JP5743233B2 - Display device, image quality adjustment method, and program - Google Patents

Description

  The present invention relates to a display device for calibrating an external optical sensor, an image quality adjustment method, and a program.

When the display device is used in an industrial field where strict color reproduction is required, the display device is periodically used for calibration of display characteristics. For the user, periodically calibrating the display characteristics of the display device is troublesome in managing the display device. Even if the display characteristics are calibrated regularly, it is difficult to confirm that the display characteristics with the calibration accuracy expected when actually using the display device are maintained.
In addition, in order for the user to easily confirm the display characteristics of the display device, the display characteristics may be measured using an optical sensor that can be used simply (see, for example, Patent Document 1).

JP 2005-208548 A

By the way, when measuring the display characteristics of the display device, the display characteristics indicated by the measured results depend on the detection characteristics of the measurement system.
However, there are individual differences in detection characteristics among optical sensors that can be easily used by the user, and measurement errors (colorimetric errors) that differ from one individual to another occur. The colorimetric error of an optical sensor that is simply used shows a relatively large value as compared with the colorimetric error of an optical sensor used as a measuring instrument at the time of calibration or the like. When the display characteristics of the display device are calibrated using an optical sensor that is simply used, the detection accuracy of the optical sensor is low and the color measurement error increases, so that there is a problem that a correct display color cannot be obtained.
Thus, the problem to be solved is that a measurement error included in a colorimetric value obtained by measurement using an optical sensor with low detection accuracy is large, and the display device cannot be calibrated.

  The present invention is a display device that includes a display unit that displays video information corresponding to a video signal, and obtains detection information from a photometry unit that has detected display characteristics of the display unit, and the display unit based on correction information A reference value determined as the display characteristic to be detected by the photometry unit when displaying a reference image on the display unit, and a signal conversion unit that converts the video signal according to a change in optical characteristics in Based on first detection information indicating the display characteristics detected by the photometry unit, and second detection information indicating the display characteristics detected by the photometry unit after the first detection information is detected, A correction information generation unit that generates the correction information that corrects a change in optical characteristics, and a control unit that controls to correct the change in optical characteristics according to the correction information. It is that the display device.

  The display device of the present invention has an advantage that measurement errors included in colorimetric values obtained by measurement using an optical sensor with low detection accuracy can be reduced, and the display device can be calibrated with desired accuracy. is there.

It is a block diagram which shows the display apparatus in 1st Embodiment of this invention. It is a flowchart which shows the procedure of the process which correct | amends the display characteristic in the display apparatus in this embodiment. It is a block diagram which shows the display apparatus in 2nd Embodiment. It is a figure which shows the correction process of the hue space in a three-dimensional color space. It is a figure which shows the calculation of the correction process of the hue space in a three-dimensional color space.

(First embodiment)
Embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a display device according to this embodiment.
The display device 1 shown in FIG. 1 is supplied with a video signal from the outside, and displays a video based on the video signal. Further, the display device 1 is connected to a sensor unit 2 that measures an image displayed on the display unit 40, and obtains detection information indicating the display characteristics of the display device 1 detected by the sensor unit 2.
The sensor unit 2 detects the display state of the image displayed on the display unit 40. When the detection by the sensor 2 is performed, a reference image (test pattern) corresponding to the measurement purpose is displayed on the display unit 40, and the line sub 2 detects the displayed reference image.
The display characteristics of the display device 1 depend on the optical characteristics of the display section 40 and the signal conversion characteristics for adjusting (converting) the signal supplied to the display section 40 according to the optical characteristics of the display section 40. The measured display characteristics of the display device 1 depend on the detection characteristics of the measurement system including the sensor unit 2.

The display device 1 includes a detection information acquisition unit 10, a correction information generation unit 20, a lookup table unit 30, a display unit 40, an operation unit 80, and a control unit 90.
The detection information acquisition unit 10 obtains detection information from the sensor unit 2.
The correction information generation unit 20 obtains detection information detected by the sensor unit 2 from the detection information acquisition unit 10 and generates correction information for correcting a change in the optical characteristics of the display unit 40.
The correction information generation unit 20 includes a reference information storage unit 21, a first detection information storage unit 22, a first correction information storage unit 23, a current characteristic storage unit 24, a first correction information generation unit 25, and a second correction information generation. Part 26 is provided.

The reference information storage unit 21 stores a reference value determined as a display characteristic to be detected by the sensor unit 2 (photometry unit) when displaying a reference image on the display unit 40.
The first detection information storage unit 22 stores first detection information indicating display characteristics detected by the sensor unit 2. The first detection information indicates display characteristics detected when the sensor unit 2 is first connected to the display device 1.
The first correction information storage unit 23 stores first correction information generated based on the reference value and the first detection information. The first correction information is information generated based on the difference between the reference value and the first detection information.
The current characteristic storage unit 24 stores second detection information indicating display characteristics detected by the sensor unit 2 after the first detection information is detected. The second detection information indicates display characteristics detected as the current status of the display device 1.

The first correction information generation unit 25 obtains the reference value stored in the reference information storage unit 21 and the first detection information stored in the first detection information storage unit 22. The first correction information generation unit 25 generates first correction information based on the difference between the reference value and the first detection information. The first correction information generation unit 25 stores the generated first correction information in the first correction information storage unit 23 in accordance with the control command supplied from the control unit 90.
The second correction information generation unit 26 obtains first correction information stored in the first correction information storage unit 23 and second detection information stored in the current characteristic storage unit 24. The second correction information generation unit 26 generates second correction information based on the difference between the first correction information and the second detection information in accordance with a control command supplied from the control unit 90.

  When the correction information generation unit 20 displays a reference image on the display unit 40 under the control of the control unit 90, the correction information generation unit 20 is a reference value determined as a display characteristic to be detected by the sensor unit 2 (photometry unit), a sensor Based on the first detection information indicating the display characteristics detected by the unit 2 and the second detection information indicating the display characteristics detected by the sensor unit 2 after the first detection information is detected, the change of the optical characteristics is performed. Correction information to be corrected is generated.

  The lookup table unit 30 (signal conversion unit) obtains a video signal supplied to the display device 1 and converts the video signal so as to correct the change in the optical characteristics of the display unit 40 based on the correction information. . The look-up table unit 30 supplies the converted video signal to the display unit 40. The lookup table unit 30 includes a conversion table (lookup table) for performing the above-described conversion, and the conversion table is provided according to a plurality of hue signals.

The display unit 40 displays a video corresponding to the video signal supplied to the display device 1. The display unit 40 is supplied with the video signal converted by the lookup table unit 30.
The operation unit 80 detects an operation by the user and supplies the detected operation information to the control unit 90. The operation information includes image quality characteristic correction instruction information for instructing execution of image quality correction processing for correcting the image quality of the display unit 40, target image quality selection information for selecting target image quality characteristics, and the like.

The control unit 90 controls signal conversion for correcting changes in the optical characteristics of the display unit 40 in accordance with the correction information.
The control unit 90 compares the reference value with the first detection information to determine the characteristics of the sensor unit 2. Based on the determination result, the control unit 90 determines whether to perform correction based on the second correction information in the lookup table unit 30.
When the difference between the reference value and the first detection information is greater than a predetermined value, the control unit 90 performs correction based on the second correction information in the lookup table unit 30. That is, the control unit 90 sets the value in the conversion table of the lookup table unit 30 to a correction value corrected by the second correction information.
When the difference between the reference value and the first detection information is less than a predetermined value, the correction based on the second correction information is not performed in the lookup table unit 30. That is, the control unit 90 sets the value of the conversion table of the lookup table unit 30 to a standard value.

Further, the control unit 90 determines the necessity of creating correction information when the sensor unit 2 is connected. Specifically, the determination of the necessity of creating the correction information is made when the correction information (first correction information) of the sensor unit 2 is not stored in the first correction information storage unit 23 when there is a user's creation instruction. In this case, it is performed when a condition such as when the sensor unit 2 is first connected is established.
For example, when the sensor unit 2 is first connected to the detection information acquisition unit 10, the control unit 90 uses the display characteristics detected by the sensor unit 2 as the first detection information in the correction information generation unit 20. The data is stored in the storage unit 22.

Hereinafter, a display characteristic correction procedure in the display device 1 will be described as a processing example according to the present invention.
FIG. 2 is a flowchart illustrating a procedure of processing for correcting display characteristics in the display device 1.
First, the initial conditions are arranged in order to carry out this procedure.
At the time of factory production or the like, a display characteristic value (A) of the display device 1 is obtained by a reference color sensor, and this is used as an initial characteristic (reference value). This initial characteristic may be a representative value or specification value determined separately.
A reference value corresponding to the initial characteristic determined as described above is stored in the reference information storage unit 21 in the correction information generation unit 20.

Subsequently, in the user's usage environment or the like, the control unit 90 causes the detection information acquisition unit 10 to detect that the sensor unit 2 has been connected (step S10).
At the initial stage when the use of the display device 1 is started, the control unit 90 determines whether or not the detection information acquisition unit 10 detects that the sensor unit 2 is connected until the connection of the sensor unit 2 is detected. Repeatedly (step S15).
As a result of the determination in step S15, when determining that the sensor unit 2 is connected, the control unit 90 causes the detection information acquisition unit 10 to acquire the display characteristic value (B) of the display unit 40 detected by the sensor unit 2. Then, it is stored in the first detection information storage unit 22 as the first detection information (step S20).

  Originally, the display characteristic value (B) should match the display characteristic value (A) stored in the reference information storage unit 21. However, a difference may occur between the display characteristic value (A) (reference value) and the display characteristic value (B) (first detection information) due to individual differences of the sensor unit 2 and the like. It is necessary to correct the result obtained.

In order to achieve the above object, a display device according to claim 1 of the present invention includes a display unit that displays video information according to a video signal, and a photometric unit that detects display characteristics of the display unit. A display device that obtains detection information of a signal, a signal conversion unit that converts the video signal in accordance with a change in optical characteristics of the display unit based on correction information, and a case in which a reference image is displayed on the display unit In addition, a reference value determined as the display characteristic to be detected by the photometry unit, first detection information indicating the optical characteristic detected by the photometry unit, and the photometry after the first detection information is detected A correction information generating unit that generates the correction information for correcting the change in the optical characteristic based on the second detection information indicating the optical characteristic detected by the unit, and the optical characteristic according to the correction information. A control unit for controlling to correct a change, and a detection information acquisition unit for obtaining the detection information from the photometry unit, said control unit, said when said photometric unit is connected to the detection information acquisition unit It is determined whether or not correction information needs to be generated, and when it is determined that the correction information needs to be generated, the display characteristics detected by the photometry unit connected to the detection information acquisition unit are determined. The display device is characterized in that the first detection information in the correction information generation unit is used.

On the other hand, when the control unit 90 detects a difference of a predetermined value or more between the reference value and the first detection information, the control unit 90 determines that correction of the sensor unit 2 is necessary (step S25: required), and first correction information The generation unit 25 generates first correction information.
The first correction information generation unit 25 generates first correction information for correcting the display characteristic value (B) to match the display characteristic value (A) stored in the monitor, and the first correction information storage unit 23. Is written and stored (step S30). By the correction based on the first correction information, the value detected by the sensor unit 2 is set to an accurate value by the correction.

  By the way, when an appropriate time elapses, the display characteristics of the display unit 40 in the display device 1 may change. The processing described below is performed after a predetermined time has elapsed from the procedure shown in steps S10 to S30.

  The control unit 90 again measures the display characteristic value (C) indicating the current display characteristic of the display unit 40 by the sensor unit 2. By this measurement, the display characteristic value (C) of the display unit 40 detected by the sensor unit 2 is acquired and stored in the second detection information storage unit 24 as second detection information indicating the current characteristic (step S40). .

  The control unit 90 uses the second correction information generation unit 26 based on the difference between the first correction information stored in the first correction information storage unit 23 and the second detection information stored in the current characteristic storage unit 24. 2 Correction information is generated. Based on the second correction information, the first correction value is applied to the display characteristic value (C) to obtain the display characteristic value (C ′) (step S45).

  The control unit 90 corrects and updates the information of the conversion table provided in the lookup table unit 30 according to the second correction information (step S60). Thereby, the display characteristic of the display unit 40 can be calibrated using the display characteristic value (C ′).

  Thereafter, the control unit 90 determines whether or not the display characteristic of the display unit 40, that is, the information of the conversion table needs to be changed again according to the information input from the input unit 80. As a result of the determination, if a change is necessary, the processing from step S40 is performed (step S65).

  By the procedure described above, the display device 1 can correct the display characteristics, reduce the measurement error included in the colorimetric value obtained by the measurement using the optical sensor with low detection accuracy, and display The device can be calibrated with the desired accuracy.

In the correction processing shown in the present embodiment, the following principle is used.
The display measurement value (A) determined as the “reference value” indicates the target display characteristic and does not include a detection error due to the measurement system. That is, the display measurement value (A) is a value derived from a desired display characteristic (M ₀ ).

The display measurement value (B) is an initial display characteristic measured including the detection error (e) by the measurement system. By showing the display measurement value (A) as a reference, B = A + e can be shown. The first correction information (COM ₁ ) generated at this time is determined so that the display measurement value (A) and the display measurement value (B) are equal, so that the detection error (e) is canceled out. Determined. That is, COM ₁ is obtained from B = A and B = A + e + COM ₁ . COM ₁ = −e.

The display measurement value (C) is measured including a detection error (e) by the measurement system. The state in which the optical characteristics of the display unit 40 have changed from the initial display characteristics (A) (the amount of change is indicated by Δ) is shown. That is, C = A + Δ + e.
Here, the display measurement value (C ′) is obtained by correcting the display measurement value (C) with the first correction information (COM ₁ ). That is, the display measurement value (C ′) can be represented by the display measurement value (A) and the change Δ of the optical characteristic of the display unit 40 as in the following equation.

C ′ = C + COM ₁
= (A + Δ + e) −e
= A + Δ

  Therefore, even if it is a measurement by the sensor part 2 used simply, the variation | change_quantity (DELTA) of the optical characteristic of the display part 40 can be obtained correctly.

(Second Embodiment)
Another aspect of the present embodiment will be described. In the embodiment described below, a case where not only the display unit is calibrated but also changed to a desired image quality characteristic will be described.
FIG. 3 is a block diagram of the display device in the present embodiment. The same components as those in FIG.
The display device 1 includes a detection information acquisition unit 10, a correction information generation unit 20B, a lookup table unit 30, a display unit 40, a target image quality setting unit 50, an operation unit 80, and a control unit 90B.

The correction information generation unit 20B obtains detection information detected by the sensor unit 2 from the detection information acquisition unit 10, obtains target image quality information from the target image quality setting unit 50, and corrects a change in optical characteristics of the display unit 40. Generate correction information.
The correction information generation unit 20B includes a reference information storage unit 21, a first detection information storage unit 22, a first correction information storage unit 23, a current characteristic storage unit 24, a first correction information generation unit 25, and a second correction information generation unit 26. , And a third correction information generation unit 27.
The third correction information generation unit 27 generates third correction information based on the second correction information generated by the second correction information generation unit 26 and the target image quality information.

The target image quality characteristic generation unit 50 generates target image quality information that makes the display characteristic of the display device 1 a desired characteristic in response to a control command from the control unit 90B.
The target image quality characteristic generation unit 50 includes a target image quality characteristic storage unit 51 and a target image quality characteristic acquisition unit 52.
The target image quality characteristic storage unit 51 stores a plurality of profiling data (51a to 51c, hereinafter referred to as “51a etc.” when collectively shown).
The profiling data 51a or the like is information for setting display characteristics of the display device 1 so as to be provided according to the application to which the display device 1 is applied, for example.
The target image quality characteristic acquisition unit 52 generates target image quality information that makes the display characteristic of the display device 1 a desired characteristic based on the identification information indicating the designated display characteristic in accordance with a control command from the control unit 90B.
The look-up table unit 30 adjusts the optical characteristics based on the third correction information generated according to the set target image quality information.

In addition to the control unit 90 (FIG. 1), the control unit 90B controls the target image quality characteristic generation unit 50 so as to obtain a desired target image quality characteristic according to the information detected by the operation unit 80.
Prior to the display characteristic measurement, the control unit 90B determines the target image quality characteristic, and causes the target image quality characteristic acquisition unit 52 to generate target image quality information from the profiling data 51a and the like according to the result.

With the configuration described above, the third correction information generation unit 27 can generate third correction information based on the target image quality information generated by the target image quality characteristic generation unit 50.
Since the third correction information is generated based on the target image quality information, the information of the conversion table stored in the lookup table unit 30 can be generated according to the desired target image quality.

In the present embodiment, the target image quality information is set to the same value when measuring the initial display characteristics and when measuring the current display characteristics.
As shown in the first embodiment, the first correction information generation unit 25 and the second correction information generation unit 26 generate two correction information at different timings. It can be generated without including the component of the target image quality information.

The present invention is not limited to the above embodiments, and can be modified without departing from the spirit of the present invention.
For example, the initial characteristics shown in the present embodiment include white point luminance chromaticity, gamma characteristics, and color gamut. The initial characteristics can be obtained by measuring the display device 1 with a sensor serving as a reference during factory adjustment.

  Further, the display device 1 shown in the present embodiment includes the first detection information storage unit 22 and the current characteristic storage unit 24, thereby generating correction information based on the detection results of a plurality of measurement items. be able to. When the calculation process associated with a plurality of measurement items is not performed, the above storage unit may be deleted.

  The display device 1 shown in the present embodiment is supplied with a video signal from the outside, but may be generated by a video signal generation unit provided in the same casing as the display unit 40. Good. An example of such a display device 1 is a personal computer.

Moreover, the process which produces | generates correction | amendment information based on two information can utilize arbitrary existing techniques.
For example, sensor values such as XYZ values and RGB values can be handled as vectors in a three-dimensional color space. By performing an orthogonal transformation by applying an inner product of a 3 × 3 correction matrix to this vector, a general color space enlargement / reduction and rotation effect can be obtained. Sensor error can also be effectively corrected by this orthogonal transformation (vector operation). FIG. 4 shows the correction effect when this vector operation is applied to this embodiment.
In FIG. 4, the three-dimensional color space (xyz) is shown projected onto the xy plane. In the three-dimensional color space (xyz), the hue space R ₁ G ₁ B ₁ detected as the first detection information (XsYsZs) is corrected, and the hue space R ₂ G ₂ B indicated as the second correction information (XYZ). _{Get 2} . By this correction, the white point W ₁ in the hue space R ₁ G ₁ B ₁ detected by the sensor unit 2 can also be moved to the white point W ₂ by this correction. FIG. 5 shows a specific correction formula for the vector calculation. By this calculation, the vector [XsYsZs] ^T indicating the first detection information is converted into the vector [X Y Z] ^T indicating the second correction information (the subscript “T” indicates a transposed vector).

  The display device 1 described above has a computer system therein. The process of correcting the display characteristics in the display device 1 described above is stored in a computer-readable recording medium in the form of a program, and the above process is performed by the computer reading and executing this program. . Here, the computer-readable recording medium means a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory, or the like. Alternatively, the computer program may be distributed to the computer via a communication line, and the computer that has received the distribution may execute the program.

By applying it to a display device that needs to perform stable color reproduction, it is possible to improve and to calibrate the optical characteristics of the display unit easily.
Applications that require stable color reproduction include, for example, displays for graphic design, printing shops, and medical use. By being used for such applications, more effective effects can be achieved.

DESCRIPTION OF SYMBOLS 1 Display apparatus 2 Sensor part 10 Detection information acquisition part 20, 20B Correction information generation part 21 Reference | standard information storage part 22 First detection information storage part 23 First correction information storage part 24 Current characteristic storage part 25 First correction information generation part 26 Second correction information generation unit 27 Third correction information generation unit 30 Look-up table unit 40 Display unit 50 Target image quality setting unit 80 Operation units 90 and 90B Control unit

Claims (7)

A display device that includes a display unit that displays video information according to a video signal, and obtains detection information from a photometry unit that detects display characteristics of the display unit,
A signal conversion unit that converts the video signal according to a change in optical characteristics in the display unit based on correction information;
When displaying a reference image on the display unit, a reference value defined as the display characteristic to be detected by the photometric unit, first detection information indicating the optical characteristic detected by the photometric unit, and A correction information generating unit that generates the correction information for correcting a change in the optical characteristics, based on second detection information indicating the optical characteristics detected by the photometry unit after the first detection information is detected;
A control unit that controls to correct the change in the optical characteristics according to the correction information;
A detection information acquisition unit for obtaining detection information from the photometry unit,
The controller is
When the photometry unit is connected to the detection information acquisition unit, it is determined whether the correction information needs to be generated, and when it is determined that the correction information needs to be generated, the detection information acquisition A display device characterized in that the display characteristic detected by the photometry unit connected to a unit is the first detection information in the correction information generation unit. The controller is
Determining that it is necessary to generate the correction information when the first correction information based on the reference value and the first detection information is not stored in a storage unit in the display device. The display device according to claim 1 . The correction information generation unit
A first correction information generating unit that generates first correction information based on the reference value and the first detection information;
A second correction information generating unit that generates second correction information based on the first correction information and the second detection information;
The display device according to claim 1 or 2, characterized in that it comprises a. The controller is
When the difference between the reference value and the first detection information exceeds a predetermined value, a correction based on the second correction information is performed in the signal converter,
When the difference between the reference value and the first detection information is less than a predetermined value determined in advance, the signal converter is configured not to perform correction based on the second correction information. The display device according to claim 3 . A target image quality characteristic generating unit that generates target image quality information that makes the optical characteristic a desired characteristic;
The correction information generation unit
A third correction information generating unit for generating third correction information based on the second correction information and the target image quality information;
The signal converter is
Display according to claim 3 or 4, characterized in that converting the image signal in response to a change in the optical properties of the display unit by the third correction information generated according to the target quality information the generated apparatus. A display unit that displays video information corresponding to a video signal, and a display device computer that obtains detection information from a photometric unit that detects display characteristics of the display unit,
Converting the video signal in accordance with a change in optical characteristics in the display unit based on correction information;
When displaying a reference image on the display unit, a reference value defined as the display characteristic to be detected by the photometric unit, first detection information indicating the optical characteristic detected by the photometric unit, and Generating the correction information for correcting the change in the optical characteristics based on the second detection information indicating the optical characteristics detected by the photometry unit after the first detection information is detected;
A control step for controlling to correct the change in the optical characteristics in accordance with the correction information ;
A detection information acquisition unit executes a detection information acquisition step for obtaining detection information from the photometry unit,
The control step includes
When the photometry unit is connected to the detection information acquisition unit, it is determined whether the correction information needs to be generated, and when it is determined that the correction information needs to be generated, the detection information acquisition a program for the display characteristic which is detected by the connected the photometry unit in part, to execute the steps of the first detection information in step of generating the correction information. An image quality adjustment method in a display device comprising a display unit that displays video information according to a video signal, and obtaining detection information from a photometric unit that detects display characteristics of the display unit,
A process of converting the video signal according to a change in optical characteristics in the display unit based on correction information;
When displaying a reference image on the display unit, a reference value defined as the display characteristic to be detected by the photometric unit, first detection information indicating the optical characteristic detected by the photometric unit, and Generating the correction information for correcting a change in the optical characteristics based on the second detection information indicating the optical characteristics detected by the photometry unit after the first detection information is detected;
A control process for controlling to correct the change in the optical characteristic according to the correction information ;
A detection information acquisition step, wherein the detection information acquisition unit obtains detection information from the photometry unit,
The control process is
When the photometry unit is connected to the detection information acquisition unit, it is determined whether the correction information needs to be generated, and when it is determined that the correction information needs to be generated, the detection information acquisition quality adjusting method characterized in that the display characteristic which is detected by the connected the photometry unit in part includes the step of the first detection information in the process of generating the correction information.

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