JPH07304161A - Method for determining allowable fluctuation range for controlling or adjusting application of ink in printing press - Google Patents

Abstract

PURPOSE: To provide a process for determining the tolerance of control or regulation of inking automatically on a printing press. CONSTITUTION: The distribution of color coordinates for reproducing a print image in the associated color space is determined using computers 5, 9, and from the type of distribution, assignment is made automatically to one of a plurality of color difference tolerance classes in accordance with preset criteria.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for setting a permissible variation range (tolerance) of inking on a printing medium, which can be used in a multicolor printing machine.

[0002]

2. Description of the Related Art European Patent Specification EP 0 196 431 B1
A method for achieving uniform print results is described. In that way, with different printing inks,
The so-called selected relationship between the ink layer thicknesses or the dot sizes, or both, is kept within the permissible variation range assigned to those relationships. The size of these permissible fluctuation ranges is specified for the defined measuring area and is monitored by the densitometer measurement of the corresponding measuring area printed together. In order to determine the size of the permissible variation range, once selected test prints are produced, the test prints are modified so that their optical appearance is suitable. The selection of the test image is made according to a preset image contrast rating. By measuring the measurement areas printed with the test images on a plurality of marginal test images set by visual selection, a group of permissible variation ranges assigned to each image contrast rating is obtained. The image currently to be printed is then assigned to one of these image contrast ratings, for example by visual comparison with a sample image for which those image contrast ratings have been identified. Thereby, the ink control and adjustment system is set to a numerical value for the permissible variation range of the selected relationship. From the comparison of the actual value with the set value of the selected relationship, the adjustment amount for the ink adjustment element is derived.

This method is more sensitive to human perception in images with low color contrast, such as images with mostly gray surfaces, than in images with high color contrast, such as images of flowering fields. Also takes into account the fact that color deviations of the same magnitude are evaluated more sharply.

This method has a number of drawbacks. First of all, for each image contrast grade to be formed, the test image must be printed with different inkings, which is associated with a certain expenditure of time and cost. In addition, since the evaluation of the test image regarding the determination of the limit sample is performed visually, the evaluation depends on the sense of the individual. In order to limit that individual difference, a set of testers with normal color vision is required. further,
From each of the obtained limit samples of the image contrast grade, the allowable variation range for the measurement area printed together must be determined and stored in the memory, in which case the allowable variation range is thereafter Only applicable to those measurement areas. Furthermore, when publishing and printing,
There is a need for a print control strip that includes a measurement area for which an allowable fluctuation range is required. These permissible variations must be determined and stored for various paper types.
In order to determine the corresponding group of allowable fluctuation ranges,
The image to be printed must be assigned to one of these image contrast grades by visual comparison with the sample image before printing begins. For that purpose, an image sample catalog is necessary. After all, the permissible fluctuation range obtained by this method cannot be used for measurement in the printed image.

[0005]

Starting from the above, it is an object of the present invention to provide a measuring element that is printed together during use, irrespective of the type or color configuration of the measuring location. It is an object of the present invention to provide a method of determining an allowable variation range for controlling or adjusting the inking so as to automatically and reliably determine the allowable variation range that is not necessary.

[0006]

According to the present invention, a computer is used to obtain a distribution of color coordinates for displaying colors of a print image in the color space, and the distribution is performed according to a predetermined standard. It is solved by automatically assigning a printed image to one of a plurality of allowable color distance variation ranges based on the type of the distribution.

In contrast to the prior art methods, the tolerance range is not obtained by visual assignment to an image grade, but automatically based on the color coordinates of the printed image. Since the tolerances are determined for the images, different tolerances are assigned to the individual images on the printing sheet for controlling or adjusting the ink. Further, in contrast to the above-mentioned prior art, since the allowable variation range of the color distance (Farbabstand) is an issue, these allowable variation ranges are independent of the halftone dot value and the number of printing inks involved. The same applies to.

Color coordinates, preferably farbmetrisch
The coordinates can be generated by an image signal generated in the image capturing device directed to the print image. The image capture device can be located inside or outside the printing press. No special measuring elements are necessary.

Color coordinates can also be inherited from process steps that precede the printing process. If RGB data or CMYK data, for example, is not colorimetric data at that stage, it is desirable that these data can be converted into colorimetric data according to a known calculation method.

The calculator can be integrated in a control or adjusting device for inking attached to the printing machine.

For the calculation of the allowable variation range, the color coordinates of the entire print image or a part thereof can be used.

Since the difference in lightness is not substantially important in determining the color contrast of the image, the calculation of the grade of the allowable variation range of the color distance is performed by excluding the colorimetric lightness coordinate. This makes it possible to calculate the type of distribution of colorimetric coordinates within the color plane. This simplifies and speeds up the calculation.

The type of distribution of color coordinates can be calculated for the entire printed image or for smaller areas. In this way, it is possible to calculate a comparatively small image portion having a small color contrast, and to assign the grade of the allowable variation range that matches the portion.

[0014]

EXAMPLES The present invention will be described in more detail with reference to examples.

In a multicolor printing machine, an adjusting or control device 9 is provided for inking. Inking can be adjusted by the method as described in EP 0 228 347 B1.

In adjusting the ink, the allowable variation range of the color distance (color difference represented by the distance in the color space) must be set in advance. The permissible variation range of color distance is
erbung) is within the allowable range. The allowed variation range should be greater than the process-induced variation and less than the variation perceived by the observer of the printed image as perturbation. Whether inking deviations are perceived as disturbances is strongly related to the color contrast of the motif. The smaller the color contrast in the motif, the smaller the tolerance range must be.

In order to automatically calculate a reliable permissible variation range of the color distance of the printing job, an image pickup arranged after the last printing device of the printing press 1, as shown in FIG. By means of the device 2, the printing sheet 3 is detected for each image element. The image element 4 has a size of 0.5 × 0.5 mm ² , for example. For each image element 4, a computer 5, the calculated colorimetric coordinates XYZ is desirably is converted to uniform perceptual color space such as L _ab color space, and, for example, position coordinates u, stored as a function of v To be done.

In the computer 5, the colorimetric chromaticity (Buntheit) coordinates a and b are calculated in order to calculate the allowable variation range of the color distance.
Is also analyzed. For example, the a and b color coordinates determined for the entire print sheet 3 are entered in the ab color table, as shown in FIG. Each point 6 entered represents one measurement. The example of FIG. 2 shows that the image has a slight color contrast and is near the gray or lightness axis L, which stands vertically on the origin of the a ^* , b ^* coordinate axes. This image requires a narrow color distance tolerance range.

FIG. 3 also shows an image with a low color contrast, but this image has a higher chrominance than the image with the color coordinates of FIG. 2 (farbige).
r).

FIG. 4 shows an image having a large color contrast, for which a larger permissible range of color distances is allowed. It can be seen that this display method makes it possible to easily analyze the color contrast.

One method will be described below as a representative of many other methods for computer evaluation.

Colorimetric Cartesian coordinates a and b are determined by the German Industrial Standard.
DIN 5033, Part 3, h to indicate Buntton angle
_It is converted into polar coordinates represented by _ab and c _ab indicating chromaticity (Buntheit). Their frequency H is defined in the histograms of FIGS. The filled curve 7.1
And 7.2 correspond to the printed image of FIG. 3, and the curves 8.1 and 8.
2 corresponds to the print image of FIG. By defining frequency thresholds and specifying bandwidths for h _ab and c _ab , groups of permissible fluctuation ranges are assigned, for example, narrow, medium and wide. It is also possible to simplify the allocation and use only the tone angle h _ab . Because, in effect, the hue angle h _ab is chrominance (farbigkei
t), while chromaticity c _ab is an expression of saturation. To avoid overly sharp quota limits, fuzzy theory methods can be incorporated. Numerical values are stored in memory for groups of permissible ranges of color distances calculated in relation to color contrast.

As an example of a group of allowable variation ranges of the stored color distances, E = 2.0 for a narrow range and E = 3.5 for a medium range.
The wide is described by E = 5.0.

In that case, the calculation and output of the control and setting data is carried out in a known manner by using the control or adjusting device 9.

[Brief description of drawings]

FIG. 1 is a schematic view of an apparatus for determining an allowable variation range of color distance.

FIG. 2a for images with small color contrast
It is a figure which shows a b-color table.

FIG. 3a for images with medium color contrast
It is a figure which shows a b-color table.

FIG. 4a for images with large color contrast
It is a figure which shows a b-color table.

FIG. 5 is a diagram showing a frequency distribution of color tone angles.

FIG. 6 is a diagram showing a frequency distribution of chromaticity.

[Explanation of symbols]

 1 Printer 2 Image Capture Device 3 Sheets 4 Image Elements 5 Computer 6 Points 7.1, 7.2 Curve 8.1, 8.2 Curve 9 Control or Adjustment Device

Claims (4)

[Claims] 1. A method for determining a permissible variation range for controlling or adjusting inking on a printing press, comprising: using a calculator (5, 9), wherein the color coordinates of the color coordinates for reproducing the printed image are A feature is that a distribution in a belonging color space is calculated, and the distribution type is automatically assigned to one of a plurality of color distance permissible fluctuation range grades according to a preset standard. A method of determining an allowable variation range for controlling or adjusting inking in a printing press. 2. A distribution of colorimetric coordinates (L, a ^* , b ^* ) for reproducing a printed image in a uniform perceptual color space (L _ab ) is calculated using a computer (5, 9). The method according to item 1. 3. Color coordinates are obtained from an image signal generated by an image capturing device (2) directed to a print image,
The method of claim 1. 4. The method according to claim 1, wherein the color coordinates are determined from the image data of the process step preceding the printing process.