SU1099418A1 - Device for correcting gradation distortions - Google Patents

Abstract

DEVICE OF CORRECTION OF GRADUATION DISTORTIONS, containing in series the first delay line, the input of which is the device input, and the first low pass filter, the nonlinear processing unit connected in series and the first adder, the second delay line connected in series, the input of which is connected to the output of the first delay line, subtractor , the other input of which is connected to the output of the first low-pass filter, and the switch, the first output of which is connected to the second input of the first adder, subsequently the first differential circuit, the input of which is connected to the intermediate output of the first delay line, and the first threshold unit, the output of which is connected to the first control input of the switch, and the second low-pass filter connected in series, the input of which is combined with the input of the first delay line, the second differentiating a chain and a second threshold unit, the output of which is combined with the output of the first threshold unit, characterized in that. . In order to improve the accuracy of correction by increasing the clarity and sharpness of the details of the dark areas of the image, a second cc matrix was introduced, the first input of which is connected to the output of the first low-pass filter, the second input CO to the second output of the switch and the output to the input of the nonlinear processing unit, the third and fourth threshold blocks and a match block, the first input of which is connected to the output of the second threshold block, the second input to the combined outputs of the third and; o; about 4; the fourth threshold block and the output to the second control input of the switch; the input of the third threshold block is combined with the input of the first threshold block, and the input of the fourth threshold block is combined with the input of the second threshold block.

Description

The invention relates to communication technology and is used to improve the quality of television images.

- There is a device for correcting gradation distortions, which contains two processing channels: in one, high-frequency components of a television (TV) signal are extracted, which are passed to the output through a linear processing unit (the amplitude characteristic of the block is 1); in the other channel, low-frequency components of the TV signal that are passed through the non-linear processing unit (the amplitude response of the unit has T1) ij.

The disadvantage of such a device is insufficient correction accuracy due to the fact that the high frequency components of the TV signal are not subjected to nonlinear processing.

Closest to the image of the technical entity is a device for correcting gradation distortions, which contains the first low-pass filter connected via the first delay line to the input of the device, and the output to the input of the nonlinear processing unit and one input of the subtractor, the other input of which dinene through the second delay line with the output of the first delay line, and the output of the subtractor is connected to the input of the switch, and the outputs of the switch and the nonlinear processing unit are connected to the inputs of the first adder, and the control The switch input is connected to the combined outputs of the first and second threshold blocks, the input of one of which is connected via the first differentiating circuit to the intermediate output of the first delay line and the second through the second differentiating circuit connected in series and the second low-pass filter to the input of the device 2.

A disadvantage of the known device is a decrease in the clarity and sharpness of the details of the dark areas of the image, due to the fact that the high-frequency components of the TV signal are not subjected to non-linear (; 1) processing, which leads to insufficient correction accuracy.

The purpose of the invention is to improve the accuracy of the correction by increasing the clarity and sharpness of the details of the dark areas of the image.

The objective is achieved in that in a device for correction of gradation distortions, containing successively connected first delay line, input 5 of which is the device input, hi first low pass filter, serially connected nonlinear processing unit and first adder, successively connected second line n U

 delay, the input of which is connected to

the output of the first delay line, the subtractor, the other input of which is connected to the output of the first low-pass filter, and the switch, the first output of which is connected to the second input of the first adder, are connected in series to the first differentiating circuit whose input is connected to the intermediate output of the first

0 delay lines, and the first threshold unit, the output of which is connected to the first control input of the switch, and serially connected second, low-pass filter, the input of which

 combined with the input of the first delay line, the second differentiated circuit and the second threshold unit, the output of which is combined with the output of the first threshold unit, introduced the second

an adder, the first input of which is connected to the output of the first low-pass filter, the second input. - to the second output of the switch, and the output - to the input of the nonlinear processing unit,

the third and fourth threshold blocks and a coincidence block, the first input of which is connected to the output of the second threshold block, the second input to the combined outputs of the third and fourth threshold blocks, and the output to the second control input of the switch, while the input of the third threshold block is combined with the input of the first threshold block, and the input of the even-fifth threshold block is combined with the input of the second threshold block.

The drawing shows a structural electrical circuit of the device for correcting the gradation distortions.

The device contains the first 1 and

the second 2 delay lines, the first 3 and second 4 low-pass filters (LPF), the subtractor 5, the first 6 and the second 7 differentiating circuits, threshold blocks 8–11, block 12 coincidence, switch 13, first 14 and second 15 adders, block 16 nonlinear processing. The device works as follows. The input TV signal is fed to the first delay line 1 and the second low-pass filter 4, the first delay line 1 provides a delay for the signal during its passage in the low-pass filter 4, differentiation circuit 7, threshold blocks 9 and 11. The output signal of the first delay line 1 is fed to the low-pass filter 3 and through the second delay line 2 -. subtractor 5, at the output of which high-frequency components of the TV signal spectrum are output, and at the output of low-pass filter 3, low-frequency components. The signal of the high-frequency components is fed to the switch 13, and the low-frequency components to the second adder 15. Details, the range of video signals from which exceeds 36 (6 is the RMS noise level) are perceived on the basis of the differentiation process. The accuracy of their reproduction, determined by the threshold difference, (0.2 0.5 dl for fine details), is quite high. Therefore, in order to prevent distortion of sharpness and sharpness of images, it is necessary to subject nonlinearly to the components of the references from the specified details. From the output of the switch -13 to the second adder 15, the high-frequency components of the signal are received, whose span exceeds 3B. There are practically no realizations of noise in these components, since the probability of noise implementations exceeding 3B in terms of laziness is small. As a result, at the input of the non-linear processing unit 16, with the TV, it forms a signal in the full band that does not contain the high-frequency components of the noise spectrum. It also lacks high-frequency components from low-contrast details that are perceived at the detection threshold. The output of the nonlinear processing unit 16 is connected to the input of the adder 14. The amplitude of the high-frequency components of the low-contrast details, assumed at the detection threshold, lies in the interval 6 - 3B. These components are removed from another output: the switch 13 and without nonlinear processing — they go to the adder 14. Thereby the high-frequency components of the noise do not increase, the low-contrast details of the image are transmitted. The switch 13 is controlled by the output signals generated by the threshold blocks 8-11 and the coincidence block 12. For this, signals from the output of the second low-pass filter 4 and from part of the first delay line 1 are fed to differentiating circuits 7 and 6, respectively. The signal delay in part of the delay line 1 ensures that the signals at the inputs of the differentiating circuits 6 and 7 coincide. In the threshold blocks 8.9 and 10.11, the operation thresholds of B and 6, respectively, are used. They provide detection of single short video pulses in the signal fronts. The use of a second low pass filter 4 enhances the noise immunity of detection. The threshold blocks 8 and 10 are designed to detect the components of group (periodic) image structures in the range of frequencies that lie above the cutoff frequency of the low-pass filter 4. The lack of filtering (due to overlapping of the useful signal spectra and noise) for the signal from these components makes it necessary to increase detection thresholds up to 2b - 4 6, respectively, for threshold blocks 8 and 10. The output signals of threshold blocks 8 and 9 are combined and fed to one of the control inputs of the switch 13, to the other input of which are fed you The signal odnye. The bursts of threshold blocks 10 and 11 that passed block 12 matches. On the output of the block 12, the coincidence signal occurs only when there are no output signals from the threshold blocks 8 or 9. As a result, at one output of the switch 13, the high-frequency components of the signal are allocated, the range of which exceeds the BS, and on the other - the high-frequency components with a range of 6 before . Thus, the proposed device provides correction of gradation distortions, in which there is no increase in noise in the dark areas of the image (when jj, the correction is not accompanied by a decrease in the clarity and sharpness of the details in the dark areas of the image, which improves the accuracy of the correction.

Claims (1)

DEVICE FOR CORRECTION OF GRADADIC DISTORTIONS, comprising a series-connected first delay line, the input of which is the input of the device, and a first low-pass filter, series-connected a nonlinear processing unit and a first adder, series-connected a second delay line, the input of which is connected to the output of the first delay line, a subtracter, the other input of which is connected to the output of the first low-pass filter, and the switch, the first output of which is connected to the second input of the first adder, in series connected to the first differentiating circuit, the input of which is connected to the intermediate output of the first delay line, and the first threshold block, the output of which is connected to the first control input of the switch, and serially connected to the second low-pass filter, the input of which is combined with the input of the first delay line, the second differentiating circuit and a second threshold block, the output of which is combined with the output of the first threshold block, characterized in that. . in order to improve the accuracy of correction by increasing the clarity and sharpness of the details of dark parts of the image, a second adder was introduced, the first input of which is connected to the output of the first low-pass filter, the second input to the second output of the switch and the output to the input of the nonlinear processing unit, the third and fourth threshold blocks and a coincidence block, the first input of which is connected to the output of the second threshold block, the second input is; to the combined outputs of the third and fourth threshold blocks, and the output to the second control input of the switch, while the input of the third threshold block is combined with the input ’of the first threshold block, and the input of the fourth threshold block is combined with the input of the second threshold block. > 1 109