JP3908849B2 - How to adjust the monitor - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
INDUSTRIAL APPLICABILITY The present invention is suitable for application to a monitor adjustment method, particularly color adjustment of a color monitor used in the multimedia field such as the Internet, plate making, printing, DTP (Desktop Publishing) field, and other fields handling colors on a monitor. The present invention relates to a monitor adjustment method.
[0002]
[Prior art]
The color reproduction of a color monitor is determined by the luminance of the primary colors of R (red), G (green), and B (blue) of the monitor main body, but the balance of the luminance differs depending on the function of the monitor main body and individual differences. Even if the input signals to the monitors have the same magnitude, it is necessary to adjust the brightness for each monitor in order to adjust the color tone between the monitors. Usually, this brightness is evaluated by a white color called white balance.
[0003]
As a conventional method for adjusting the white balance of a color monitor, (1) a method of actually measuring and adjusting color patches such as R, G, B, white and gray (R + G + B) with a measuring device, and (2) R , G, B, white and gray (R + G + B) color patches and natural images to display and adjust subjectively, (3) separately printed color patches and natural images as a reference The same image can be displayed on a monitor and compared, and subjective adjustment can be made so that both match.
[0004]
[Problems to be solved by the invention]
However, the conventional method (1) can be adjusted accurately, but requires an expensive measuring device and specialized knowledge, and the burden on the cost and workload is too large for a general user to perform. There is.
[0005]
Further, the methods (2) and (3) can be performed relatively easily, but depend on the subjectivity, so that there is a large variation among individuals and there is a problem that quantitative adjustment is difficult.
[0006]
The present invention has been made to solve the above-mentioned conventional problems, and does not require an expensive measuring device or specialized knowledge, and further provides a monitor adjustment method capable of easily and accurately performing objective color adjustment. The issue is to provide.
[0007]
[Means for Solving the Problems]
In the present invention, a reference monitor with adjusted white balance is prepared, and the primary colors of R, G, and B are displayed adjacent to black on the reference monitor, and the boundary line with black cannot be determined for each primary color. The maximum pixel value is determined as the reference balance value, and each primary color set as the reference balance value is displayed adjacent to black on the monitor to be adjusted, and the boundary line between black and each primary color cannot be distinguished. By adjusting the brightness of each primary color of the monitor to the brightness level, the above problem is solved.
[0008]
Here, the basic principle of the monitor adjustment method of the present invention will be described. For the sake of convenience, adjustment of R is taken as an example. As shown in FIGS. 1 and 2, the x-axis is the R input signal and the y-axis is the luminance, and the relationship between the two is shown without changing the 0 (origin) point. When the R luminance is lowered so that the maximum luminance value L becomes L ′, the slope of the graph changes from FIG. 1 to FIG. As a result, since the input signal value is low, it cannot be distinguished from the black background, that is, the point a in FIG. 1 at which the R color cannot be seen changes to the point b in FIG.
[0009]
The present invention utilizes this phenomenon, and if FIG. 1 represents a normal state, a point a where R cannot be distinguished from black is set as a reference point (reference balance value), and this point is maintained. By doing so, the luminance of R is adjusted. G and B are similarly adjusted.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0011]
FIG. 3 is a flowchart showing an outline of an operation procedure of the monitor adjustment method of the first embodiment according to the present invention, and FIG. 4 is a description conceptually showing an adjustment color chart applied to this embodiment. FIG.
[0012]
In this embodiment, a reference monitor (not shown) whose white balance is adjusted is prepared. This reference monitor is obtained by adjusting the white balance in advance by, for example, actually measuring the color chart displayed on the monitor using a measuring device.
[0013]
When adjusting the reference monitor, determining the reference balance value described later, and adjusting the target monitor, the appearance of the color (color chart) differs depending on the ambient brightness, etc., so a certain environment ( Use in a dark room or wear a monitor hood).
[0014]
First, an adjustment chart created by making each of the R, G, and B primary colors adjacent to black is displayed on the reference monitor, and the maximum pixel value that cannot be distinguished from the black for each primary color is set as the reference balance value. R0, G0 and B0 are determined (step 11).
[0015]
Specific processing at that time will be described below. For example, when the prepared reference monitor is adjusted to the color temperature D65, Bk (black: R = G = B = 0) and R, G, and B are displayed on the monitor as shown in FIG. Displays a color chart with the primary colors adjacent. At this time, it is assumed that each of the R, G, and B gradation values is represented by 8 bits of 0 to 255 in a range of R luminance: G luminance: B luminance = 0: 0: 0 to 1: 1: 1 (relative value). The reference balance value is set as a gradation value (pixel value). At the time of setting, by using application software or a specific program, the luminance value of each primary color is continuously increased or decreased, and the point where the boundary line between Bk and R, G, and B primary colors cannot be determined is determined for each color. The reference point (reference balance value) is determined.
[0016]
Here, the determined reference balance values R0, G0, B0 are expressed as (R, G, B) pixel values, and R0 = (20, 0, 0), G0 = (0, 16, 0), B0. = (0,0,32).
[0017]
After the R, G, and B reference points are determined as described above, the R, G, and B primary colors in which the gradation values are set as the reference balance values are adjusted to be adjacent to black on the adjustment target monitor. Display the chart (step 12), adjust each brightness of R, G, and B of the monitor to the maximum brightness level where the boundary line with black cannot be distinguished for each primary color as a unit, and adjust the reference point. (Step 13).
[0018]
At the time of this adjustment, the chart of FIG. 4 (or charts for R, G, B3 colors corresponding to the chart of FIG. 4) set to the gradation value of the reference point is displayed on the monitor to be adjusted, The brightness of R, G, and B is changed using the adjustment volume of the monitor body, and the brightness of R, G, and B is set to the maximum brightness level at which the boundary between Bk and the primary color charts of R0, G0, and B0 cannot be determined. Each adjustment is made individually (however, the adjustment of R, G, and B is in no particular order).
[0019]
As described in detail above, the present embodiment is simple and quantitative without using a measuring device by visual evaluation of the adjustment chart so that the white balance of the monitor to be adjusted is the same as the white balance of the reference monitor. Can be adjusted.
[0020]
According to the present embodiment, a reference balance value for R, G, and B is set in advance, and each brightness level of R, G, and B is adjusted to the reference value by visual evaluation, so that the monitor white can be easily and quantitatively determined. The balance can be adjusted to a certain level. Therefore, an expensive measuring device or specialized knowledge is not required, and objective color adjustment can be easily and accurately performed.
[0021]
In addition, according to the present embodiment, by determining the reference balance value using the reference monitor, it is possible to easily adjust a monitor of the same model basically having the same electro-optic conversion characteristic (gamma characteristic). it can.
[0022]
In addition, the present embodiment can be used for general users who want to see accurate colors on the Internet or a CD-ROM, or for simple monitor adjustment at a content production site.
[0023]
Next, a second embodiment according to the present invention will be described.
[0024]
In this embodiment, when determining the reference balance value, each primary color of R, G, and B is displayed adjacent to black as a plurality of charts in which pixel values increase stepwise, and a boundary line with black Is substantially the same as that of the first embodiment except that the maximum pixel value of the chart in which is not distinguishable is selected as the reference balance value. Therefore, the operation procedure can also be expressed by the flowchart of FIG.
[0025]
That is, when a reference monitor similarly adjusted to the color temperature D65 is used, a plurality of R1 to Rn charts are displayed on the monitor as Bk (black) and the gradation value gradually increase as shown in FIG. Display the adjacent adjustment chart. In this adjustment chart, assuming that the pixel value of R1 is (R, G, B) = (10, 0, 0), the gradation value of R is increased by, for example, 5 steps to Rn.
[0026]
The maximum balance value (pixel value) of R in which the boundary line with Bk cannot be discriminated is selected from R1 to Rn on the chart in which the gradation value is increased step by step, and the reference balance value is selected. R0 is determined. By the same operation, the maximum pixel values are selected for G and B, and the reference balance values G0 and B0 are determined.
[0027]
The monitor adjustment performed after determining the R, G, and B reference balance values is performed in the same manner as in the first embodiment.
[0028]
Next, a third embodiment according to the present invention will be described.
[0029]
In the present embodiment, as shown in the flowchart in FIG. 6, the pixel value is divided into smaller pixel values between the chart of the maximum pixel value selected in the second embodiment and the chart on the first stage. One or more charts are displayed adjacent to each other, and the maximum pixel value of the chart in which the boundary line with black cannot be distinguished is selected as a reference balance value with higher accuracy, and the same operation is repeated as necessary. (Step 22) Except as described above, this embodiment is substantially the same as the embodiment. The flowchart of FIG. 6 is the same as that of FIG.
[0030]
That is, the reference balance value is set by the same method as in the second embodiment, and the setting is repeated by dividing the set reference balance value and the value one higher than that into finer values.
[0031]
For example, if R2 is set as a reference point in the chart shown in FIG. 5, there are 5 steps (tone values) between this R2 and R3 above it. As shown in FIG. 7, assuming that the luminance value of R01 is the gradation value of R2, (R, G, B) = (15, 0, 0), R02 = (16, 0, 0), R03 = (17, (0, 0),..., A chart in which the gradation value of R is increased step by step up to R0n, and in these charts of R01 to R0n, the boundaries are the same as in the second embodiment. A chart of maximum luminance values that cannot be discriminated is selected, and the value is set as the second reference balance value. The same operation is performed for G and B.
[0032]
Here, since R2 and R3 are not separated by 5 gradation values, an example of subdivision is performed once. However, subdivision with coarser gradation values is performed, and if necessary, the same processing is performed. The setting may be repeatedly performed using a chart in which operations are further subdivided.
[0033]
According to the present embodiment, the accuracy of the reference point can be improved by repeating the setting with a fine step width as described above.
[0034]
The monitor adjustment performed after the determination of the reference balance value is performed in the same manner as in the first embodiment.
[0035]
Next, a fourth embodiment according to the present invention will be described.
[0036]
In this embodiment, after the reference balance value is determined in the third embodiment, when the target monitor is adjusted, R, G, and B primary colors are centered on the reference balance values R0, G0, and B0. As a plurality of charts in which pixel values are changed step by step, they are displayed adjacent to black, the luminance of each primary color of the monitor is continuously increased and decreased, and the boundary line with black is the reference balance value. The first reference level is adjusted to a first brightness level that cannot be determined by the set reference chart but can be determined by the first comparison chart that is one level higher than the reference chart. The basic flow of the operation procedure is the same as the flowchart of FIG.
[0037]
That is, after the reference balance value is determined by the same method as in the third embodiment, when adjusting the monitor, the gradation value is stepped around Bk and the reference balance value R0 as shown in FIG. Adjustment is performed by displaying on the monitor to be adjusted an adjustment chart in which a plurality of R charts that have been changed in a row are adjacent to each other.
[0038]
For example, when the determined reference balance value is R0 = (20, 0, 0), the reference chart set to this value is centered in the direction of R-1, R-2, ... Rn. , R-1 = (15,0,0), R-2 = (10,0,0)..., R gradation value is decreased by 5 steps, R + 1, R + 2,. Also in the direction of R + n, R + 1 = (25,0,0), R + 2 = (30,0,0)... And the chart in which the R gradation value is similarly increased by 5 steps is adjusted. R brightness is displayed at the first brightness level displayed on the target monitor and the boundary between Bk and R0 cannot be determined using the adjustment volume, and the boundary with R1 (first comparison chart) one level higher than R0 can be determined. adjust. For G and B, a chart centered on the respective reference values G0 = (0, 16, 0) and B0 = (0, 0, 32) is displayed and adjusted in the same manner (however, R, G, The adjustment of B is in no particular order).
[0039]
In the present embodiment, the reference balance value may be set by the same method as in the first or second embodiment.
[0040]
Next, a fifth embodiment according to the invention will be described.
[0041]
In this embodiment, after adjusting the monitor to be adjusted to the first luminance level by the method of the fourth embodiment, the pixel value is divided into finer levels between the reference chart and the first comparison chart. One or more charts set in this way are displayed adjacent to black, and each brightness of R, G and B of the monitor is continuously increased and decreased, and the boundary line with black is set with a reference balance value. It is adjusted to a second luminance level that cannot be discriminated with the reference chart, but can be discriminated with the second comparison chart one level higher than the reference chart, and the same operation is repeated as necessary. Therefore, the operation procedure can be represented by the flowchart of FIG. 9, which corresponds to repeating step 34 one or more times.
[0042]
That is, the brightness of the monitor to be adjusted is adjusted by the method of the fourth embodiment, and the adjustment is repeated by dividing the range between R0 and R + 1 of the adjustment chart shown in FIG.
[0043]
For example, in the chart shown in FIG. 8, the gradation value between R0 = (20, 0, 0) and R + 1 = (25, 0, 0), which is one level above, is 5 steps. Therefore, as shown in FIG. 10, in the next stage, R01 + 1 = (22,0) from R01 = (20,0,0) to R01 + 1, R01 + 2,..., R01 + n. , 0), R01 + 2 = (24,0,0)..., A chart with the R gradation value increased by 2 steps is displayed on the adjustment monitor, and the boundary between Bk and R01 can be discriminated. First, the R brightness is adjusted to a second brightness level at which the boundary with R01 + 1 (second reference chart), which is one step higher than R01 (reference chart), can be determined.
[0044]
If there is further necessity, in the next stage, R02 + 1 = (21,0) from R02 = (20,0,0) to R02 + 1, R02 + 2,... R02 + n. , 0), R02 + 2 = (22,0,0),..., A chart in which the R gradation value is increased step by step is displayed on the adjustment monitor, and the boundary between Bk and R02 is discriminated. The R luminance is adjusted to the third luminance level that cannot be determined and the boundary with R02 + 1 that is one step higher than R02 can be determined.
[0045]
Similarly, for G and B, a chart centering on the reference balance values G0 and B0 is displayed on the adjustment monitor, and the adjustment is repeated.
[0046]
According to the present embodiment, the step width is reduced in this way, and the chart is prepared hierarchically according to the required adjustment accuracy, monitor gradation expression performance, etc. Can be adjusted with high accuracy.
[0047]
Although the present invention has been specifically described above, the present invention is not limited to that shown in the above embodiment, and various modifications can be made without departing from the scope of the invention.
[0048]
For example, in the above-described embodiment, the case where each primary color is represented by an 8-bit gradation value is shown, but the present invention is not limited to this.
[0049]
【The invention's effect】
As described above, according to the present invention, it is possible to easily and accurately perform objective color adjustment without requiring an expensive measuring device or specialized knowledge.
[Brief description of the drawings]
FIG. 1 is a diagram for explaining the principle of the present invention. FIG. 2 is another diagram for explaining the principle of the present invention. FIG. 3 is a flowchart showing an outline of an operation procedure according to the first embodiment. 4 is an explanatory diagram illustrating an adjustment chart applied to the first embodiment. FIG. 5 is an explanatory diagram illustrating an adjustment chart applied to the second embodiment. FIG. 6 is a flowchart illustrating an outline of an operation procedure according to the third embodiment. 7 is an explanatory diagram showing an adjustment chart applied to the third embodiment. FIG. 8 is an explanatory diagram showing an adjustment chart applied to the fourth embodiment. FIG. 9 is an outline of an operation procedure of the fifth embodiment. FIG. 10 is an explanatory diagram showing an adjustment chart applied to the fifth embodiment.

Claims (7)

Prepare a reference monitor with adjusted white balance, display the R, G, and B primary colors adjacent to black on the reference monitor, and set the maximum pixel value that cannot distinguish the boundary line with black for each primary color. Is determined as the reference balance value, and
Each primary color set as the reference balance value is displayed adjacent to black on the monitor to be adjusted, and the brightness of each primary color of the monitor is adjusted to the maximum brightness level at which the boundary line with black cannot be distinguished for each primary color. A method for adjusting a monitor. In claim 1,
A monitor adjustment method, wherein when determining the reference balance value, the pixel value of each primary color displayed on the reference monitor is continuously increased and decreased to select the maximum value that cannot distinguish the boundary line with black. In claim 1,
When determining the reference balance value, each primary color is displayed adjacent to each other as a plurality of charts in which pixel values increase stepwise, and the maximum pixel value of the chart in which the boundary line with black cannot be determined is the reference balance value A monitor adjustment method characterized by selecting as In claim 3,
One or more charts divided and set into smaller pixel values are displayed adjacent to black between the selected maximum pixel value chart and the chart one level above, and the boundary line with black is displayed. Select the maximum pixel value of the chart that cannot be determined as the reference balance value with higher accuracy,
A monitor adjustment method characterized by repeating the same operation as necessary. In claim 1,
When adjusting the target monitor, the monitor adjustment method is characterized in that the brightness of each primary color of the monitor is continuously increased and decreased to a maximum brightness level at which a border line with black cannot be distinguished. In claim 1,
When adjusting the target monitor, each of the primary colors is displayed on the monitor as a plurality of charts in which pixel values are changed step by step around the reference balance value, respectively, adjacent to black,
The luminance of each primary color of the monitor is continuously increased or decreased, and the boundary line with black cannot be determined in the reference chart in which the reference balance value is set, and in the first comparison chart one level higher than the reference chart. A monitor adjustment method, wherein each of the brightness levels is adjusted to a distinguishable first luminance level. In claim 6,
After the adjustment to the first luminance level, one or more charts set by dividing the pixel values into finer pixel values are displayed adjacent to black between the reference chart and the first comparison chart. ,
The luminance of each primary color of the target monitor is continuously increased or decreased, and the boundary line with black cannot be determined on the reference chart in which the reference balance value is set,
Adjust each to a second luminance level that can be discriminated in the second comparison chart one level above the reference chart,
A monitor adjustment method characterized by repeating the same operation as necessary.

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