NL8201204A - METHOD AND APPARATUS FOR CONTROLLING THE CONTRAST IN REPRODUCTION - Google Patents

Description

i ·· D HO / Se / Eskofot 10

Method and device for controlling the contrast during reproduction.

The invention relates to a method for controlling the contrast in reproduction, such as raster reproduction, for example raster reproduction of half-tone images by means of a main exposure and 5. an auxiliary exposure, in which the density in both the lightest and darkest field of the image and therefore the contrast range of the halftone image are first measured by means of a density meter, after which the ratio of the lightest place of the background is chosen to be the strongest light image of the original is measured and the main exposure is adjusted in response thereto and an exposure of a color wedge comprising the grating is performed and the maximum contrast range used is measured, after which the auxiliary exposure is set as a reaction to the contrast and the halftone image grid range, where the percentage of the auxiliary exposure in proportion to the main exposure depending on the contrast range and the halftone image grid range 20 is unambiguously determined according to the formula -η -n ** l0 4 * 10 ^ illumination percentage = - = —- x 100%, -io “B + i after which the halftone image or original can be exposed 2 5, however, the main exposure is adjusted so that the sum of the main exposure and the auxiliary exposure remains substantially unchanged.

Such a method is known from German patent application 2,815,886.

According to the invention, the measurement of the density of both the darkest and the lightest field of the halftone image is performed by scanning the density meter of the halftone image, where 8201204 -2- a memory in the calculation unit has both the highest and the lowest value. of the reflection, ie the transmission, and the desired exposure parameters, such as the exposure flash percentage, are calculated when the scan is finished. In this way, a rapid scanning of a half-tone image is enabled, although the calculations are performed by a relatively slow and inexpensive computing unit, which previously limited the scanning speed.

According to the invention, only one calculation is made after the scanning by means of the largest and the smallest value of the reflection.

According to a favorable embodiment, an analog-digital converter is placed in front of the memory.

The invention also relates to a density meter for performing the method and comprises a photo-diode and at least one amplifier. The density meter is characterized in that the amplifier is coupled to an analog-to-digital converter, the outputs of which feed a memory which retains the lowest reflection value, ie the transmission value, and a memory which retains the highest reflection value, ie the transmission value. determines which both values can be transmitted after a full scan and by means of an operator to a calculation unit, which can calculate the desired exposure parameters, for example the exposure flash percentage.

As a result, a density meter is obtained, which is very fast, for example 20-200 cm / sec. can scan.

.30 The density meter may additionally be arranged to read a code, for example a bar code, on the package of the photosensitive material, and can transmit information therefrom to the computer. A gray-tone field can also serve as a room indicator. The invention will be described with reference to the accompanying drawings, in which

Figure 1 shows a diagram of a density meter for carrying out the method according to the invention 8201204 -3- ^ *, and

Figure 2 shows an example of a barcode. for packaging the photosensitive material.

The method according to the invention is a further development of the method, which is described in German Offenlegungsschrift 3,114,684. According to this publication, the maximum contrast range R (i.e. the contrast range used in the present printing technique) is read and the auxiliary exposure, i.e. 10 flash percentage, is set in response to the

range B of the respective halftone image, since the percentage of the auxiliary exposure proportional to the main exposure depends on the contrast range B and the raster range R of the halftone image according to the formula D

—Io “B + io“ K.

flash percentage = - = —- x 100% +10 "B + l

In this way, the auxiliary exposure can be easily determined in response to the sensitivity of the film and the shape of the frame, using the entire available contrast range and retaining all information during reproduction. The ratio of the strongest background light to the strongest light of the original is measured and both the main and auxiliary exposures are adjusted accordingly. The invention thus shows how this procedure can be performed automatically. Both the exposure value and the shadow value are measured by means of a density meter, either by reflection or transmission, and a voltage can be read in accordance with the difference, for example, by performing a zero adjustment using the strongest exposure. The measurement of the density in both the lightest and darkest field of the halftone image is carried out by scanning the density meter across the image, where a memory 1A, 1B in a calculation unit has both the highest and the smallest reflection value, ie the 8201204 - 4- transmission value, holds and the flash percentage can be calculated by the calculator after scanning. An advantage of this method is that it is faster to perform and can be performed by a visually impaired person. The density meter can scan at a speed of 20-200 cm / sec. One of the reasons why the scan can take place so quickly is that the minimum and maximum values are not read into the calculator until the scan is finished.

The density meter comprises a photodiode, from where the signal is sent to an analog-to-digital converter through one or more amplifiers. The digitized values of the lightest and darkest places are transmitted to the memories 15A1 and 1B, respectively. From these memories, the signals are not transmitted until the scan is finished.

The scanning obviously does not start until the respective exposure means have reached the maximum strength. The density meter can further be set to read a code, possibly a barcode, on the packaging of the relevant photosensitive material and to send information thereof to the computer. For example, the reading of the bar code can be started by three bars, which form a code.

The information can be information regarding the material, the grid and, for example, the shutter.

Fig. 2 shows an example of such a bar code. This code allows 2 = eight different numbers, but can in principle be extended indefinitely.

Parity bits can be added. The gray fields are used as a distance indication.

The computer may consist of an Intel microprocessor, model 8085.

The logarithmic function can be coded in the calculator, thereby avoiding the time delay caused by a noise reduction feedback capacitor. The scanning range must of course be selected 8201204 t * * -5-.

The density meter may be adapted to the code wedge used.

The method and density meter according to the invention can be modified in many ways within the scope of the invention.

8201204

Claims (5)

1. A method of controlling the contrast by reproduction, such as raster reproduction, for example, raster reproduction of halftone images by means of a main exposure and an auxiliary exposure, the density being in both the lightest and darkest field of the image and therefore the contrast range of the halftone image measured first by a density meter, then the ratio of the lightest position of the background to the brightest position of the original is measured and the main exposure in response is adjusted thereto and an exposure of a color wedge including the raster is executed and the maximum contrast range selected is measured, after which the auxiliary exposure, which is set as a response to the contrast and the raster range of the semitone, the percentage of the auxiliary exposure in proportion to the main exposure depending on the contrast range (B ) and the grid range (R) of h The halftone image in an unambiguous way according to the formula -ιο ^^ + ιο "* ^ · 20 flash percentage = - x 100% -10 Ö + 1, after which the halftone image or the original in question can be exposed, but the main exposure is set in such a way, that the sum of the main exposure and the auxiliary exposure remains almost unchanged, characterized in that the density measurement is performed in both the lightest and the darkest field of the half-tone image by scanning the density meter over the half-tone image ,. where a memory (1A, 30 1B) in a computing unit retains both the largest and the smallest reflection value, i.e., the transmission value, and wherein the desired exposure parameters, for example flash percentage, are calculated when the scan is finished. 82 0 1 2 0 4> j ,, -7- Method according to claim 1, characterized by an analog-digital converter (2) for the memory (1A, 1B). Density meter for carrying out the method according to claim 1, comprising a photodiode and at least one amplifier, characterized in that the amplifier (4) is coupled to an analog-to-digital converter (2), the output of which is both a memory (IA) for recording the lowest reflection value, ie 10 the transmission value, as a memory (1B) for recording the highest reflection value, ie the transmission value, which feeds both values after a full scan and by an operator to a calculation unit (5), which can calculate the desired exposure parameters, for example the flash percentage. Density meter according to claim 3, characterized in that the density meter is suitable for reading a code, for example a bar code (fig. 2) 20 on the packaging of the relevant photosensitive material and the information thereof to the calculation unit (5 ) can transmit. Density meter according to claim 4, characterized by a gray-tone field as a distance indication in the code. 8201204