DE3925011A1 - METHOD AND ARRANGEMENT FOR MONITORING THE PRINT QUALITY OF MULTICOLOR PRINTED DOCUMENTS OF AN OFFSET PRINTING MACHINE - Google Patents

Abstract

When it is desired to control the inking of an offset printing machine by continuous monitoring of the printed product and comparison with an ideal product or with the original, the monitoring is effected in raster fashion on image segments and enables determination not only of the effective area coverage for each colour within a segment but also provides an indication of the thickness of each colour ink layer averaged out within each segment from a grey value analysis at much finer resolution. For example, objective 4 is associated with colour-reflectance head 3 to provide the area coverage values for each colour in patch 1; beam splitter 5 co-operates with further beam splitter 6 and filters in front of colour-selective sensors 7; image analysis system 8 controlled by computer 9 provides for scanning to determine the grey values for each colour at about 10 times the resolution of the print raster, and the mean grey values within each segment 1 provide an estimate of the ink layer thickness or intensity for each colour. <IMAGE>

Description

The invention relates to a method and an arrangement for monitoring the print quality in multi-color raster print templates Offset printing machines in connection with the determination of the printed Proportion of primary colors, with small-area segments are selected with the aim of changing the coloring of a Deviation from the target values.

The assessment of the print quality and the regulation of the coloring is usually carried out by densitometric evaluation of a color control strip. This evaluation can be carried out off-line on a static measuring densitometer or on-line using a machine densitometer be made. A disadvantage of this approach is that a color control strip must be printed, what from Format reasons is often not possible and an additional consumption Material means. In the patents EP-01 42 469, EP-01 42 470 and EP-01 43 744 discloses a method and an apparatus for assessment the print quality and to regulate color routing at a Offset printing machine without using a color control strip described. The printed sheet is converted into picture elements of size 0.5 × 0.5 [mm²] to 20 × 20 [mm²] divided and in each picture element the reflectance in four spectral ranges (infrared for black, red for cyan, green for magenta and blue for yellow) measured. The remission values are then determined using the known Neugebauer equations converted into area coverage of the primary colors. By comparing the actual area coverage with the area coverage an OK sheet or those measured on the printing plates Area coverings are derived signals for controlling the coloring. For this purpose, each picture element for each printing ink becomes a weight factor assigned, which indicates the security with which determine the area coverage of this color in this image element leaves. The disadvantage of this method is that only the area is covered is measured to generate a control signal and unspoken it is assumed that all color screen dots are one have a constant color layer thickness. As is known, a change in coloring both the area coverage and the Color layer thickness affected, so that the sole measurement of the area coverage is too imprecise.  

The aim of the invention is to improve the known solutions in such a way that that the accuracy of the assessment of print quality in multi-color printing in offset printing machines without the use of a color control strip is increased directly in the printed image on the moving sheet.

The invention is based, a method and a task Arrangement for monitoring the print quality of multicolored printing templates to specify in offset printing machines, in addition to the known Measurement of the area coverage of the color grid points to increase the Accuracy of the color control to additional print image parameters measure allowed.

According to the invention the object is achieved in that Scanning of digitized color separation images in the spectral ranges Red, green and blue using image analysis methods Color layer thickness of the pure primary color by estimating the gray value the pixels, which is a measure of the size of the absorption represents is determined. For this purpose the measuring segment, in which is used to determine the area coverage, with a Image grids are covered and multispectral recordings are made in the given grid generated. The image is taken with color selective Sensor fields. For this there is a first beam splitter after the lens arranged, which the light remitted by the measuring segment over the Lens broken down into two parts, with the first part becoming one well-known color measuring head for remission measurement for determination of the area coverage reaches, while the second part in one second beam splitter arrives, three of which have corresponding red, Green or blue filters provided light exit surfaces, the color selective Sensor fields are arranged, the outputs of which are sent to an image analysis system are connected. The geometric resolution of the Grid is higher than that of the print grid, so that Raster values are a multiple of the pixel spacing. The gray value resolution depends on the required accuracy of measurement Paint layer thickness. From the color separation images obtained from multiple printing the color layer thickness is determined with the help of image analysis methods estimated. For this purpose, the color separation images first binarized with a first threshold, which the Border between the black color grid dots and the substrate represents. The three resulting binary images become together linked that a pixel in the result image is exactly the Value "1" is given if in the three pictures to be linked the same pixels also have the value "1". The so won  Pixels contain the color black or the same as black Color overlaps. Furthermore, the same color separation images each binarized with a second higher threshold so that it in addition to the pixels of black, pixels of one Include primary chromatic color and its overlaps with the value "1". Finally, in each of these binary images with the second threshold all those pixels have the value "0" that either in the result image of the first link of the binary images with the first threshold or in one of the other two binary images with the second threshold have the value "1". After this Operation point in the three binary images with the second threshold only those pixels that have a value of "1" Primary chromatic color included without color overlaps. The middle one The gray tone of these pixels represents the desired value for the color layer thickness represents.

By comparing the actual color layer thicknesses with the layer thicknesses of an OK sheet can in addition to the color change signals the comparison of the surface coverings further color change signals be generated.

The monitoring of the printing quality is also advantageous on-line immediately after the last color print on the moving sheet, by the duration of the flash lighting the movement speed is adjusted.

The invention is based on an exemplary embodiment of four-color printing with image analysis determination of the ink layer thickness the colored colors gray, magenta and yellow are explained.

Fig. 1 shows the arrangement for monitoring the print quality of multi-colored print templates. In Meßsegment 1 on the substrate web 2, the photo electronic reflectance measurement to determine the degree of surface coverage is carried out in a known manner via the lens 4 with the colorimeter. 3 The measurement signal 1 has a size of 2.5 × 2.5 [mm²]. To determine the color layer thickness of the color halftone dots according to the invention, three color separation images are created from the same measuring segment 1 via beam splitters 5 and 6 , the light exit surfaces of the beam splitter 6 being provided with corresponding red, green and blue filters, using a color-selective sensor field 7 . This sensor 7 is constructed in such a way that a sharp image is generated on the sensor field for each color separation.

The scanning takes place with a geometric resolution of 20 µm / Pixel, d. H. it is about 10 times the screen resolution and a gray value resolution of 64 gray levels.

A flash lamp with standard illuminant C or similar characteristics with a flash duration of 1-5 µs is used for lighting, depending on the speed of the printing sheet of 2-10 m / s. The filtering must take place in the spectral absorption ranges typical for the three chromatic colors. In the ideal case, the transmission curve of the filter corresponds to the absorption curve of the respective chromatic color. The color layer thickness is determined by image-analytical processing of the three color separation images in the image analysis system 8 . This image analysis system 8 is controlled by a 16-bit personal computer 9 . For demonstration purposes, the individual processing steps can be made visible on a color image monitor 10 . In order to be able to analyze the color layer thickness from the image, those pixels must first be determined which are only printed with the colors gray, magenta or yellow and which do not have any overprinting. They are called monochromatic pixels. The mean gray value of these pixels represents the estimated value for the thickness. To explain the algorithm, a few definitions are given first:

Let g _{b be} the set of all pixels of the blue separation. The gray values are assigned to the set elements pg _b .

g _b = [ pg _b (i, j) : i = 1. . . 128, j = 1. . . 128] with pg _b ∈ [0, 1,. . . 63]

The same applies to the quantity g _{a of} the pixels of the green separation and for the quantity g _{r of} the red separation with corresponding values pg _g and pg _r . In four-color printing, the set g ₁ (l b, g, r) consists of 16 subsets of the pixels of the four primary colors, the six secondary colors, the four tertiary colors, the quaternary color and the color w of the printing material, ie

g ₁ = [[ c ], [ y ], [ m ], [ s ], [ cy ], [ cm ], [ cs ], [ ym ], [ ys ], [ ms ]
[ cmy ], [ cms ], [ yms ], [ cys ], [ cmys ], [ w ]]

For example, c is the set of all pixels that only correspond to the color cyan. Digitization effects are not taken into account.

When binarizing a gray-scale image g ₁ with a threshold th _k , the binary set is created

b ₁ = [ pb ₁ (i, j) : i = 1. . . 128, j = 1. . . 128] with pb ₁ ∈ [0, 1] × ∈ [ b, g, r ]

Furthermore, all elements with pb ₁ = 0 are combined to form the subset [ w ], so that all remaining 15 subsets only contain elements pb ₁ = 1. Depending on the choice of the threshold, the subsets will be of different thicknesses or empty.

Finally, the following links are defined: The link b _k + b ₁ of the binary sets b _k and b ₁ gives a set b _v whose elements pb _v (i, j) = 1 if and only if pb _k (i, j) = 1 and pb (i, j) = 1 applies.

The combination b _k - b ₁ of the binary sets b _k or b ₁ yields a set b _v , the elements of which are pb _v (i, j) = 1 if and only if pb _k (i, j) = 1 and pb ₁ (i, j) = 0 applies.

First, those pixels are determined that belong to one of the Subsets of

[ s * ] = [[ s ], [ cs ], [ ms ], [ ys ], [ cms ], [ cys ], [ mys ], [ cmys ]]

belong or have their gray values. For this purpose, the color separation images are g _b, g _g g _r and with the thresholds t _b, t _g or t _r to binarize representing the boundary between the black color dots and the printing material.

The images obtained are b _b , b _g and b _r . The link

b _s = b _b + b _g + b _r supplies the set

b _s = [[ s * ], [ cmy ], [ cm ′ ], [ cy ′ ],

where [ cm ] = [[ cm ′ ], [ cm ″ ]] and [ cy ] = [[ cy ′ ], [ cy ″ ]].

This means that the overlaps of the colors cyan and magenta as well as cyan and yellow partly gray values in the area of the color Deliver black. The cause lies in the non-optimality of the Printing inks.  

In a second step, the gray value images g ₁ (i ∈ [ b, g, r ]) are again binarized with the thresholds t _bmon , t _gmon and t _{rmon in} such a way that applies

b _b ′ = [[ y ], [ s * ], [ cmy ], [ cy ], [ my ], [ cm ′ ]]

b _g ′ = [[ m ], [ s * ], [ cmy ], [ my ], [ cm ], [ cy ′ ]]

b _r ′ = [[ c ], [ s * ], [ cmy ], [ cm ], [ cy ]]

This means that in addition to the subsets of b _s, each binarized color separation image contains only non-empty subsets of a color and their overlaps. Such thresholds t _bmon , t _gmon and t _rmon exist because the filters are adapted to the absorption areas of the respective color. They always have t _bmon t _b , t _gmon t _g and t _rmon t _r . Since the goal is to determine monochromatic pixels and not to determine all monochromatic pixels, the thresholds can always be selected so that the b ₁, (i ∈ [ b, g, r ]) only contain the above subsets. The sought quantities of the monochromatic pixels are calculated accordingly

C = (b _r - b _m ) - ((b _g - b _s + (b _b - b _m )) = [ c ]

M = (b _g - b _m ) - ((b _b - b _s + (b _r - b _m )) = [ m ]

Y = (b _b - b _m ) - ((b _r - b _s + (b _g - b _m )) = [ y ]

Proof:

b _r - b _m = [[ c ], [ cm ″ ], [ cy ″ ]]

b _g - b _s = [[ m ], [ my ], [ cm ″ ]]

b _b - b _s = [[ y ], [ my ], [ cy ″ ]]

It follows:

[[ c ], [ cm ], [ cy ″ ]] - [[ y ], [ m ], [ cy ″ ], [ cm ″ ]] = [ c ] = C

[[ m ], [ my ], [ cm ″ ]] - [[ y ], [ my ], [ cm ″ ], [ cy ″ ]] = [ m ] = M

[[ y ], [ my ], [ cy ″ ]] - [[ c ], [ m ], [ my ], [ cm ″ ], [ cy ″ ]] = [ y ] = Y

The calculation of the mean gray value of these pixel quantities [ c ], [ m ] and [ y ] in the associated color separation images g _r , g _g and g _b provides the desired estimate of the color layer thickness. By comparing the actual ink layer thicknesses of an OK sheet, using the results for surface coverage in block 11, coloring signals 12 are generated.

Reference numerals

1 measuring segment
2 printing dye
3 color measuring head
4 lens
5; 6 beam splitters
7 sensor field
8 image segment system
9 16-bit personal computers
10 color monitor
11 block for generating color change signals
12 color change signals

Claims (5)

1. A method for monitoring the print quality of multicolor raster printing templates of an offset printing machine, characterized in that, in addition to the known determination of the area coverage, the mean color raster dot thickness of the primary colors involved in the printing is determined in the measuring segment by generating digitized color separation images in three spectral ranges from the measuring segment to be checked, the geometric resolution of the screen grid being higher than that of the print screen, and by determining the desired average color screen dot thickness in the measurement segment from these color separation images by determining the average gray value of the purely primary-colored pixels. 2. The method according to claim 1, characterized in that by Comparison of the actual color layer thicknesses with the layer thicknesses of one OK sheet in addition to the color change signals from the comparison the area coverings further color change signals be generated. 3. The method according to claim 1, characterized in that the three color separation images, each with a first threshold, the the border between the black color grid points and the Printing material represents, so binarized that by a combination of the binary images in the event image an image receives the value "1" if and only if in the three too linking images the same pixels as well Have value "1", all pixels are determined, which is the color Contain black or color overlaps similar to black, and that the same color separation images with each second higher thresholds are binarized so that they In addition to the pixels of black, there are also pixels a primary color and its overlaps with the value "1" included, and that eventually in each of these binary images in the second threshold all those pixels have the value "0" get that either in the result image of the first link the binary images of the first threshold or in one of the others both binary images with the second threshold have the value "1", so that only pixels have the value "1", the  contain a pure primary color without color overlaps, whose middle gray tone is the desired value of the ink layer thickness delivers. 4. The method according to claim 1 to 3, characterized in that monitoring print quality online immediately after last color print on the moving sheet is made by the duration the flash lighting the speed of movement of the Bow is adjusted. 5. Arrangement for monitoring the print quality of multicolored raster printing templates for realizing the method according to claim 1 to 4, with lens ( 4 ) and color measuring head ( 3 ) for reflectance measurement to determine the area coverage of a measuring segment ( 1 ), characterized by a first beam splitter ( 5 ) for dividing the light beam from the objective ( 4 ) onto the color measuring head ( 3 ) and a second beam splitter ( 6 ), on each of the three light exit surfaces provided with corresponding red, green and blue filters, a color-selective screened sensor field ( 7 ) for generating color separation images whose outputs are connected to an image analysis system ( 8 ) for determining the mean gray value of the purely primary-colored pixels.