SU930743A1 - Video signal raster distortion corrector - Google Patents

Description

(54) CORRECTOR OF CRUNCHING DISTORTIONS OF VIDEO SIGNAL

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The invention relates to television technology and can be used in devices for compensating for geometric distortions of a television image due to the nonlinearity of a raster television scan.

A known corrector of raster distortions of a video signal, comprising a television transmitting camera and a serially connected block for calculating the coordinates of raster elements and a block for calculating the coordinates of the elements of corrections 1.

However, the known corrector has a low accuracy of corrections.

The purpose of the invention is to improve the accuracy of corrections.

The goal is achieved by introducing a two-dimensional scanning unit: aperture connected to the output of the television camera of the transmitting camera, switching matrix, gating outputs, into the raster distortion corrector of the video signal containing the television transmitting camera and the serially connected raster element calculating unit which is connected to the inputs of the summation unit, and the coordinate matrix of the elements And, the first inputs of which are connected to the horizontal bus and, the second inputs of the elements And are connected to the vertical members of the coordinate matrix, we take the horizontal and vertical coordinates of the coordinate matrix) are connected via the first and second devices respectively entered to the outputs of the unit for calculating the coordinates of the correction elements, and the first inputs of the gated switching matrix are connected to the corresponding outputs of the two-dimensional scanning unit apertures, and their second inputs - to the outputs of the corresponding logical elements And the coordinate matrix.

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

The corrector of raster distortions of a video signal contains a television transmitting camera 1, a 2 block of a two-dimensional scanning aperture with elements 3, a block 4 for determining the coordinates of raster elements, a block 5 for calculating the coordinates of correction elements, the first 6 and second 7 decoders, a coordinate matrix of 8 And 9 elements, switching matrix 10 cascades 11 gating, block 12 summation, output 13.

Corrector works as follows.

The video signal generated by the television transmission camera 1 is fed to the input of lock 2, the output voltages of elements 3 of which at each discrete point in time at the same time form a potential relief corresponding to one of the fragments of the full television image. In the process of scanning, this aperture of sizes m x n of elements is as if both-,. The entire TV raster for the duration of one cycle of a television scanning frame

In block 4, the reference coordinates of the center of the aperture relative to the boundaries of the television raster corresponding to perfectly linear horizontal and personnel television scans are synchronously computed with the image skipping. The reference coordinates arrive at block 5, where the corresponding lower case and personnel coordinate corrections are calculated, taking into account the a priori known nonlinearities of the real television raster.

Inline and frame coordinate corrections through the first 6 and second 7 decoders are respectively fed to the coordinate matrix 8 composed of elements AND 9, with the result that at each scanning stroke a signal appears at the output of only that element AND whose position relative to the center of the coordinate matrix 8 corresponds to the coordinate corrections calculated in block 5. The output signals of the elements AND 9 of the coordinate matrix 8 control the corresponding strobe cascades 11, combined into the switching matrix 10, along j mentally connected with block 2, and the output signals of cascades and gating are summed by block 12. In each scan step, output 13 posts a video signal from that element of block 2, the actual coordinates of which differ from the reference coordinates by the value of the coordinate corrections calculated in block 5, which It is equivalent to the post-mortem correction of geometric distortions of a television image formed by a television transmission camera 1 with a nonlinear raster.

Claims (1)

1. Devices. And experiment technique, 1976, No. 4. p. 98-101 (prototype).