RU2035892C1 - Method and device for relieving emotional stress - Google Patents

Abstract

FIELD: medicine; psychophysiology. SUBSTANCE: method involves setting forth sonic signals of various frequency. After orientation response having weakened, higher frequency signals combined with electric skin irritation are applied to observe galvanic skin reaction. The testee is asked to minimize galvanic skin reaction amplitude by volitional effort using biofeedback method and keep the amplitude within the control levels characterized by absence of galvanic skin reaction. Besides, it is also proposed to control the effective fear resistance sensation at the moment the sonic signal combined with electric skin irritation is sent, represented on the galvanic skin reaction curve through its minimized amplitude within the range of control levels. The observations are recorded during 2-5 sessions, to be shown to the testee with a suggestion to reproduce the sensations noted at the moments of suppressed emotional stress. To solve the task, the device has a remote control panel and a number of units providing conversion of galvanic skin reaction and reference signal into a video signal so that the testee has the possibility to observe the change in reaction to electric skin irritation signal on the TV screen or computer video display. The signal is recorded to a magnetic tape. The testee also has a possibility to select independently the mode and the moment the signal is to be shown without using the switch on the device control panel. EFFECT: trained skill to resist emotional stress usable in similar real life situations; enhanced operation reliability. 3 cl, 1 dwg

Description

 The invention relates to medicine, in particular to psychophysiology, designed to relieve the emotional stress of a person and can be used in sports and medical practice, as well as in production for training a contingent of people who realize their activities in conditions of probable danger.

 A known method of regulating emotional stress by giving the subject sound signals: continuous with a value of 25-35 dB above the hearing threshold and discontinuous with a value of 25-35 dB, then when the subject gets used to the supplied signals, the supply of a continuous sound signal is combined with a variable effect on the subject with an electric skin irritant (ECR) an electric current of 2-2.5 mA when the subject is visually observed for a change in the signal of the skin-galvanic reflex (RAG), which is recorded, while inducing the test To minimize this signal and to stabilize the received minimum signal, the skill for adaptive state transformation is considered developed.

 However, in order for this subject to develop the necessary skill of active resistance for the test person, the state of anxiety requires at least 15 sessions lasting 30-40 minutes each, which is largely due to the fact that the patient does not participate in the process of choosing the delivery mode and the type of signals given in accordance with its current state.

 A known method of regulating emotional stress by giving the subject sound signals of different frequencies (pitch), then when the subject gets used to them, a higher frequency signal is combined with an electrodermal stimulus when the subject is visually displayed changes in the skin-galvanic reflex that is recorded, after which the subject is prompted to minimize the amplitude of the RGR signal, which displays biological feedback, while controlling the mode, the time of supply and the type of sound signals himself wish to set up the test in accordance with its current state, then the audio signals are fed randomly, at random times and minimum amplitude stabilization signal obtained RAG considered skill in adaptive transform able to develop.

 This method is selected for the prototype.

 However, the known method does not exhaust all the possibilities of a person in mobilizing the reserves of psycho-emotional self-regulation to consolidate the developed skill.

 The objective of the invention is to ensure the consolidation of the ability to resist emotional stress to subjects in their long-term memory and transfer it to other problematic situations in real life.

 The solution to this problem is provided in a method of controlling emotional stress, including the presentation of sound signals of various frequencies, after the approximate reaction of combining higher frequency signals with electric skin irritation fades, registering a skin-galvanic reaction, and offering the test person willpower to minimize the amplitude of the skin-galvanic reaction using the inverse method biological connection and maintain the amplitude within the control levels at which the electrodermal tear the sensation is not realized, while in the process of the session it is proposed to fix the sensations of effective resistance to fear at the time of the sound signal, combined with electro-skin irritation displayed on the curve of the skin-galvanic reaction by minimizing its amplitude within the control levels, during two to five sessions, recording register, present to the subject and offer to reproduce the sensations recorded at the time of suppression of emotional stress.

 Studies and tests have shown that an additional visual presentation of the test subject a holistic sequence of signals reflecting his own psycho-emotional state, contributes to the actualization of memorable traces of the training experience, which ensures the fixation of sensations at the time of suppression of emotional stress, fixing in his long-term memory of the acquired skill and at the same time there is a spontaneous its transfer to other life situations (see the attached test reports).

The proposed method of regulating emotional stress is carried out according to the following programs:
1 program.

 The subject is presented in a random sequence with sound signals of various frequencies, the RAG signal is recorded and also presented to the subject.

 2 program.

 After the subject gets used to the sound signals and the RAG reference signal fades, the presentation of a higher frequency sound signal is combined with an ECR (with a delay of 10 s), and the lower frequency sound signal continues to be presented in isolation. In this case, ECR is applied to the wrist of the left hand of the test subject, by exposure to an electric current of 2-2.5 mn, duration of 1 s. On the computer display or on the TV screen, in front of which the subject is located, the reference signal and the RAG signal are continuously displayed in response to the ECR signal. At the same time, these signals are recorded on magnetic tape in order to reproduce the subject with the entire dynamics of the training session, after which it is finished.

 3 program.

 The test subject is asked to control the amplitude of the RAG signal, while the ECR is automatically applied only if the RAG signal exceeds the control levels, which prompts the test subject to minimize the amplitude of the signal displaying the RGR and to ensure that its amplitude does not go beyond the control levels by arbitrary resistance to the development of fear to an audio signal of a higher tone (frequency). In this case, to suppress the conditional RAG to a higher frequency sound signal, ESR should be avoided, since the ERS pulses are supplied depending on the ratio between the current value of the RGR and the control levels. Next, they give the subject the opportunity to choose the mode, type and moment of sound signals in accordance with his current state. After that, sound signals are given in random order, at random points in time.

 Then, in contrast to the prototype, the test subject is presented with a magnetic record in which the entire sequence of his reactions in the process of carrying out all three stimulus programs is recorded, and reproduction on the TV screen or computer display in the dynamics of the entire sequence of the process of regulation of emotional stress according to 1,2,3 magnetic tape programs. The subject performs a sequential analysis of signal changes, evaluates the effectiveness of his efforts increasing in the process of regulating emotional stress by minimizing the RAG signal, reliving the whole process again (programs 1-3), captures and reproduces the sensations of effective resistance to fear at the time of the sound signal being combined with ECR , and thus consolidates the skill of adaptive state transformation in long-term memory.

 Moreover, unlike the prototype, the presence in the proposed device of an external remote control, on which there are keys for turning on the programs and magnetic recording, allows the test subject in comfortable conditions without the artifact of increasing the amplitude of the RGR from movement to ensure the selection of one of the programs (1 or 3) depending on the degree of his current emotional tension. Moreover, predicting success, the test subject prefers 3 program, and experiencing uncertainty 1 program.

 The method is confirmed by the following examples.

 PRI me R 1. Subject A. was admitted with a diagnosis of neurosis of obsessive states, cardiophobic syndrome. The main complaint was the feeling of fear of death from heart paralysis, aggravated on the street, in transport, in the absence of people who can provide medical care. Drug therapy for a month had no effect. The subject is highly motivated to acquire the skill of arbitrary regulation of his emotional stress.

 Training sessions were conducted according to the three programs discussed above. The training course was 5 sessions.

 Implementation of 1 program.

 In the first two sessions, the RGR signals of the test subject for an unfamiliar environment and their attenuation were recorded, and then the RGR signals of the test person and their attenuation were recorded for two sound signals, different in frequency: 400 and 200 Hz, which were presented to the test on the computer display.

 Implementation of 2 programs.

 After the subject got used to the sound signals, which was expressed in the attenuation of the RAG signals for both signals, in the third session, a sound signal of a higher frequency of 400 Hz was combined with an ECR of the wrist of the left hand with a current of 1.5-2 mA, duration 1 s with a delay of 10 s, and a sound signal of a lower frequency was presented in isolation. As a result of this, an audio signal with a frequency of 400 Hz acquired the property of selectively inducing conditional RAG. At the same time, on the computer display, in front of which the test person was located, the sound signals of frequencies of 400 and 200 Hz, the ECR signal and the GSR signals for both sound signals and the GSR signal were continuously displayed. All these signals were simultaneously recorded on magnetic tape.

 Implementation of 3 programs.

 In the fourth session, the test subject was asked to control the amplitude of the RGR signal and an audio signal with a frequency of 400 Hz was reinforced with ECR only if the RGR signal exceeded the control levels displayed on the computer display as a horizontal line of constant amplitude. The subject's desire to minimize the amplitude of the RAG signal and prevent it from exceeding control levels was realized by subjective resistance to the development of fear and anxiety. Further, the subject was given the opportunity to independently, using a portable remote control, choose the mode, type and moment of sound signals in accordance with the self-assessment of his current state. After that, sound signals were given in random order, at random points in time. The 5th session was carried out in the same way.

 After completing the 4th and 5th training sessions, the test subject was given a magnetic recording on a computer display or TV screen, in which the entire sequence of his reactions was recorded during all three programs. By analyzing the change in signals and evaluating the increasing efficiency of their efforts by minimizing the amplitude of the RAG signal, the subject experienced the whole process again (programs 1-3), recorded and reproduced sensations of effective resistance to fear at the time of the sound signal being combined with the ECG, as a result of which the skill was fixed adaptive state conversion in long-term memory.

 PRI me R 2. Subject V. athlete, was trained to assess and correct the possibilities of mobilizing reserves of psycho-emotional self-regulation. The training course ended already in the second session. In the first session, the subject underwent training in all three programs. Observing on a computer display a high-amplitude conditioned reflex RAG as an image of one's own experienced fear, the subject sought to suppress emotionally negative experiences in order to minimize the amplitude of the observed conditional RAG. Having achieved success in minimizing the visual image of fear within the given control levels, in the first session, the test subject got rid of the anxiety of the expected unpleasant ECR.

 In the second session, using the remote control, the test subject preferred the 3rd program at once.

 To consolidate the achieved success, the subject independently, after the first and second sessions, included a recording of the entire training process, recorded and reproduced the sensations of effective resistance to fear at the time of the sound signal being combined with ECR, making sure of the success achieved.

 A device for regulating emotional stress, containing generators of audio signals of low and high frequencies, the outputs of which are connected to the speaker, a random pulse generator, pulse shaper ECR, a regular pulse generator, a signal amplifier RGR, a reference signal source, an inverter, a comparator, the first, second and the third AND element, a switch, an indicator, while the output of the random pulse generator is connected to the first inputs of the first and second AND elements, the outputs of which are connected respectively with the inputs of the low and high frequency sound signal generators, the direct and inverse outputs of the regular pulse generator are connected respectively to the second inputs of the first and second elements And, the output of the ECR pulse shaper through the second switch group is connected to the outputs of the third element And and the inverter, the input of which is the first input the third element And are connected through the first group of the switch to the second output of the high-frequency generator, the second input of the third element And is connected to the output of the comparator, the first input otorrhea connected to the output of the reference signal source and the first input of the indicator, and the second comparator input connected to the output signal of the amplifier and the second input of the RAG indicator.

 However, this device, providing automation of the process of regulating emotional stress, does not have sufficient operational reliability and does not provide the test subject, being in comfortable conditions, remotely control the process of regulating emotional stress. In addition, it does not provide for the possibility of recording and reproducing the entire sequence of signals based on the use of magnetic tape, as well as a computer display or TV screen.

 It is also known a device for regulating emotional stress, containing a random pulse generator connected through the first inputs of the first and second elements And, respectively, to the inputs of the sound signal generators of high and low frequencies, a regular pulse generator, the direct and inverse outputs of which are connected respectively to the second inputs of the first and second elements And, a signal amplifier RAG connected through a comparator, the third element And, the first group of the switch with the shaper ECR, the second output of the gene Rathore high frequency is connected via a second switch group to a second input of third AND or NOT element, whose output is connected to the first switch group. At the same time, in order to be able to study people with visual impairment, two controlled delay lines were introduced into this device, the first inputs of which are connected to a mid-tone generator, a detector whose input is connected to the output of the RAG signal amplifier, and the output to the second inputs of the delay line, the first line the delay is connected via an inverter, the outputs of the delay lines are connected respectively to the left and right speakers of the stereo headphones and to the outputs of the high and low frequency generators.

 However, this device also does not have sufficient operational reliability and comfort and does not provide for the possibility of recording and reproducing the entire sequence of signals using magnetic tape, as well as a computer display or television.

 For the prototype, a device was selected according to ed. N 1482718.

 The objective of the invention is to increase the operational reliability of the device and ensure the comfort of the test subject during automation by providing self-training of the test subject with the ability to remotely control the process of regulating emotional stress, while eliminating the artifact of increasing the amplitude of the RAG from the test’s movement, as well as recording and reproducing the entire sequence of signals based on the use of magnetic tape and a computer display or TV screen.

 The solution to this problem is provided by the fact that in a device for regulating emotional stress, containing generators of audio signals of low and high frequencies, the outputs of which are connected to a sound source, a random pulse generator, pulse shaper ECR, a regular pulse generator, a signal amplifier RGR, a reference signal source, inverter, comparator, first, second and third elements AND, switch, indicator, while the output of the random pulse generator is connected to the first inputs of the first and second elements AND, you the moves of which are connected respectively to the inputs of the low and high frequency sound generators, the direct and inverse outputs of the regular pulse generator are connected respectively to the second inputs of the first and second elements And, the output of the ECR pulse shaper through the second group of the switch is connected to the outputs of the third element And and the inverter, the input which and the first input of the third element And are connected through the first group of the switch to the second output of the high-frequency sound generator, the second input of the third element And is connected to the output of the comparator, the first input of which is connected to the output of the reference signal source, and the second input of the comparator is connected to the output of the RAG signal amplifier, a remote control connected to the first and second groups of the switch, an input switch, an analog-to-digital converter, connected in series , a reference signal register and a reference signal determination unit, a clock pulse generator, a line and frame sync pulse generation unit, a counter a cable with a control unit, a recording control unit, a point recognition unit connected in series, a video signal generation unit and an RF signal generation unit, a first point counter connected in series, a storage unit control unit and a storage unit, a clock frequency counter connected in series, a data transmission control unit, a register data transmission and the matching unit of the computer interface, as well as the unit for determining the first point, while the output of the clock generator is connected to the second the input of the control unit of the storage unit, the second output of the line and frame clock generation unit is connected to the second input of the analog-to-digital converter, and its third output is to the input of the clock counter, the fourth output is to the second input of the video signal generation unit, its second input is connected to the second output of the counter lines with a control unit, the third output of which is connected to the second input of the reference signal determination unit and the first input of the point recognition unit, the third input of the video formation unit the signal is connected to the output of the first point determination unit, and the fourth input to the output of the reference signal determination unit, the second input of the point recognition unit is connected to the second output of the memory control unit, the second input of the first point determination unit and the third input of the reference signal determination unit, the first input of the block determining the first point is connected to the first input of the storage unit, the output of which is connected to the third input of the point recognition unit, the third input of the first point determination unit is connected to the the first point sensor, the first output of the recording control unit is connected to the control input of the input switch, the second output with the input of the first point counter, the third output with the second input of the storage unit, the fourth output with the second input of the reference signal register, and the fifth output with the second input of the transmission control unit data, the first input of the reference signal register is also connected to the third input of the storage unit and the second input of the data transfer register, the first input of the input switch is connected to the output of the reference signal source and the second input of the input switch is connected to the output of the amplifier RAG, the output of the matching unit of the computer interface is the output of the device.

 At the same time, supplying a device for reducing emotional stress with a remote control, as well as a set of blocks that convert the RAG signal and the reference signal into a video signal in such a way that the subject has the opportunity to see the dynamics of his reaction to the ECR signal, as well as recording signals on magnetic tape, makes the subject comfortable observing. The test subject, without changing his posture, which eliminates the artifact of increasing the RAG amplitude from his movement, independently observes the dynamics of the process on a computer display or TV screen and makes a choice of the mode and time of presentation of the signals without using the switch on the device’s panel, which increases its operational reliability.

 The drawing shows a device that implements the proposed method.

 The device comprises a random pulse generator 1, a first element And 2, a low frequency sound generator 3, a regular pulse generator 4, a second And 5 element, a high frequency sound generator 6, a loudspeaker 7, and to a high frequency sound generator 6 through the first switch group 8 is connected to the inverter 9 input, indicator 10 is a television screen or computer display, the output of the reference signal source 11 is connected to the second input of the comparator 13, to the output of the amplifier 12 of the CGR signal the comparator 13, the third element And 14, the second group of switch 8 and the pulse shaper 15 of the ECR are connected to the first input, to which the inverter 9 output is also connected via the second group of switch 8, the third element And 14 is connected through the first group of switch 8 to the first output generator 6 of a high-frequency sound signal, the second output of which and the output of low-frequency sound generator 3 are connected to a loudspeaker 7, the output of a random pulse generator 1 is connected to the first inputs of the first 2 and second 5 ele nths And, to the second inputs of which the direct and inverse outputs of the 4 regular pulse generator are connected, respectively, and the outputs of the first 2 and second 3 elements and are connected respectively to the inputs of the low and high frequency 6 audio signal generators, the second RGR signal amplifier 12 is also connected the input of the input switch, the first input of which is connected to the output of the source 11 of the reference signal.

 The device also contains a serially connected clock pulse generator 16, a line and frame clock generation unit 17, a line counter 18 with a control unit and a recording control unit 19, a point recognition unit 20 and a video signal generation unit 21 connected in series to a first point counter 22, a unit 23 controls the storage unit and the storage unit 24, the first point determination unit 25, the input switch 26 connected in series, the analog-to-digital converter 27, the register the signal 28 and the reference signal determination unit 29, the radio frequency signal generation unit 30, the input of which is connected to the output of the video signal generation unit 21, the clock frequency counter 31, the data transmission control unit 32, the data transfer register 33 and the computer interface matching unit 34, as well as a power supply 33 and a remote control 36. In this case, the output of the clock generator 16 is also connected to the second input of the control unit 23 of the storage unit, the second output of the line and frame clock generation unit 17 is connected to the second input of the analog-to-digital converter 27, its third output to the input of the clock counter 31, the fourth output to the second input of the video signal generating unit 21, its second input is connected to the second output of the line counter 18 with a control unit, the third output of which is connected to the second input of the reference signal determination unit 29 and the first input of the point recognition unit 20, the third input of the video signal generation unit 21 is connected to the output of the first point determination unit 25, and the fourth input is the output of the reference signal determination unit 29, the second input of the point recognition unit 20 is connected to the second output of the storage unit 23 , the second input of the first point determination unit 25 and the third input of the reference signal determination unit 29. The first input of the first point determination unit 25 is connected to the first input of the storage unit 24, the output of which is connected to the third input of the point recognition unit 20, the third input of the first point determination unit 25 is connected to the output of the first point counter 22, the first output of the recording control unit is connected to the control input input switch 26, the second output with the input of the counter 22 of the first point, the third output with the second input of the storage unit 24, the fourth output with the second input of the register 28 of the reference signal, and the fifth output with the second input of the block 32 data transmission control, the first input of the reference signal register 28 is also connected to the third input of the storage unit 24 and the second input of the data transfer register 33, the output of the radio frequency signal generating unit 30 is an output for connecting a television, and the output of a computer interface matching unit 34 is an output for connecting a computer. The power supply 33 is connected to the units of the device, to which a voltage of + 5 V must be supplied. The remote control 36 is connected to the first and second groups of the switch 8 and duplicates them.

 The device operates as follows.

 Two pairs of electrodes are strengthened on the wrist of the test subject’s left hand, respectively connected to an amplifier 12 of the RAG signal and a shaper of 13 pulses of ECR. The regular pulse generator 4 allows the passage of pulses from the random pulse generator 1 only through one of the AND elements (2 or 5), which include a low frequency sound signal generator 3 or a high frequency sound signal generator 6, which generate a low and high frequency sound signal (e.g. , 200 and 400 Hz) on loudspeaker 7. When implementing 1 program (contact of switch 8 in the upper position, the test subject will get used to sound stimuli.

 When implementing 2 programs (contact of switch 8 in the middle position), after the RAG signal fades to sound stimuli, a 400 Hz signal generates an electrocutaneous stimulus through an inverter 9 and an ECR pulse generator 15, and this 400 Hz signal acquires the property of selectively inducing a conditional RAG wave. At the same time, through the amplifier 12 of the RGR signal, the latter is fed to the second input of the input switch 26 for further generating a video signal for display on the computer display or the TV screen and recording the RGR signal in the computer memory unit and playback on magnetic tape.

 When implementing 3 programs (contact of switch 8 in the lower position), an audio signal with a frequency of 400 Hz from the generator 6 of the high-frequency sound signal passes to the shaper 15 of the ECR pulses only when the amplitude of the signal from the amplifier 12 of the RAG signal exceeds the voltage of the source 11 of the reference signal, otherwise, there is no electric shock. In this case, the voltage from the source 11 of the reference signal is supplied to the first input of the input switch 26 for reproduction on a computer display or a TV screen and to a computer memory unit for further reproduction on a magnetic tape.

 Further, the subject using the remote control 36 can independently manipulate the change in the position of the contact of the switch 8, and therefore, choose 1 or 3 programs at his discretion, depending on the degree of his emotional stress, and at the same time turn on magnetic recording and observe the whole training process on the display Computer or TV screen.

 Let us now consider the process of generating a video signal for playback on the TV screen or computer display of the entire training process, as well as recording in a computer memory unit for playback on magnetic tape.

 Coming to the first and second inputs of the input switch (VK) 26, respectively, the reference signal and the RGR signal are converted in the analog-to-digital Converter 27 into a digital code. Next, an eight-bit digital signal is supplied for storage in the register of the reference signal 28, and an eight-bit digital signal RAG is supplied for storage in the memory unit 24. The clock generator 16 generates a clock signal, which is supplied to the block 17 for the formation of horizontal and frame sync pulses, which together with a line counter 18 and with a control unit 19, the formation of a television scan raster, i.e. the formation of lowercase and frame sync pulses and damping pulses. From the output of block 17, the horizontal and frame sync pulses are sent to the video signal generating unit 21. And from the output of the counter 18, the television scan signals are sent to the recording control unit 19, which controls the selection in the digital code at the output of the switch 26 of the eight-bit digital reference signal for recording in register 28 or an eight-bit digital signal RAG for recording in block 24, and also controls the operation of the data transmission control unit 32, which transmits a digital signal to a computer for further recording on a magnetic tape, and the first counter RAG signal point 22 which outputs the address block 24, where the first point is recorded code (appearance) RAG signal. In this case, the address for block 24 is provided by the counter 22 together with the control unit 23, to which clock signals from the generator 16 are supplied to ensure synchronization. Block 23 provides information reading over the line duration from block 24 to the point recognition block 20, whose function is determining if in this line the first point of occurrence of the RGR signal.

 The unit for determining the first point 23, which also receives the signal from block 23, creates a highlight (marker) of this first point, for example, on a TV screen. And the block determining the reference signal 29, which also receives the signal from block 23, recorded in the register 28, the digital reference signal and the signals of the horizontal and vertical sync pulses from the output of the block 17, determines the time the line appears. The digital signal of the highlighted line is supplied to block 21, which selects this line and determines its brightness. In block 21, which also receives signals from blocks 25 and 20, a summation of all these signals with certain weights takes place. The synchronization is carried out by horizontal and frame sync pulses from the output of block 17. From the output of block 21, the total digital signal enters the block for generating the radio frequency signal 30, in which the video signal is transferred to the carrier frequency for playback on a TV screen.

 To ensure the operation of block 32 for transmitting a digital signal to a computer for further recording on magnetic tape, clock pulses from the output of the generator 16 are supplied to block 32 through a clock counter 31, which provides a standard digital signal transmission speed through the interface. From the output of block 32, two eight-bit codes are sequentially supplied to the data transfer register 33, which converts the parallel code into a serial one, which is fed to the output stage by the computer interface matching unit 34, which coordinates the levels of the incoming digital signal and is necessary for working with the interface. The voltage +5 V required for the operation of a number of units is supplied from the power supply 35.

Claims (3)

 1. A method of reducing emotional stress, including the presentation of sound signals of various frequencies, after the approximate reaction fades with a combination of higher frequency signals with electrodermal irritation, registration of a skin-galvanic reaction, an offer of a test of willpower to reduce the amplitude of a skin-galvanic reaction using the biological feedback method to a level in which the electrodermal reaction is not realized, characterized in that the moments of the sound signal, combined with e by electrodermal irritation, they suggest that the patient record the sensations of the effective direction of fear displayed on the curve by minimizing the amplitude of the skin-galvanic reaction, record the recording during 2 5 sessions and subsequently present it, offering to reproduce the sensations recorded at the time of suppression of emotional stress.  2. A device for reducing emotional stress, containing generators of low and high frequency sound signals, the outputs of which are connected to a sound source, a random pulse generator, an ECR pulse generator, a regular pulse generator, a Raman signal amplifier, a reference signal source, an inverter, a comparator, first, the second and third elements And, switch, indicator, while the output of the random pulse generator is connected to the first inputs of the first and second elements And, the outputs of which are connected respectively from the input sound generators of low and high frequency sound signals, the direct and inverse outputs of the regular pulse generator are connected respectively to the second inputs of the first and second elements AND, the output of the pulse shaper ECR through the second group of switch is connected to the outputs of the third element And and the inverter, the input of which is the first input of the third element And are connected through the first group of the switch to the second output of the high-frequency audio signal generator, the second input of the third element And is connected to the output of the comparator, the first One of which is connected to the output of the reference signal source, and the second input of the comparator is connected to the output of the RAG signal amplifier, characterized in that a remote control connected to the first and second groups of the switch is connected to it, the input switch, an analog to digital converter, and the reference register are connected in series a signal and a reference signal determining unit, a clock pulse generator connected in series, a line and frame clock generation unit, a line counter with a control unit I and the recording control unit, the point recognition unit connected in series, the video signal generation unit and the radio frequency signal generation unit, the output of which is connected to the indicator, the first point counter connected in series, the storage unit control unit and the storage unit, the clock frequency counter connected in series, the transmission control unit data register data transfer and the coordination unit of the computer interface, as well as the unit for determining the first point, while the output of the clock generator with it is single with the second input of the memory control unit, the second output of the line and frame clock generation unit is connected to the second input of the analog-to-digital converter, its third output is to the input of the clock counter, the fourth output is to the second input of the video signal generation unit, its second input is connected to the second the output of the line counter with the control unit, the third output of which is connected to the second input of the reference signal determination unit and the first input of the point recognition unit, the third input of the formation unit the ideosignal is connected to the output of the first point determination unit, and the fourth input to the output of the reference signal determination unit, the second input of the point recognition unit is connected to the second output of the memory control unit, the second input of the first point determination unit and the third input of the reference signal determination unit, the first input of the block determining the first point is connected to the first input of the storage unit, the output of which is connected to the third input of the point recognition unit, the third input of the first point determination unit is connected to the output of the first point counter, the first output of the recording control unit is connected to the control input of the input switch, the second output with the input of the first point counter, the third output with the second input of the storage unit, the fourth output with the second input of the reference signal register, and the fifth output with the second input of the control unit data transfer, the first input of the reference signal register is also connected to the third input of the storage unit and the second input of the data transfer register, the first input of the input switch is connected to the output of the reference source with a signal, and the second input of the input switch is connected to the output of the amplifier CGR, the output of the matching unit of the computer interface is the output of the device.  3. The device according to claim 2, characterized in that the indicator is made in the form of a television reception or display.

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