SU642882A1 - Television colorimeter - Google Patents

Description

I

The invention relates to television technology, in particular to television devices for measuring the color of image fragments.

Izvesti television colorimeter containing an optical projector of the image under study, installed in front of a color transmitting camera with the first, second, third, fourth and fifth outputs of a color transmitting camera, respectively, connected to the first input of the first electronic key, to the first input of the second electronic key, to the first input the third electronic key to the first and second inputs of the pulse generator, the output of which through the element AND is connected to the second inputs of the first, second and third electronic keys, the outputs of which are connected respectively to the first, second and third inputs in the unit and via a serially connected discrete raster meter and a chromaticity coordinate meter to the input of the digital recorder.

However, the well-known TV-life colorimeter has limited possibilities for colorimetric measurements of objects of complex shape.

The aim of the invention is to measure the chromaticity of fragments of an image of a complex shape.

For this is a television colorimeter,

containing the optical projector of the image under investigation, installed in front of the target of the color transmitting camera, first, second, third, fourth and fifth outputs of the color transmitting chamber are connected to the first input of the first electronic key, to the first input of the second electronic key , to the first and second inputs of the pulse generator, the output of which is through the element And is connected to the second inputs of the first, second and third electronic keys, the outputs of which are connected Nena sootvetstveino to first, second and third inputs of the video control unit and through iogo follower vklyucheinye discrete raster meter and meter koordiiat color rH - to the input of a digital recorder, introduced sigiala reference level generator, and two threshold unit actuated fiksatopa breaker failure protection.

the fifth and sixth outputs of the color transmitting chamber, respectively, are connected to the first and second inputs of the levels controlled by the latch, the output of one of them is directly, and the other is connected to the first and second inputs of the threshold unit through the signal level reference signal generator, respectively. the input element I. The drawing shows the structural electrical scheme of the colorimeter.

The television colorimeter contains an optical projector 1 of the image under investigation, installed in front of the target of the color transmitting camera 2, the first, second, third, fourth and fifth outputs of the color transmitting camera 2 being connected to the first input of the first electronic switch 3, to the first input of the second electronic switch 4, to the first input of the third electronic key 5, to the first and second inputs of the pulse shaper 6, respectively, the output of which through the element 7 is connected to the second inputs of the first 3, second 4 and third 5 electro these keys, the outputs of which are connected respectively to the first, second and third inputs of the video monitoring unit 8 and through the sequentially connected meter 9 of the dusk raster and meter 10 chromaticity coordinates - to the input of the digital recorder i 1, the driver 12 of the reference level signal, the threshold unit 13 and two controls 14 and 15 level locks, with the fifth and secondary outputs of the color transmitting chamber 2 being connected to the first and second inputs of the controlled level locks 14 and 5, respectively. Ethno, the output of one of them directly, and the other through the driver of the $ 2 signal of the reference levels are connected to the first and second inputs of the threshold unit 13, respectively, the output of which is connected to the second input of the And 7 element.

The colorimeter works as follows.

The luminance video signal LJ from the output of the color transmitting camera 2 is fed to two controlled clamps And and 15 levels, where it is attached during the horizontal retrace to the specified levels. The average value of the video signal corresponding to the background image for the horizontal sweep period, highlighted The integrating part of the driver 12 is the signal of the reference levels. In the same block, the integrated video signal is sampled for the required number of reference voltages,. incoming as a comparison voltage to the threshold unit 13. The first input of the threshold unit 13 receives a video signal from the controlled latch I. The change in the level of anchoring of the controlled latch 14 allows for a smooth adjustment of the reference level.

The two-halogen video signals formed by the threshold unit 13 and xapaKiepMuchuyuschie absorption and spatial structure of the investigated image in the selected cross section of optical density, goes further to the second input element And 7. At its first input a mixture of pulse signals of frame and line frequencies from pulse generator 6 synchronized by line signals and personnel sync pulses.

Element P1 7 generates a signal of an electronic adaptive diaphragm, which is fed to each of the three electronic keys, 3, 4 and 5, to the first inputs of which three color-separated signals C, UQ, Ug are applied.

§ from the color of the transmitting chamber 2.

In this way, an electronic diaphragm of the color image under investigation is carried out, as a result of which three color separations of the video signal, which are sampled by electronic diaphragm signals, are sent to the discrete raster meter 9, where time-slicing of the color image is performed within the preformed aperture. Gated signals from 25 outputs of the meter 9 discrete raster. 10 chrominance coordinates are supplied to the meter, which can be implemented in accordance with known principles. In the 10 chromaticity coordinates meter, depending on the selected colorimeter mode of operation, either the integral chromaticity of the image fragments at a given level of optical density, or the chromaticity coordinates are sequentially measured in all discrete raster elements jg inside the adaptive aperture, or the chromaticity coordinates of any image element. The results of coordinate measurements are recorded by a digital recorder 1.

The task of measuring the integral color of an image of any size and shape using an adaptive diaphragm can be solved using any type of color television systems, in particular using color transmitting cameras with a traveling beam and color television systems of sequential action. Thus, the use of the proposed television colorimeter for analyzing color objects with a complex configuration and multigrade structure makes it possible to implement an algorithm for automatically constructing a two-dimensional dependence of the spacing of chromaticity on the level of optical density or other algorithms, pre-. dusmot} and data analysis tasks.

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5 The proposed colorimeter can be widely used in many areas of science and technology in solving problems associated with the analysis of color images.

Claims (1)

1. USSR author's certificate No. 124671, cl. H 04 N 7/02. 1964.