JP2013219557A - Calibration device, control method of the same, image display device, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a calibration device capable of accurately and stably maintaining the color reproduction properties of an image display device in a target state, and to provide a control method of the calibration device and a program.SOLUTION: The calibration device for calibrating the image display device on the basis of a measured value obtained by measurement means for optically measuring an image displayed on the image display device comprises: calculation means which after calibration causes the image display device to display a patch image of a predetermined color, and calculates a hue difference between the measured value obtained by the measurement means at the time and its target value; and control means which, if the hue difference calculated by the calculation means exceeds a threshold, executes the calibration again.

Description

  The present invention relates to a calibration device, a control method thereof, an image display device, and a program.

  In recent years, the importance of color management for adjusting colors between devices that handle images, such as monitors, digital cameras, and printers, and unifying the colors that are output has increased. Color management is a technique for realizing accurate color reproduction with respect to the output of each device by exchanging image data through a color gamut independent of each device such as a monitor and a printer. For the color reproduction performance of monitors used for accurate color operations such as editing of still images and confirmation of printed materials, particularly high accuracy and stability are required. In order to keep the image quality such as color reproducibility of the monitor accurately and constant, it is necessary to periodically perform calibration processing (calibration) using a colorimetric sensor. It is important in color management to perform calibration accurately.

  As a conventional technique related to such calibration, there is Patent Document 1. In the calibration apparatus of Patent Document 1, if the value indicating the degree of deviation from the ideal value of the color reproduction characteristic is calculated, and if the value indicating the degree of deviation is determined to be equal to or greater than the threshold value, the color reproduction characteristic is not good, the calibration is performed. It is determined that update of the operation information is required. Otherwise, the calibration apparatus determines that the calibration information does not need to be updated because the color reproduction characteristics are good.

  In addition, there is a calibration apparatus provided with a verification function that is a function for confirming the degree of color reproduction accuracy of the monitor after calibration.

JP 2008-153871 A

  In the conventional recalibration process, it is determined whether or not recalibration is necessary using only the color difference ΔE as a value indicating a deviation of the color reproduction characteristic from the ideal value. However, considering the sensitivity characteristics of the eyes, it should be determined whether or not recalibration should be performed in consideration of not only the color difference ΔE but also the shift in the hue direction. The necessity of the action was not correctly determined. Therefore, even after the calibration is performed, even if the color difference ΔE with respect to the target value is equal to or smaller than the threshold value, if the difference with respect to the target value is large with respect to the hue sensitive to human eyes, the user perceives it as an unintended color.

The L * a * b * chromaticity diagram (101) in FIG. 1 illustrates the theoretical value of a specific color and two colorimetric values A and B of that color after calibration. When the colorimetric value after calibration is A (deviation width ΔEa) and B (deviation width ΔEb), the deviation width from the theoretical value is approximately the same (ΔEa≈ΔEb). However, the colorimetric value B is not significantly shifted in the hue direction from the theoretical value, whereas the colorimetric value A is largely shifted in the hue direction from the theoretical value. In this case, A tends to appear more out of the intended color than B due to the characteristics of the human eye. That is, even if the deviation from the theoretical value is about the same, it is perceived that the color reproduction performance of A is lower than that of B. In the conventional calibration apparatus, it is determined that both the colorimetric values A and B match the target values, that is, it is not necessary to perform recalibration. for that reason,
In the prior art, there has been a case where the color reproduction performance of the monitor cannot be accurately and stably maintained in an ideal state by calibration.

  An object of the present invention is to provide a calibration device, a control method thereof, and a program capable of maintaining a color reproduction characteristic of an image display device in a target state with high accuracy and stability.

The present invention is a calibration device for calibrating the image display device based on a measurement value obtained by a measurement unit that optically measures an image displayed on the image display device,
A calculation unit that displays a patch image of a predetermined color on the image display device after calibration is performed, and calculates a hue difference between a measurement value by the measurement unit and a target value at that time;
Control means for executing the calibration again when the hue difference calculated by the calculation means exceeds a threshold;
It is a calibration apparatus provided with.

The present invention is a calibration device control method for calibrating the image display device based on a measurement value obtained by a measurement unit that optically measures an image displayed on the image display device,
A calculation step for displaying a patch image of a predetermined color on the image display device after the calibration is performed, and calculating a hue difference between a measurement value by the measurement unit and a target value at that time;
A control step of executing the calibration again when the hue difference calculated by the calculation step exceeds a threshold;
Is a control method of a calibration apparatus having

The present invention is a program for controlling a calibration device for calibrating the image display device based on a measurement value obtained by a measurement unit that optically measures an image displayed on the image display device,
A calculation step for displaying a patch image of a predetermined color on the image display device after the calibration is performed, and calculating a hue difference between a measurement value by the measurement unit and a target value at that time;
A control step of executing the calibration again when the hue difference calculated by the calculation step exceeds a threshold;
Is a program that causes a computer to execute.

  ADVANTAGE OF THE INVENTION According to this invention, the calibration apparatus which can maintain the color reproduction characteristic of an image display apparatus to a target state accurately and stably, its control method, and a program are provided.

Diagram for explaining colorimetric value, theoretical value, color difference, and hue difference 1 is a diagram illustrating a schematic configuration of a system according to a first embodiment. 1 is a block diagram showing a functional configuration of a system according to the first embodiment. 1 is a flowchart showing overall processing according to the first embodiment. Example screen for adding, registering, and specifying color patches according to the first embodiment 7 is a flowchart illustrating calibration processing according to the first embodiment. Example screen for inputting calibration target value according to the first embodiment A flowchart showing verification processing according to the first embodiment. 7 is a flowchart illustrating a recalibration execution necessity determination process according to the first embodiment. Conceptual diagram showing theoretical values, colorimetric values, color difference ΔE, and hue difference ΔH of the color patch Conceptual diagram showing theoretical values, colorimetric values, color difference ΔE, and hue difference ΔH of all color patches 7 is a flowchart showing recalibration processing according to the first embodiment. 1 is a block diagram showing a functional configuration of a system according to the first embodiment. Flowchart showing overall processing according to the second embodiment. Recalibration confirmation screen example according to the second embodiment

  The best mode for carrying out the present invention will be described below with reference to the drawings and flowcharts. However, the present invention is not limited to the following examples.

Example 1
<Description of overall configuration>
FIG. 2 is a diagram illustrating an overall system configuration according to the first embodiment. In FIG. 2, a PC 201 (computer) is a calibration apparatus that outputs an image signal and executes an application (program) for performing calibration. A monitor 202 is an image display device to be calibrated by the PC 201. The colorimetric sensor 203 is a measuring device that measures the display color of the monitor 202. The PC 201 and the monitor 202 are connected by a communication line 205 for transmitting and receiving data between an application installed in the PC 201 and the adjustment target monitor 202 and an image signal line 204 for transmitting an image signal. Note that the colorimetric sensor 203 may be connected to the monitor 202 as shown in FIG. 2A or may be connected to the PC 201 as shown in FIG. The measurement result of the display color of the monitor by the colorimetric sensor 203 is transmitted to the PC 201 via the communication line 205 in the configuration as shown in FIG. 2A, and in the configuration as shown in FIG. To the monitor 202. Further, the communication line 205 and the image signal line 204 may be separate cables or may be combined into one cable.

<Description of system configuration for realizing the present embodiment>
With reference to FIG. 3, the system configuration of the calibration apparatus according to the first embodiment of the present invention will be described.
An image signal is input to the monitor 202 from the PC 201. An image based on the input image signal is displayed on the display unit 308.

The PC 201 outputs an image signal of a GUI (Graphical User Interface) image generated by the control unit 301 by the image signal output unit 302.
The control unit 301 acquires data such as a calibration target value to be used from the storage unit 303. The control unit 301 saves and stores the updated data in the storage unit 303 when the calibration data is updated.

The control unit 301 transmits data used for calibration of the monitor 202 to the monitor 202 via the communication control unit 304, the communication line 205, and the communication control unit 318. Similarly, the control unit 301 receives data processed by the calibration control unit 314 and the like of the monitor 202 via the communication control unit 318, the communication line 205, and the communication control unit 304.
The control unit 301 transmits an image signal such as a GUI image to be displayed to the image signal input unit 305 of the monitor 202 via the image signal output unit 302.

The image quality adjustment unit 315 performs image quality adjustment on the image signal generated by the control unit 301 of the PC 201 and input to the image signal input unit 305 of the monitor 202. The image quality adjustment by the image quality adjustment unit 315 is performed under the control of the display control unit 307. The image signal input unit 3
The image signal input to 05 is combined with the image signal of the OSD image generated by the GUI control unit 317 in the display control unit 307. The image signal of the image whose image quality has been adjusted and synthesized with the OSD image is transmitted to the display unit 308.

The backlight control unit 309 controls the light emission luminance of the backlight 310 based on the luminance value set by the image quality adjustment unit 315.
The interface unit 313 receives a control signal corresponding to an operation performed by the user via a user interface such as a remote controller or a main body button 319. The interface unit 313 requests the GUI control unit 317 to generate GUI image data or execute an instruction according to the received control signal.

The GUI control unit 317 generates GUI image data based on the control signal received by the interface unit 313. Here, the material data and the like necessary for generating the GUI image data are acquired from the storage unit 311 in the monitor 202, and are stored and stored in the storage unit 311 when the data is updated.
The display control unit 307 combines the image signal input to the image signal input unit 305 and the image signal of the GUI image generated by the GUI control unit 317, and outputs the synthesized image signal to the display unit 308.

The display unit 308 is configured by a liquid crystal panel, and displays an image based on the image signal output from the display control unit 307.
The backlight 310 is a light source that irradiates the liquid crystal panel of the display unit 308. The light emission luminance of the backlight 310 is controlled based on the luminance value determined by the backlight control unit 309.
The colorimetric control unit 316 performs a series of control relating to colorimetry on the colorimetric sensor 203 connected to the monitor 202, and acquires a colorimetric value. The color measurement control unit 316 stores the acquired color measurement value in the storage unit 311.

The calibration control unit 314 performs calibration control for adjusting the image quality of the monitor 202 based on the calibration target value set by the control unit 301 (details will be described later).
The verification control unit 306 performs control to verify the image quality state of the monitor 202 based on the color patch designated by the control unit 301 and the calibration result performed by the calibration control unit 314.
The system control unit 312 performs overall control of each functional unit of the monitor 202.

<Description of the overall processing flow of this embodiment>
In this overall process, the control unit 301 calculates a hue difference ΔH between the calorimetric value after calibration and its theoretical value for the color designated by the user, and executes recalibration as necessary. The procedure of this process will be described with reference to the flowchart of FIG.

The control unit 301 outputs a GUI image (color patch determination image) for allowing the user to specify a color patch (color of the patch image), and determines a color patch to be used for verification processing (described later) (step S401).
The control unit 301 determines the calibration target value and initializes the colorimetric sensor 203, and executes calibration (step S402).
After completing the calibration process, the control unit 301 performs color measurement on the color patch determined in step S401, and executes a verification process that compares the colorimetric value (measured value) with the theoretical value (step S403).

Based on the result of the verification process in step S403, the control unit 301 calculates a colorimetric value after calibration for each color patch and the color difference and hue difference between the theoretical values, and determines whether to recalibrate. Is executed (step S404).
When the determination result for executing recalibration is output by the determination processing for determining whether or not to execute recalibration in step S404 (step S405: Yes), the control unit 301 performs recalibration processing (step S406). In other cases (step S405: No), the processing of this flowchart ends.

  Hereinafter, the processes in step S401, step S402, step S403, step S404, and step S406 will be described in detail.

<Description of Color Patch Determination Process (Step S401)>
A description will be given of a process for determining a color patch to be used for the process of determining whether to recalibrate. For the description, refer to FIG.

In step S <b> 401, the control unit 301 determines a color patch to be used for determination processing for determining whether to recalibrate. Here, the color patch is a color to be subjected to color measurement in order to calculate the color reproduction accuracy of the monitor 202 after calibration. The control unit 301 according to the present embodiment converts a plurality of colors into color patches. Determine as. Based on the color measurement results of the multiple color patches, the control unit 301 determines whether to recalibrate.
The control unit 301 outputs color patch addition / registration screens 501 and 502 as shown in FIG. 5 in order to determine a color patch.

  The control unit 301 accepts an instruction to specify a color patch by the user via the GUI of the color patch addition / registration screens 501 and 502, and registers it as a color patch to be used in the color patch list. As shown in the color patch list 502, in this embodiment, a plurality of color patches are registered in the color patch list. The control unit 301 stores the color patch list in the storage unit 303. A color patch list 502 in FIG. 5 exemplifies a color patch list composed of 24-tone blue color patches. The user can create and register various color patch lists of different colors and different gradation levels. The control unit 301 may have a plurality of types of color patch lists in advance.

The control unit 301 outputs a color patch list designation screen 503 to allow the user to designate a color patch list used for the verification process.
The control unit 301 receives an instruction to determine the color patch list by the user via the GUI of the color patch list designation screen 503.
The control unit 301 transmits the determined color patch list data to the monitor 202 via the communication control unit 304. The data of the color patch list transmitted to the monitor 202 is stored in the storage unit 311.

<Description of Calibration Process (Step S402)>
Next, the calibration process will be described. In the description, reference is made to FIG. 6, FIG. 7 and FIG.
The control unit 301 outputs a calibration target value input screen 701 as shown in FIG. 7 (step S601). The user inputs a target value (calibration target value) for a predetermined adjustment item on the calibration target value input screen 701 so that the monitor 202 has an image quality suitable for the use environment of the user. The adjustment items are, for example, a color gamut, luminance / white point, gamma, and the like.

The control unit 301 transmits the calibration target value set on the calibration target value input screen 701 to the calibration control unit 314 of the monitor 202 via the communication control unit 304. The calibration target value is stored in the storage unit 311 by the calibration control unit 314.
The control unit 301 causes the colorimetric control unit 316 to execute initialization processing for the colorimetric sensor 203 (step S602). The execution result of the initialization process is transmitted to the calibration control unit 314.

The control unit 301 confirms that the initialization process of the colorimetric sensor 203 has been executed in step S602 and that the calibration target value set in step S601 is normal, and executes calibration (step S603). ). This calibration is performed so that the measurement value of each item of image quality adjustment of the monitor 202 matches the calibration target value set on the calibration target value input screen 701. Specifically, the calibration control unit 314 matches the value of the image quality adjustment item of the monitor 202 with the calibration target value based on the measurement value obtained by optical measurement of the color and brightness of the monitor 202 by the colorimetric sensor 203. Thus, the image quality of the monitor 202 is adjusted. The image quality adjustment of the monitor 202 by the calibration control unit 314 is performed in cooperation with the image quality adjustment unit 315. The control unit 301 acquires calibration result data from the calibration control unit 314. The calibration result data is data of an image quality adjustment value by the image quality adjustment unit 315 when the value of the image quality adjustment item of the monitor 202 matches the calibration target value. The control unit 301 creates an ICC profile based on the acquired calibration result data, and applies it to image output control by the PC 201 (for example, changes operating system settings). In addition, the control unit 301 applies the calibration result to the monitor 202 (step S604).
Through the above processing, the control unit 301 adjusts (calibrates) the image quality of the monitor 202 so that the target value set by the user is obtained.

<Description of Verification Process (Step S403)>
A verification process for calculating the color difference ΔE and the hue difference ΔH used in the determination process for determining whether to recalibrate will be described. For the description, refer to FIG.
The control unit 301 acquires the color patch list data used for verification stored in the storage unit 311 via the communication control unit 304 (step S801).

  The control unit 301 performs a color measurement process for each color patch in order to calculate the color difference ΔE and the hue difference ΔH for each color patch registered in the acquired color patch list (step S802). The control unit 301 notifies the verification control unit 306 of the color patch information and makes a verification process execution request. The verification control unit 306 issues a color patch display request to the GUI control unit 317 and issues a color measurement request for the displayed color patch to the color measurement control unit 316. When the color measurement for all the color patches registered in the color patch list is completed, the verification control unit 306 notifies the control unit 301 of this. Upon receiving the notification from the verification control unit 306, the control unit 301 calculates a color difference ΔE and a hue difference ΔH between the colorimetric value for each color patch and its theoretical value (step S803). The control unit 301 calculates the color difference ΔE and the hue difference ΔH by the following equations.

ΔE = ((L * _i− L * _m ) ² + (a * _i− a * _m ) ² + (b * _i− b * _m ) ² ) ^1/2
ΔC = (a * _i ² + b * _i ² ) ^{1/ 2-} (a * _m ² + b * _m ² ) ^1/2
ΔH = (ΔE ² − (L * _i −L * _m ) ² −ΔC ² ) ^1/2

Here, the L * a * b * coordinates of a theoretical value of a color patch are (L * _i , a * _i , b * _i ), and the L * a * b * coordinates of a colorimetric value are (L * _m , a * _m , b * _m ).

The control unit 301 performs processing for saving the calculation results of the color difference ΔE and the hue difference ΔH for each color patch as verification result data (step S804). The control unit 301 stores the verification result data in the storage unit 303 and manages it in association with the calibration result (the calibration result obtained in step S603 described above).
With the above processing, the control unit 301 performs verification processing for calculating the color difference ΔE and the hue difference ΔH for each of a plurality of predetermined color patches in the monitor 202 to which the calibration result is applied.

<Description of Recalibration Determination Process (Step S404)>
A process for determining whether to perform calibration again based on the calibration result and the verification result will be described. In the description, reference is made to FIG. 9, FIG. 10, and FIG.
The control unit 301 acquires the color difference ΔE and the hue difference ΔH calculated by the verification process in step S403 (step S901).

  The control unit 301 acquires threshold value data (color difference threshold value ΔEa and hue difference threshold value ΔHa) that serves as a criterion for determining whether to recalibrate (step S902). Here, the color difference threshold value ΔEa and the hue difference threshold value ΔHa may be set by the user via the GUI output from the control unit 301 or may have values determined in advance by the control unit 301. . The hue difference threshold value ΔHa may be switched depending on the color coordinate position. This can be realized, for example, by generating or setting and using a table in which the color coordinates and the hue difference threshold value ΔHa are associated with each other.

  Next, the control unit 301 determines whether recalibration needs to be performed from the color difference ΔE and hue difference ΔH for each color patch acquired in step S901 and the color difference threshold value ΔEa and hue difference threshold value ΔHa acquired in step S902. Do.

FIG. 10 determines whether or not recalibration needs to be performed based on the color difference ΔE and hue difference ΔH between the theoretical value of the color patch specified by the user and the colorimetric value after calibration acquired in step S901. It is the conceptual diagram explaining the method. Here, a specific one color patch among color patches specified by the user (a color patch registered in the color patch list) will be described as an example. FIG. 10 displays a theoretical value 1003 and a colorimetric value 1002 of a color patch (here, A) on an L * a * b * chromaticity diagram (1001). Further, a range 1004 in which the color difference determined based on the color difference ΔE1007, the hue difference ΔH1006, and the color difference threshold value ΔEa is determined to be within the threshold value 1004, and a range 1005 in which the hue difference determined based on the hue difference ΔHa is determined to be within the threshold value L * a * b * is displayed on the chromaticity diagram (1001).

The control unit 301 determines whether or not the color difference ΔE1007 acquired in step S901 is within a range determined based on the color difference threshold ΔEa1004 acquired in step S902 (step S903). As a result of the determination, if ΔE1007 <ΔEa1004 is not established (step S903: No), the control unit 301 sets the determination result of whether or not to execute recalibration as “required execution” and ends this processing (step S904). . On the other hand, if ΔE1007 <ΔEa1004 is established as a result of the determination (step S903: Yes), the control unit 301 proceeds to the next step. That is, the control unit 301 determines whether or not the hue difference ΔE1006 acquired in step S901 is within a range determined based on the hue difference threshold value ΔHa1005 acquired in step S902 (step S905). As a result of the determination, if ΔH1006 <ΔHa1005 is not established (step S905: No), the control unit 301 sets the determination result of whether or not to execute recalibration as “required execution” and ends this processing (step S904). . On the other hand, as a result of the determination, if ΔH1006 <ΔHa1005 is established (step S905).
: Yes), the control unit 301 sets the determination result of whether or not recalibration is necessary to be “execution unnecessary”, and ends this processing (step S906). Note that the execution order of step S903 and step S905 is not limited to the order shown in FIG. 9, and step S905 may be determined first, and step S903 may be executed when it is determined Yes in step S905.

  In the example of FIG. 10, since ΔE1007 <ΔEa1004 is satisfied and ΔH1006 <ΔHa1005 is not satisfied, the determination result of whether recalibration is necessary is “necessary execution”.

FIG. 11 is a conceptual diagram showing on the L * a * b * chromaticity diagram an example of theoretical values, colorimetric values after calibration, color difference ΔE, and hue difference ΔH of all color patches specified by the user. It is. In FIG. 11, the calorimetric values and the theoretical values after calibration for each of a plurality of color patches shown in the color patch list 1101 are L * a * b * chromaticity diagrams (1102).
Shown above. Further, a plurality of color patches (identification number: 1-8) shown in the color patch list 1101 color difference ΔE ₁ ~ΔE ₈ and hue difference ΔH ₁ ~ΔH ₈ about the, L * a * b *
It is shown on the chromaticity diagram (1102). Control unit 301 performs for all of the color difference ΔE ₁ ~ΔE ₈ and hue difference ΔH ₁ ~ΔH ₈ of the plurality of color patches the determination process of execution necessity of recalibration described with reference to FIG. 9 . For example, when the determination result of whether or not recalibration is necessary is “necessary” for a predetermined number of color patches among the plurality of color patches, the control unit 301 finally performs recalibration (step S904). To make a decision. When the predetermined number is 1, when at least one of the color patches satisfies the condition that at least one of the color difference ΔE and the hue difference ΔH is equal to or greater than a threshold value, it is determined that recalibration is finally performed. Become. In FIG. 11, when the predetermined number is 8, when all the color patches registered in the color patch list satisfy the condition that at least one of the color difference ΔE and the hue difference ΔH is equal to or greater than the threshold value, the recalibration is finally performed. Will be judged.

<Description of Recalibration Processing (Step S406)>
The recalibration process that is executed when it is determined that the recalibration is “execution required” by the determination process of whether or not the calibration needs to be performed again will be described. For the description, refer to FIG.

  The control unit 301 performs the recalibration process when the result of the recalibration is “necessary execution” in the determination process of whether or not to execute the recalibration. The control unit 301 acquires the maximum number of recalibration executions (step S1201). Here, the maximum number of recalibration executions may be set by the user, or may be stored in the control unit 301 in advance.

First, the control unit 301 initializes the number of recalibration executions (step S1202), and starts the recalibration process. The control unit 301 performs a calibration process (step S1204) similar to step S402, a verification process (step S1205) similar to step S403, and a recalibration determination process (step S1206) similar to step S404. When the recalibration determination process results in a determination that recalibration is not necessary (step S1207: No), the control unit 301 ends this process. On the other hand, when it is determined that recalibration is to be executed by the determination process (step S1207: Yes), the control unit 301 stores the verification results (color difference ΔE data, hue difference ΔH data) performed in step S1205. (Step S1208). Then, the control unit 301 increments the recalibration execution count (adds 1) (step S1209), and returns to the process of step S1204 again. The control unit 301 repeats the above processing for the maximum number of recalibration executions (repeats until No in step S1203). After performing recalibration for the maximum number of times, the control unit 301 acquires a calibration result that minimizes the average of the hue differences ΔH of the plurality of color patches based on the verification result for the maximum number of times stored in the storage unit 311. (Step S1210). This is a process that is performed in consideration of variations in measurement values that occur in optical measurement, with respect to calibration that is executed a plurality of times. The control unit 301 applies the acquired calibration result to the monitor 202 (step S1211).

Through the recalibration process described above, the control unit 301 can apply a calibration result such that the hue difference ΔH between the calorimetric value after calibration and its theoretical value is as small as possible to the monitor 202.
The recalibration process described above is an example of a method for reducing the hue difference ΔH between the calorimetric value after calibration and its theoretical value as much as possible. Therefore, as a result of the calibration, color measurement is performed preferentially with respect to a color that particularly needs adjustment (for example, a color patch in which the hue difference ΔH exceeds the hue difference threshold value ΔHa among the plurality of color patches). Recalibration processing that improves accuracy may be performed. For example, the first calibration result may be corrected using only a specific color patch whose hue difference ΔH exceeds the hue difference threshold value ΔHa. In addition, a method is employed in which a number of color patches similar in color to a specific color patch whose hue difference ΔH exceeds the hue difference threshold value ΔHa is used and a small number of other color patches are used, and recalibration processing is performed. May be.
Note that the processing of the first embodiment described above can also be performed in a system configuration in which the monitor 202 includes a control unit 1301 that is a functional unit corresponding to the control unit 301 as shown in FIG.

(Example 2)
In this embodiment, with respect to the target color designated by the user, the hue difference between the calorimetric value after calibration and its theoretical value is presented (illustrated) to the user, and recalibration is executed according to the user's request. Will be described. In the description, FIG. 14 and FIG. 15 are referred to. Details common to the first embodiment will be omitted by using names and symbols common to the first embodiment.

  The control unit 301 performs color patch determination processing (step S1401) similar to step S401 in the first embodiment, calibration processing (step S1402) similar to step S402, and verification processing (step S1403) similar to step S403.

In the recalibration confirmation screen display process (step S1404), the control unit 301 calculates the color difference ΔE and the hue difference ΔH for all color patches designated by the user, as in the first embodiment, based on the verification result in step S1403. To do. The control unit 301 determines whether or not the calculated color difference ΔE of each color patch is smaller than the color difference threshold ΔEa and whether the hue difference ΔH is smaller than the hue difference threshold ΔHa. When there is a color patch in which the color difference ΔE is greater than or equal to the threshold value ΔEa or the hue difference ΔH is greater than or equal to the threshold value ΔHa, the control unit 301 recalibrates the theoretical value and the measured value of the color patch as shown in FIG. Display a confirmation screen. In this screen, on the L * a * b * chromaticity diagram, the theoretical value of the color patch, the measured value after calibration, the range determined based on ΔEa where the color difference is determined to be within the threshold with respect to the theoretical value, and the theoretical A range determined based on ΔHa in which the hue difference with respect to the value is determined to be within the threshold is displayed. The recalibration confirmation screen 1501 presents a color patch list 1502 designated by the user. In addition, the recalibration confirmation screen 1501 presents the identification number 1503 of the color patch in which at least one of the color difference ΔE and the hue difference ΔH is equal to or greater than the respective threshold values (color difference threshold value ΔEa, hue difference threshold value ΔHa). Furthermore, on the recalibration confirmation screen 1501, GUI parts ("Yes" button, "No" button) for allowing the user to input an instruction as to whether or not to execute recalibration are presented as shown in the figure. The user performs an operation of pressing the “Yes” button to the control unit 301.
A recalibration execution request can be input. Further, the user can input an instruction not to execute recalibration to the control unit 301 by performing an operation of pressing a “No” button. The control unit 301 presents a recalibration confirmation screen 1501 to the user, and performs recalibration processing (step S1407) when a recalibration request is received from the user. The control unit 301 presents a recalibration confirmation screen 1501 to the user, and when there is no recalibration request from the user, the process of this flow ends without performing the recalibration process.

  As described above, the control unit 301 realizes the process of presenting the hue difference between the calorimetric value after calibration and the theoretical value for the specified color patch to the user, and executing recalibration in response to the user request. The

  According to the processing of the control unit 301 according to each of the above embodiments, whether or not recalibration is necessary is determined from the color difference and hue difference between the measured value after calibration and the theoretical value. Thereby, even if the color difference is within the threshold value, if the hue difference exceeds the threshold value, recalibration is performed. Accordingly, when there is a large deviation from the target value with respect to a hue that is sensitive to human eyes, the necessity for recalibration is appropriately determined. Therefore, the color reproduction performance of the monitor 202 after calibration can be suppressed from being lowered, and the color reproduction performance of the monitor 202 can be maintained with high accuracy.

  In each of the embodiments described above, the processing executed by the control unit 301 is actually performed by the CPU provided in the PC 201 reading and executing a program (application) corresponding to each function of the control unit 301. A program corresponding to each function of the control unit 301 is supplied to the PC 201 via a recording medium such as a CD-ROM or a memory card or a network, and is installed in a storage device such as a hard disk provided in the PC 201 to be executed on the PC 201. It becomes possible. Alternatively, the PC 201 may be provided with hardware that implements the function of the control unit 301, and the hardware may execute the function of the control unit 301. A configuration in which each function of the control unit 301 is realized by attaching a device on which the function of the control unit 301 is mounted to the PC 201 in the form of an external device or a function expansion board may be employed. Accordingly, a program corresponding to the function of the control unit 301, a recording medium on which the program is recorded, a PC including hardware for executing the function of the control unit 301, a device for adding the function of the control unit 301 to the PC, etc. Included in the invention.

201 PC
203 Colorimetric Sensor 301 Control Unit

Claims (16)

A calibration device for calibrating the image display device based on a measurement value obtained by a measuring unit that optically measures an image displayed on the image display device,
A calculation unit that displays a patch image of a predetermined color on the image display device after calibration is performed, and calculates a hue difference between a measurement value by the measurement unit and a target value at that time;
Control means for executing the calibration again when the hue difference calculated by the calculation means exceeds a threshold;
A calibration device comprising:   The calibration device according to claim 1, wherein the control unit repeatedly executes the calibration until the hue difference calculated by the calculation unit becomes smaller than the threshold value.   If the hue difference calculated by the calculation means does not become smaller than the threshold even if the control means performs the predetermined number of calibrations, the calculation means calculates the predetermined number of calibration results. The calibration apparatus according to claim 2, wherein a calibration result having the smallest hue difference is applied to the image display apparatus.   When the hue difference calculated by the calculation unit exceeds a threshold, the control unit receives an input of an instruction from the user as to whether or not to perform the calibration again, and instructs to perform the calibration again. The calibration apparatus according to claim 1, wherein the calibration is performed again when the input is performed. The calculation means displays a patch image of each of a plurality of predetermined colors on the image display device, calculates a hue difference between a measurement value by the measurement means and a target value for each color,
5. The control unit according to claim 1, wherein the control unit executes the calibration again when the hue difference calculated by the calculation unit for a predetermined number of colors out of the plurality of colors exceeds a threshold value. 6. The calibration apparatus according to claim 1.   The calibration apparatus according to claim 1, further comprising an input unit that causes a user to input an instruction to specify a color for which the hue difference is calculated by the calculation unit. The calculation means further calculates a color difference between a measurement value by the measurement means when the patch image is displayed and a target value thereof,
The calibration device according to claim 1, wherein the control unit performs the calibration again when the color difference calculated by the calculation unit exceeds a threshold value.   An image display device comprising the calibration device according to claim 1. A calibration device control method for calibrating the image display device based on a measurement value obtained by a measurement unit that optically measures an image displayed on the image display device,
A calculation step for displaying a patch image of a predetermined color on the image display device after the calibration is performed, and calculating a hue difference between a measurement value by the measurement unit and a target value at that time;
A control step of executing the calibration again when the hue difference calculated by the calculation step exceeds a threshold;
Control method of calibration apparatus having   The calibration method according to claim 9, wherein the control step repeatedly executes the calibration until the hue difference calculated in the calculation step is smaller than the threshold value.   If the hue difference calculated by the calculation step does not become smaller than the threshold even if the predetermined number of calibrations is executed by the control step, the calculation step calculates the predetermined number of calibration results. The calibration apparatus control method according to claim 10, wherein a calibration result with the smallest hue difference is applied to the image display apparatus.   When the hue difference calculated by the calculation step exceeds a threshold value, the control step receives an instruction input by a user as to whether or not to execute the calibration again, and an instruction to execute the calibration again The calibration apparatus control method according to claim 9, wherein the calibration is performed again when the input is input. The calculation step displays a patch image of each color of a predetermined plurality of colors on the image display device, calculates a hue difference between a measured value by the measuring unit and a target value for each color,
13. The control method according to claim 9, wherein the control step performs the calibration again when the hue difference calculated by the calculation step for a predetermined number of colors out of the plurality of colors exceeds a threshold value. A method for controlling the calibration apparatus according to claim 1.   The method for controlling a calibration device according to any one of claims 9 to 13, further comprising an input step for causing a user to input an instruction for designating a color for which the hue difference is calculated in the calculation step. The calculation step further calculates a color difference between a measurement value by the measurement unit when the patch image is displayed and a target value thereof,
The calibration method according to any one of claims 9 to 14, wherein, in the control step, the calibration is performed again when the color difference calculated in the calculation step exceeds a threshold value. . A program for controlling a calibration device for calibrating the image display device based on a measurement value obtained by a measuring means for optically measuring an image displayed on the image display device,
A calculation step for displaying a patch image of a predetermined color on the image display device after the calibration is performed, and calculating a hue difference between a measurement value by the measurement unit and a target value at that time;
A control step of executing the calibration again when the hue difference calculated by the calculation step exceeds a threshold;
A program that causes a computer to execute.

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