JPH11160152A - Color calibrating chart, color calibrating method with this chart and image output device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To calibrate the color of an image output device recording an image on a photosensitive material with high accuracy. SOLUTION: This color calibrating chart 1 used for color calibration is constituted of patches of 9×9×9=729 colors of R1-R9, G1-G9, B1-B9 divided with the densities of three primary colors R, G, B of the input signal to an image output device into nine stages respectively. The patches R1-R9 are arranged in 3×3 as reference solids, and G1-G9 and B1-B9 are gradually arranged on R1-R9 according to densities. The patches R1-R9, G1-G9, B1-B9 are arranged so that the maximum value of the difference of the logarithmic luminous exposure between the adjacent patches becomes 1.0 or below.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color calibration chart used for color calibration of an image output device such as a printer, a color calibration method for performing color calibration using the chart, and an image output device.

[0002]

2. Description of the Related Art As a color calibration method of an image output device for outputting an image such as a printer, a predetermined color calibration chart is output to a film or print by an image output device, and the output result is recorded by a scanner or the like. In general, color calibration is performed by performing color matching using input values and output values of a color calibration chart for an apparatus. As a color calibration chart used for color calibration of such an image output device, the simplest one is a gray step chart in which a plurality of patches having different densities are arranged stepwise according to the density, When higher accuracy is required, a three-dimensional color chart is used in which a plurality of patches obtained by combining the exposure amounts of the three colors RGB are arranged stepwise according to the density. For example, Light Jet 2000 of CYMBOLIC SCIENCES has a calibration function as color management, and a color calibration chart is used to perform this calibration, that is, color calibration. An image representing such a color calibration chart is output from an image output device, and the output image is recorded and digitized by a scanner or the like, and the output digital value and a color stored in advance in the image output device as digital data. By performing color matching (color matching) based on the relationship with the input values of the calibration chart, color calibration (calibration) of the image output device is performed.

[0003]

However, there is always a measurement error between the output of the image representing the color calibration chart by the image output device and the measurement, and the output error also occurs in the calibrated output device due to this error. It will exist. For example, in an image recording apparatus that records an image on a photographic photosensitive material, it has been known that the following two factors greatly contribute to error factors. One is light bleed during exposure of the color calibration chart. In the case of a negative photosensitive material such as a color film or color paper, a portion where a high density portion and a low density portion of a patch are adjacent to each other in the color calibration chart. In the above, the light in the high-density portion bleeds into the low-density portion, and this affected the calibration result as flare light. In addition,
In a positive photosensitive material such as a color reversal film, the relationship between the high density portion and the low density portion is reversed, but the problem of flare light has also occurred. The second error factor is an error of the photographic material itself, which is caused by a manufacturing error of the photographic material itself, a variation in development processing, and the like. Because of these error factors, there is always an error in the color calibration of the image output device, and it has been difficult to perform highly accurate color calibration.

The present invention has been made in view of the above circumstances, and a color calibration chart capable of performing color calibration of an image output device with high accuracy, a color calibration method using the color calibration chart, and an image output device. The purpose is to provide.

[0005]

A color calibration chart according to the present invention has a relationship between input values and output values of an image output device in which patches of a plurality of colors are arranged stepwise according to density. In the color calibration chart for performing color matching of the image output device based on the following, the maximum value of the difference of the logarithmic exposure amount between the patches adjacent to each other is within 1.0. .

Here, "arranging patches stepwise according to the density" means arranging patches of a plurality of colors so that the density gradually increases or decreases. . The “logarithmic exposure amount” refers to a logarithmic value of the exposure amount when the color calibration chart is exposed.

In the color calibration chart according to the present invention, patches of the three primary colors, which are most likely to cause flare in the image output device, are arranged as solid patches in a stepwise manner in accordance with the density. It is preferable that patches of the other two colors are arranged stepwise according to the density.

[0008] Here, the "solid patch" refers to a patch of a color serving as a base of the color calibration chart.

Further, the first color calibration method according to the present invention uses the color calibration chart according to the present invention, and outputs an image representing the color calibration chart from the image output device, and outputs the image. Obtaining an output value from the image output device by optically reading, and performing color matching of the image output device based on a relationship between an input value to the image output device and the output value. is there.

Here, the input value to the image output device means a digital value representing each color of the patch included in the color calibration chart, and a combination of the digital values is calculated in advance by a computer. It is required.

[0011] A second color calibration method according to the present invention comprises:
A plurality of color calibration charts according to the present invention are used, a plurality of images representing the color calibration charts are output from the image output device, and the respective images are optically read to obtain a plurality of images from the image output device. And the color matching of the image output device is performed based on the relationship between the input value to the image output device and the representative value of each output value.

Here, the "representative value" means a value such as an average value, a median value, an average value excluding a maximum value and a minimum value of a plurality of output values, and the like. However, the present invention is not limited to this.

Further, a first image output device according to the present invention is an image output device having color matching means for performing color matching using the color calibration chart according to the present invention, wherein an image representing the color calibration chart is provided. And an optical reading unit that optically reads an image representing the color calibration chart and obtains an output value from the image output device, wherein the color matching unit outputs the color calibration chart to the image output device. Means for performing color matching based on the relationship between the input value and the output value.

A second image output apparatus according to the present invention is an image output apparatus having color matching means for performing color matching using the color calibration chart according to the present invention. Output means for outputting an image representing the image, and optical reading means for optically reading a plurality of images representing the respective color calibration charts to obtain a plurality of output values from the image output device. , Means for performing color matching based on a relationship between an input value to the image output device and a representative value of each of the output values.

In the image output device according to the present invention, a method of outputting one color calibration chart and a method of outputting a plurality of color calibration charts may be selectable.

[0016]

According to the color calibration chart of the present invention, the maximum value of the difference in log exposure between adjacent patches is set to 1.0.
Since the density is set within the range, the density difference between the patches becomes small, thereby preventing the occurrence of flare light due to light bleeding between the patches during reading by the image output device. Therefore, by performing the color calibration of the image output device using the color calibration chart according to the present invention,
High-precision calibration that is not affected by flare light can be performed.

Further, the color calibration chart is provided in a stepwise manner in accordance with the density as a solid patch of a color of the three primary colors which is most likely to cause flare in the image output device,
By arranging the other two-color patches on this solid patch in a stepwise manner in accordance with the density, it is possible to reduce the influence of flare light caused by the image output device, and thereby to achieve higher precision. Color calibration can be performed.

Further, by using a plurality of color calibration charts according to the present invention, color matching is performed based on the relationship between the input value of each color calibration chart and the representative value of a plurality of output values by the image output device. For example, in an image recording apparatus that records an image on a photographic photosensitive material, the influence of a manufacturing error of the photosensitive material, a variation in the development processing, and the like can be reduced, and thereby a more accurate color calibration can be performed.

[0019]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a diagram showing a color calibration chart according to an embodiment of the present invention. As shown in FIG. 1, a color calibration chart 1 according to an embodiment of the present invention includes input signals to an image output device divided into nine stages, R1 to R9 and G1.
To G9, B1 to B9, and 9 × 9 × 9 = 729 color patches, and the patches R1 to R9 are set to 3 ×
3 and G1 to G9 and B1 to B9 are arranged stepwise on the patches R1 to R9 in accordance with the density. Here, each of the patches R1 to R9, G1 to G9, B1 to
B9 is disposed such that the maximum value of the difference in log exposure amount between adjacent patches is 1.0 or less. Also, R1 to R
9, G1 to G9 and B1 to B9 have a relationship of R1 <R2
<... <R9, G1 <G2 <... <G9, B1 <B2 <... B
9, R1, G1, and B1 are the smallest values. In the present embodiment, R1 to R9, G1 to
The relationship of G9, B1 to B9 is reversed, ie, R1, G1, B
1 may be the largest value. Further, patches R1 to
The reason why R9 is solid is that flare light of the R color appears most in the image output device, so that a calibration error due to the flare light is minimized. Note that, since flare light of another G or B color may appear most depending on the device, it is preferable to change the color of the solid patch according to the device.

Here, the color calibration chart 1 is input to an image output device as a chart file in advance. This chart file is obtained by generating a combination of digital values in a computer. For example, if the input signal value takes a value of 8 bits (0-255) for each color,
When each color is divided into three stages, the following 27 combinations of input signals are available.

[0022] FIG. 2 is a block diagram showing the configuration of the image output device according to the embodiment of the present invention. As shown in FIG. 2, the image output device according to the embodiment of the present invention includes an output unit 2 for outputting a color calibration chart 1 based on the input value 4 described above,
A color is read using an optical reading unit 3 such as a scanner or a colorimeter that obtains a digital output value 5 representing the color calibration chart 1 by photoelectrically reading the color calibration chart 1, and an output value 5 and an input value 4. Color matching means 6 for performing matching. Then, the relationship between the input value 4 and the output value 5 is used as a three-dimensional table. For example, in the case of a digital film recorder, this three-dimensional table associates the color density of a photosensitive material such as a color reversal film with an 8-bit input signal of each color.

Next, the operation of this embodiment will be described. First, an image representing the color calibration chart 1 is output from the output means 2 to a film based on the input value 4. On this occasion,
The output size can be read by the optical reading means 3. Next, the image representing the color calibration chart 1 output on the film is read by the optical reading means 3 to obtain an output value 5. The obtained output value 5 is input to the color matching means 6, where the image size, rotation, horizontal distortion, vertical distortion, etc. are corrected as preparation for color matching, and then color matching is performed based on the relationship with the input value 4. Is performed. More specifically, color matching is performed by creating a three-dimensional color match table representing the relationship between the input value 4 and the output value 5. The created color match table is stored in the image output device, and an image is output from the image output device with reference to the color match table.

Here, in the color calibration chart 1 used in the present embodiment, since the maximum value of the logarithmic exposure difference between adjacent patches is within 1.0, the density difference between the patches This reduces the occurrence of flare light due to light bleeding between patches during reading by the image output device. Therefore, by performing the color calibration of the image output device using the color calibration chart according to the present embodiment, it is possible to perform high-precision calibration that is not affected by flare light.

As shown in FIG. 1, the color calibration chart includes R patches R1 to R9 of the three primary colors R, G, and B, which are the colors most likely to cause flare in the image output device.
Are arranged in a stepwise manner in accordance with the density, and patches G1 to G9 and B1 to B9 of other two colors are arranged on the patches R1 to R9.
By arranging 9 stepwise in accordance with the density, it is possible to reduce the influence of the flare light caused by the image output device, and thus it is possible to perform more accurate color calibration.

Next, a specific example of the present invention will be described below as a first embodiment.

As shown in FIG. 1, the input signals R, G, and B are each divided into nine, and 9 × 9 × 9 = 729 color calibration charts 1 (R1 to R9, G1 to G9, and B1 to B9 are input signal R, G, and B divided into nine steps) were recorded on a reversal film PROVIA100 manufactured by Fuji Photo Film Co., Ltd.
On the other hand, for comparison, as shown in FIG.
In R9, G1 to G9, and B1 to B9, there is a portion where the maximum value of the logarithmic exposure difference between adjacent patches exceeds 1.0 (an arrangement in which the maximum exposure portion and the minimum exposure portion are adjacent, for example, The color calibration chart 10 (where B1 and B9 are adjacent to each other) was similarly recorded on a reversal film PROVIA100 manufactured by Fuji Photo Film Co., Ltd. Manage as an image output device
ment Graphics using Solitaire16D, and PROVIA
100, and SG-1000 manufactured by Dainippon Screen Co., Ltd. was used as an optical reading means. In addition, an image in which ColorChecker (Macbeth Chart (registered trademark)) manufactured by GretagMacbeth Co., Ltd. was recorded on the PROVIA100 as the reference image, and this reference image was copied using an image output device after color calibration to improve the accuracy of color calibration. evaluated.

As an evaluation method, each patch of the duplicated reference image is subjected to spectral colorimetry using a color analyzer TC-1800M manufactured by Tokyo Denshoku Co., Ltd., and the CIE1976 is compared with the original reference image.
Based on the colorimetric values defined in the L ^* a ^* b ^* space, the light source is a high color rendering fluorescent lamp (F8) defined in JISZ8719.
And the average value of the color difference ΔEab was calculated by the following equation (1) and evaluated.

[0029] ^{ΔEab = ((ΔL *) 2} + (Δa *) 2 + (Δb *) 2) 1/2 ΔL * = ΔL1 * -ΔL2 * Δa * = Δa1 * -Δa2 * (1) Δb * = Δb1 ^* −Δb2 ^*, where L1 ^* , a1 ^* , b1 ^* : input colorimetric values of Macbeth chart L2 ^* , a2 ^* , b2 ^* : output colorimetric values of Macbeth chart As a result, according to the color calibration chart 10 of the comparative example ΔEab = 3.17 when calibrated, ΔEab = 2.82 when calibrated with the color calibration chart 1,
It was confirmed that the color calibration chart 1 according to the present invention had higher color calibration accuracy.

In the above-described embodiment, the color calibration of the image output device 4 is performed by using one color calibration chart 1. However, a plurality of color calibration charts 1 are output and the image output device 4 is output. The color calibration of the image output device may be performed using the median value of the output values of the image output from. In this case, in addition to the median, various values such as an average, an average of values excluding the maximum and the minimum, and the like can be used.

As described above, by outputting a plurality of color calibration charts 1 and performing color matching using the input value to the image output device and the median of the plurality of output values, an image is recorded on a photographic photosensitive material, for example. In such an image recording apparatus, the influence of manufacturing errors of the photosensitive material, fluctuations in the development processing, and the like can be reduced, thereby enabling more accurate color calibration.

A specific example in which color calibration is performed using the plurality of color calibration charts 1 will be described below as a second embodiment. In Example 2, the same color calibration chart 1, image output device, optical reading means, and evaluation method as those in Example 1 were used.

In the second embodiment, the color calibration chart 1
Were output, and the color calibration of the image output device was performed using the median of the colorimetric values of these four color calibration charts 1 (the average value of the two middle values) and the input values. Equation (1) above
Results in ΔEab = 2.68, which confirms that the color calibration was performed with higher accuracy than the evaluation result ΔEab = 2.82 when color calibration was performed using one color calibration chart 1. Was done.

In the above-described embodiment, the color calibration chart in which the density of each color of RGB is divided into nine levels has been described. However, the number of divisions is not limited to this. Can be done.

[Brief description of the drawings]

FIG. 1 is a diagram showing a color calibration chart according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of an image output device according to an embodiment of the present invention.

FIG. 3 is a diagram showing a color calibration chart of a comparative example.

[Explanation of symbols]

 1 color calibration chart 2 output means 3 optical reading means 4 input value 5 output value 6 color matching means

 ──────────────────────────────────────────────────続 き Continued on front page (72) Inventor Makoto Machida 210 Nakanuma, Minamiashigara-shi, Kanagawa Prefecture Fuji Photo Film Co., Ltd.

Claims (6)

[Claims] 1. An image output apparatus comprising: a plurality of color patches arranged in a stepwise manner in accordance with a density; and performing color matching of the image output apparatus based on a relationship between an input value and an output value. 3. The color calibration chart according to claim 1, wherein a maximum value of a difference between logarithmic exposure amounts between the adjacent patches is within 1.0. 2. A patch of a color which is most likely to cause flare in the image output device among the three primary colors is arranged stepwise as a solid patch according to the density, and patches of the other two colors are arranged on the solid patch in a density. 2. The color calibration chart according to claim 1, wherein the color calibration chart is arranged in a stepwise manner. 3. A color calibration method using the color calibration chart according to claim 1 or 2, wherein an image representing the color calibration chart is output from the image output device, and the image is optically read. An output value from the image output device, and performing color matching of the image output device based on a relationship between an input value to the image output device and the output value. 4. A color calibration method using the color calibration chart according to claim 1 or 2, wherein a plurality of images representing the color calibration chart are output from the image output device, and each image is optically converted. Reading a plurality of output values from the image output device, and performing color matching of the image output device based on a relationship between an input value to the image output device and a representative value of each of the output values. Characteristic color calibration method. 5. An image output device having a color matching unit that performs color matching using the color calibration chart according to claim 1 or 2, wherein: an output unit that outputs an image representing the color calibration chart. Optical reading means for optically reading an image representing the color calibration chart to obtain an output value from the image output device, wherein the color matching means comprises an input value to the image output device and the output value. An image output device that performs color matching based on the relationship between 6. An image output device having a color matching unit for performing color matching using the color calibration chart according to claim 1 or 2, wherein the output unit outputs an image representing a plurality of the color calibration charts. And optical reading means for optically reading a plurality of images representing the respective color calibration charts to obtain a plurality of output values from the image output device, wherein the color matching means A color calibration device for performing color matching based on a relationship between an input value and a representative value of each of the output values.