SU748910A1 - Tv analyzer of picture color composition - Google Patents

Description

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 The invention relates to television and can be used to automate television measurements.

A 5-color image composition analyzer is known, containing a color television signal sensor, the first three outputs of which are connected to the corresponding three inputs of the first color video monitoring camera, the output of the control unit connected to the fourth input of the luminous mark reference voltage and coordinate divider, the output of which is connected to the information input of the key unit, the control input of which is connected to the output of the generator and the aperture signal, and the output is connected 20 to the first input of the adder, to the second and third inputs of which the outputs of the first and second inverters are connected, while the output of the atome is connected to the input of the blue color separated 25 image signal of the second color video monitor, and the inputs of the green and red color separation signals second color video control unit connection 30

respectively with the inputs of the first and second or other inverters.

However, the known analyzer allows for analysis in an automatic mode, which leads to a decrease in the accuracy of analysis of the color composition of the image.

The aim of the invention is to improve the accuracy of the analysis of the color composition of the image by comparing the signals with the reference region of reproducible colors in the automatic mode.

For this purpose, a tracking unit of comparison is entered into the television analyzer of color composition of images, each channel of which contains an input switch, and the switch output is connected to the first input of the peak detector, the output of which is connected to the first input of the comparison block, in addition, a reset pulse shaper, logical mapping unit, main memory unit, first and second: linearly varying voltage generators, with the inputs of the first and second generator linearly varying voltage is connected to the output of the key block, the output of the first generator ipa of the linearly varying voltage is connected to the inputs of the first inverter and the input of the green color-separated image signal of the second color video monitor, the output of the second generator of the linearly variable voltage is connected to the inputs of the second inverter and the red input of the color separation of the image of the second color video monitor unit, and the first inputs of the switches of each channel are connected respectively to the fourth, fifth and sixth that is, the second inputs of the switches are connected to each other and to the output of the control unit, and the outputs of the comparison unit of each channel are connected to the corresponding three inputs of the logical matching unit, the output of which is connected to the fourth input of the second color the video monitoring unit, and, through the reset pulse shaper, is connected to the second inputs of the peak detectors of all channels of the three-channel comparison unit, the second inputs of the comparison units audio of each channel are connected to respective inputs of the second color video control unit.

The drawing shows the structural electrical circuit of the proposed analyzer.

The television image color image analyzer contains the source of the voltage reference 1, the integral divider 2, the key unit 3, the diaphragm signal generator 4, the adder 5, the first and second bi generator 7 of linearly varying voltage, the first and second inverters 8 and 9 ; the first color video monitoring unit (TsVKB) 10, the sensor 11 of color television signals (DTSTS), the second TsVKB 12, a three-channel comparison unit 13, each channel of which contains a switch 14, a peak detector 15 and a comparison unit 16, operating memory unit 17 form ovatel reset pulse 18, the control unit 19, logic unit 20 matching.

Television analyzer works as follows.

The operation of the analyzer is based on comparing the color-separated signals of the image under study with three reference signals simulating the plane of a constant module.

The formation of reference signals is performed as follows.

The potential regulated by the coordinate divider 2 from the output of the reference voltage 1 of the reference voltage appears in the channels of the formation of the balancing signals through the key block 3, which is controlled by pulses from the output of the fan 4. These pulses set the size and location of the color plane model triggered in this field space. The rectangular pulses, whose amplitude is determined by the transfer ratio of the coordinate divider 2 and the duration and quantity by the size of the electron diaphragm, control the operation of generators b and 7 in such a way that linearly increasing sawtooth pulses are generated at the output of the first generator b (green channel) positive polarity frequencies whose amplitude is equal to the amplitude of rectangular pulses arriving at its input. The magnitude of this signal at each moment of time determines the abscissa of chromaticity of an elementary section of the plane model in the color space formed on the screen

20, a second generator 7 (red channel) forms a linearly falling sawtooth reference signal of a frame frequency of positive polarity, the amplitude of which is also determined

25 amplitude input rectangular pulses, i.e. coordinate divider 2, and is equal to the amplitude of the sawtooth im-. pulses of the red channel, and its value determines the ordinate of the chromaticity of the elementary part of the planar model of the color space. Reference

The blue channel signal is generated at the output of the adder 5 by adding the color module signal from the output of the key block 3 to the inverted

5 using inverters 8 and 9 output signals of the red and green channels. Thus, reference signals of the color triangle with

0 is a constant value of the total signal that determines the position of the plane formed in the color space.

Then there is the processing of color5 divided video signals.

The DTSTS 11 forms the color-separated video signals of the color image under study. The visual control of this image and the position of the gating marker formed by the control unit 19 is carried out by TsVKB 10. The control unit 19, together with the switches 14 of the comparison unit 13, makes it possible to read the color information of the elements of the analyzed image with the field frequency in each field the outputs of the switches 14 receives pulses, the amplitude of which coincides with the size of the input color separated video signals

0 at the time of formation of the gating marker. These pulses are converted by peak detectors 15 to direct voltages, the magnitude of which coincides with the amplitude of the corresponding pulses.

Claims (1)

5 And is proportional to the color coordinates of the image element selected in this field. At the time of pair-wise coincidence of constant voltages and reference signals detected by comparison blocks 16, the output of block 20 forms an impulse recorded in block 17, which ensures the regeneration of this pulse of subsequent decomposition fields. The location of this pulse on the TV screen is uniquely consistent with the color of the element selected in the image recorded on the screen of TsVKB 10. At the moment coinciding with the front of this pulse, the former 18 discharges peak detectors 15, and the analyzer stops with the color of the next image element prepared for analysis. As the element is traversed by the element With the frequency of the fields of the analyzed image on the screen of CVCB 12 automatic-. A cross section of the body defined by the coordinate divider 2 is formed. Since, if the sum of the constant voltages at the outputs of the peak detectors 15, proportional to the color module of the element analyzed in this field, is not equal to the sum of the reference signals, the pulse at the output of block 20 is not formed, which indicates that the center of the point specified by the coordinate divider 2 does not intersect that analyzed element. Proposed television; The image color composition analyzer is characterized by automating the measurement of color content within the selected image fragment of arbitrary shape, the consistency of the display of the results of the analysis of the color composition, the high compression ratio of color information due to the graphical display of data, the ability to display and measure the color parameters characterizing the dynamics of the processes. The invention The television analyzer of a color image composition comprising a color television signal sensor, the first three outputs of which are connected, with the corresponding three inputs of the first color video monitor unit to the fourth playback input of the luminous mark of which is connected to the stroke of the control unit, connected to the reference voltage source and coordinate the divider whose output is connected to the information input of the key unit, the control input of which is connected to the output of the generator ora aperture signal, and an output connected to a first input of an adder, to the second and third inputs of which are connected the outputs of inverters pervogoi btoroto, wherein the combiner output is connected to an input blue tsyeTbdolo noTb sygnala yzobrazhoni. The second color video monitoring unit and the green and red color separation image inputs of the second color video monitoring unit are connected respectively to the first and second inverter inputs, characterized in that, in order to improve the accuracy of image color composition analysis by comparing the signals with the reference reproduced color area in automatic mode , additionally introduced a three-channel comparison unit, each of the channels of which contains an input switch and the output The PBD switch is connected to the first input of the peak detector, the output of which is connected to the first input of the comparison unit, in addition, a shaper of reset pulses, a logic mapping unit, a RAM unit, the first and second generators of linear voltage, and the first and second generator linearly varying by the voltage of the unit is connected to the output of the key block, the output of the first generator is connected to the inputs of the first inverter and the input of the green color-dependent signal images of the second color monitor unit, the output of the second generator of linearly varying voltage is connected to the inputs of the second inverter and the input of the red color-separated image signal of the second color video monitor unit, and the first inputs of the switches of each channel are connected to the fourth, fifth and sixth outputs of the color television sensor respectively signals, while the second inputs of the switches are interconnected and with the output of the control unit, and the outputs of the comparison unit of each of the channels are connected with the corresponding three inputs of the logical mapping unit, the output of which is connected via the memory unit to the fourth input of the second color station of the video monitoring unit, and through the reset pulse shaper connected to the second inputs of the peak detectors of all channels of the three-channel unit — a comparison, the second inputs of the comparison unit of each of channels are connected to the corresponding inputs of the second color video monitoring unit. Sources of information taken into account in the examination 1. Khesin A. Ya. Automatic analysis of the quality of the TV image. Riga, Zinati 1969, fig. 2-16 (prototype).