JP2004309373A - Method for measuring luminance and program therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a method for measuring luminance performing both of the luminance control including surface reflection luminance and the luminance control excluding surface reflection luminance, and to enable proper intensity measurement in accordance with standards such as JIS and DICOM corresponding to executing QC. <P>SOLUTION: In display luminance measurement, no-correction, adding and subtracting of the surface reflection luminance are independently set as the correction to the measurement luminance value of the display measured by a luminance meter while expecting the surface reflection luminance of the display by ambient light, and then a problem to be solved is solved by selecting one from among them to calculate the measurement luminance value. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention belongs to the technical field of display brightness measurement, and particularly relates to a display brightness measurement method suitable for brightness measurement of a medical display, and a program for executing the brightness measurement method.
[0002]
[Prior art]
Diagnostic images taken with medical measuring devices such as CT diagnostic devices, MRI diagnostic devices, X-ray diagnostic devices, and FCR (Fuji Computed Radiography) are usually light transmissive such as X-ray films and film photosensitive materials. Recorded on an image recording film and reproduced as a light transmissive image. The film on which the diagnostic image is reproduced is set in a light source device called a schaukasten, and is observed in a state where light is irradiated from the back side to make a diagnosis.
On the other hand, in recent years, a diagnostic image photographed by a medical measurement apparatus is displayed on a display for observation / diagnosis (electronic Schaukasten).
[0003]
Naturally, various displays are required to display an appropriate image corresponding to the supplied image data. In particular, in a medical display, if the displayed image is inappropriate, it may cause a misdiagnosis. Therefore, it is important to display an appropriate image according to the image data.
In response to this, display quality control (display QC) is performed in order to stably display an appropriate image on a medical display.
[0004]
As the display QC, for example, the invariance test defined in JIS Z 4752-2-5 (evaluation of quality maintenance in the medical image department and daily test method Part 2-5: invariance test-medical image display device) In addition, calibration (gradation correction and gradation confirmation) for displaying an image with appropriate luminance gradation characteristics is known. Both require display luminance measurement of the display using a luminance meter.
However, in the conventional display QC, it is difficult to say that the handling of the measured luminance value by the luminance meter is necessarily appropriate.
[0005]
[Problems to be solved by the invention]
For example, in the constancy test of JIS, in a gray scale test, a predetermined gray scale test pattern is displayed and the display luminance of the display is measured. Here, in this luminance measurement, the surface reflection luminance L of the display due to ambient light L _amb It is stipulated that luminance measurement be performed in a form including That is, it is specified that QC is performed in a form including the influence of ambient light.
[0006]
Further, in a medical display, a gradation correction LUT (correction of image data is usually performed so as to display an image with a target (luminance) gradation characteristic in accordance with a medical measurement apparatus (modality) or the like. A lookup table) is created, and the image data is corrected to display a medical image. Calibration uses a luminance meter to display the maximum luminance L _max And minimum brightness L _min And the gradation correction LUT is rewritten so that an image can be displayed with an appropriate luminance gradation. Here, this luminance measurement generally differs depending on the medical measuring apparatus to which the display corresponds.
[0007]
For example, a display that displays an image captured by MRI, CT, or the like displays an image with gradation characteristics by GSDF (grayscale standard display function) of DICOM (transmission standard for medical image data, waveform data, etc.). There are many cases. Here, in DICOM, the luminance measurement at the time of calibration is the same as in the invariance test described above. _amb It is stipulated that this should be done.
On the other hand, in so-called CR such as FCR, in order to display a diagnostic image similar to an X-ray film by an imager conventionally used for diagnosis, the intermediate gradation is linear when logarithm is taken. In many cases, an image is displayed with gradation characteristics called Log-Linear. Here, in the calibration in the image display with the Log-Linear, the surface reflection luminance L _amb It is recommended to measure the luminance without including (the influence of ambient light).
[0008]
Furthermore, a contact-type luminance meter and a telephoto-type luminance meter are known as luminance meters.
Here, the display luminance of the display to be measured is different between the contact luminance meter and the telephoto luminance meter, and the surface reflection luminance L is different from the contact luminance meter. _amb Display luminance not including the surface reflection luminance L _amb Display luminance including is measured.
[0009]
With the spread of personal computers (PC), the luminance measurement results in such a display QC are taken into the PC and processed using QC software, and various kinds of information for keeping the display appropriate according to the results are obtained. Treatment is performed.
However, in the conventional display QC including such QC software, the handling of the luminance measured by the luminance meter is the same regardless of the case. That is, in the display QC, whether the invariance test is performed, the calibration corresponding to DICOM is performed, or the calibration corresponding to Log-Linear is performed, the luminance meter used for the measurement is in contact. In many cases, the measured luminance value is treated the same for both types and telephoto types.
[0010]
For this reason, it is difficult to say that a conventional display QC performs an appropriate QC conforming to a standard or the like. For example, the display does not have gradation characteristics or the like even though the QC is performed on a daily basis. There is a high possibility that an appropriate image is displayed.
[0011]
An object of the present invention is to solve the above-mentioned problems of the prior art, and in the QC of a display mainly used for displaying a diagnostic image for medical use, the surface reflection luminance L of the display. _amb It is possible to perform both luminance management including the influence of (ambient light) and luminance management not including it, and perform appropriate luminance measurement conforming to standards such as JIS and DICOM according to QC to be implemented. Thus, the present invention is to provide a luminance measuring method that makes it possible to easily perform an appropriate display QC conforming to the standard, and a program that realizes this luminance measuring method in a computer or the like.
[0012]
[Means for Solving the Problems]
In order to achieve the above object, the first aspect of the luminance measuring method of the present invention is to know the surface reflection luminance of the display due to ambient light in advance in luminance measurement for correcting gradation of the display, and As a correction for the measured brightness value of the display by the meter, there is no correction, the surface reflection brightness is added, and the surface reflection brightness is subtracted independently, and either one is selected to process the measured brightness value A luminance measurement method is provided.
[0013]
In addition, the second aspect of the luminance measurement method of the present invention is the luminance measurement for performing the quality control of the display, in advance knowing the surface reflection luminance of the display by ambient light, and measuring the luminance value of the display by the luminance meter As the correction for, no correction, the surface reflection luminance is added, the surface reflection luminance is subtracted independently, and when the quality control to be performed is an invariance test, there is no correction, and the surface reflection luminance If the quality control to be performed is luminance gradation calibration, no correction is performed, the surface reflection luminance is added, and the surface reflection luminance is subtracted. The luminance measurement method is characterized in that any one of the above is selected and the measured luminance value is processed.
[0014]
In such a luminance measuring method of the present invention, when performing luminance gradation calibration, the corresponding gradation characteristics set luminance measurement including surface reflection luminance, and the luminance meter that has performed the luminance measurement In the case of a telephoto type, the correction is not performed, and in the case where the corresponding gradation characteristic includes a luminance measurement including a surface reflection luminance, and the luminance meter that has performed the luminance measurement is a contact type, the surface reflection luminance If the corresponding gradation characteristic is set to a luminance measurement that does not include the surface reflection luminance, and the luminance meter that has performed the luminance measurement is a telephoto type, the surface reflection luminance is subtracted. It is preferable to select “no correction” when the gradation characteristic is set to luminance measurement that does not include surface reflection luminance and the luminance meter that has performed the luminance measurement is a contact type.
Further, when performing the constancy test, if the luminance meter that performed the luminance measurement is a telephoto luminance meter, select the above correction, and if the luminance meter that performed the luminance measurement is a contact luminance meter, It is preferable to select the addition of the surface reflection luminance.
[0015]
The program of the present invention is a program for processing the luminance measurement result of the display, and has a function of storing the surface reflection luminance value of the display in a predetermined storage means, and corrects the inputted measurement luminance value. No first processing, second processing for adding the surface reflection luminance stored in the storage means to the input measurement luminance value, and subtracting the surface reflection luminance stored in the storage means from the input measurement luminance value An arithmetic function for performing the third process and any one of the first process, the second process, and the third process are selected automatically or according to an input instruction, and the arithmetic function is executed. A program for realizing the selection function is provided.
[0016]
In such a program of the present invention, the first gradation characteristic in which the luminance measurement including the surface reflection luminance of the display is set and the second gradation in which the luminance measurement not including the surface reflection luminance of the display is set. A function for selecting one of the characteristics and a function for selecting either a telephoto luminance meter or a contact luminance meter are executed. The selection function is selected by the first gradation characteristic and the telephoto luminance meter. If the first gradation characteristic and the contact luminance meter are selected, the second processing is performed; the second gradation characteristic and the telephoto luminance meter. Preferably, the third process is automatically selected when the second gradation characteristic and the contact luminance meter are selected. The first process is automatically selected.
Further, as a quality control to be performed, a function for selecting one of luminance gradation calibration and constancy test is executed, and the selection function is the first function when the constancy test and the telephoto luminance meter are selected. It is preferable to automatically select the first processing; when the constancy test and the contact luminance meter are selected, the second processing is automatically selected.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the brightness measurement method and program of the present invention will be described in detail based on the preferred embodiments shown in the accompanying drawings.
[0018]
FIG. 1 shows a conceptual diagram of an example of a display system that implements the luminance measurement method of the present invention and the program of the present invention.
The display system 10 shown in FIG. 1 (hereinafter referred to as the system 10) is photographed on a film or a device that obtains medical images using CR, FPD (flat panel detector) such as FCR (Fuji Computed Radiography). This is a medical image display system that acquires image data R of a medical image obtained by a medical measuring apparatus such as an MRI, CT, etc. Basically, the display 12, the QC control means 14, and the telephoto luminance meter 16 and the contact luminance meter 18 used for the QC (quality control) of the display 12 are configured.
[0019]
In the system 10 of the illustrated example, the display 12 displays a medical image of the image data R supplied from the medical measurement device, and is a target for luminance measurement according to the present invention.
In the present invention, the display 12 for measuring the luminance is not particularly limited, and various displays such as a CRT (Cathode Ray Tube), an LCD (Liquid Crystal Display), a plasma display, an electrochromic display, and an electroluminescent display can be used. It is. The display 12 may be a color display or a monochrome display, and may further display a monochrome image by a color display.
[0020]
Both the telephoto-type luminance meter 16 and the contact-type luminance meter 18 are known luminance meters used for measuring the luminance of the display 12, and for example, commercially available products used for measuring the luminance of various displays may be used. . In the illustrated example, both the luminance meter and the QC control means 14 are connected online, but the system using the present invention is not limited to this, and the measurement result by the luminance meter is input using a keyboard or the like. The structure to do may be sufficient.
Of course, the present invention is applicable not only to a system having both the telephoto luminance meter 16 and the contact luminance meter 18 but also to a system having only one of them.
[0021]
The QC control unit 14 is for performing QC of the display 12 and includes a QC tool 20, a memory 22, and an operation unit 24.
In the system 10, the constancy test of JIS (JIS Z 4752-2-5) is used as the QC of the display 12, and the brightness of the display image on the display 12 is set to an image having a predetermined (luminance) gradation characteristic. (Gradation) calibration (gradation correction and gradation confirmation) can be performed.
[0022]
Further, as an example, the system 10 corresponds to a GSDF (Grayscale Standard Display Function “Grayscale Standard Display Function”) of DICOM (Digital Imaging and Communication in Medicine “Transmission Standard of Medical Image Data and Waveform Data”). It corresponds to image display with tone characteristics (hereinafter referred to as DICOM gradation) and image display on the display 12 with gradation characteristics called Log-Linear (log linear).
Correspondingly, the system 10 can perform calibration corresponding to DICOM gradation and corresponding calibration corresponding to Log-Linear as the QC calibration of the display 12.
[0023]
The DICOM gradation is a gradation characteristic that is generally used for image display when the corresponding medical measurement apparatus is MRI, CT, or the like.
On the other hand, Log-Linear is an X-ray film by a conventional imager that is widely used for image display in so-called CR, such as FCR (Fuji Computed Radiography), which is a digital X-ray diagnostic imaging system manufactured by Fuji Photo Film Co., Ltd. Is a gradation characteristic for reproducing the image of the image on the display. In a logarithmic state, the intermediate gradation area is linear, the gradation of the high luminance area is slightly sluggish, and the gradation of the low luminance area is slightly It is a gradation characteristic that stands.
[0024]
The QC tool 20 performs various operations and test patterns in QC, displays various measurement results in QC on the display 12, various calculations and processing for QC, and the like.
The memory 22 stores various data necessary for QC, such as image data of various test patterns for QC, and a known storage unit such as a hard disk or RAM may be used.
[0025]
Here, in the system 10 according to the present invention, the surface reflection luminance L of the display 12 caused by ambient light (observation light). _amb Is previously measured using the telephotometer 30 or the like, and the memory 22 stores this.
Further, the QC tool 20 processes the measured luminance value by the telephoto luminance meter 16 and the contact luminance meter 18 according to the luminance measuring method of the present invention. In the system 10, the measurement brightness value is corrected by “no correction”, “measured brightness value and the surface reflection brightness L of the display 12. _amb And “the surface reflection luminance L of the display 12 from the measured luminance value”. _amb Three types of “subtract” are set. The QC tool 20 selects a correction method according to the QC to be performed or the luminance meter that has measured the luminance of the display 12, and processes the measured luminance value. This will be described in detail later.
[0026]
The operation means 24 may be a known operation means used in a personal computer such as a mouse, a keyboard, and a touch panel display.
In the illustrated system 10, various operations and actions of the display QC described below may be performed by known means such as GUI (Graphical User Interface) using the operation means 24, the display 12, and the like. .
[0027]
Such QC control means 14 may be configured using a computer or the like, for example. The QC control means 14 may be integrated with the display 12, and is incorporated in a console, a computer, or the like that manages the display 12, the system 10, and PACS (Picture Archiving & Communication System) including these. There may be one, and one unit may control QC (luminance measurement) of a plurality of displays.
[0028]
Hereinafter, the luminance measurement method of the present invention will be described in detail by explaining the operation of the luminance measurement in the QC of the system 10. Further, the program of the present invention is a program that causes the QC control means 14 and the display 12 to perform the following actions.
[0029]
As described above, in the system 10, when the display 12 is installed, the surface reflection luminance L of the display 12 is previously set. _amb Is measured using a telephotometer 30 or the like. This surface reflection brightness L _amb The measurement result is stored in the memory 22 under the action of the QC tool 20, for example.
In addition, surface reflection brightness L _amb This measurement may be performed by a normal method such as a method of turning off the display 12 in a steady use environment and measuring the surface brightness of the display 12 in that state. Further, the surface reflection luminance L _amb As a matter of course, when the installation environment of the display 12 changes, it is necessary to carry out the measurement again and store it in the memory 22.
[0030]
When a predetermined operation is performed by the operation unit 24, the system 10 enters a state (QC mode) in which the QC of the display 12 is performed.
As described above, in the system 10 of the illustrated example, the JIS invariance test and calibration can be performed as the QC of the display 12. When the system 10 enters the QC mode, the display 12 displays a selection image for performing the invariance test and the calibration, and a selection image for selecting which of the telephoto luminance meter 16 and the contact luminance meter 18 to use. Display and prompt selection.
Further, as described above, the system 10 supports DICOM gradation and Log-Linear as gradation characteristics of the display 12. Therefore, when calibration is selected, any one of DICOM gradation and Log-Linear is selected. A selection image for performing the calibration is displayed on the display 12 to prompt selection.
[0031]
When the display 12 displays a test pattern for measuring the luminance in the QC after the predetermined operations such as various selections are finished, the display 12 using the telephoto luminance meter 16 or the contact luminance meter 18 is displayed by the operator. The display brightness is measured.
For example, when the constancy test is performed, the maximum luminance L of the display 12 _max And minimum brightness L _min When the brightness measurement of the gray scale test pattern including the image is performed and calibration corresponding to the DICOM gradation is performed, the maximum brightness L of the display 12 using the predetermined test pattern is measured. _max And minimum brightness L _min In the case where calibration corresponding to Log-Linear is performed, the maximum luminance L of the display 12 using a predetermined test pattern is measured. _max Is measured.
[0032]
The luminance measurement result (measured luminance value) by the luminance meter is sent to the QC tool 20.
As described above, in the system 10, as a method of correcting the measurement luminance value by the telephoto luminance meter 16 and the contact luminance meter 18, “no correction”, “measured luminance value is the surface reflection luminance L of the display 12 _amb (Hereinafter referred to as “L _amb And “the surface reflection luminance L of the display 12 from the measured luminance value”. _amb (Hereinafter referred to as “L _amb 3) are set.
[0033]
The QC tool 20 includes a luminance meter (luminance meter that performed luminance measurement), a QC type (QC to be performed), and a gradation type (implementation) when the QC is calibrated. The correction method to be used is selected and the measured luminance value is processed (corrected) according to the combination of the calibration), and the luminance measurement result in the QC of the display 12 is obtained.
[0034]
When the constancy test is selected as the QC, the QC tool 20 selects a correction method according to the selected luminance meter, and processes the measured luminance value.
When the telephoto luminance meter 16 is selected, “no correction” is selected, and the measured luminance value is used as the luminance measurement result. On the other hand, when the contact-type luminance meter 18 is selected in the constancy test, “L” _amb "Add" is selected and the surface reflection brightness L from the memory 22 is selected. _amb Is added to the measured luminance value to obtain a luminance measurement result.
That is, when performing the constancy test, the luminance measurement result is always the surface reflection luminance L _amb The value includes the component (ie, the influence of ambient light).
[0035]
When calibration is selected as the QC, the QC tool 20 selects a correction method according to the combination of the selected gradation type and the selected luminance meter.
First, when the DICOM gradation and the telephoto luminance meter 16 are selected, “no correction” is selected and the measured luminance value is set as the luminance measurement result. When the DICOM gradation and the contact luminance meter 18 are selected, “L” _amb "Add" is selected and the surface reflection brightness L from the memory 22 is selected. _amb Is added to the measured luminance value to obtain a luminance measurement result. That is, in the calibration corresponding to the DICOM gradation, the luminance measurement result is always the surface reflection luminance L. _amb The value includes the component.
When the Log-Linear and the telephoto luminance meter 16 are selected, “L _amb Subtract ", and the surface reflection brightness L from the memory 22 is selected. _amb Is subtracted from the measured luminance value to obtain a luminance measurement result. When Log-Linear and contact luminance meter 16 are selected, “no correction” is selected, and the measured luminance value is used as the luminance measurement result. That is, in the calibration corresponding to Log-Linear, the luminance measurement result is always the surface reflection luminance L _amb The value does not include the component.
[0036]
As described above, in the invariance test specified in JIS and the calibration specified in DICOM, the luminance measurement is performed by the surface reflection luminance L _amb It is stipulated that it be performed in a form that includes (influence of ambient light). On the other hand, in the calibration corresponding to Log-Linear, the luminance measurement is performed using the surface reflection luminance L. _amb It is recommended not to include Further, the luminance value measured by the telephoto luminance meter 16 is the surface reflection luminance L. _amb In contrast, the brightness value measured by the contact-type luminance meter 18 includes the surface reflection brightness L. _amb Ingredients are not included.
However, in the conventional display QC, the measured luminance value is uniquely handled regardless of the type of QC to be performed and the type of luminance meter to be used. As a result, it cannot be said that proper QC is always performed. .
[0037]
On the other hand, according to the present invention, “no correction”, “L” _amb And “L” _amb The three types of measurement brightness value correction methods of “subtract” are set independently, and the surface brightness value L is set in advance. _amb , And a correction method is selected according to the type of QC to be performed and the type of luminance meter to be used, the measured luminance value is processed, and the QC of the display 12 is performed using this as the luminance measurement result. In other words, regardless of the type of luminance meter, the surface luminance value L depends on the QC specification and the recommended luminance measurement. _amb In other words, brightness management including or excluding the influence of ambient light, that is, brightness management including the influence of ambient light and brightness management not including the influence of ambient light can be achieved.
Therefore, according to the present invention, it is possible to easily and suitably maintain the state of the display 12 optimally by performing appropriate luminance measurement according to the QC, standard, etc. of the display 12 to be implemented.
[0038]
After calculating the luminance measurement result in this way, the QC tool 20 processes the luminance measurement result according to the QC to be performed.
For example, if the QC of the display 12 is the constancy test, the obtained luminance measurement result (its image data) is output to the display 12 and the luminance measurement result is displayed on the display 12.
On the other hand, when the QC of the display 12 is the calibration corresponding to the DICOM gradation, the maximum luminance L _max And minimum brightness L _min Using this luminance measurement result, image data is allocated corresponding to DICOM gradation (GSDF) during this period, and the gradation correction LUT is rewritten. Furthermore, if the calibration is compatible with Log-Linear, the maximum luminance L _max Using the luminance measurement result, the minimum luminance L is obtained by taking a predetermined dynamic range from here. _min In this period, image data is allocated corresponding to the log-linear gradation characteristics, and the gradation correction LUT is rewritten.
[0039]
In the above example, the QC tool 18 automatically selects the correction method of the measured luminance value in accordance with the selection of the QC type and the selection of the luminance meter. However, the present invention is not limited to this, “no correction”, “L” _amb And “L” _amb An operator or the like may select the correction method for any of the measured luminance values of “subtract”, and input / instruction using the operation means 24 or the like.
Alternatively, a mode in which the QC tool 20 automatically selects a measurement luminance value correction method according to the operator's selection of the QC type and the luminance meter type, and a mode in which the operator etc. selects / inputs the measurement luminance value correction method. It is also preferable that any mode can be selected.
The selection of the correction method and the mode may be performed by a known method using a GUI or the like, similar to the selection of the QC type described above.
[0040]
According to the above aspect of selecting the QC type and the like, it is basically possible to perform calibration conforming to the standard.
However, for example, when the display 12 is installed in an environment where the amount of ambient light varies greatly, such as a window into which sunlight is inserted, an operating room, an ICU room, or a room where there is a possibility of both illumination on / off. If the ambient light fluctuates, the observation state of the display image fluctuates, and the image may not be observed properly. At this time, the surface reflection luminance L is reduced as in DICOM. _amb In some cases, the accuracy may decrease if calibration is performed, and it is preferable to perform calibration only with the display brightness of the display 12 without including the influence of ambient light. In some cases.
Therefore, by having means for directly selecting the three types of measurement luminance value correction methods, for example, even when performing DICOM gradation calibration, the surface reflection luminance L _amb The QC of the display in such an installation environment where the ambient light fluctuation is large can be suitably dealt with.
[0041]
In the illustrated example, the measurement luminance value is processed corresponding to both the constancy test and the calibration, but the present invention is not limited to this, and only the calibration is performed. Processing of the measured luminance value may be performed.
[0042]
As described above, the luminance measuring method and display device of the present invention have been described in detail. Of course.
For example, the above examples have utilized the present invention for display constancy testing, and DICOM gradation and Log-Linear calibration, but the present invention is not limited to this, and may be used to measure display brightness. For example, it can be used for luminance measurement in various QCs, and is not limited to medical use.
[0043]
【The invention's effect】
As described above in detail, according to the present invention, the surface reflection luminance L of the display in the QC of the display mainly used for displaying a medical diagnostic image. _amb It is possible to perform both brightness management including the influence of noise and brightness management not including it, perform appropriate brightness measurement based on standards such as QC, DICOM, etc. QC can be performed easily.
[Brief description of the drawings]
FIG. 1 is a block diagram of an example of an image display system that implements a luminance measurement method of the present invention.
[Explanation of symbols]
10 (Image display) system
12 display
14 QC control means
16 Telephotometer
18 Reflective luminance meter
20 QC tools
22 memory
24 operation means

Claims (7)

In luminance measurement for display gradation correction,
In addition to knowing in advance the surface reflection luminance of the display due to ambient light, as correction for the display luminance value of the display by a luminance meter, there is no correction, the surface reflection luminance is added, and the surface reflection luminance is subtracted independently. A luminance measuring method characterized by selecting any one and processing a measured luminance value. In luminance measurement for display quality control,
In addition to knowing in advance the surface reflection luminance of the display due to ambient light, as correction for the display luminance value of the display by a luminance meter, there is no correction, the surface reflection luminance is added, and the surface reflection luminance is subtracted independently. And
If the quality control to be performed is the constancy test, select either no correction or the addition of the surface reflection luminance to process the measured luminance value, and the quality control to be performed is luminance gradation calibration. In this case, the luminance measurement method is characterized in that any one of no correction, addition of the surface reflection luminance, and subtraction of the surface reflection luminance is selected to process the measurement luminance value. When performing the luminance gradation calibration,
When the corresponding gradation characteristic is set to luminance measurement including surface reflection luminance, and the luminance meter that has performed the luminance measurement is a telephoto type, no correction is performed.
If the corresponding gradation characteristic is set to luminance measurement including surface reflection luminance, and the luminance meter that has performed the luminance measurement is a contact type, add the surface reflection luminance,
If the corresponding gradation characteristic is set to luminance measurement that does not include surface reflection luminance, and the luminance meter that has performed the luminance measurement is a telephoto type, subtract the surface reflection luminance,
3. The non-correction is selected respectively when the corresponding gradation characteristic sets luminance measurement that does not include surface reflection luminance and the luminance meter that has performed the luminance measurement is a contact type. The brightness | luminance measuring method of description. When performing the constancy test, if the luminance meter that performed the luminance measurement is a telephoto luminance meter, select the no correction, and if the luminance meter that performed the luminance measurement is a contact luminance meter, the surface The luminance measurement method according to claim 2 or 3, wherein addition of reflection luminance is selected. A program for processing brightness measurement results of a display,
A function of storing the surface reflection luminance value of the display in a predetermined storage unit, a first process that does not correct the input measurement luminance value, and the surface reflection luminance that the storage unit stores in the input measurement luminance value An arithmetic function for performing a second process for adding, and a third process for subtracting the surface reflection luminance stored in the storage means from the input measured luminance value; and the first process, the second process, and The program for implement | achieving the selection function which selects any implementation of 3rd processing automatically or according to an input instruction, and makes the said arithmetic function implement. A function of selecting one of a first gradation characteristic in which luminance measurement including the surface reflection luminance of the display is set and a second gradation characteristic in which luminance measurement not including the surface reflection luminance of the display is set; And a function for selecting either a telephoto luminance meter or a contact luminance meter,
The selection function performs the first process when the first gradation characteristic and the telephoto luminance meter are selected; and when the first gradation characteristic and the contact luminance meter are selected. When the second gradation characteristic and the telephoto luminance meter are selected, the third process is performed; When the second gradation characteristic and the contact luminance meter are selected The program according to claim 5, wherein each of the first processes is automatically selected. Furthermore, as a quality control to be performed, a function for selecting either luminance gradation calibration or constancy test is executed,
The selection function includes the first process when the invariance test and the telephotometer are selected; the second process when the invariance test and the contact luminance meter are selected. A program according to claim 6, wherein each program is automatically selected.

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