SU27718A1 - Method of transmitting images by distance or electric telescopes - Google Patents

Description

Currently used systems for transmitting still and moving images provide for dividing the transmitted image into a sufficiently large number of points or small areas, and the intensity of light corresponding to each such point or area is successively transmitted. Thus, the perceived image is a discrete row of dots or stripes, separated by a grid of image elements that are not transmitted and therefore not involved in the reconstruction of the image. This circumstance is completely imperceptible when there are many points in the image, which, in turn, requires either a slow transmission of the image frame, or a very wide frequency band in the spectrum. In the same cases, when it is necessary to save both the width of the spectrum and the duration of the transmission, especially with telekino and farsighted, and this inactive grid produces an unpleasant impression: it seems to the viewer that he views the picture through a veil or lattice.

The present invention aims at eliminating this disadvantage and consists

in that with the help of these or those devices, the trajectories moving rapidly along the beam image at the same time slowly and periodically move along the same image. As a result of this movement, the impression of the veil is eliminated, just as it does when showing a movie, where each frame with the increase that occurs during playback would give a clear visibility of the emulsion grains, however, due to the rapid decay of the frames themselves and the resulting shift The grain locations of the viewer get the impression of a smooth and sharp picture.

Such a device needs to be equipped with both the receiving and transmitting parts of the device, and it is obvious that the individual synchronization and synphasis 11 will not be necessary, since you can use the synchronization necessary to properly regulate the movement of the reproducing point along its trajectory.

For example, in the simplest Nipkoff disk scanner, used in distance viewing devices, the proposed improvement could be

implemented as follows. QCHOvavie (objective ring) of the lens that gives the screen a real reverse image of the holes of the Nipkow disk is arranged so that it can move within small limits parallel to the radius of the disk that corresponds to the imaged hole, i.e. perpendicular to the optical axis of the apparatus. The movement limits correspond to two to three radial distances between adjacent disk openings. The lens is moved by the transmission system sinusoidally in time, at which the period of such swings is made 10 to 30 times more than the period of rotation of the disk. Thus, the image of each given disc hole each time describes a slightly shifted path and the entire set of paths gradually fills the entire frame area.

The device at the transmitting and receiving parts of the apparatus can obviously be the same, it should only be agreed on which phase of the oscillations of the lens each transmission will begin.

The subject matter of the invention.

A method of transmitting images at a distance or electric telescopes, providing, both in the transmission and in the receiving devices, a scanning of the transmitted image at a large number of points or sections transmitted in sequential order, characterized in that in order to eliminate the impression of a fixed grid, corresponding to the image elements that are not transmitted, the trajectory of the fast moving beam along the image, while analyzing or synthesizing it, at the same time slowly and periodically moves along t mu image.