SE524867C2 - Sample pressure chart and method for producing the same - Google Patents

Abstract

A colour chart for imageable information carriers such as CTP printing plates, photographic film, digital printing processes for a digital output unit or a printing substrate, in which the colour chart is intended to be brought into contact with the imageable information carrier, where the colour chart comprises test regions, with gradually changing tones, where the tones are adjusted such that a certain tonal region is given priority, and a method for the production of such a colour chart. The aim of the invention is to provide a colour chart and a method for the production of such a colour chart that creates the conditions required for improved image reproduction in the final printed work. Images with significant information in dark regions demonstrate in these regions a significantly improved gradation or definition of detail. The colour chart is adapted in this manner to a particular image or type of image (classified according to the region of brightness in which the information for which high definition is required lies).

Description

25 30 35 fi) ".“: ~ ... fr; (L _ this is that the color charts are not used optimally with the result that too few tones are analyzed with relevant values.

Object of the Ugg invention The object of the invention is thus to provide a color map which provides conditions for image-adapted control of the image reproduction so that improved gradation and greater detail sharpness of the produced print product can be achieved and a method for improving the gradation and detail sharpness of the dark image portions. essential information in these lots.

Summary of the invention The above objects are realized by the characterizing parts of claim 1 and Brief Description of the Drawings Fig. 1 shows a diagram in which the tones of a color chart according to a first embodiment of the invention are compared with a traditional color chart.

Fig. 2 shows a diagram in which the tone values of a color map according to a second embodiment of the invention are compared with a traditional color map.

Detailed Description of the Ugg Invention The present invention will be described herein with reference to particular embodiments, but the present invention is not limited thereto but only by the claims.

The object of the invention is thus to provide a color map and a method for producing such a color map which provides conditions for better image reproduction of the printed article. This is done by the color maps being adjusted or adapted to different image types characterized according to which tonal range the relevant information is.

The color map is intended to be used for an imageable data carrier such as a printing plate, printing cylinder or printing press for computer-based printing, so-called Computer to Plate / Press technology, traditional photographic film or a printing substrate. The color chart is also intended for use in digital printing processes for digital printing devices.

Own custom color maps have been produced based on technical and visual analyzes of different image categories. A number of attempts have been made with extreme images that have their information exclusively in dark and light image areas, respectively. Standard color maps have been used to compare with the developed image type-adapted color maps. Sub-results show that the image characterization with the produced color maps analyzes relevant image information more correctly regarding image gradation and detail reproduction. The new image type-adapted color chart helps to preserve details in the shadow area, which gives a more distinct image and more precise conformity with the original. Several images with similar tone distribution have been analyzed with equal results, which shows that there is a repeatability.

In evaluating the resulting printed images, pairwise comparison was used where an image printed using a traditional color chart was compared to an image printed using a color chart according to any embodiment of the invention. The assessment group consisted of 30 people with different knowledge of images and image reproduction and was instructed to look at the gradation of the images. The evaluation took place under controlled conditions with the help of a viewing cabinet with a color temperature of 5000 K where the origin of the images was unknown to the judging group. Images with information in the highlight area (light areas) and midrange images were also proof-printed with an image type-adapted color map. The results have shown that there was no image quality. however, conformity with the original when printed with image type-adapted color chart. Attempts to show a noticeable difference in midton images have thus shown that the optimal image reproduction needs an adaptation to the different image types in order to reproduce the image's information correctly. This adaptation is necessary already when creating the various ICC profiles.

The adjustment or adjustment is made in such a way that instead of letting the color maps' control surfaces reproduce tones in the entire range from 0% (light) to 100% (dark) with substantially even steps as in a color map according to the prior art, they are allowed to concentrate at part of this interval. For images with essential information in the dark areas, it has been shown that a color chart that uses essentially light tones gives a very good result. To let the majority of the color maps' control surfaces have tones in the so-called the quarter tones, i.e. in the lighter range, has been found to give a particularly good detail in especially the dark parts of images of this type. The tones are a mixture of cyan, magenta, yellow and black (CMYK). Figure 1 shows a diagram where the difference between an existing color map and the curve described above is illustrated. In this case, the tonal values of the control surfaces are evenly distributed within the range. On the x-axis the values of the various control surfaces are indicated and on the y-axis the values. The tones of the existing color map are substantially in line with a slope coefficient (k) of 1, while the curve of the prototype map is also linear with a slope coefficient of 0.4. The interior of the prototype has thus created more space for exteriors, which means that the representation of the dark parts has been given more space and through this a greater richness of detail. In this way, the image map has been adapted to the image type.

The color map is thus adapted to the type of parts, light to dark, the important information in the image.

A further embodiment of the prototype has also been tested and is illustrated in Figure 2 compared to a traditional color chart. The principle has been the same as in the embodiment according to Fig. 1 with the quarter tones. The only difference is that parts of three-quarter tones, i.e. values in the darker range have been added.

Another embodiment has been tested. The tonal values in this prototype lie on a curved curve where the increase in the external values is smaller for the first control surfaces and then gradually increases towards higher degrees of saturation. This embodiment of the invention has proven to be particularly effective in reproducing particularly extreme so-called night images, i.e. images where the essential information lies in the extremely dark parts of the image.

The method according to the present invention is thus most useful in printing images where the essential information lies in the dark parts of the image. However, it has been found that the light portions do not deteriorate in reproduction with the adaptation method, which is why so-called earth images (color-saturated images with important image information in both light and dark portions) are also improved.

Since the method has primarily been tested for sheet printing (glossy paper), it is likely that the positive effect achieved will be even greater and clearer on simpler papers such as printing on uncoated paper, newsprint. In a future where it is possible with an automated process to classify the images according to image types as above, it is reasonable to assume that adaptation of the color map is a step in this process and can be further refined.

K: \ Patent \ 1100- \ l l008 \ l l0087600SE \ 040330besk.d0c

Claims (5)

10 15 f 'Vi r f 3 .fx C 3 CW Q Patent Claims Image-adapted color chart with control surfaces, for images that have essential information in the dark image areas, for improving gradation and detail sharpness of the dark image areas, which color map is used in image reproduction in the creation of ICC profiles, characterized in that the color map control surfaces consist mainly of light tones of the tone range. Color chart according to claim 1, in which the successive change of the tone values of the control surfaces is constant. Color chart according to claim 1, in which the successive change of the tone values of the control surfaces is small at the beginning of the tone range and then increases. A color map according to claim 1, in which the successive change of the tone values of the control surfaces during a first part of the tone range is constant with a value, to be constant with a second higher value during a second part of the tone range. Method for improving the gradation and sharpness of detail of the dark image portions for images having essential information in the dark image portions, characterized in that a color map according to any one of claims 1-4 is used in image reproduction in the creation of ICC profiles. K: \ Patent \ 1 l00- \ l lOO8 \ l 10087600SE \ 040330besk.d0c