RU49314U1 - COLOR IMAGE ADJUSTMENT DEVICE - Google Patents

Abstract

The utility model relates to the field of data processing for special applications and can be used, in particular, in digital systems for inputting corrections to a color image for correction of its color-structural characteristics, as well as for modeling and research of image correction processes. The required technical result, which consists in expanding the functionality and improving the quality of the generated images (copies) of the original, is achieved in a device containing a control unit, a source image memory unit, an amendment memory unit, a data processing unit and a corrected image memory unit.

Description

The utility model relates to the field of data processing for special applications and can be used, in particular, in digital systems for inputting corrections to a color image to correct its color-structural characteristics, as well as to model and study the image correction process.

A device is known that contains blocks of two types, local controllers connected to these devices, a central controller and a card issuing device [US Patent No. 5225977, cl. G 06 F 15/30].

The disadvantage of this device is the relatively narrow functionality.

Closest to the technical nature of the proposed is an information processing system comprising an information processing device including identifying information elements, an identifying information output means, a comparison means, a selective reception means, and also the first and second data processing means with corresponding connections [RU, 2236703, C2, G 06 F 19 / 00,20.09.2004].

The disadvantage of this device is the relatively narrow functionality, due to the fact that it allows you to process information, but does not allow you to simulate the study and make corrections to the color image to correct its color and structural characteristics.

The required technical result is to expand the functionality and improve the quality of the generated images (copies) of the original.

The required technical result is achieved by the fact that, in the device containing the data processing unit, a control unit, a source image memory unit, an amendment memory unit, the input group of which is combined with the first group of inputs of the data processing unit and connected to the color output of the original image memory unit are inserted, and a corrected image memory unit, the information input of which is connected to the address output of the source image memory unit and the output of the corrected signal of the data processing unit, address ny -soedinen input to the address input of the source image storage unit and a group of outputs of the control unit, and the control input to the clock -soedinen output control unit, wherein, the storage unit outputs correction group connected with the second group of input data processing unit.

The drawing shows: in Fig.1 is a structural diagram of a device for inputting amendments to a color image, in Fig.2 is a control unit.

A device for inputting corrections to a color image (Fig. 1) contains a data processing unit 1, a control unit 2, a source image memory unit 3, an amendment memory unit 4, the input group of which is combined with the first input group of the data processing unit 1 and connected to the color output of the unit 3 of the source image memory, and the corrected image memory unit 5, the information input of which is connected to the address output of the source image memory unit 3 and the output of the corrected signal of the data processing unit 1, the address input is Inonii to the address input unit 3 of the source image memory and a band control unit 2 outputs a control input to the clock output -soedinen control unit 2, the band memory unit 4 outputs amendments connected to the second group of input data processing unit 1.

The control unit 2 (figure 2) contains a clock generator 6 (GTI), the output of which is the clock output of the control unit 1, and a pulse counter 7, the group of information outputs of which is a group of outputs of the control unit 2, the overflow output is connected to the stop input of the GTI 6, and the counting input is connected to the output of the GTI 6.

Blocks 1, 3, 4 and 5 can be made in the form of specialized computing devices, and in the particular case in the form of programmable read-only memory devices (ROM), in which, when reading to each of the given input codes (addresses), the required codes correspond to output. Preset codes are recorded at the same addresses. The following example of the operation of the device is sufficient for their technical implementation (manufacturing, programming). GTI 6 and counter 7 pulses are standard elements of computer technology.

A device for inputting corrections to the color image of the device works.

Previously, the original image (original) is scanned, for example, using a scanner [see, for example, Flatbed scanners. Testing. "Computer Press", 2001, No. 7]. The digital signal of the original is generated at the scanner output, including a plurality (sequence) of interconnected samples of the spatial and color coordinates of the original, forming a vector sample. For a rectangular coordinate system, spatial coordinates are specified by readouts along the X and Y axis, and color coordinates are specified by a color vector. When using a triplet (three-dimensional vector RGB), on each basic digital channel (channel of the corresponding color component), the color level is set, as a rule, in the form of an 8-bit code. Thus, the reference vector is characterized by five components, two of which characterize the spatial coordinate

(spatial vector), and three - color coordinate interrelated with it (color vector).

The sequence of sample vectors is preliminarily recorded in the memory block 3 of the original image, for example, at the serial addresses generated by the control unit 2 on the group of its outputs, with the synchronous supply of a recording permission signal taken, for example, from its clock output.

To determine the correction values, appropriate copy media and dyes are tested. As the initial object during testing, use the test original, i.e. reference image with many standard colors and their shades (which can potentially be used in real originals), i.e. under conditions where the color vectors of the test original are known for each of its spatial coordinates. After receiving the image (copy) of the test original (without introducing color correction) on the appropriate media, the copies determine the colors and shades at the points with the corresponding spatial coordinates. Using color analyzers (color densitometers, spectrophotometers, colorimeters) with a digital output, a color vector is determined for each spatial coordinate of the copy of the test original and the vector value of the color shift introduced by the respective copy medium or ink is determined as the difference in color components on the copy medium and the original selected when testing the copy medium with the test original at points with the same spatial coordinates. The magnitude of the difference in color components gives a color correction for each of the original colors and shades, and, therefore, a correction in each color component of the color coordinate, which must be made to reduce color distortion.

These corrections for potentially used copy or ink carriers are preliminarily entered into the correction memory block 4. As address signals for block 4, a color vector is used. For each of them, the amount of correction that must be made for the respective medium or ink (ink) is recorded.

As an example, consider transferring a copy of the gray color of an original to a medium. For gray halftones, its color vector on the test original corresponded to the vector R132G132B132. The carrier, which was used poorly whitewashed paper, gave at the corresponding spatial point the color vector of the image of the copy of the test original R35G R35G35B35, i.e. shaded gray without distortion of the actual gray color, i.e. without disturbing the balance of colors, which is an essential sign of gray. Therefore, when a color coordinate R35G R35G35B35 was detected in the color coordinate of the original for some of its spatial coordinates, a correction of 40 for each color component was introduced as a result of the experiment. As a result, the color vector of the copy R172G172B172 was formed for the corresponding spatial vector associated with it. These two vectors were combined into a single sample vector, which was used in the input signal of a color printer, which made it possible to obtain a copy (the image of the original on the appropriate medium) practically identical to the original.

The device starts when starting the GTI 6 and resetting the counter 7 pulses, as well as blocks 1 and 5 of the memory, for example, through power circuits, which are non-essential features in the framework of this application and are not shown in the drawing.

The counter 7 performs the counting of pulses, which leads to the formation of a group of outputs of the block 2 control addresses the samples of the source image. These signals are fed to the group of inputs of block 3 of the memory of the original image. As a result, at the address output of block 3

signals are generated that characterize spatial coordinates (spatial vector), and at the color output, color coordinates interconnected with them (color vector).

Next, in the data processing unit 1, the color coordinates of the copy are formed from the color coordinates of the original by summing the components of the color coordinates of the original with the corresponding color-correcting corrections proportional to the differences in the levels of the corresponding color components on the copy medium and the levels of the color components of the original when testing the copy medium with the same color.

The corrected color vector from the group of outputs of block 1 simultaneously with the address vector from the group of outputs of block 3 are fed to the information input of block 5 of the corrected image memory, the address input of which receives a signal from the group of outputs of control block 2, and the control input receives a signal from the clock output of the block 2 controls. Therefore, in block 5, sequentially, at the addresses generated by the control unit 2 and the recording permission signals generated at the clock output of the control unit 2, a complete vector of the corrected image is recorded, each sample of which is characterized by five components, two of which characterize the spatial coordinate (spatial vector ), and three are the color coordinate interconnected with it (color vector).

In accordance with the spatial coordinates and color coordinates of the corrected image, you can print the original image on the appropriate copy medium, such as paper using a color printer. Since the amendments take into account the types of copy media and dye, the image of the original (copy) is formed more efficiently.

Thus, thanks to the operation of introducing color-correcting corrections proportional to the original color coordinates of the original

the difference in color components on the copy medium and on the original, selected when testing the copy medium with a test original at points with the same spatial coordinates, the required technical result is achieved, which consists in expanding the functionality and improving the quality of the generated images (copies) of the original.

Claims (1)

A device for inputting corrections to a color image containing a data processing unit, characterized in that a control unit, a source image memory unit, an amendment memory unit, an input group of which is combined with a first group of inputs of the data processing unit and connected to a color output of the source image memory unit, are inserted, and a corrected image memory unit, the information input of which is connected to the address output of the source image memory unit and the output of the corrected signal of the data processing unit, and esting input - is connected to the address input of the source image storage unit and a group of outputs of the control unit, and a control input - is connected to a clock output of the control unit, wherein the group of the storage unit outputs correction connected to the second group of inputs of the data processing unit.