SU720797A1 - Method of colour phototelegraphy - Google Patents

Description

(54) COLOR PHOTO TELEGRAPHY METHOD

PTB

ditch, poh lying transmission. These include a strictly limited amount of chromaticity, which can take on only two luminance values. And, most importantly, information about individual colors is spatially separated in the image plane, which causes a greater redundancy in the color line image than in the halftone image.

The purpose of the invention is to reduce the time of transmission of color line images containing pixel discrete colors to the time of transmission of monochrome images without reducing the size and clarity of the image.

The goal is achieved in that the color-separated image signals are subjected to logical filtering, the chromatic and achromatic components are separated from the color-separated signals, each component is then encoded and, using the redundancy of the color line image, the encoded chrominance parcels are summed by moving them chromatic signals in the intervals between the achromatic signals, after which the received HM signal modulates the carrier frequency for transmission via communication channels. In addition, each component is transmitted by a separate code.

The drawing shows the implementation of the method.

Position 1 presents a conventional original containing eight colors — black, yellow, magenta, cyan, blue, red, green, and white. As a result of photoelectric conversion of separations, three (N 3) analog video signals having a binary form (position 2) are obtained. In accordance with the well-known formula N, where N 3 and, we have m 8, i.e., the three color-separated signals are subjected to logical processing and are divided into 1 signals that carry information about individual chromatic and achromatic chromaticity of the image. As a result of photoelectric analysis of color streaks spatially separated in the plane of the image and logical processing of the three color separated signals, a pause between the achromatic components (position 3) is recorded and the temporal position of the chromatic components in this pause is recorded. As seen at position 3, the chromatic components are located on the time axis sequentially one after the other and, unlike the signals of the three color-separated images, do not overlap in time. Since color bars can have only two luminance values, the signals have a constant and equal amplitude. In the case of image transmission with strokes of the same width (position 1), these signals will be equal in duration (position 3). In order to increase the separation accuracy of these signals at reception, the signals of each chromaticity are encoded with a separate code, as shown at position 4. For example, the coding of eight signals having a binary form is sufficient to apply a three-digit code. The coded chroma parcels are summed (position 5) in a consecutive time series, interleaving them in accordance with the sequence of reading the image in the pauses between the achromatic signals. Then, the sum signal modulates the carrier frequency and is transmitted over the communication channel.

- At the receiving point, the received signals are detected, retrieved the coded total sequence (position 5), and decoded. According to the applied

By code, the chromatic and achromatic components are separated (position 4) and the signals of each chromaticity are restored (position 3). In order to synthesize color reproduction, pulses of each chromaticity restore the color separated image signals that modulate the light fluxes (position 3) and expose the Recording medium (position I) to synthesize color reproduction.

Thus, the use of logical filtering, encoding and interleaving of coded signals allows the transmission of a color bar image without expanding the spectrum of the transmitted signal.

signal on one carrier. In this case, the signal in each color is transmitted in the full band of the communication channel, which shortens the transmission time of color line images to the time of transmission of monochrome images without reducing their size and clarity.

Claims (6)

Invention Formula 5 1. A method of color phototelegraphy, consisting in simultaneous photoelectric conversion of color-separated images, conversion of received signals for transmission over a communication channel, restoration of color-separated signals and synthesis of color reproduction, characterized in that, in order to reduce the transmission time of color-rich images containing a series of discrete colors, up to the time required to transfer black-and-white images, without reducing the sharpness and size of the image Logical filtering is performed, chromatic and achromatic components are separated out in this case, then each component is encoded and, using the redundancy of the color line image, the encoded chromaticity is interleaved with sequential time series by transmitting chromatic signals in the pauses between the achromatic signals after which the received signal modulates the carrier frequency for transmission to the communication channel. 2. A method according to claim 1, characterized in that, in order to increase the separation accuracy at the receiving point, the chromatic and achromatic components transmitted using time interlacing. each component is transmitted by a separate code. Sources of information taken into account in the examination 1. US Patent No. 2947805, cl. 178-5.2, 15.06.55. 2. The patent of Switzerland No. 419226, cl. 21 a 32/01, 28.02.67. 3. The UK patent number 1033631, cl. H 4 F, 06.22.66. 4. Japanese Patent No. 46-22808, cl. 97 (3) AI, 29.06.71. 5.Patent of Japan No. 47-1649G, cl. 97 (3) A41, 16.05.72. 6. Japanese Patent No. 43-4601, cl. cl. 97 (3) A 41, 20.02.68. (npoTOT in). L. p g with 3 ty i / z 3 x s I, io