proposed in this application, the electronic device can first detect the actual color response of the target observer, obtain the corresponding response data, and then use the response data to perform the preset color mapping relationship corresponding to the standard observer.
  • Correction processing is performed to obtain the corrected color mapping relationship representing the corresponding relationship between the tristimulus values of the target observer and the RGB values, and then the personalized color display for the target observer can be realized through the corrected color mapping relationship. It can be seen that the color correction scheme proposed in the present application can solve the problem of color perception color difference between different observers, improve the display effect of the electronic device, meet the individual requirements of color display, and greatly improve the intelligence of the electronic device.
  • FIG. 15 is a schematic diagram of an implementation flow of the calibratable display method.
  • the calibratable display method of an electronic device may include: The following steps:
  • Step 201 Detect response data of the target observer to the reference picture, and generate a color correction instruction based on the response data.
  • the electronic device may first detect the response data of the target observer to the reference picture, and then may generate the color correction instruction based on the response data.
  • the response data of the target observer detected by the electronic device to the reference picture may be spectral response data corresponding to the target observer.
  • the electronic device may further generate a color correction instruction based on the response data.
  • the electronic device can adjust the preset color mapping relationship.
  • the electronic device may start the correction process of color display by receiving a color correction instruction corresponding to the target observer. That is, the color correction instruction can be used as an instruction to perform personalized adjustment processing of color display for the target observer.
  • Step 202 in response to the color correction instruction, perform correction processing on the preset color mapping relationship based on the response data, and obtain the corrected color mapping relationship.
  • the electronic device may respond to the color correction instruction, and perform correction processing on the preset color mapping relationship based on the response data, so as to obtain the corrected color mapping relationship .
  • the electronic device displays colors according to a preset color mapping relationship, wherein the preset color mapping relationship can be used for the reference corresponding to the standard observer.
  • the corresponding relationship between the tristimulus values and the RGB values is determined, that is, the reference color response data is the standard spectral response data corresponding to the standard observer; correspondingly, the preset color mapping relationship is the reference three corresponding to the standard observer. Correspondence between stimulus values and RGB values.
  • the electronic device can correct the preset color mapping relationship according to the response data corresponding to the target observer, that is, change the corresponding relationship between the reference tristimulus value and the RGB value, and finally obtain the corrected color Mapping relations.
  • the corrected color mapping relationship can be used to determine the correspondence between the tristimulus values corresponding to the target observer and the RGB values. That is to say, the response data is the spectral response data corresponding to the target observer; correspondingly, the corrected color mapping relationship is the corresponding relationship between the tristimulus values and the RGB values corresponding to the target observer.
  • the electronic device performs correction processing on the preset color mapping relationship based on the response data
  • the method for obtaining the corrected color mapping relationship may include the following steps: determining according to the response data and the reference color response data Correction matrix; based on the correction matrix, the conversion relationship between the tristimulus values corresponding to the target observer and the reference tristimulus values corresponding to the standard observer is established; based on the conversion relationship and the preset color mapping relationship, the corrected color mapping relationship is determined.
  • the preset color mapping relationship is pre-stored by the electronic device and used to determine the corresponding relationship between the reference tristimulus values and the RGB values. Therefore, when establishing the target observation On the basis of the conversion relationship between the corresponding tristimulus value and the reference tristimulus value, the electronic device can complete the correction of the color display, and convert the preset color mapping relationship into the corrected color mapping relationship, wherein the color mapping relationship uses The corresponding relationship between the tristimulus values corresponding to the target observer and the RGB values is determined.
  • the reference color response data and the preset color mapping relationship are all pre-stored by the electronic device.
  • the method for performing color display by the electronic device may further include the following steps: if the correction matrix satisfies the preset correction condition, then The preset color mapping relationship is corrected according to the correction matrix to obtain the corrected color mapping relationship; if the correction matrix does not meet the preset correction conditions, the preset color mapping relationship is directly determined as the corrected color mapping relationship.
  • the electronic device may first determine whether correction processing is required, and then perform the next processing according to the determination result.
  • the electronic device can determine the degree of deviation between the response data and the reference color response data through the transformation matrix, that is, the difference in the response to color between the target observer and the standard observer. If the deviation between the reference color response data is large, the electronic device may consider that the display effect will be reduced, so it is determined that correction processing is required; if the deviation between the response data and the reference color response data is small enough, the electronic device may consider that It will not affect the display effect, so it is determined that correction processing is not required.
  • the method for performing color display by the electronic device may further include the following steps: determining a deviation parameter between the response data and the reference color response data; if the deviation parameter is greater than the preset value If the deviation threshold is exceeded, correction processing is performed.
  • the electronic device after detecting the response data of the target observer to the reference picture, the electronic device can compare the response data with the pre-stored reference color response data, calculate and obtain the deviation parameter between the two, and then according to The deviation parameter judges whether correction of color display is required.
  • the deviation parameter can determine the degree of deviation between the response data and the reference color response data, that is, the deviation parameter can determine the difference between the target observer and the standard observer on the color. Response gaps are determined.
  • Step 203 performing color display according to the corrected color mapping relationship.
  • the electronic device after the electronic device responds to the color correction instruction, performs correction processing on the preset color mapping relationship based on the response data, and obtains the corrected color mapping relationship, it can perform the correction processing according to the corrected color mapping relationship.
  • Color display to complete the personalized color display for the target observer.
  • the electronic device first performs color display processing according to the preset color mapping relationship corresponding to the standard observer, and after completing the acquisition of the basic color response data of the target observer, the electronic device
  • the basic color response data can be used to complete the conversion of the preset color mapping relationship, and the corrected color mapping relationship corresponding to the target observer can be obtained, and then the color can be displayed according to the corrected color mapping relationship, thus completing the target observer.
  • Correction processing for color display is performed.
  • the electronic device before displaying colors according to the corrected color mapping relationship, displays colors according to the preset color mapping relationship.
  • the electronic device can provide a customized color display scheme for different observers, so that different groups of people can perceive the same color .
  • the correctable display proposed in some embodiments of the present application can not only establish a customized color display scheme for color blindness and color weakness, but also establish a personalized color display scheme for the differences in color perception of normal visual observers of a larger population. Display schemes such that different observers perceive the same color.
  • the present application does not limit the specific group of target observers.
  • the electronic device detects the response data of the target observer to the reference picture, and generates a color correction instruction based on the response data; in response to the color correction instruction, the preset color mapping relationship is performed based on the response data. Correction processing, obtaining the corrected color mapping relationship; and performing color display according to the corrected color mapping relationship. It can be seen that, in the color correction method proposed in this application, the electronic device can first detect the actual color response of the target observer, obtain the corresponding response data, and then use the response data to perform the preset color mapping relationship corresponding to the standard observer.
  • Correction processing is performed to obtain the corrected color mapping relationship representing the corresponding relationship between the tristimulus values of the target observer and the RGB values, and then the personalized color display for the target observer can be realized through the corrected color mapping relationship. It can be seen that the color correction scheme proposed in the present application can solve the problem of color perception color difference between different observers, improve the display effect of the electronic device, meet the individual requirements of color display, and greatly improve the intelligence of the electronic device.
  • FIG. 16 is a schematic diagram 3 of the implementation flow of the color correction method. As shown in FIG. 16 , after acquiring the detection instruction corresponding to the target observer, the electronic device detects the target observer.
  • the method of response data to the reference picture may include the following steps:
  • Step 301 Display a reference picture in response to the received detection instruction.
  • the electronic device may respond to the detection instruction, enable the detection function, and display the reference picture on the display screen.
  • the reference picture may be a picture preset by the electronic device and used for experimenting and detecting the color response data of the target observer.
  • the electronic device may be a display that has been calibrated according to the reference color response data.
  • the electronic device may call out the background interface in the entire area of the display screen.
  • FIG. 17 is a schematic diagram of a background interface.
  • the background interface called out by the electronic device can be a gray background interface, wherein the color of the background interface can be equal to the color of the Munsell color sheet N5, for example, the background interface
  • the RGB value of the interface is (124, 124, 124).
  • the electronic device may create a reference picture through a program.
  • FIG. 18 is a schematic diagram 1 of a reference picture.
  • the reference picture is like a color palette, which may include a total of one ring and twelve The diameter of each disc is 1.5 degrees of viewing angle, the radius of the ring is 5 degrees of viewing angle, and a cross mark can be set in the middle of the reference picture, which is fixed in the center of the screen to facilitate the observer to watch.
  • the electronic device may use four colors of red (R), green (G), blue (B) and yellow (Y) respectively in the reference picture
  • R red
  • G green
  • B blue
  • Y yellow
  • a solid color is measured in the hue direction, where a solid color means that a color is not mixed with the hue or hue of other colors.
  • the number and size of the disc and the ring and the relative positional relationship between the two can be set arbitrarily, and the specific number and color of the hue used in the reference picture can also be arbitrarily set.
  • the settings are not specifically limited in this application.
  • Step 302 Perform detection processing by referring to the picture to obtain response data corresponding to the target observer.
  • the electronic device after the electronic device starts the detection function in response to the detection instruction, and displays the reference picture on the display screen, the electronic device can perform detection processing through the reference picture, so as to obtain the corresponding data of the target observer. the response data.
  • the electronic device can call out a prompt interface on the display screen at the beginning of each test, wherein the prompt interface can be used to prompt the color to be evaluated.
  • FIG. 19 is a schematic diagram of the prompting interface. As shown in FIG. 19 , before the detection of the target observer is officially started, the prompting interface can be called out. The solid color for this evaluation is red.
  • the electronic device can also prompt the observer to look at the cross mark of the reference picture in the center of the display screen through the prompt interface, and then perform visual adaptation to the eyes in the order of dark adaptation to light adaptation, and then. Then carry out the discrimination and evaluation of pure color.
  • the electronic device when performing detection processing through the reference picture, may fill in the solid colors after changing the hue (Hue) on the twelve discs in the reference picture respectively. Color, the electronic device can obtain the response data corresponding to the target observer after displaying the solid color whose hue has been changed.
  • FIG. 20 is the second schematic diagram of the reference picture.
  • the electronic device can display the color to be evaluated, such as red, on the twelve discs after changing the hue to different degrees, respectively. That is to say, the reference picture displays different degrees of changed colors corresponding to the same solid color.
  • the observer can determine the color to be evaluated prompted by the prompt interface from twelve different colors displayed in the twelve discs in the reference picture according to the color response of the observer.
  • the observer can inform the display screen of the selected color through various methods such as a mouse, a keyboard or a touch screen. For example, the observer slides the reference picture through a sliding operation on the display screen. And select the color that is considered to conform to the pure color, so that the electronic device obtains the corresponding selection result of the observer, wherein the selection result is the RGB value of the color displayed by one of the twelve meta-disks.
  • the electronic device after determining the actual color corresponding to the color to be evaluated selected by the observer after the experiment, that is, after determining the RGB value of the color selected by the observer, the electronic device can continue to collect the maximum red, The transformation matrix formed by the coordinate points of the maximum green, maximum blue and maximum white on the CIE xy chromaticity diagram, combined with the Gamma value of the electronic device, can finally obtain the response data of the observer through the RGB value selected by the observer.
  • the electronic device may use multiple screen brightness levels to perform multiple stages of experimentation and detection.
  • the display screen may be respectively at low brightness (the maximum brightness is lower than 10%).
  • medium brightness the maximum brightness is lower than 40%
  • high brightness the maximum brightness is lower than 80%
  • FIG. 21 is a schematic diagram of the implementation of color correction.
  • the electronic device performs color display according to the pre-stored preset color mapping relationship corresponding to the standard observer
  • the reference picture can be called out on the display screen, and then the response data of the observer A to the reference picture can be measured and collected through the reference picture (step 401);
  • the stored reference color response data corresponding to the standard observer determines the conversion relationship between the response data of the observer A and the reference color response data, wherein the conversion relationship can be represented by a conversion matrix (step 402);
  • the conversion matrix is used to correct the color display.
  • the electronic device converts the preset color mapping relationship into the corrected color mapping relationship according to the conversion matrix, that is, the reference tristimulus value corresponding to the standard observer and the RGB value
  • the corresponding relationship between the two is converted into the corresponding relationship between the tristimulus values corresponding to the observer A and the RGB values (step 403), so that the correction of the color display is completed for the observer A, and then the correction corresponding to the observer A can be performed.
  • color display is performed (step 404).
  • an electronic device detects response data of a target observer to a reference picture, and generates a color correction instruction based on the response data; in response to the color correction instruction, a preset color mapping relationship is corrected based on the response data processing to obtain a corrected color mapping relationship; and performing color correction processing on the image according to the corrected color mapping relationship to provide a color corrected image. It can be seen that, in the color correction method proposed in this application, the electronic device can first detect the actual color response of the target observer, obtain the corresponding response data, and then use the response data to perform the preset color mapping relationship corresponding to the standard observer.
  • Correction processing is performed to obtain the corrected color mapping relationship representing the corresponding relationship between the tristimulus values of the target observer and the RGB values, and then the personalized color display for the target observer can be realized through the corrected color mapping relationship. It can be seen that the color correction scheme proposed in the present application can solve the problem of color perception color difference between different observers, improve the display effect of the electronic device, meet the individual requirements of color display, and greatly improve the intelligence of the electronic device.
  • FIG. 22 is a schematic diagram of the composition structure of an electronic device.
  • the electronic device 10 proposed in this embodiment of the present application may include: a detection unit 11 , a generation unit 12, the correction unit 13, the determination unit 14,
  • the detection unit 11 is configured to detect the response data of the target observer to the reference picture
  • the generating unit 12 is configured to generate a color correction instruction based on the response data
  • the correction unit 13 is configured to, in response to the color correction instruction, perform correction processing on the preset color mapping relationship based on the response data to obtain a corrected color mapping relationship; and perform a correction process on the image according to the corrected color mapping relationship.
  • Color correction processing providing a color corrected image.
  • the correction unit 13 is further configured to determine a correction matrix according to the response data and the reference color response data; The conversion relationship between the stimulus value and the reference tristimulus value corresponding to the standard observer; the corrected color mapping relationship is determined based on the conversion relationship and the preset color mapping relationship.
  • the response data is spectral response data corresponding to the target observer;
  • the reference color response data is standard spectral response data corresponding to a standard observer;
  • the preset color map The relationship represents the corresponding relationship between the reference tristimulus values and the red, green, and blue RGB values;
  • the corrected color mapping relationship represents the corresponding relationship between the tristimulus values and the RGB values corresponding to the target observer.
  • the detection unit 11 is further configured to display the reference picture in response to the received detection instruction; perform detection processing through the reference picture to obtain the corresponding correspondence of the target observer. of the response data.
  • the correction unit 13 is further configured to, after determining the correction matrix according to the response data and the reference color response data, if the correction matrix satisfies the preset correction condition, then Correction processing is performed on the preset color mapping relationship according to the correction matrix to obtain the corrected color mapping relationship.
  • the correction unit 13 is further configured to, after determining the correction matrix according to the response data and the reference color response data, if the correction matrix does not meet the preset correction condition, Then, the preset color mapping relationship is directly determined as the corrected color mapping relationship.
  • the generating unit 12 is configured to generate a detection result according to the response data and the reference color response data before generating the color correction instruction based on the response data.
  • the determining unit 14 is configured to detect the response data of the target observer to the reference picture, and the response to the color correction instruction, based on the response data to The preset color mapping relationship is corrected, and before the corrected color mapping relationship is obtained, a deviation parameter between the response data and the reference color response data is determined; and if the deviation parameter is greater than a preset deviation threshold, correction is performed deal with.
  • the correction unit 13 is further configured to determine the initial RGB value corresponding to the image; according to the corrected color mapping relationship and the initial RGB value, determine the target tristimulus value; adjust the display driving voltage according to the target tristimulus value to obtain the color-corrected image.
  • the correction unit 13 is further configured to determine the initial RGB value corresponding to the image; according to the corrected color mapping relationship and the initial RGB value, determine the target tristimulus value; the color-corrected image is obtained according to the target tristimulus value.
  • FIG. 23 is a second schematic diagram of the composition and structure of an electronic device.
  • the electronic device 10 proposed in the embodiment of the present application may further include a processor 15, a memory 16 storing executable instructions of the processor 15, a display 17, and further , the electronic device 10 may also include a communication interface 18 , and a bus 19 for connecting the processor 15 , the memory 16 , the display 17 and the communication interface 18 .
  • the above-mentioned processor 15 may be an application specific integrated circuit (ASIC), a digital signal processor (Digital Signal Processor, DSP), a digital signal processing device (Digital Signal Processing Device, DSPD) ), Programmable Logic Device (PLD), Field Programmable Gate Array (FPGA), Central Processing Unit (CPU), controller, microcontroller, microprocessor at least one of.
  • ASIC application specific integrated circuit
  • DSP digital signal processor
  • DSPD digital signal processing device
  • PLD Programmable Logic Device
  • FPGA Field Programmable Gate Array
  • CPU Central Processing Unit
  • controller microcontroller, microprocessor at least one of.
  • the electronic device 10 may also include a memory 16, which may be coupled to the processor 15, wherein the memory 16 is configured to store executable program code including computer operating instructions.
  • the memory 16 may comprise high-speed RAM memory, or may Also included is non-volatile memory, eg, at least two disk drives.
  • the bus 19 is configured to connect the communication interface 18 , the processor 15 and the memory 16 and the mutual communication between these devices.
  • the memory 16 is configured to store instructions and data.
  • the above-mentioned processor 15 is configured to detect the response data of the target observer to the reference picture, and generate a color correction instruction based on the response data; in response to the color correction instruction, based on the The response data is used to correct the preset color mapping relationship to obtain the corrected color mapping relationship; and the color correction processing is performed on the image according to the corrected color mapping relationship to provide a color-corrected image.
  • the above-mentioned processor 15 is further configured to detect the response data of the target observer to the reference picture, and generate a color correction instruction based on the response data; in response to the color correction instruction, based on the The response data performs correction processing on the preset color mapping relationship to obtain a corrected color mapping relationship; and performs color display according to the corrected color mapping relationship.
  • the above-mentioned processor 15 is further configured to determine a correction matrix according to the response data and the reference color response data; based on the correction matrix, establish the tristimulus corresponding to the target observer The conversion relationship between the value and the reference tristimulus value; based on the conversion relationship and the preset color mapping relationship, the corrected color mapping relationship is determined.
  • the response data is spectral response data corresponding to the target observer;
  • the reference color response data is standard spectral response data corresponding to a standard observer;
  • the preset color map The relationship represents the corresponding relationship between the reference tristimulus values and the red, green, and blue RGB values;
  • the corrected color mapping relationship represents the corresponding relationship between the tristimulus values and the RGB values corresponding to the target observer.
  • the above-mentioned processor 15 is further configured to perform correction processing on the preset color mapping relationship according to the correction matrix if the correction matrix satisfies a preset correction condition, to obtain The corrected color mapping relationship.
  • the processor 15 is further configured to directly determine the preset color mapping relationship as the corrected color mapping relationship if the calibration matrix does not meet the preset calibration condition.
  • the above-mentioned processor 15 is further configured to generate a detection result according to the response data and the reference color response data.
  • the above-mentioned processor 15 is further configured to determine a deviation parameter between the response data and the reference color response data; if the deviation parameter is greater than a preset deviation threshold, then Correction processing is performed.
  • the above-mentioned processor 15 is further configured to determine the initial RGB value corresponding to the image; according to the corrected color mapping relationship and the initial RGB value, determine the target tristimulus value ; Adjust the display drive voltage according to the target tristimulus value to obtain the color-corrected image.
  • the above-mentioned processor 15 is further configured to determine the initial RGB value corresponding to the image; according to the corrected color mapping relationship and the initial RGB value, determine the target tristimulus value ; Obtain the color-corrected image according to the target tristimulus value.
  • the above-mentioned memory 16 may be a volatile memory (volatile memory), such as a random access memory (Random-Access Memory, RAM); or a non-volatile memory (non-volatile memory), such as a read-only memory a memory (Read-Only Memory, ROM), flash memory (flash memory), hard disk (Hard Disk Drive, HDD) or solid-state drive (Solid-State Drive, SSD); or a combination of the above types of memory, and Instructions and data are provided to processor 15 .
  • volatile memory such as a random access memory (Random-Access Memory, RAM)
  • non-volatile memory such as a read-only memory a memory (Read-Only Memory, ROM), flash memory (flash memory), hard disk (Hard Disk Drive, HDD) or solid-state drive (Solid-State Drive, SSD); or a combination of the above types of memory, and Instructions and data are provided to processor 15 .
  • each functional module in this embodiment may be integrated into one processing unit, or each unit may exist physically alone, or two or more units may be integrated into one unit.
  • the above-mentioned integrated units can be implemented in the form of hardware, or can be implemented in the form of software function modules.
  • the integrated unit is implemented in the form of software function modules and is not sold or used as an independent product, it can be stored in a computer-readable storage medium.
  • the technical solution of this embodiment is essentially or correct. Part of the contribution made by the prior art or all or part of the technical solution can be embodied in the form of a software product, the computer software product is stored in a storage medium, and includes several instructions to make a computer device (which can be a personal A computer, a server, or a network device, etc.) or a processor (processor) executes all or part of the steps of the method in this embodiment.
  • the aforementioned storage medium includes: U disk, mobile hard disk, read only memory (Read Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic disk or optical disk and other media that can store program codes.
  • An electronic device proposed by an embodiment of the present application detects the response data of a target observer to a reference picture, and generates a color correction instruction based on the response data; in response to the color correction instruction, the preset color mapping relationship is corrected based on the response data processing to obtain a corrected color mapping relationship; and performing color correction processing on the image according to the corrected color mapping relationship to provide a color corrected image. It can be seen that, in the color correction method proposed in this application, the electronic device can first detect the actual color response of the target observer, obtain the corresponding response data, and then use the response data to perform the preset color mapping relationship corresponding to the standard observer.
  • Correction processing is performed to obtain the corrected color mapping relationship representing the corresponding relationship between the tristimulus values of the target observer and the RGB values, and then the personalized color display for the target observer can be realized through the corrected color mapping relationship. It can be seen that the color correction scheme proposed in the present application can solve the problem of color perception color difference between different observers, improve the display effect of the electronic device, meet the individual requirements of color display, and greatly improve the intelligence of the electronic device.
  • FIG. 24 is a schematic diagram of the composition structure of a chip. As shown in FIG. 24, an embodiment of the present application provides a chip 20, the chip 20 is coupled to the display 17 used for the electronic device 10, and the chip 20 includes: a receiving module 21, Generation module 22, correction module 23, output module 24,
  • the receiving module 21 is configured to obtain the response data of the target observer to the reference picture
  • the generating module 22 is configured to generate a color correction instruction based on the response data
  • the correction module 23 is configured to perform correction processing on the preset color mapping relationship based on the color correction instruction and the response data, and obtain a corrected color mapping relationship;
  • the output module 24 is configured to perform color correction on the image according to the corrected color mapping relationship, and/or configured to provide a driving voltage configured for the display according to the corrected color mapping relationship.
  • the output module 24 is further configured so that the correction module 23 performs correction processing on the preset color mapping relationship based on the color correction instruction and the response data, and obtains the corrected color mapping relationship. After the color mapping relationship, color display is performed according to the corrected color mapping relationship.
  • a chip proposed in an embodiment of the present application which is coupled to a display, can first detect the actual color response of a target observer, obtain corresponding response data, and then use the response data to preset a corresponding standard observer.
  • the color mapping relationship is corrected, so as to obtain the corrected color mapping relationship representing the corresponding relationship between the tristimulus values of the target observer and the RGB values, and then the personalized color display for the target observer can be realized through the corrected color mapping relationship.
  • the color correction scheme proposed in the present application can solve the problem of color perception color difference between different observers, improve the display effect of the electronic device, meet the individual requirements of color display, and greatly improve the intelligence of the electronic device.
  • the embodiments of the present application may be provided as a method, a terminal, or a computer program product. Accordingly, the application may take the form of a hardware embodiment, a software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media having computer-usable program code embodied therein, including but not limited to disk storage, optical storage, and the like.
  • These computer program instructions may also be stored in a computer-readable memory capable of directing a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory result in an article of manufacture comprising instruction means, the instructions
  • An apparatus implements the functions specified in a flow or flows of the implementation flow diagram and/or a block or blocks of the block diagram.
  • These computer program instructions can also be loaded on a computer or other programmable data processing device to cause a series of operational steps to be performed on the computer or other programmable device to produce a computer-implemented process such that The instructions provide steps for implementing the functions specified in the flow or blocks of the implementing flow diagram and/or the block or blocks of the block diagram.
  • the electronic device may first detect the actual color response of the target observer to obtain corresponding response data, and then use the response data to correct the preset color mapping relationship corresponding to the standard observer, thereby The corrected color mapping relationship representing the corresponding relationship between the tristimulus values of the target observer and the RGB values is obtained, and then the personalized color display for the target observer can be realized through the corrected color mapping relationship.
  • the color correction scheme proposed in the present application can solve the problem of color perception color difference between different observers, improve the display effect of the electronic device, meet the individual requirements of color display, and greatly improve the intelligence of the electronic device.

Abstract

Les modes de réalisation de la présente demande divulguent un procédé de correction de couleur, un procédé d'affichage corrigible, un dispositif électronique et une puce. Le procédé de correction de couleur consiste à : détecter des données de réponse d'un observateur cible pour une image de référence et générer une instruction de correction de couleur sur la base des données de réponse ; en réponse à l'instruction de correction de couleur et sur la base des données de réponse, effectuer un traitement de correction sur un mappage de couleur prédéfini et obtenir un mappage de couleur corrigé ; et réaliser un traitement de correction de couleur sur une image selon le mappage de couleur corrigé et fournir une image à couleur corrigée.
PCT/CN2022/078370 2021-03-26 2022-02-28 Procédé de correction de couleur, procédé d'affichage corrigible, dispositif électronique et puce WO2022199332A1 (fr)

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CN104217409A (zh) * 2014-09-30 2014-12-17 南京汇川工业视觉技术开发有限公司 一种基于模拟退火最优化算法的图像色彩校正方法
CN107197225A (zh) * 2017-06-13 2017-09-22 浙江大学 基于色适应模型的彩色数码相机白平衡校正方法
US20180315166A1 (en) * 2017-04-28 2018-11-01 Qualcomm Incorporated Depth assisted auto white balance
CN110033510A (zh) * 2019-03-25 2019-07-19 阿里巴巴集团控股有限公司 建立颜色映射关系用于校正渲染图像颜色的方法及装置

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CN104217409A (zh) * 2014-09-30 2014-12-17 南京汇川工业视觉技术开发有限公司 一种基于模拟退火最优化算法的图像色彩校正方法
US20180315166A1 (en) * 2017-04-28 2018-11-01 Qualcomm Incorporated Depth assisted auto white balance
CN107197225A (zh) * 2017-06-13 2017-09-22 浙江大学 基于色适应模型的彩色数码相机白平衡校正方法
CN110033510A (zh) * 2019-03-25 2019-07-19 阿里巴巴集团控股有限公司 建立颜色映射关系用于校正渲染图像颜色的方法及装置

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