SU777849A1 - Device for measuring the ratio of image signal to fluctuation noise - Google Patents

Description

one

The invention of otHOcMtca to radio engineering and can be used s television si-. Stemac sequential signaling.

A device for measuring the ratio of an image signal to a fluctuation disturbance is known, comprising a channel selection unit for signals R, G, B, the output of which is connected to an input of a control unit through a pulse selector, the first output of which is connected to a control input of a channel selection unit signals R, G, B, and. The second is with the control input of the switch, the output of which is connected to the comparison input of the result determination unit 15 for measuring the signal-to-interference ratio, as well as three weight filtering units.

However, the measurement accuracy of the known device is low.

The purpose of the invention is to improve the accuracy of 20 measurements.

For this purpose, a noise generator, ten adjustable attenuator noise attenuators, three weight averaging noise blocks, an adder and series-connected measuring unit selection and a measurement mode switching unit, the first input are entered into the known device for measuring the ratio of the image signal to the fluctuating noise. select box 30

Claims (1)

the measured half frames are connected to the output of the channel selection unit of the signals R, G, B, and the control input of the selection block of the measured half frames is connected to the third output of the control unit, the fourth output of which is connected to the control input of the measuring mode switching unit, the output of which is connected to the first the input of the measuring unit for determining the signal-to-noise ratio, the output of the noise generator is connected to the inputs of each of the adjustable noise attenuators, and the outputs of the first, second and third adjustable noise attenuators are Inns, respectively, with the first, second p third inputs of the switch and in parallel with the corresponding first, second and third inputs of the first weight averaging unit, the outputs of the fourth, fifth and sixth adjustable interference attenuators are connected respectively to the fourth, fifth and sixth inputs of the switch n in parallel with corresponding to the first, second and third inputs of the second block of weight averaging interference, the outputs of the seventh, eighth, ninth adjustable interference attenuators are connected respectively with the seventh, eighth m and the ninth inputs of the switch and in parallel with the corresponding first, second and. -, by the third inputs of the third block of the weight averaging noise, and the output of the ten addition of the adjustable noise attenuator is connected directly to the tenth input of the switch; the output of the first, second and 5 third blocks of weight averaging interference is connected respectively to the input of the first, second and third weight filtering blocks, the output of each of the three weight filtering blocks is connected respectively to the first, second and third inputs of the adder, the output of which is connected to the input is the result of its measurement unit switching signal. The drawing shows a structural 5 electrical circuit of the proposed device. The device for measuring the ratio of the image signal to the fluctuation disturbance contains a block 1 for selecting channels90 of signals R, G, B, a selector of pulses 2, a block 3 for selecting measurable half-frames. unit 4 for switching the measurement mode, unit 5 for determining the measurement result of the signal-to-interference ratio, adder 6.25 for the interference generator, control unit 8, switch 9, ten adjustable interference attenuators 10-19, three units 20-22 for weight averaging interference and three block 23-25 weight filtration.30 The device operates as follows. The studied full television signals of the channels R, G, B are fed to the inputs 35 of block 1, from the output of block 1 the signal is parallelly fed to the inputs of the pulse selector 2 and block 3. In the selector of pulses 2, the sync signals that are 40 are separated from the full television signal to the control unit 8. In the control unit 8, control pulses are generated to select the channels of the half-frames and the corresponding switching of the blocks of the device. Control pulses 45 are applied to blocks 1, 3, 4 and to switch 9. Control pulses fed to blocks 1 and 3 are intended for selection. channels and. half-frame television signal 50. , The pulses arriving at the switch 9., are intended. to switch the inputs and output of switch 9 in time with the choice of half-frame, measure. 55 Control pulses fed to the input of block 4 are designed to switch the input of block 5 to the output of the adder 6 after the measurement cycle in the three main parameters; channels (channels) and selected fields x te-60 of the signal signal. , In block 3, the choice of the measured half-frame is such that on. block 5 signals are passed. certain fields (frames), for example, direct, delayed, etc., 6 4. Switch 9 switches the output of the corresponding regulated noise attenuator 10-19 and block 5. In block 5, the signal-to-noise ratio is measured using the comparison method, the noise signal from the output of the noise attenuator 10-19 being the reference noise signal. From the output of the noise generator 7, the interference signals are received in parallel to the inputs of adjustable noise attenuators 10-19. From their outputs, the interference signals arrive at the corresponding; and the inputs of the switch 9. Assume that the signal ratio in the red channel is measured. In this case, the unit 1 selects the red channel, the control of the switch 9 and the unit 3 is carried out in such a way that during the measurement. noise signal in the direct signal For comparing the noise signal, the adjustable noise attenuator 10 is switched. When measuring the noise signal in the delayed signal, the adjustable attenuator 11 is switched, and so on. Therefore, at the outputs of the adjustable noise attenuator 10-12, the interference signals are equivalent to different levels of interference half x (pr my, delayed, etc.). In a similar way, the interference signals in the green (adjustable noise attenuators 14, 15, 13) and blue (adjustable interference attenuators 16, 17, 18) are measured by switching unit 1. The measured interference signals are fed to the inputs of the corresponding blocks 20-22, which are intended to sum the corresponding interference signals in the R, G, B channels taking into account the change in the sensitivity of the visual system (ES) depending on the frequency and duty cycle of presenting the interference signals. Blocks 20-22 in technical design are identical and differ only in transmission coefficients, which vary with color signals. From the outputs of blocks 20-22, interference signals are fed to the inputs of blocks 23-25 to take into account the filtering effect of the CS depending on the perceived color. From the outputs of blocks 23-25, the interference signals arrive at the corresponding inputs of the adder 6. The adder adds the interference signals from the three channels. From the output of the adder, the interference signal enters the input of block 4. After a cycle of measurements carried out in three channels and with the corresponding fields (frames), the interference signal corresponding to the resulting value (visually apparent) in the color television image is measured using block 5. In this case, the control pulses use the switch 9 to switch the controlled noise attenuator 19 with the input of block 5, and in block 5 measure the interference signal coming from the output of the adder 6 using the comparison method. Thus, knowing the magnitude of the amplitude of the signal, it is possible to determine the signal-to-noise ratio corresponding to the color television image. Apparatus of the Invention A device for measuring the ratio of an image signal to a fluctuation number, comprising a channel selection module of signals K, G, B, the output of which through a pulse selector is connected to an input of a control unit, the first output of which is connected to a control, its input G, B, and the second output 15 is connected to the control input of the switch, the output of which is connected to the comparison input of the measuring unit for determining the measurement of the signal-to-interference ratio, as well as three weight filter units differing from By the fact that, in order to improve the measurement accuracy, a noise generator, ten adjustable noise attenuators, three weighting averaging blocks, an adder and subsequently connected means of a selection of measured half frames and a switching unit for measuring mode, were introduced; half-frames are connected to the output of the channel selection block 30 of signals R, G, B, and the control input of the block of the measured half-frames selection is connected to the third output of the control block, the fourth output of which is connected to the control input of the block The measurement mode switches 35, the output of which is connected to the first input of the measurement result ratio measuring unit 5 5 to the noise, the output of the noise generator is connected to the inputs of each of the adjustable interference attenuators, and the first, second and third adjustable noise attenuators are connected to the first, second and the third inputs of the switch and in parallel with the corresponding first, second and third inputs of the first block of the weight averaging interference, the outputs of the fourth, fifth and sixth adjustable attenuators interference is connected to the fourth, fifth and sixth inputs of the switch, respectively, and in parallel with the corresponding first, second and third inputs of the second block of averaging noise, the outputs of the seventh, eighth, ninth adjustable interference attenuators are connected to the seventh, eighth and ninth inputs of the switch and in parallel with the corresponding first, second and third inputs of the third block of the weight averaging noise, and the output of the tenth adjustable noise attenuator is connected directly to the tenth input of the switch At the same time, the outputs of the first, second and third weight averaging blocks are connected respectively to the inputs of the first, second and third weight filtering blocks, the output of each of the three weight filtering blocks is connected to the first, second and third inputs of the adder, the output of which is connected to the input the resulting signal of the measuring mode switching unit. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 483805, cl. H 04N 7/02, 1973 (prototype).