JP2004289652A - Luminance characteristic measuring apparatus, luminance characteristic measuring method, storage medium and program therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a luminance characteristic measuring apparatus, a luminance characteristic measuring method, storage medium and program therefor that can measure the luminance characteristic of a display unit with high precision by using rectangular luminance patterns. <P>SOLUTION: A luminance characteristic measuring image producing section M021 produces a luminance characteristic measuring image containing a plurality of different groups of constant luminance with average luminance patterns (the rectangular luminance patterns) for realizing a predetermined average luminance and a constant luminance patterns comprising pixel density for forming a constant luminance, that are defined as a pair. Based on the luminance characteristic measuring image that the luminance characteristic measuring image producing section M021A has produced, a luminance characteristic measuring section M011 displays a plurality of the groups of the average luminance patterns on the display unit M01, the constant luminance patterns and an adjustment means by which users can adjust the plurality of the groups of the average luminance patterns and of the constant luminance patterns and the constant luminance of the plurality of the constant luminance patterns. After an adjustment by the adjustment means, the users obtain an average luminance value of the average luminance patterns that are objects for measurement among the plurality of the groups of the average luminance patterns and a pixel density value according to the constant luminance of the constant luminance patterns. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a luminance characteristic measuring device of a display device, a luminance characteristic measuring method, a recording medium thereof, and a program thereof.
[0002]
[Prior art]
In a display device such as a conventional CRT (Cathode Ray Tube) or a liquid crystal display device, a luminance characteristic indicating a relationship between pixel density and luminance of an image to be displayed is generally non-linear. For example, in the case of a CRT, if the luminance is y, the pixel density is x, and the gamma constant is γ,
y = x^γ
Is approximated by The luminance characteristic determined by the gamma constant γ is called “gamma characteristic”.
[0003]
Now, the luminance characteristics are different for each type of display device. Furthermore, even if the display devices are of the same type, the luminance characteristics are different if the manufacturers are different, and even if the manufacturers are the same, they are different for each model. Even for the same model, the luminance characteristics are different for each display device. For this reason, manufacturers that produce display devices ship individual display devices after correcting them so that they have predetermined luminance characteristics with the same model, but the luminance characteristics currently vary. is there. Therefore, even when the same image is displayed on two display devices of the same model, the same luminance distribution is often not obtained.
[0004]
For example, it is assumed that the luminance characteristics of the two display devices A and B are as shown in FIGS. 15 and 16, respectively. FIGS. 15 and 16 are diagrams showing luminance characteristics of the display devices A and B, in which the vertical axis represents luminance (0 to maximum value) and the horizontal axis represents pixel density (0 to 1). It is assumed that an image with a uniform density of pixel density = 0.5 is displayed on the display devices A and B. Further, as shown in FIG. 15, in the display device A, since the luminance at the pixel density = 0.5 is close to 0, a black picture is displayed. Further, as shown in FIG. 16, in the display device B, since the luminance is large, a pure white picture is displayed.
[0005]
Further, if the luminance characteristics of the display device are different, the following problem occurs. For example, when displaying a work of art such as a photograph on a display device, it cannot be viewed as a work having the same atmosphere unless the work is displayed on a display device having the same luminance characteristics as the display device of the author. Further, when displaying a medical image on a display device, if the luminance characteristics are different for each display device, erroneous information may be given to a doctor at the time of diagnosis, so that the luminance characteristics of the display devices must be the same. Further, for example, the CRT display device is different due to aging and the like even if the same display device is used, for example, the luminance for the same pixel density decreases with the use time.
[0006]
As described above, when displaying an image, it is necessary to acquire the luminance characteristics of the display device and correct the luminance characteristics to predetermined luminance characteristics. As the predetermined luminance characteristic, for example, a linear characteristic or a characteristic having a gamma constant γ = 2.2 is often used. When viewing a medical image, a barten curve is often used. As described above, it is necessary to measure and correct the luminance characteristics of the display device, and conventionally, the luminance characteristics of the display device have been measured using an optical luminance characteristic measuring device.
[0007]
Specifically, the luminance characteristic at each time is measured by an optical luminance measurement device while changing the pixel density of an image displayed on a display device as a measurement target of the luminance characteristic, so that the luminance characteristic as shown in FIG. 17 is obtained. obtain. FIG. 17 is a diagram illustrating an example of a luminance characteristic graph measured by the optical luminance measuring device. As shown in FIG. 17, the amount of change in pixel density to be changed at the time of measurement is a fixed amount = Δ.
[0008]
The measurement operation in the optical luminance measuring device at this time will be described with reference to the drawings. FIG. 18 is a flowchart showing a measuring operation in the optical luminance measuring device. Note that a computer is connected to the display device, and the computer performs a process of displaying an image having an arbitrary pixel density on the display device. Also, a computer and an optical luminance measuring device are connected, and the computer receives the luminance measurement result from the optical luminance measuring device.
[0009]
As shown in FIG. 18, first, in step S100, the computer sets the pixel density to 0 as an initial value. Next, in step S101, the computer increases the pixel density by Δ. Thereby, the image of the pixel density Δ is displayed on the display device. Next, in step S102, the optical luminance measuring device measures the luminance of the image displayed on the display device. When the measurement is completed, the optical brightness measurement device transmits the measurement result to the computer. Next, in step S103, the computer determines whether or not the pixel density has exceeded the maximum value (= 1).
[0010]
Here, if the pixel density does not exceed the maximum value (No in step S103), the computer returns to step S101, and further increases the pixel density by Δ. If the pixel density exceeds the maximum value (Yes in step S103), the computer ends the measurement processing. As described above, the luminance characteristic of the display device is measured, and a graph showing the luminance characteristic of the display device as shown in FIG. 17 can be generated.
[0011]
However, optical luminance measurement devices are generally expensive. Further, the measurement and correction of the luminance characteristics using the optical luminance measuring device require a long processing time. Therefore, it is not practical in a site such as a hospital where many display devices are owned.
[0012]
On the other hand, there has been proposed a method of measuring and correcting luminance characteristics by displaying a rectangular luminance pattern composed of a maximum luminance and a minimum luminance on a display device. This method eliminates the need for an optical luminance measurement device, so users can measure and correct the correct luminance characteristics even if there is a change in luminance characteristics due to aging or a variation in correction at the time of shipment. (For example, see Patent Document 1).
[0013]
Specifically, (1) a rectangular luminance pattern composed of the maximum luminance and the minimum luminance and a predetermined constant luminance pattern are arranged and displayed at positions where comparison is easy, and (2) the average luminance of the rectangular luminance pattern is equal to the average luminance. As described above, the luminance characteristic is measured by causing the user to adjust the luminance of the constant luminance pattern.
[0014]
FIG. 19 is a diagram illustrating an example of a measurement method using the above-described rectangular luminance pattern. In FIG. 19, a2 is a constant luminance pattern display unit, which is a part for displaying a constant luminance pattern. Further, b2 is a rectangular luminance pattern display unit, which is a part for displaying a rectangular luminance pattern. Further, as shown in FIG. 19, a rectangular luminance pattern display section b2 is arranged so as to surround the constant luminance pattern display section a2, and the two are arranged in a positional relationship that makes them easy to compare. The portions on which the constant luminance pattern display section a2 and the rectangular luminance pattern display section b2 are displayed are collectively referred to as a luminance display section S2. K2 is a luminance pattern variable section, and the user can adjust the luminance of the constant luminance pattern display section a2 by moving the adjustment knob K1 using a mouse or the like.
[0015]
For example, it is assumed that the rectangular luminance pattern of the rectangular luminance pattern display section b2 configures the highest luminance and the lowest luminance at a ratio of 1: 1 per unit area. In this case, when the rectangular luminance pattern display section b2 is viewed from a sufficiently far distance, the luminance is averaged, and it looks as if the luminance is displayed at exactly half the luminance of the maximum luminance and the minimum luminance. By manipulating the adjustment knob K1 of the luminance pattern variable section K2 so that the luminance looks equal to this luminance and obtaining the pixel density of the constant luminance pattern display section a2 at that time, a graph as shown in FIG. 20 can be created. FIG. 20 is a diagram illustrating a luminance characteristic graph in which the pixel density is plotted on the X axis and the luminance is plotted on the Y axis. On the Y-axis in FIG. 20, “average 1” which is half the luminance from the minimum luminance (min) to the maximum luminance (max) represents the average luminance of the rectangular luminance pattern. On the X-axis, “x1” represents the pixel density of the fixed luminance pattern display unit a2 after the adjustment.
[0016]
Next, a rectangular luminance pattern composed of the highest luminance and the lowest luminance at a ratio of 1: 3 per unit area is displayed on the rectangular luminance pattern display part b2, and the constant luminance pattern display part a2 is adjusted as described above. By performing the operation, a luminance characteristic graph as shown in FIG. 21 can be created. FIG. 21 also shows a luminance characteristic graph in which the X-axis indicates the pixel density value and the Y-axis indicates the luminance value, similarly to FIG. On the Y-axis in FIG. 21, “average 2”, which is 輝 度 of the minimum luminance (min) to maximum luminance (max), represents the average luminance of the rectangular luminance pattern. On the X-axis, “x2” represents the adjusted pixel density of the fixed luminance pattern display unit a2.
[0017]
By displaying a plurality of types of rectangular luminance patterns having different average luminances on the display device and adjusting the luminance of the constant luminance pattern display unit a2 to be equal to the luminance of the rectangular luminance pattern each time, In the display device, the pixel density corresponding to the luminance of the rectangular luminance pattern can be obtained. Thus, a luminance characteristic graph as shown in FIG. 22 can be created. 22 is a diagram showing a luminance characteristic graph in which the X-axis indicates the pixel density value and the Y-axis indicates the luminance value, as in FIGS. 20 and 21.
[0018]
[Patent Document 1]
JP-A-07-162714
[0019]
[Problems to be solved by the invention]
However, since the conventional method of measuring the luminance characteristic in which the user operates while visually comparing the luminance of the constant luminance pattern so as to be equal to the average luminance of the rectangular luminance pattern described above is not suitable for human perceptual characteristics, Luminance characteristics cannot be measured accurately. Here, the human perception characteristics will be described. When comparing the luminance, the human judges while perceiving the luminance difference between the average luminance of the rectangular luminance pattern display unit b2 and the luminance of the constant luminance pattern display unit a2. At this time, if the luminance difference between the two patterns is large, it can be easily perceived that the luminances of the two patterns are different. However, perception becomes difficult when the luminance difference between the two patterns is small.
[0020]
FIG. 23 is a diagram illustrating human perceptual characteristics. For example, a case in which the constant luminance pattern display unit a2 is adjusted so as to have the same luminance as the “average 1” that is the luminance of the rectangular luminance pattern will be described. As shown in FIG. 23, a range of ± δ with respect to “average 1” is described as a dead zone. In the range of (average 1−δ) to (average 1 + δ), which is the dead zone shown in FIG. 23, humans cannot sufficiently perceive the luminance difference between the rectangular luminance pattern and the constant luminance pattern. That is, it is difficult for human eyes to distinguish which of the pixel densities x1, x2, and x3 shown in FIG. 23 is closest to the average luminance of the rectangular luminance pattern. In FIG. 23, the pixel density closest to the average luminance “average 1” is x2.
[0021]
The present invention has been made in view of the above problems, and has a luminance characteristic measuring device, a luminance characteristic measuring method, a recording medium, and a recording medium capable of accurately measuring luminance characteristics of a display device using a rectangular luminance pattern. The purpose is to provide.
[0022]
[Means for Solving the Problems]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and in a luminance characteristic measuring apparatus according to the present invention, a luminance indicating a relationship between a pixel density of an image and a luminance of the display when displaying the image on the display. A luminance characteristic measuring device for measuring characteristics, comprising an average luminance pattern that realizes a predetermined average luminance by being configured with a combination of a pixel density having a highest luminance and a pixel density having a lowest luminance in a display device; and A luminance characteristic measurement image for generating a luminance characteristic measurement image including a plurality of sets having different average luminance and / or constant luminance as a set including a constant luminance pattern composed of pixel densities having a constant luminance for comparison with the luminance pattern. A plurality of sets of an average luminance pattern and a constant luminance pattern are displayed on a display device based on the luminance characteristic measurement image generated by the luminance characteristic measurement image generation means. Display control means for displaying, on the display device, adjustment means by which the user can adjust the average luminance of the plurality of average luminance patterns and / or the constant luminance of the plurality of constant luminance patterns. And a measurement result acquiring means for acquiring a value of the average luminance of the average luminance pattern, which is one of a plurality of sets, and a value of a pixel density corresponding to the constant luminance of the constant luminance pattern.
[0023]
Further, in the luminance characteristic measuring method according to the present invention, the luminance characteristic measurement using the luminance characteristic measuring device for measuring the luminance characteristic indicating the relationship between the pixel density of the image and the luminance of the display device when displaying the image on the display device. A method for comparing the average luminance pattern with an average luminance pattern that achieves a predetermined average luminance by being configured with a combination of a pixel density having the highest luminance and a pixel density having the lowest luminance in the display device. A first step of generating a luminance characteristic measurement image including a plurality of sets having different average luminance and / or constant luminance by using a set of a constant luminance pattern composed of pixel densities having a constant luminance; and a first step. Based on the generated luminance characteristic measurement image, a plurality of sets of average luminance patterns and constant luminance patterns are displayed on the display device, and the average of the plurality of average luminance patterns is averaged. A second step of displaying, on the display device, an adjusting means capable of adjusting the degree and / or the constant luminance of the plurality of constant luminance patterns on the display device, and a plurality of sets after the user adjusts the adjusting means in the second step. And a third step of obtaining a value of the average luminance of the average luminance pattern, which is a set of, and a pixel density value corresponding to the constant luminance of the constant luminance pattern.
[0024]
Further, the recording medium according to the present invention is a computer-readable recording medium for recording a program for a luminance characteristic measuring device for measuring a luminance characteristic indicating a relationship between a pixel density of an image and a luminance of the display device when displaying the image on the display device. This is a simple recording medium, and is compared with an average luminance pattern that realizes a predetermined average luminance by being configured with a combination of a pixel density having the highest luminance and a pixel density having the lowest luminance in the display device. A first step of generating a luminance characteristic measurement image including a plurality of sets having different average luminances and / or constant luminances by using a set of a constant luminance pattern composed of pixel densities having a constant luminance for the first step; Based on the luminance characteristic measurement image generated in the step, a plurality of sets of the average luminance pattern and the constant luminance pattern are displayed on the display device, and a plurality of average luminance patterns are displayed. A second step of displaying, on the display device, an adjusting means capable of adjusting the average luminance of the degree pattern and / or the constant luminance of the plurality of constant luminance patterns on the display device; A program for causing a computer of a luminance characteristic measuring apparatus to execute a third step of obtaining a value of an average luminance of an average luminance pattern that is a set of a plurality of sets and a value of a pixel density corresponding to a constant luminance of the constant luminance pattern. Is a computer-readable recording medium on which is recorded.
[0025]
Further, the program according to the present invention is a program for a luminance characteristic measuring device for measuring a luminance characteristic indicating a relationship between a pixel density of an image and a luminance of the display device when displaying the image on the display device. An average luminance pattern that achieves a predetermined average luminance by being configured with a combination of a pixel density that becomes the highest luminance and a pixel density that becomes the lowest luminance, and a pixel density that becomes a constant luminance for comparison with the average luminance pattern A first step of generating a luminance characteristic measurement image including a plurality of sets having different average luminances and / or constant luminances as a set of the configured constant luminance patterns, and a luminance characteristic measurement image generated in the first step. On the basis of this, a plurality of sets of the average luminance pattern and the fixed luminance pattern are displayed on the display device, A second step of displaying, on the display device, an adjusting means capable of adjusting the constant luminance of the plurality of constant luminance patterns by the user, and after adjusting by the adjusting means by the user in the second step, one set of the plural sets is used. A third step of obtaining a value of an average luminance of a certain average luminance pattern and a value of a pixel density according to the constant luminance of the constant luminance pattern.
[0026]
As a result, the luminance characteristic measuring device, the luminance characteristic measuring method, the recording medium, and the program of the display device of the present invention realize a predetermined average luminance by being configured with, for example, a combination of a maximum luminance and a minimum luminance of a rectangle. Characteristic measurement including, for example, a plurality of sets having different constant luminances as a set of an average luminance pattern (rectangular luminance pattern) to be compared with the average luminance pattern and a constant luminance pattern composed of pixel densities having a constant luminance for comparison with the average luminance pattern Generates an image, displays a plurality of sets of average luminance patterns and constant luminance patterns on a display device based on the generated luminance characteristic measurement image, and allows a user to adjust the constant luminance of the plural constant luminance patterns. Means is displayed on the display device, and after the user adjusts the average luminance pattern of the average luminance pattern to be measured among the plurality of And a pixel density value corresponding to the constant luminance of the constant luminance pattern, the user compares the plurality of constant luminance patterns with the average luminance pattern and determines that the constant luminance of the measurement target constant luminance pattern is the average luminance pattern. The brightness can be adjusted with high accuracy so as to be equal to the average brightness. That is, the luminance characteristics of the display device can be accurately measured using the average luminance pattern (rectangular luminance pattern).
[0027]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[First Embodiment]
First, a schematic configuration of a luminance characteristic measuring device for measuring luminance characteristics of a display (display device) according to a first embodiment of the present invention will be described. Here, the luminance characteristic indicates a correspondence relationship in which the luminance of the display changes according to the change in the pixel density of the image data displayed on the display. In addition, the luminance characteristic measuring device according to the present embodiment displays a rectangular luminance pattern configured by combining the maximum luminance and the minimum luminance of a rectangle and a constant luminance pattern whose luminance can be adjusted on the display. Measure the characteristics.
[0028]
FIG. 1 is a diagram illustrating a schematic configuration of a luminance characteristic measuring device according to a first embodiment of the present invention. In FIG. 1, reference numeral M00 denotes a luminance characteristic measuring device, which is a display M01 whose luminance characteristic is to be measured, a computer M02 that outputs a video signal for displaying an image on the display M01, and an input to the computer M02. And an external input device M03 for performing the operation.
[0029]
As shown in FIG. 1, a display M01 and an external input device M03 are connected to the computer M02. The display M01 is a display device such as a CRT (Cathode Ray Tube), a liquid crystal display, and a plasma display, and displays an image corresponding to an image signal input from the computer M02. The external input device M03 is an input device such as a keyboard, a mouse, a voice recognition interface, and a line-of-sight input interface. In addition, the computer M02 realizes a GUI (Graphical User Interface) by displaying an image that changes according to an input from the external input device M03 on the display M01.
[0030]
Next, a functional configuration of the computer M02 will be described.
Reference numeral M021 denotes a luminance characteristic measurement image generation unit, and a luminance characteristic measurement image including a luminance display section S1 including a rectangular luminance pattern b1 and a constant luminance pattern a1 for measuring luminance characteristics as shown in FIG. Generate Reference numeral M011 denotes a luminance characteristic measurement unit, which displays a luminance characteristic measurement screen S on the display M01 as shown in FIG. 1 based on the luminance characteristic measurement image generated by the luminance characteristic measurement image generation unit M021 (display means). Having. The details of the luminance characteristic measurement screen S are shown as specific examples of the luminance characteristic measurement screens Sa to Sc in FIGS. 3 to 5, and various display patterns will be described.
[0031]
The luminance characteristic measuring unit M011 has a function (adjustment unit) that allows the user to adjust the constant luminance pattern a1 so as to have the same luminance as the average luminance of the rectangular luminance pattern b1. Has a function (measurement result acquisition means) of outputting the adjusted pixel density of the fixed luminance pattern a1 and the average luminance of the rectangular luminance pattern b1 as the measurement result.
[0032]
A luminance characteristic result storage unit M022 stores the luminance characteristic measurement results (the above-described average luminance and pixel density) measured by the luminance characteristic measuring unit M011. M023 is a luminance characteristic result totalizing unit, and totalizes the luminance characteristic measurement results stored in the luminance characteristic result storage unit M022.
[0033]
With the above configuration, the luminance characteristic measuring device M00 measures the luminance characteristic of the display M01. The hardware configuration of the computer M02 included in the luminance characteristic measuring device M00 according to the present embodiment includes a CPU, a memory, and the like, and is the same as the hardware configuration of a general computer.
[0034]
Next, a measurement flow of the luminance characteristic in the luminance characteristic measuring device M00 shown in FIG. 1 will be briefly described. First, the luminance characteristic measurement image generation unit M021 generates a luminance characteristic measurement image including a rectangular luminance pattern and a constant luminance pattern. Next, the luminance characteristic measurement unit M011 displays the luminance characteristic measurement screen S on the display M01 based on the luminance characteristic measurement image generated by the luminance characteristic measurement image generation unit M021. Thus, the user makes an adjustment from the external input device M03 so that the luminance of the constant luminance pattern matches the average luminance of the rectangular luminance pattern.
[0035]
After this adjustment, the luminance characteristic measuring unit M011 outputs a measurement result of the luminance characteristic. This measurement result is stored in the luminance characteristic result storage unit M022. The above processing is performed a plurality of times by changing the average luminance of the rectangular luminance pattern. Next, the luminance characteristic result totaling unit M023 performs totalization by referring to a series of measurement results from the luminance characteristic result storage unit M022, and calculates luminance characteristic information such as a luminance characteristic graph. As described above, the luminance characteristic measuring device M00 measures the luminance characteristic of the display M01 and outputs luminance characteristic information. The detailed operation of the luminance characteristic measuring device M00 will be described later.
[0036]
Next, one specific example of the luminance characteristic measurement screen S shown in FIG. 1 will be shown and described.
FIG. 3 is a diagram showing a luminance characteristic measurement screen Sa which is a specific example of the luminance characteristic measurement screen S shown in FIG. As shown in FIG. 3, the luminance characteristic measurement screen Sa is roughly divided into two parts. One is a part that displays the luminance display partitioning units S11, S12, and S13, and the other is a part that displays the luminance pattern varying unit K10. The brightness display sections S11, S12, and S13 are, similarly to the brightness display section S1 shown in FIG. 2, respectively provided from the fixed brightness pattern display sections a11, a12, and a13 and the rectangular brightness pattern display sections b11, b12, and b13. It is configured. The fixed luminance pattern display sections a11, a12, and a13 and the rectangular luminance pattern display sections b11, b12, and b13 are arranged adjacent to each other so that the luminance can be easily compared.
[0037]
Further, the brightness display partitioning sections S11, S12, and S13 are arranged close to each other as shown in FIG. The arrangement of the luminance display sections S11, S12, and S13 is not limited to the above, and may be adjacent to each other. Further, the brightness of the constant luminance pattern display units a11, a12, and a13 in FIG. 3 is in a magnitude relationship of the constant luminance pattern display unit a11 <the constant luminance pattern display unit a12 <the constant luminance pattern display unit a13. In other words, the pixel densities of the constant luminance pattern display units a11, a12, and a13 have a magnitude relationship of constant luminance pattern display unit a11 <constant luminance pattern display unit a12 <constant luminance pattern display unit a13.
[0038]
Further, when the user moves the adjustment knob K9 right and left with the mouse or the like in the brightness pattern variable section K10, the brightness of the fixed brightness pattern display sections a11, a12, and a13 changes while maintaining the magnitude relation described above. That is, the pixel densities of the luminance of the constant luminance pattern display sections a11, a12, and a13 are adjusted while maintaining the magnitude relation described above.
[0039]
In the luminance characteristic measurement screen Sa of the present embodiment, each time the adjustment knob K9 of the luminance pattern variable section K10 is moved by one scale, the pixel density of the constant luminance pattern display sections a11, a12, and a13 increases or decreases by Δ, respectively. For example, if the pixel densities of the fixed luminance pattern display sections a11, a12, and a13 are x1, x2, and x3, respectively, if one scale is moved, x1 + Δ, x2 + Δ, and x3 + Δ.
[0040]
In the present embodiment, the configuration of the brightness pattern variable section K10 is a volume for moving the adjustment knob K9 in the horizontal direction. However, the configuration is not limited to this, and any configuration that can adjust the pixel density may be used. For example, the luminance pattern variable section K10 may be configured to vary the pixel density by voice using a voice input interface. Further, in the present embodiment, the adjustment of the brightness pattern variable section K10 is performed by the external input device M03 in FIG. Further, the average luminances of the rectangular luminance pattern display sections b11, b12, and b13 shown in FIG. 3 are all the same. That is, in all of the rectangular luminance pattern display sections b11, b12, and b13, the area ratio between the maximum luminance and the minimum luminance is the same.
[0041]
In the luminance characteristic measurement screen Sa of FIG. 3, the measurement target of the luminance characteristic is the luminance display section S12 arranged at the center. That is, the user adjusts the brightness of the constant brightness pattern display unit a12 with the adjustment knob K9 of the brightness pattern variable unit K10 so that the brightness becomes equal to the average brightness of the rectangular brightness pattern display unit b12 in the brightness display section S12. Manipulate. The value obtained by the measurement by the luminance characteristic measuring unit M011 is obtained by adjusting the pixel density of the adjusted constant luminance pattern display unit a12 in a state where the average luminance of the rectangular luminance pattern b12 and the luminance of the constant luminance pattern a12 are equal to each other. This is the average luminance of the luminance pattern b12.
[0042]
Here, as in the luminance characteristic measurement screen Sa shown in FIG. 3, a luminance display section in which the luminance is set darker than the luminance display section S12 on both sides of the luminance display section S12 to be measured as a reference for comparison. When the section S11 and the brightness display section S13 in which the brightness is set to be brighter than the brightness display section S12 are arranged, the measurement target stands out, and further, the brightness relationship (brighter or darker) to the rectangular brightness pattern to be measured is determined. Since it is easy to grasp, the adjustment operation becomes easy.
[0043]
Here, the reason for the simplification will be described with reference to FIGS. FIGS. 6 and 7 are diagrams showing the relationship among the constant luminance pattern display sections a11, a12, and a13 on the luminance characteristic measurement screen Sa shown in FIG. 6 and 7, the vertical axis (Y-axis) indicates luminance, and the horizontal axis (X-axis) indicates pixel density. For the sake of simplicity, it is assumed that the display M01 has a luminance characteristic approximated to a straight line L1 near the pixel density corresponding to the luminance “average 1”, as shown in FIGS. Further, it is assumed that the average luminance of the rectangular luminance pattern display units b11, b12, and b13 is “average 1” on the Y axis, and the pixel densities of the constant luminance pattern display units a11, a12, and a13 are x1, x2, and x3, respectively. .
[0044]
Since the luminance and the pixel density linearly correspond to each other, if the luminance at the pixel density x is expressed as L1 (x), the average luminance “average 1” in the luminance display section S11, S12, and S13 and each constant luminance pattern display section a11 , A12, and a13, the luminance differences z1, z2, and z3 are z1 = (L1 (x1) -average 1), z2 = (L1 (x2) -average 1), and z3 = (L1 (x3) -average 1), respectively. Can be obtained by
[0045]
In FIG. 6, the relationship between the luminance differences z1, z2, and z3 is z1 <z2 <z3 <0. In this case, the luminance of the constant luminance pattern display unit a12 arranged in the center is the average of the rectangular pattern display unit b12. It can be easily determined that the brightness is lower than the brightness. This is because the brightness of the brightest constant brightness pattern display section a13 is lower than the average brightness of the rectangular brightness pattern display section b13. Further, the fact that the luminance of the darkest constant luminance pattern display section a11 is clearly lower than the average luminance of the rectangular luminance pattern display section b11 also contributes to easy determination.
[0046]
Next, the user operates the adjustment knob K9 of the luminance pattern variable section K10 from the state of FIG. 6 to change the pixel densities x1, x2, and x3 of the constant luminance pattern display sections a11, a12, and a13 to the state of FIG. Let's say In this case, as is clear from FIG. 7, the relationship between the luminance differences z1, z2, and z3 is z1 <z2 <0 <z3, and the luminance of the constant luminance pattern display unit a12 is equal to the average luminance of the rectangular pattern display unit. The user can recognize that the average is approaching "1". This is because both the constant luminance pattern display section a11 and the constant luminance pattern display section a13 whose luminance is darker than the average luminance of the rectangular luminance pattern display sections b11, b12, and b13 are provided.
[0047]
As described above, when the comparative display brightness display sections S11 and S13 having different pixel densities are arranged and displayed at positions close to the measurement target brightness display section S12, only the conventional brightness display section of the measurement target is displayed. The user can easily recognize that the luminance of the constant luminance pattern display unit a12 has approached the average luminance of the rectangular luminance pattern b12, as compared with the case where the luminance is constant. That is, it is possible to obtain an effect that the user can easily perform an operation of bringing the luminance of the constant luminance pattern display unit a12 closer to the average luminance of the rectangular luminance pattern b12. In order to obtain the above-described effects, it is preferable that the intervals between the pixel densities x1, x2, and x3 of the constant luminance pattern display sections a11, a12, and a13 are such that humans can recognize a luminance difference.
[0048]
Next, a method of adjusting the luminance when the luminance of the constant luminance pattern display unit a12 sufficiently approaches the average luminance of the rectangular luminance pattern display unit b12 will be described. As shown in FIG. 23, since there is a dead zone in the human perceptual characteristic of luminance, it is difficult to adjust the luminance closer to the average luminance. Here, the dead zone can be considered as a resolution related to a luminance difference between humans. That is, when the absolute value of the luminance difference is equal to or smaller than the threshold value δ, a human cannot perceive the luminance difference. Therefore, according to the conventional method of displaying only one fixed luminance pattern of pixel densities x1, x2, and x3 shown in FIG. 23, the luminance of the constant luminance pattern of any pixel density is the average luminance of the rectangular luminance pattern “average 1 It is not possible to judge whether it is close to "." However, in the present embodiment, the above-described problem is solved by displaying a plurality of constant luminance patterns, and adjustment with a resolution higher than that of a human is realized. Hereinafter, the reason will be described with reference to the drawings.
[0049]
FIGS. 8 and 9 are diagrams showing the relationship among the constant luminance pattern display sections a11, a12, and a13 on the luminance characteristic measurement screen Sa shown in FIG. 8 and 9, the vertical axis (Y-axis) represents luminance, and the horizontal axis (X-axis) represents pixel density. For simplicity of description, it is assumed that the display M01 has a luminance characteristic approximated to a straight line L1 near the pixel density corresponding to the luminance “average 1” as shown in FIGS. Further, it is assumed that the average luminance of the rectangular luminance pattern display units b11, b12, and b13 is “average 1” on the Y axis, and the pixel densities of the constant luminance pattern display units a11, a12, and a13 are x1, x2, and x3, respectively. . 8 and 9 also show a dead zone in a range of ± δ centered on an average of 1.
[0050]
In FIG. 8, it is assumed that the relationship between the pixel densities x1, x2, and x3 is x1 = x2-Δx and x3 = x2 + Δx. That is, if Δx is sufficiently small, the luminance characteristic L1 can be approximated as a linear characteristic near x2. Also, as shown in FIG. 8, the average luminance (= average 1) of each rectangular luminance pattern display section b11, b12, b13 and the constant luminance pattern display sections a11, a12, a13 in the luminance display section sections S11, S12, S13. (Hereinafter, simply referred to as luminance difference) are z1, z2, and z3.
[0051]
The relationship among these luminance differences z1, z2, z3 is z1 <z2 <0 <z3, as is clear from FIG. However, since z2 and z3 are in the dead zone to the eyes of the user, which of the constant luminance pattern display sections a12 and a13 is closer to the average luminance of 1 (= which absolute value of z2 or z3 is smaller) I can't judge. Specifically, the user perceives the luminance difference on the luminance characteristic measurement screen Sa shown in FIG. 3 in the order of the luminance display divisions S11, S12, and S13 (the rectangular luminance pattern is brighter), (the luminance difference (There is almost no brightness difference; the rectangular brightness pattern is slightly darker). At this time, the user does not know which of the luminance display sections S12 and S13 has the smaller luminance difference, but because the luminance difference of the luminance display section S11 is large, the user does not know which of the luminance display sections S11, S12 and S13. It can be seen that the luminance distributions of the constant luminance pattern distributions a11, a12, and a13 are skewed to the average of 1 (they are skewed to darker ones).
[0052]
Therefore, the case where the user corrects this bias is the luminance distribution of the constant luminance pattern distributions a11, a12, and a13 shown in FIG. Here, the case where there is no bias means that, for example, the user sequentially orders the luminance display sections S11, S12, and S13 (the rectangular luminance pattern is brighter), (there is almost no luminance difference), Is darker). That is, as shown in FIG. 9, the absolute value of the luminance difference z1 between the constant luminance pattern distribution a11 and the rectangular luminance pattern display unit b11 and the absolute value of the luminance difference z3 between the constant luminance pattern distribution a13 and the rectangular luminance pattern display unit b13 are in the dead zone. This is a state in which it is δ or more. At this time, as shown in FIG. 9, the average luminance of the rectangular luminance pattern display section b12 and the luminance of the constant luminance pattern display section a12 necessarily become substantially equal. As described above, when the user corrects the bias of the luminance distribution, as shown in FIG. 9, the average luminance of the rectangular luminance pattern display units b11, b12, and b13 and the luminance of the constant luminance pattern display unit a12 are reduced. The brightness can be adjusted so that they are almost equal. At this time, the relationship between the pixel densities x1, x2, and x3 is such that when x1 = x2-Δx and x3 = x2 + Δx, the value of Δx is such that the amount of change in luminance due to the change in pixel density Δx slightly exceeds the dead zone δ. Adjust to the extent.
[0053]
Further, in FIG. 9, the value of Δx is described for the case where the amount of change in luminance due to the change in pixel density Δx slightly exceeds the dead band δ. However, the value of Δx is not limited to this. The amount of change in luminance due to the change may be a value equal to or less than the dead zone δ. In this case, if the user adjusts the luminance distribution so as not to be biased, the luminance display sections S11, S12, and S13 are arranged in the order of the luminance (there is almost no luminance difference) and the luminance display is almost the same. , (There is almost no luminance difference). At this time, the fact that the luminance differences z1 and z3 fall within the dead zone necessarily means that the average luminance of the rectangular luminance pattern display section b12 and the luminance of the constant luminance pattern display section a12 are substantially equal. However, it is preferable that the amount of change in luminance due to the change in pixel density Δx be closer to the dead zone δ.
[0054]
As described above, since the luminance characteristic measuring device M00 of the present embodiment includes the luminance display section for comparison reference, the user can perform the luminance adjustment while suppressing the influence of the dead zone, thereby improving the accuracy. Good luminance characteristics can be measured.
In the above-described embodiment, the luminance characteristic measuring device M00 displays three types of luminance display sections on the luminance characteristic measurement screen Sa. However, the present invention is not limited to this. May be displayed.
[0055]
Next, the measurement operation of the luminance characteristic in the luminance characteristic measuring device M00 shown in FIG. 1 will be described.
In the present embodiment, the luminance characteristics when the luminance characteristic measurement image generation unit M021 generates three types of rectangular luminance patterns b (= the rectangular luminance patterns of the rectangular luminance pattern display units b11, b12, and b13 in FIG. 3). The operation of the measuring device M00 will be described. Note that the three types of rectangular luminance patterns b are such that when the maximum luminance and the minimum luminance of the display device are max and min, respectively, the average luminance of the rectangular luminance pattern b1 is (1) (min + max) / 4, (2) ( (min + max) / 2, (3) 3 (min + max) / 4. These rectangular luminance patterns b are generated by the luminance characteristic measurement image generation unit M021 in such a ratio that the maximum luminance and the minimum luminance are (1) 1: 3, (2) 1: 1, and (3) 3: 1 per unit area. Configure and generate. In the following description, the three patterns described above are referred to as rectangular luminance patterns b (1), b (2), and b (3), respectively.
[0056]
FIG. 10 is a diagram showing a measurement operation of the luminance characteristic in the luminance characteristic measuring device M00 shown in FIG. When measurement is performed for the above-described rectangular luminance patterns b (1), b (2), and b (3), the luminance characteristic measuring device M00 obtains a tally result as shown in FIG. FIG. 11 is a diagram showing an example of the measurement results of the luminance characteristics in the luminance characteristic measuring device M00 shown in FIG. In FIG. 11, the average 1, the average 2, and the average 3 correspond to the rectangular luminance patterns b (1), b (2), and b (3), respectively. Pixel density = 0 is the minimum luminance (min), and pixel density = 1 is the maximum luminance (max), and it is not necessary to measure these two points. As described above, the luminance characteristic of the display M01 is calculated as a curve or a broken line approximation that smoothly connects measurement points as shown in FIG.
[0057]
Hereinafter, the measurement operation of the luminance characteristic in the luminance characteristic measuring device M00 will be described with reference to FIGS. Note that, as shown in FIG. 10, the luminance characteristic measurement image generation unit M021 generates a rectangular luminance pattern including the maximum luminance and the minimum luminance at a ratio of N to M per unit area. This N: M is a variable that changes to (1) 1: 3, (2) 2: 2 (= 1: 1), and (3) 3: 1 as described above.
[0058]
First, in step F10, the computer M02 of the luminance characteristic measuring device M00 starts measuring the luminance characteristic of the display M01. Next, in step F11, the luminance characteristic measurement image generation unit M021 sets N = 0 and M = 4 as initial values. Next, in Step F12, the luminance characteristic measurement image generation unit M021 executes N = N + 1 and M = M−1. That is, N = 1 and M = 3 ((1) 1: 3).
[0059]
Next, the luminance characteristic measurement image generation unit M021 generates a rectangular luminance pattern b (1) including the highest luminance and the lowest luminance at a ratio of 1: 3 per unit area. The luminance characteristic measurement image generation unit M021 generates a luminance characteristic measurement image including the luminance display partitioning units S11, S12, and S13 in which the generated rectangular luminance pattern b (1) and the constant luminance patterns a11, a12, and a13 are combined. (Step F13).
[0060]
Next, based on the luminance characteristic measurement image generated by the luminance characteristic measurement image generation unit M021, the luminance characteristic measurement unit M011 generates a rectangular luminance pattern b (1) in which the maximum luminance and the minimum luminance are configured in a ratio of N to M. Is displayed on the display M01 as shown in FIG. Thus, the user adjusts the luminance of the constant luminance pattern a12 with the adjustment knob K9 so that the luminance becomes the same as the average luminance (average 1) of the rectangular luminance pattern b (1). Then, the user outputs the adjusted pixel density of the fixed luminance pattern a12 and the average luminance (average 1) of the rectangular luminance pattern b (1) as the measurement result. This measurement result is stored in the luminance characteristic result storage unit M022. (Step F14).
[0061]
Next, the computer M02 determines whether or not N = 3 (Step F15). Here, when it is determined that N is not 3 (No in Step F15), the process returns to Step F12, and the luminance characteristic measurement image generation unit M021 executes N = N + 1 and M = M-1. When it is determined that N = 3 (Yes in step F15), the computer M02 ends the luminance characteristic measurement process. As described above, the measurement results of the three measurement points shown in FIG. 11 are stored in the luminance characteristic result storage unit M022. As a result, the luminance characteristic result totaling unit M023 reads information on three measurement points as the luminance characteristic measurement result stored in the luminance characteristic result storage unit M022, and generates a graph as shown in FIG.
[0062]
In the present embodiment described above, the luminance characteristic measurement image generation unit M021 generates only three types of rectangular luminance patterns (= the number of measurement points is three). Different types of rectangular luminance patterns may be generated. When the luminance characteristic measurement image generation unit M021 generates many rectangular luminance patterns and increases the number of measurement points, a detailed and accurate graph of the luminance characteristic can be obtained.
[0063]
Conversely, the luminance characteristic measurement image generation unit M021 may generate one rectangular luminance pattern. In particular, in the case of many display devices in which the tendency of the luminance characteristic is stable, one measurement point is sufficient. The reason for this is that, for example, since the CRT has been used for a long period of time, it is possible to estimate the luminance characteristics from one measurement point with higher accuracy than data accumulated in the past. In particular, many industries such as the printing industry have accumulated various technical assets based on CRT. At present, display devices other than CRT, such as a plasma display device and a liquid crystal display device, exist. However, in order to make use of past technical assets, they are often shipped with luminance characteristics similar to CRT. As described above, in the case of a CRT, if the luminance is y, the pixel density is x, and the gamma constant is γ,
y = x^γ
Is often approximated by If the gamma constant is determined based on this formula and the measurement result, the luminance characteristic is determined, so that only one measurement point is required. The above is the reason why one rectangular generation pattern (= one measurement point) is sufficient.
[0064]
Further, in the present embodiment, in FIG. 3, the measurement is performed by changing the brightness of the fixed brightness pattern display units a11, a12, and a13. However, the method of changing the average brightness of the rectangular brightness pattern display units b11, b12, and b13 is used. It does not matter. Furthermore, in the present embodiment, the relationship between the pixel densities x1, x2, and x3 of the constant luminance pattern display units a11, a12, and a13 is constant, but the two levels may be switched as follows. For example, the switching is performed when the luminance of the constant luminance pattern display unit a12 is sufficiently close to the average luminance of the rectangular luminance pattern display unit.
[0065]
Specifically, using variables Δx11 and Δx13 that satisfy Δx11> 0 and Δx13> 0,
x1 = x2-Δx11, x3 = x2 + Δx13 (Formula 1)
Then, using variables Δx110 and Δx130 that satisfy Δx11> Δx110> 0 and Δx13> Δx130> 0,
x1 = x2-Δx110, x3 = x2 + Δx130 (Expression 2)
In this case, the luminance characteristics are measured by switching between (Expression 1) and (Expression 2). That is, first, the luminance of the constant luminance pattern display section a12 sandwiched between the constant luminance patterns a11 and a13 corresponding to the pixel densities x1 and x3 obtained using (Equation 1) is calculated as the average luminance of the rectangular luminance pattern display section b12. Adjust roughly to be equal to Next, the luminance of the constant luminance pattern display section a12 sandwiched between the constant luminance patterns a11 and a13 corresponding to the pixel densities x1 and x3 obtained using (Equation 2) is converted to the average luminance of the rectangular luminance pattern display section b12. Perform a fine adjustment operation to make them equal. According to this method, the adjusting operation can be performed in a shorter time than the adjusting operation using (Equation 2) from the beginning.
[0066]
[Second embodiment]
Next, a description will be given of a luminance characteristic measuring apparatus according to a second embodiment of the present invention.
The schematic configuration of the luminance characteristic measuring device according to the second embodiment is the same as that of the luminance characteristic device M00 according to the first embodiment shown in FIG. This embodiment is different from the first embodiment in that the luminance characteristic measurement image generation unit M021 generates a luminance characteristic measurement screen Sb including three types of rectangular luminance patterns, and the luminance characteristic measurement unit M011 uses This means that means for adjusting the average luminance of the rectangular luminance pattern by the user is displayed on the display M01. In the first embodiment, the luminance characteristic measurement image generation unit M021 generates a luminance characteristic measurement screen Sa, and the luminance characteristic measurement unit M011 displays a means for the user to adjust a constant luminance pattern on the display M01. Was.
[0067]
FIG. 4 is a diagram showing a luminance characteristic measurement screen Sb which is a specific example of the luminance characteristic measurement screen S shown in FIG. 1 as the second embodiment. As shown in FIG. 3, the luminance characteristic measurement screen Sb is roughly divided into two parts. One is a part that displays the luminance display partitioning parts S21, S22, and S23, and the other is a part that displays the luminance pattern varying part K20. The luminance display sections S21, S22, and S23 have constant luminance pattern display sections a21, a22, a23 and rectangular luminance pattern display sections b21, b22, respectively, similarly to the luminance display section S1 shown in FIG. b23. Further, the fixed luminance pattern display portions a21, a22, a23 and the rectangular luminance pattern display portions b21, b22, b23 are arranged adjacent to each other so that the luminance can be easily compared.
[0068]
Further, the luminance display partition sections S21, S22, and S23 are arranged close to each other as shown in FIG. The arrangement of the luminance display sections S11, S12, and S13 is not limited to the above, and may be adjacent to each other. In addition, the average luminance of the rectangular luminance pattern display units b21, b22, and b23 in FIG. 4 has a magnitude relationship of rectangular luminance pattern display unit b21 <rectangular luminance pattern display unit b22 <rectangular luminance pattern display unit b23.
[0069]
Further, when the user moves the adjustment knob K19 left or right with the mouse or the like in the brightness pattern variable section K20, the brightness of the rectangular brightness pattern display sections b21, b22, b23 changes while maintaining the magnitude relation described above. Further, the luminances of the constant luminance pattern display sections a21, a22, and a23 in FIG. 4 are all the same. In the present embodiment, the configuration of the brightness pattern variable section K20 is a volume for moving the adjustment knob K19 in the horizontal direction. However, the configuration is not limited to this, and any configuration that can adjust the pixel density may be used. For example, the luminance pattern variable section K20 may be configured to vary the pixel density by voice using a voice input interface.
[0070]
In the luminance characteristic measurement screen Sb of the present embodiment, the measurement target is the luminance display section S22 arranged at the center. That is, the user adjusts the luminance of the rectangular luminance pattern display section b22 with the adjustment knob K19 of the luminance pattern variable section K20 so that the luminance of the rectangular luminance pattern display section a22 becomes equal to the luminance of the constant luminance pattern display section a22 in the luminance display section S22. Manipulate. The values obtained by the measurement by the luminance characteristic measuring unit M011 are the pixel density and the rectangular shape of the adjusted constant luminance pattern display unit a22 in the state where the average luminance of the rectangular luminance pattern b22 and the luminance of the constant luminance pattern a22 are equal. This is the average luminance of the luminance pattern b22.
[0071]
Here, the average luminance of the rectangular luminance pattern is set darker than the luminance display partition S22 on both sides of the luminance display partition S22 to be measured, as shown in the luminance characteristic measurement screen Sb shown in FIG. When the luminance display section S21 and the luminance display section S23 in which the average luminance of the rectangular luminance pattern is set to be brighter than the luminance display section S22 are arranged, the measurement target stands out, and furthermore, the constant luminance pattern for the measurement target Since the brightness relationship (brighter or darker) can be easily grasped, the adjustment operation becomes easier.
[0072]
Here, the reason for the simplification will be described with reference to FIGS. FIGS. 12 and 13 are diagrams showing the relationship among the rectangular luminance pattern display sections b21, b22, and b23 on the luminance characteristic measurement screen Sb shown in FIG. 12 and 13, the vertical axis (Y-axis) represents luminance, and the horizontal axis (X-axis) represents pixel density. It is also assumed that the average luminance of the rectangular luminance pattern display units b21, b22, and b23 is y1, y2, and y3 on the Y axis, and the pixel density of the constant luminance pattern display units a21, a22, and a23 is x0. Further, the luminance of the constant luminance pattern display sections a21, a22, and a23 corresponding to the pixel density x0 is y0.
[0073]
Here, the difference between the average luminance y1, y2, y3 of the rectangular luminance pattern display units b21, b22, b23 in the luminance display division units S21, S22, S23 and the luminance y0 of the constant luminance pattern display units a21, a22, a23. The luminance differences z1 to z3 can be obtained by z1 = (y1-y0), z2 = (y2-y0), and z3 = (y3-y0).
In FIG. 12, the relationship between the luminance differences z1, z2, and z3 is z1 <z2 <z3 <0. In this case, the average luminance y2 of the centrally arranged rectangular luminance pattern display section b22 is a constant luminance pattern display. It can be easily determined that the luminance is lower than the luminance y0 of the portion a22. This is because the average luminance of the brightest rectangular luminance pattern part b23 is lower than the luminance y0 of the constant luminance pattern display part a23.
[0074]
Next, when the user operates the adjustment knob K19 of the luminance pattern variable section K20 from the state of FIG. 12, the average luminances y1, y2, and y3 of the rectangular luminance pattern display sections b21, b22, and b23 are changed to the state of FIG. Let's say In this case, as is clear from FIG. 13, the relationship between the luminance differences z1, z2, and z3 is z1 <z2 <0 <z3, and the average luminance y2 of the rectangular luminance pattern display section b22 is equal to that of the constant luminance pattern display section a22. The user can recognize that the brightness approaches the brightness y0. This is because the luminance characteristic measurement screen Sb has a rectangular luminance pattern display section b21 darker than the luminance y0 of the constant luminance pattern display section, a rectangular luminance pattern display section b23 brighter than the luminance y0 of the constant luminance pattern display section, and is to be measured. This is because it also has the rectangular luminance pattern display section b22.
[0075]
In this manner, when the comparative reference brightness display sections S21 and S23 having different pixel densities are arranged and displayed at positions close to the measurement target brightness display section S12, only the conventional measurement target brightness display section is displayed. The user can easily recognize that the average luminance of the rectangular luminance pattern b22 has approached the luminance of the constant luminance pattern display unit a22 as compared with the case of performing the operation. That is, it is possible to obtain an effect that the user can easily perform an operation of bringing the luminance of the constant luminance pattern display unit a12 closer to the average luminance of the rectangular luminance pattern b12.
[0076]
Further, as described in the first embodiment, the luminance difference z1 between the constant luminance pattern display units a21, a22, a23 and the rectangular luminance pattern display units b21, b22, b23 regarding the luminance display partition units S21, S22, S23, If the luminance pattern variable section K20 is adjusted and operated so that there is no deviation in z2 and z3, it is possible to prevent the influence of the dead zone on human perception and measure luminance characteristics with high accuracy.
[0077]
In the above-described embodiment, the average luminance of the rectangular luminance pattern display units b21, b22, and b23 is changed by adjusting the luminance pattern variable unit K20. However, the present invention is not limited to this. For example, another luminance pattern variable section may be provided separately so that the luminance of the constant luminance pattern display sections a21, a22, and a23 can be changed. Accordingly, when it is difficult to perform the adjustment operation only by changing the average luminance of the rectangular luminance pattern display units b21, b22, and b23, the luminance of the constant luminance pattern display units a21, a22, and a23 is finely adjusted and adjusted. Can be easier. Further, in the present embodiment, the luminance characteristics are measured by changing the average luminance of the rectangular luminance pattern display units b21, b22, and b23 shown in FIG. 4, but this is not a limitation, and the constant luminance pattern display units a21, a22, A method of measuring the luminance characteristic by varying the luminance of a23 may be used.
[0078]
[Third Embodiment]
Next, a description will be given of a luminance characteristic measuring apparatus according to a third embodiment of the present invention.
The schematic configuration of the luminance characteristic measuring device according to the third embodiment is the same as that of the luminance characteristic device M00 according to the first embodiment shown in FIG. This embodiment is different from the first embodiment in that the luminance characteristic measurement image generation unit M021 generates a luminance characteristic measurement screen Sc including five types of constant luminance patterns, and the luminance characteristic measurement unit M011 uses This means that means for adjusting the brightness by the user is not displayed on the display M01. In the first embodiment, the luminance characteristic measurement image generation unit M021 generates a luminance characteristic measurement screen Sa including one type of rectangular luminance pattern, and the luminance characteristic measurement unit M011 allows the user to adjust a constant luminance pattern. The means is displayed on the display M01.
[0079]
FIG. 5 is a diagram showing a luminance characteristic measurement screen Sc which is a specific example of the luminance characteristic measurement screen S shown in FIG. 1 as the third embodiment. As shown in FIG. 5, the luminance characteristic measurement screen Sc includes constant luminance pattern display sections a31, a32, a33, a34, a35 (hereinafter, referred to as constant luminance pattern display section a3) and rectangular luminance pattern display sections b31, b32, b33, b34, and b35 (hereinafter, referred to as a rectangular luminance pattern display section b3), and luminance display partition sections S31, S32, S33, S34, and S35, and a gamma corresponding to the luminance of each constant luminance pattern display section a3. And a gamma constant display section c31 for displaying a constant.
[0080]
Further, the brightness display partitioning portions S31, S32, S33, S34, and S35 are arranged adjacent to each other as shown in FIG. Note that the arrangement of the luminance display partition sections S31, S32, S33, S34, and S35 is not limited to the above, and may be an arrangement in which each is close to each other. The gamma constant display section c31 displays a gamma constant corresponding to each of the luminance display sections S31, S32, S33, S34, and S35. Specifically, as shown in FIG. 5, the gamma constants 2.2, 2.3, 2.4, 2.5, and 2.6 correspond to the luminance display sections S31, S32, S33, S34, and S35. Is arranged.
[0081]
Also, as is clear from FIG. 5, the average luminances of the rectangular luminance pattern display section b3 are all the same. Further, the brightness of the constant brightness pattern display unit a3 has a magnitude relationship of a fixed brightness pattern display unit a31 <a fixed brightness pattern display unit a32 <a fixed brightness pattern display unit a33 <a constant brightness pattern display unit a34 <a constant brightness pattern display unit a35. is there. In other words, the pixel density of the constant luminance pattern display section a3 is larger or smaller than the constant luminance pattern display section a31 <constant luminance pattern display section a32 <constant luminance pattern display section a33 <constant luminance pattern display section a34 <constant luminance pattern display section a35. In a relationship.
[0082]
The pixel density of the constant luminance pattern display section a3 is related to the gamma constant of the gamma constant display section c31. The average luminance of the rectangular luminance pattern display section is y1, the proportional constant is a, the pixel density is x, and the gamma constant is If γ,
y1 = a × x^γ  … (Equation 3)
There is a relationship. That is, if the gamma constant γ is determined, the luminance characteristic is determined from the above (Equation 3). When the average luminance of the rectangular luminance pattern display section b3 is determined, the corresponding pixel density is determined.
[0083]
FIG. 14 is a diagram illustrating an example of the relationship of the above (Equation 3). In FIG. 14, the vertical axis indicates luminance (minimum luminance (min) to maximum luminance (max)), and the horizontal axis indicates pixel density (0 to 1). Curves L1, L2, and L3 shown in FIG. 14 are luminance characteristics having different values of the gamma constant γ. When the luminance characteristics and the average luminance y0 of the rectangular luminance pattern display section b3 are determined as shown in FIG. 14, the pixel densities corresponding to the curves L1, L2, L3 can be uniquely obtained as x1, x2, x3, respectively. .
[0084]
The luminance characteristics are represented by luminance differences z1, z2, z3 between the luminance of the constant luminance pattern display section a3 and the average luminance of the rectangular luminance pattern display section b3 in the luminance display section sections S31, S32, S33, S34, S35 of FIG. , Z4, and z5 are selected by selecting the luminance display section having the smallest absolute value. If it is determined in FIG. 5 that the absolute value of the luminance difference z4 of the luminance display section S34 is the smallest, the luminance characteristic of the display M01 becomes the gamma characteristic determined by the gamma constant γ = 2.5.
[0085]
As shown in FIG. 5, if the constant luminance pattern display part a3 is arranged so as to be gradually brighter from the left, the absolute value of the luminance difference from the rectangular luminance pattern display part b3 is a function that is convex downward. It becomes. Specifically, the perception that the user perceives as a luminance difference includes (the rectangular luminance pattern is brighter), (the rectangular luminance pattern is brighter) in the order in which the luminance display sections S31, S32, S33, S34, and S35 are arranged. Are bright), (there is almost no luminance difference; the rectangular luminance pattern is slightly brighter), (there is almost no luminance difference, the rectangular luminance pattern is slightly darker), and (the rectangular luminance pattern is darker). In such a case, since there are many comparison targets, a human can easily find the luminance display section having the smallest luminance difference.
[0086]
Each processing unit shown in the computer M02 in FIG. 1 may be realized by dedicated hardware. Each processing unit is configured by a memory and a CPU, and functions of each processing unit are provided. The function may be realized by reading a program for realization into a memory and executing the program.
The memory is a non-volatile memory such as a hard disk device, a magneto-optical disk device, or a flash memory, a recording medium such as a CD-ROM, which is readable only, or a volatile memory such as a RAM (Random Access Memory). Or a computer-readable and writable recording medium by a combination thereof.
[0087]
Further, the luminance characteristic measuring device M00 in the above-described embodiment has a configuration including one display M01, but is not limited thereto, and may have a configuration including a plurality of displays, and may not include a single display. It may be configured to connect to an external display. In addition, the luminance characteristic measuring device M00 in the above-described embodiment uses a rectangular luminance pattern composed of a maximum luminance and a minimum luminance of a rectangle, but the size of each rectangle may be any size, and is preferably It is preferable that the size should be such that the average luminance can be easily grasped when viewed by the user. The original shape of the combination of the luminance patterns composed of the highest luminance and the lowest luminance is not limited to the above-described rectangle, but may be a triangle or a polygon.
[0088]
In addition, a program for realizing the function of the processing unit that performs various processes in the computer M02 in FIG. 1 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read by a computer system and executed. Each processing may be performed by doing. Here, the “computer system” includes an OS and hardware such as peripheral devices.
[0089]
The “computer-readable recording medium” refers to a portable medium such as a flexible disk, a magneto-optical disk, a ROM, and a CD-ROM, and a storage device such as a hard disk built in a computer system. Further, the “computer-readable recording medium” refers to a volatile memory (RAM) inside a computer system that is a server or a client when a program is transmitted through a network such as the Internet or a communication line such as a telephone line. , For a certain period of time.
[0090]
Further, the above program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting a program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line.
Further, the program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, and what is called a difference file (difference program) may be sufficient.
[0091]
Further, a program product such as a computer-readable recording medium on which the above-mentioned program is recorded can be applied as an embodiment of the present invention. The above programs, recording media, transmission media, and program products are included in the scope of the present invention.
As described above, the embodiments of the present invention have been described in detail with reference to the drawings. However, the specific configuration is not limited to the embodiments, and includes a design and the like within a range not departing from the gist of the present invention.
[0092]
Examples of the embodiments of the present invention are listed below.
[0093]
[Embodiment 1] A luminance characteristic measuring device for measuring a luminance characteristic indicating a relationship between a pixel density of the image and a luminance of the display device when displaying the image on a display device,
An average luminance pattern that achieves a predetermined average luminance by being configured with a combination of a pixel density that is the highest luminance and a pixel density that is the lowest luminance in the display device, and a constant luminance for comparison with the average luminance pattern. A luminance characteristic measurement image generating means for generating a luminance characteristic measurement image including a plurality of sets having different average luminance and / or the constant luminance as a set of a constant luminance pattern composed of pixel densities;
Based on the luminance characteristic measurement image generated by the luminance characteristic measurement image generation means, the plurality of sets of the average luminance pattern and the constant luminance pattern are displayed on the display device, and the average luminance of the plurality of average luminance patterns is displayed. And / or display control means for displaying, on the display device, adjustment means capable of adjusting a constant luminance of the plurality of constant luminance patterns by a user;
After the user adjusts by the adjusting unit, a measurement result acquisition that acquires a value of an average luminance of the average luminance pattern and a pixel density value corresponding to the constant luminance of the constant luminance pattern, which is a set of the plurality of sets, is performed. Means
A luminance characteristic measuring device comprising:
[0094]
[Embodiment 2] The image processing apparatus further includes a luminance characteristic result storage unit that stores the average luminance value of the average luminance pattern acquired by the measurement result acquisition unit and the pixel density value according to the luminance of the constant luminance pattern. The luminance characteristic measuring device according to the first embodiment, wherein:
[0095]
[Embodiment 3] A luminance characteristic that totals by referring to a plurality of the average luminance values of the average luminance pattern and the pixel density values corresponding to the constant luminance of the constant luminance pattern stored in the luminance characteristic result storage means. The luminance characteristic measuring apparatus according to the second embodiment, further comprising a result totaling unit.
[0096]
[Embodiment 4] The luminance characteristic measurement image generating means includes: an average luminance pattern in which the average luminance of the average luminance pattern is constant; and the constant luminance in which the constant luminance changes according to an increase or decrease of a predetermined pixel density unit. The luminance characteristic measuring apparatus according to any one of the first to third embodiments, wherein a luminance characteristic measurement image including a plurality of combinations with a luminance pattern is generated.
[0097]
[Embodiment 5] The embodiment 4 characterized in that the change amount of the constant luminance that changes according to the increase or decrease of the predetermined pixel density unit is a change amount corresponding to a luminance difference that can be perceived by a human. Luminance characteristic measuring device.
[0098]
[Embodiment 6] The luminance characteristic measurement image generating means is configured to determine a predetermined average luminance unit by changing a combination of the constant luminance pattern having the same constant luminance and a pixel density having a maximum luminance and a pixel density having a minimum luminance. The luminance according to any one of the first to third embodiments, wherein a luminance characteristic measurement image including a plurality of combinations of the average luminance pattern in which the average luminance changes according to the increase and decrease of the luminance is generated. Characteristic measuring device.
[0099]
[Seventh Embodiment] The sixth embodiment according to the sixth embodiment, characterized in that the amount of change in the average luminance that changes in accordance with the increase or decrease in the predetermined average luminance unit is a change in accordance with a luminance difference that can be perceived by a human. Luminance characteristic measuring device.
[0100]
[Eighth Embodiment] The luminance characteristic measurement image generating means includes a first luminance having the average luminance pattern in which the average luminance of the average luminance pattern is constant, and a first constant luminance sequentially increasing in units of a predetermined pixel density. A luminance characteristic measurement image including a combination of a constant luminance pattern having a second constant luminance pattern, a second constant luminance pattern having a second constant luminance, and a third constant luminance pattern having a third constant luminance;
The luminance characteristic measuring apparatus according to claim 1, wherein the measurement result acquiring unit acquires an average luminance value of the average luminance pattern and a pixel density value corresponding to the second constant luminance.
[0101]
[Embodiment 9] The embodiment 8 characterized in that the amount of change in the constant luminance that changes in accordance with an increase in the predetermined pixel density unit is an amount of change in accordance with a luminance difference that can be perceived by a human. Luminance characteristic measuring device.
[0102]
[Embodiment 10] The luminance characteristic measurement image generating means is configured to calculate a constant luminance pattern in which all of the constant luminance patterns of the plurality of constant luminance patterns are constant, and a pixel density having a maximum luminance and a pixel density having a minimum luminance. The first average luminance pattern having the first average luminance, the second average luminance pattern having the second average luminance, and the third average luminance having the third average luminance are sequentially increased in a predetermined average luminance unit by changing the combination. Generate a luminance characteristic measurement image including a combination with the average luminance pattern of
The luminance characteristic measuring apparatus according to claim 1, wherein the measurement result acquiring unit acquires a constant luminance value of the constant luminance pattern and a pixel density value according to the second average luminance.
[0103]
[Embodiment 11] The embodiment 10 characterized in that the amount of change in the average luminance that changes in accordance with an increase in the predetermined average luminance unit is a change in accordance with a luminance difference that can be perceived by a human. Luminance characteristic measuring device.
[0104]
[Embodiment 12] A luminance characteristic measuring method using a luminance characteristic measuring device for measuring a luminance characteristic indicating a relationship between a pixel density of the image and a luminance of the display device when displaying the image on a display device,
An average luminance pattern that achieves a predetermined average luminance by being configured with a combination of a pixel density that is the highest luminance and a pixel density that is the lowest luminance in the display device, and a constant luminance for comparison with the average luminance pattern. A first step of generating a luminance characteristic measurement image including a plurality of different sets of the average luminance and / or the constant luminance, as a set of a constant luminance pattern composed of pixel densities;
The plurality of sets of the average luminance pattern and the constant luminance pattern are displayed on the display device based on the luminance characteristic measurement image generated in the first step, and the average luminance of the average luminance pattern and / or the plurality of sets are displayed. A second step of displaying, on the display device, an adjustment unit that allows a user to adjust the constant luminance of the constant luminance pattern,
In the second step, after the user adjusts by the adjusting means, the average luminance value of the average luminance pattern and the pixel density value corresponding to the constant luminance of the constant luminance pattern, which are one set of the plurality of sets, are set. The third step of obtaining
A method for measuring luminance characteristics, comprising:
[0105]
[Thirteenth Embodiment] The first step is that the average luminance pattern in which the average luminance of the average luminance pattern is constant and the constant luminance pattern in which the constant luminance changes in accordance with an increase or decrease of a predetermined pixel density unit The luminance characteristic measuring method according to the twelfth embodiment, wherein a luminance characteristic measuring image including a plurality of combinations of the above is generated.
[0106]
[Embodiment 14] The embodiment 13 characterized in that the amount of change in the constant luminance that changes in accordance with an increase or decrease in the predetermined pixel density unit is an amount of change in accordance with a luminance difference that can be perceived by a human. Method for measuring the luminance characteristics.
[0107]
[Embodiment 15] The first step is to increase or decrease a predetermined average luminance unit by changing a combination of the constant luminance pattern having the same constant luminance and a pixel density having the highest luminance and a pixel density having the lowest luminance. The luminance characteristic measurement method according to embodiment 12, wherein a luminance characteristic measurement image including a plurality of combinations of the average luminance pattern in which the average luminance changes in accordance with the image data is generated.
[0108]
[Embodiment 16] The embodiment 15 characterized in that the change amount of the average luminance that changes in accordance with the increase or decrease of the predetermined average luminance unit is a change amount corresponding to a luminance difference that can be perceived by a human. Method for measuring the luminance characteristics.
[0109]
[Embodiment 17] In the first step, the average luminance pattern in which the average luminance of the average luminance pattern is constant, and a first constant luminance having a first constant luminance sequentially increasing in units of a predetermined pixel density Generating a luminance characteristic measurement image including a combination of a luminance pattern and a second constant luminance pattern having a second constant luminance and a third constant luminance pattern having a third constant luminance;
The luminance characteristic measuring method according to claim 12, wherein in the third step, an average luminance value of the average luminance pattern and a pixel density value corresponding to the second constant luminance are acquired.
[0110]
[Eighteenth Embodiment] The seventeenth embodiment is characterized in that the constant luminance change amount that changes in accordance with an increase in the predetermined pixel density unit is a change amount corresponding to a luminance difference that can be perceived by a human. Method for measuring the luminance characteristics.
[0111]
[Embodiment 19] The first step is a step of combining a combination of the constant luminance pattern in which all of the constant luminance patterns of the plurality of constant luminance patterns are constant, and a pixel density of the highest luminance and a pixel density of the lowest luminance. A first average luminance pattern having a first average luminance, a second average luminance pattern having a second average luminance, and a third average having a third average luminance, which sequentially increase in a predetermined average luminance unit by the change Generate a luminance characteristic measurement image including a combination with the luminance pattern,
The luminance characteristic measuring method according to claim 12, wherein the measurement result acquiring unit acquires a constant luminance value of the constant luminance pattern and a pixel density value according to the second average luminance.
[0112]
[Embodiment 20] The embodiment 19, wherein the variation of the average luminance, which varies according to the increase of the predetermined average luminance unit, is a variation corresponding to a luminance difference that can be perceived by a human. Method for measuring the luminance characteristics.
[0113]
[Embodiment 21] A computer-readable recording recording a program for a luminance characteristic measuring device for measuring a luminance characteristic indicating a relationship between a pixel density of the image and a luminance of the display device when displaying the image on a display device. A medium,
An average luminance pattern that achieves a predetermined average luminance by being configured with a combination of a pixel density that is the highest luminance and a pixel density that is the lowest luminance in the display device, and a constant luminance for comparison with the average luminance pattern. A first step of generating a luminance characteristic measurement image including a plurality of different sets of the average luminance and / or the constant luminance, as a set of a constant luminance pattern composed of pixel densities;
Based on the luminance characteristic measurement image generated in the first step, the plurality of sets of the average luminance pattern and the constant luminance pattern are displayed on the display device, and the average luminance of the plurality of average luminance patterns and / or Or a second step of displaying, on the display device, an adjustment unit that allows a user to adjust the constant luminance of the plurality of constant luminance patterns;
In the second step, after the user adjusts by the adjusting means, the average luminance value of the average luminance pattern and the pixel density value corresponding to the constant luminance of the constant luminance pattern, which are one set of the plurality of sets, are set. The third step of obtaining
And a computer-readable recording medium storing a program for causing a computer of the luminance characteristic measuring apparatus to execute the program.
[0114]
[Embodiment 22] A program for a luminance characteristic measuring device for measuring a luminance characteristic indicating a relationship between a pixel density of the image and a luminance of the display device when displaying the image on a display device,
An average luminance pattern that achieves a predetermined average luminance by being configured with a combination of a pixel density that is the highest luminance and a pixel density that is the lowest luminance in the display device, and a constant luminance for comparison with the average luminance pattern. A first step of generating a luminance characteristic measurement image including a plurality of different sets of the average luminance and / or the constant luminance, as a set of a constant luminance pattern composed of pixel densities;
Based on the luminance characteristic measurement image generated in the first step, the plurality of sets of the average luminance pattern and the constant luminance pattern are displayed on the display device, and the average luminance of the plurality of average luminance patterns and / or Or a second step of displaying, on the display device, an adjustment unit that allows a user to adjust the constant luminance of the plurality of constant luminance patterns;
In the second step, after the user adjusts by the adjusting means, the average luminance value of the average luminance pattern and the pixel density value corresponding to the constant luminance of the constant luminance pattern, which are one set of the plurality of sets, are set. The third step of obtaining
For causing a computer of the luminance characteristic measuring device to execute the program.
[0115]
[Embodiment 23] A luminance characteristic measuring device for measuring a luminance characteristic indicating a relationship between a pixel density of the image and a luminance of the display device when displaying the image on a display device,
An average luminance pattern that achieves a predetermined average luminance by being configured with a combination of a pixel density that is the highest luminance and a pixel density that is the lowest luminance in the display device, and a constant luminance for comparison with the average luminance pattern. A luminance characteristic measurement image generating means for generating a luminance characteristic measurement image including a plurality of sets having different average luminance and / or the constant luminance as a set of a constant luminance pattern composed of pixel densities;
The plurality of sets of the average luminance pattern and the constant luminance pattern are displayed on the display device based on the luminance characteristic measurement image generated by the luminance characteristic measurement image generating unit, and the average luminance pattern and the constant luminance pattern are displayed. Display control means for causing the display device to display a gamma constant corresponding to the combination of
A luminance characteristic measuring device comprising:
[0116]
【The invention's effect】
As described above, the luminance characteristic measuring device, the luminance characteristic measuring method, the recording medium, and the program of the display device according to the present invention are configured by, for example, a combination of a maximum luminance and a minimum luminance of a rectangle to thereby obtain a predetermined average. A set includes an average luminance pattern (rectangular luminance pattern) for realizing luminance and a constant luminance pattern composed of a pixel density having a constant luminance for comparison with the average luminance pattern, for example, includes a plurality of sets having different constant luminances. A luminance characteristic measurement image is generated, and based on the generated luminance characteristic measurement image, a plurality of sets of an average luminance pattern and a constant luminance pattern are displayed on a display device, and a user adjusts the constant luminance of the plural constant luminance patterns. Possible adjustment means are displayed on the display device, and after the adjustment by the adjustment means, the user adjusts the average brightness pattern of the plurality of measurement targets. Since the luminance value and the pixel density value corresponding to the constant luminance of the constant luminance pattern are obtained, the user compares the plurality of constant luminance patterns with the average luminance pattern and averages the constant luminance of the constant luminance pattern to be measured. The luminance can be adjusted with high accuracy so as to be equal to the average luminance of the luminance pattern. That is, the luminance characteristics of the display device can be accurately measured using the average luminance pattern (rectangular luminance pattern).
[Brief description of the drawings]
FIG. 1 is a diagram showing a schematic configuration of a luminance characteristic measuring device according to a first embodiment of the present invention.
FIG. 2 is a diagram illustrating an example of a luminance characteristic measurement image including a set of rectangular luminance patterns and a constant luminance pattern generated by a luminance characteristic measurement image generation unit M021 illustrated in FIG. 1;
FIG. 3 is a diagram showing a luminance characteristic measurement screen Sa which is a specific example of the luminance characteristic measurement screen S shown in FIG.
FIG. 4 is a diagram showing a luminance characteristic measurement screen Sb which is a specific example of the luminance characteristic measurement screen S shown in FIG. 1 as a second embodiment.
FIG. 5 is a diagram showing a luminance characteristic measurement screen Sc which is a specific example of the luminance characteristic measurement screen S shown in FIG. 1 as a third embodiment.
FIG. 6 is a diagram showing a relationship among constant luminance pattern display sections a11, a12, and a13 on the luminance characteristic measurement screen Sa shown in FIG.
FIG. 7 is a diagram showing a relationship among constant luminance pattern display sections a11, a12, and a13 on the luminance characteristic measurement screen Sa shown in FIG.
8 is a diagram showing a relationship among constant luminance pattern display sections a11, a12, and a13 on the luminance characteristic measurement screen Sa shown in FIG.
FIG. 9 is a diagram showing a relationship among constant luminance pattern display sections a11, a12, and a13 on the luminance characteristic measurement screen Sa shown in FIG.
FIG. 10 is a diagram showing a luminance characteristic measuring operation in the luminance characteristic measuring device M00 shown in FIG.
FIG. 11 is a diagram showing an example of measurement results of luminance characteristics in the luminance characteristic measuring device M00 shown in FIG.
FIG. 12 is a diagram showing a relationship among rectangular luminance pattern display portions b21, b22, and b23 on the luminance characteristic measurement screen Sb shown in FIG.
FIG. 13 is a diagram showing a relationship among rectangular luminance pattern display sections b21, b22, and b23 on the luminance characteristic measurement screen Sb shown in FIG.
FIG. 14 is a diagram illustrating a relationship example of (Equation 3) according to the third embodiment of the present invention.
FIG. 15 is a diagram showing luminance characteristics of the display device A.
FIG. 16 is a diagram illustrating luminance characteristics of the display device B.
FIG. 17 is a diagram showing an example of a luminance characteristic graph measured by an optical luminance measuring device.
FIG. 18 is a flowchart showing a measuring operation in the optical luminance measuring device.
FIG. 19 is a diagram illustrating an example of a measurement method using the above-described rectangular luminance pattern.
FIG. 20 is a diagram showing a luminance characteristic graph in which pixel density is plotted on the X axis and luminance is plotted on the Y axis.
FIG. 21 is a diagram illustrating a luminance characteristic graph in which an X axis indicates a pixel density value and a Y axis indicates a luminance value.
FIG. 22 is a diagram illustrating a luminance characteristic graph in which an X axis indicates a pixel density value and a Y axis indicates a luminance value.
FIG. 23 is a diagram showing human perceptual characteristics.
[Explanation of symbols]
M00 Luminance characteristic measuring device
M01 display
M011 Luminance characteristic measuring unit
M02 Computer
M021 Brightness characteristic measurement image generation unit
M022 Luminance characteristic result storage unit
M023 Luminance characteristic result tabulation unit
M03 External input device
S, Sa, Sb, Sc Luminance characteristic measurement screen
S11, S12, S13 Brightness display section
a11, a12, a13 Constant brightness pattern display section
b11, b12, b13 Rectangular luminance pattern display section
K9 adjustment knob
K10 Brightness pattern variable section

Claims (4)

A luminance characteristic measuring device that measures a luminance characteristic indicating a relationship between a pixel density of the image and a luminance of the display device when displaying an image on a display device,
An average luminance pattern that achieves a predetermined average luminance by being configured with a combination of a pixel density that is the highest luminance and a pixel density that is the lowest luminance in the display device, and a constant luminance for comparison with the average luminance pattern. A luminance characteristic measurement image generating means for generating a luminance characteristic measurement image including a plurality of sets having different average luminance and / or the constant luminance as a set of a constant luminance pattern composed of pixel densities;
Based on the luminance characteristic measurement image generated by the luminance characteristic measurement image generation means, the plurality of sets of the average luminance pattern and the constant luminance pattern are displayed on the display device, and the average luminance of the plurality of average luminance patterns is displayed. And / or display control means for displaying, on the display device, adjustment means capable of adjusting a constant luminance of the plurality of constant luminance patterns by a user;
After the user adjusts by the adjusting means, a measurement result acquisition that acquires a value of an average luminance of the average luminance pattern and a pixel density value corresponding to the constant luminance of the constant luminance pattern, which is one of the plurality of sets, And a luminance characteristic measuring device. A luminance characteristic measuring method using a luminance characteristic measuring device that measures a luminance characteristic indicating a relationship between a pixel density of the image and a luminance of the display device when displaying an image on a display device,
An average luminance pattern that achieves a predetermined average luminance by being configured with a combination of a pixel density that is the highest luminance and a pixel density that is the lowest luminance in the display device, and a constant luminance for comparison with the average luminance pattern. A first step of generating a luminance characteristic measurement image including a plurality of different sets of the average luminance and / or the constant luminance, as a set of a constant luminance pattern composed of pixel densities;
Based on the luminance characteristic measurement image generated in the first step, the plurality of sets of the average luminance pattern and the constant luminance pattern are displayed on the display device, and the average luminance of the plurality of average luminance patterns and / or Or a second step of displaying, on the display device, an adjustment unit that allows a user to adjust the constant luminance of the plurality of constant luminance patterns;
In the second step, after the user adjusts by the adjusting means, the value of the average luminance of the average luminance pattern and the value of the pixel density according to the constant luminance of the constant luminance pattern, which are one of the plurality of sets, are set. And a third step of obtaining a luminance characteristic. A computer-readable recording medium recording a program for a luminance characteristic measuring device that measures a luminance characteristic indicating a relationship between the pixel density of the image and the luminance of the display device when displaying an image on a display device,
An average luminance pattern that achieves a predetermined average luminance by being configured with a combination of a pixel density that is the highest luminance and a pixel density that is the lowest luminance in the display device, and a constant luminance for comparison with the average luminance pattern. A first step of generating a luminance characteristic measurement image including a plurality of different sets of the average luminance and / or the constant luminance, as a set of a constant luminance pattern composed of pixel densities;
Based on the luminance characteristic measurement image generated in the first step, the plurality of sets of the average luminance pattern and the constant luminance pattern are displayed on the display device, and the average luminance of the plurality of average luminance patterns and / or Or a second step of displaying, on the display device, an adjustment unit that allows a user to adjust the constant luminance of the plurality of constant luminance patterns;
In the second step, after the user adjusts by the adjusting means, the value of the average luminance of the average luminance pattern and the value of the pixel density according to the constant luminance of the constant luminance pattern, which are one of the plurality of sets, are set. A computer-readable recording medium which records a program for causing a computer of the luminance characteristic measuring device to execute the third step of obtaining the following. A program for a luminance characteristic measuring device that measures a luminance characteristic indicating a relationship between pixel density of the image and luminance of the display device when displaying an image on a display device,
An average luminance pattern that achieves a predetermined average luminance by being configured with a combination of a pixel density that is the highest luminance and a pixel density that is the lowest luminance in the display device, and a constant luminance for comparison with the average luminance pattern. A first step of generating a luminance characteristic measurement image including a plurality of different sets of the average luminance and / or the constant luminance, as a set of a constant luminance pattern composed of pixel densities;
Based on the luminance characteristic measurement image generated in the first step, the plurality of sets of the average luminance pattern and the constant luminance pattern are displayed on the display device, and the average luminance of the plurality of average luminance patterns and / or Or a second step of displaying, on the display device, an adjustment unit that allows a user to adjust the constant luminance of the plurality of constant luminance patterns;
In the second step, after the user adjusts by the adjusting means, the average luminance value of the average luminance pattern, which is a set of the plurality of sets, and the pixel density value according to the constant luminance of the constant luminance pattern And causing the computer of the luminance characteristic measuring apparatus to execute the third step of obtaining the following.

Images