RU2694366C1 - Method of creating intentional active signal-like imitation interference to radioelectronic equipment - Google Patents

Abstract

FIELD: radio engineering; electronics.

SUBSTANCE: invention relates to radio engineering and can be used for suppression of radio-electronic detection means. Technical task of the claimed invention is creation of a method adaptive to any type of input signals, creation of intentional active signal-like imitation interference to radio electronic means with provision of interference signal coherency relative to the received signal, as well as creation of interference of at least four radioelectronic equipments. In the method of creating intentional active signal-like imitation interference to radioelectronic equipment (REE), receiving REE signals in the form of a single-pulse reception by means of a combined panoramic receiver with scanning of the frequency band on the principle of parallel processing in combination with search methods adapted for different types of signals of REE, evaluation of signal characteristics and detection of REE is carried out by identification of the type of REE and verification of target designation stored in the program of parameters of targets of suppressed REE of known types, in the absence of target indications of suppressed REE, presence and measurement of the frequency of a single pulse of the signal is checked and information on the frequency of the input signal is generated in the form of a code of the frequency signal number, which is introduced as target designation into a parameter program. Based on the obtained data, the formation of the interference signal is carried out by processing the received signal such that it is perceived by the suppressed REE not as an interfering signal but as a useful signal containing information on the objects of interest, emission of noise signal in direction to transmitter of suppressed REE is performed in form of reciprocal useful signal. During generation of response signals irradiating REE, priority of suppression of most dangerous signals for REE is recorded in memory and priority of signal maintenance is set.

EFFECT: high efficiency of suppression.

1 cl, 1 dwg

Description

A method of creating intentional active signal-like imitation interference to radio-electronic means.

The invention relates to methods for creating signal-like imitation interference with radio-electronic means and can be used to suppress radio-electronic detection tools and find application in the equipment of radio engineering protection of various objects, including aircraft.

The invention can be used for civilian use - in the case of an illegal broadcast signal on the network and ensuring its suppression.

In connection with the use of various radio-emitting means at the present time, and, as a result, with the saturation of the electromagnetic spectrum, the use of deliberate active imitation interference (coherent with respect to the input signals) becomes topical.

For any type of interference (masking, simulating, and their combinations), the suppression efficiency is characterized by the ratio of interference power and signal at the input of the path of radio-relay stations, leading to the width of signal processing and to informational damage.

The effectiveness of the suppression of radio-electronic means depends on the methods of generating interference and on the options for its creation.

There is a method of suppressing a RES of a sighting frequency interference using a station of interference (SP) with frequency-tunable narrowband interference. The narrow-band interference, which is shaped by the SP, is in its parameters consistent with the tuning frequency and the bandwidth of the receiver of the suppressed RES and is distinguished by a high spectral power density (Paliy AI Radioelectronic fight. - M .: Voenizdat, ed. 2nd, revised). and ext., 1989, pp. 12-15).

The disadvantage of the method is the possibility of suppressing only one RES operating in this wavelength range and using this method does not ensure the coherence of the interference signal relative to the received signal.

There are also known methods of REB RES with active simulation interference - one of which is implemented in an active jamming station protected by an RF patent for invention No. 2103705, G01S 7/38, 1994, the next is in a masking and pulse jamming station protected by a RF patent for a useful model No. 29818, NC 3/00, G01S 7/38, 2002 and in the jamming device protected by the RF patent for utility model No. 29198, NC 3/00, G01S 7/38, 2002

In accordance with these methods, a sounding signal is received, its carrier frequency is reproduced in it, a response noise is generated at this frequency, amplified and emitted in the direction of the suppressed XPS.

Receiving a probing signal, reproducing its carrier frequency, generating an interfering signal, amplifying it and emitting it in the direction of the suppressed RES are essential features of the proposed method.

The reason that prevents the achievement of the technical result provided by the invention, in these analogues is the relatively narrow frequency range of the suppression of the RES. Expansion of the frequency range of the suppression of the EFR makes the required energy potential of interference stations so large that the method becomes either unrealizable, or the suppression itself is ineffective, and, moreover, coherence with respect to the received signal is not ensured.

There is also known a method of creating active response interference, including coherent reception of radio signals using an antenna array and a multichannel receiver, determining the angular spectrum of received radio signals, the value of the square of its module from the direction of the radio link transmitter, the maximum value of the square of the module and the difference of these values, which is compared by comparison with the threshold the presence of radiation of the radio link transmitter, the formation and emission of interference when radiation is detected, while the angular spectrum is determined taking into account the place radiated I interference, radio reception and radiation noise are carried out simultaneously, but the interference radiate from a direction different from the direction of the transmitter of the radio wave zone distant antenna array (patent RF №2334360, Cl. N04K 3/00, 26.02.2007).

However, this method is focused on the creation of reciprocal interference by the radiation of the object, the direction to which is specified and does not coincide with the direction to the interference emitter. Suppression at a controlled frequency of all appearing signals (blockade) is possible by duplicating the operations of the method, which leads to an unacceptable increase in the number of operations on the signals. Due to limitations, the method cannot be used to suppress objects located in the direction and near the direction of the interference emitter. Thus, the main disadvantage of the method-analogue is to limit the scope of its application. Another significant drawback is associated with a significant response time to changes in the electromagnetic environment (reactions to the moments of the start / end of radiation). This disadvantage is due to the time spent on determining the angular spectrum of the received radio signals. In addition, using this method does not ensure coherence with respect to the received signal and a narrowband signal is generated.

There is also known a method of creating electronic countermeasures, according to which an electronic countermeasure system is proposed for installation on an aircraft or other vehicle, the method is as follows: after receiving the receiver, the signal received by the antenna is filtered, then a continuous signal is generated, which transmitted to the radiating antenna, while the signal characteristics and operating frequency is identical to the operating frequency of the radar RES, and the signal from the second output is received ika, modulated video signals via the pulse generator is also supplied to the transmitter antenna. By means of the gating device, the order of passage of signals is ensured. This method of radio suppression involves transmitting a signal of interference with high amplitude, high power, having a frequency close to the operating frequency of the RES, as a result, the radar cannot distinguish the reflected pulses from the interfering signal (US Patent 4307400 of 12/22/1981).

However, this method and the proposed system has several drawbacks - the complexity of implementation - in order to reproduce it, it is necessary to carry out complex measurements of video signals from the REC, digitize them and reproduce, as a result of the implementation of this method, an interfering modulated narrowband signal is created, and, in addition, The method does not provide coherence with respect to the received signal.

The closest in technical essence and the achieved result is a method of creating unmodulated active interference to radio-electronic means (RES), which consists in receiving signals from radio-electronic devices, evaluating their characteristics, generating a continuous interfering signal based on the received data, and determining the angular the coordinates of the RES, the interfering signal is emitted in the direction to the transmitter of the suppressed RES, while the interfering signal is emitted at frequencies f ₁ and f ₂ , which are chosen from the condition f _p = ± nf ₁ ± mf ₂ , g de f _p is the operating frequency of the suppressed RES, n and m are integers (Patent for invention No. 2292058, class G01S 7/38, 06/29/2005).

The disadvantage of this method is the use of unmodulated active interference, which have the following disadvantages - in the initial period, active interference is generated by radiation at the carrier frequency without modulation, and the effect of such interference is based on the fact that the receiver of the RES signals should have high sensitivity, and if its input falls strong signal interference at the carrier frequency, the first stages of the receiver will be brought to saturation, and the useful signal with a small amplitude will not be accepted, and the output of the receiver in this case the signal does not appear. It is known that unmodulated interference did not become widespread, since it is very easy to deal with them, therefore, for the purposes of suppressing the XPS signals, modulated interference is used, and, due to certain restrictions, this method cannot be used to suppress objects located in the direction and near the direction of the emitter noise, therefore - one of the disadvantages of the prototype method in limiting its scope, as well as the ability to suppress only one RES, operating in this wavelength range. In addition, in the known method, the direction to the suppressed RES receiver may not coincide with the direction of arrival of the RES signals and the coherence of the interference signal relative to the received signal is not ensured.

The technical task of the claimed invention is to create a method that is adaptive to any kind of input signals, the creation of intentional active signal-like imitation interference with radio-electronic means to ensure the coherence of the interfering signal relative to the received signal, as well as the creation of interference from at least four RESs.

The task is solved in such a way that in the method of creating deliberate active signal-like imitation interference to radio-electronic means, that they receive REM signals, their characteristics are evaluated, an interfering signal is formed on the basis of the received data, and the radial coordinates of the REM are determined. the interfering signal is emitted in the direction of the transmitter of the suppressed RES to the transmitter; in this case, the RES is detected by a combined panoramic-search method using a single pulse, Using any kind of RES signals — powerful pulse signals, using a panoramic receiver, quasi-continuous signals using a search receiver, then they analyze the RES signals, estimate their parameters, determine the stage of operation and the need to suppress the RES, and on the basis of these data choose the type of interference that is created by Various modulations of the recorded copy of the signal or its part also radiate it to the frequency of the electronic means, while the signal-like imitation noise can be transmitted by no less than four electronic means.

Since the imitation interference is not selected by the receiver RES against the background of the useful signal, they are also called signal-like, therefore, in the claimed method we use this clarifying definition of the generic concept.

The essence of the proposed method is illustrated in FIG. 1, where the scheme of its implementation is presented.

The inventive method of forming intentional active signal-like imitation interference to radio-electronic means can be carried out by active jamming stations, including stations that equip tactical aircraft with the aim of disrupting their tracking with enemy radar equipment and guiding the guided weapon at them.

Stations of active jamming are designed to create in range, speed and angular targeting of the enemy's radar. The station provides a panoramic reception and scans the frequency range, identifies the sources of signals, their direction, and from all sources determines the most dangerous. The active jamming station operates in the range of wavelengths in which the radar can operate, including airborne radar tracking and target illumination, as well as some ground-based RESs of similar purpose. In accordance with the computer control commands that process the results, the parameters of the suppressed radio electronic means (RES) are analyzed, the corresponding modulation of the digital radio frequency memory is selected, the signals from the output of which are amplified and radiated by the transmitting system. Moreover, the transmitter uses a temporary separation of the emitted signals with a fast switching of the carrier frequency.

In accordance with FIG. 1 method is as follows.

In the claimed method, the detection data of the RES are combined by a panoramic panoramic search method, a single pulse of the leading edge of any type of RES signals is received, measured and stored using the method of generating a digital radio frequency memory.

Step 1. Check for target designation.

In case of electronic surveillance, the source of information about the technical characteristics of the observed EFs are the parameters of the radio signals emitted by them. Consequently, in order to determine the type of RES and its characteristics, it is necessary to receive signals and, based on the measured parameters, recognize the RESs to which these signals belong.

Before the start of the station, interference is entered by a computer program into target parameters — repressed radars of known types.

If, during the operation of the station, radars of new types are detected that are not entered into the program, then it is possible automatically or manually by the operator to make necessary changes.

In the event that a target is found and target designation is present, the signal goes to the next stage - Setting the frequency.

If there is no target designation, then the type of EFR is not determined; in this case, the signal arrives at Step 2 - Check for the presence and measurement of the frequency of the pulsed signal.

Step 2. Check for the presence and measurement of the frequency of the pulse signal.

At this stage, the frequency of the pulsed input microwave signals is determined using frequency-selective branching, followed by detection and generation of information about the frequency of the input signal in the form of the code of the frequency signal number, in the band of which the input signal is detected and switching of the input signals from the receiving antennas.

Reception of a pulse signal is carried out by a panoramic receiver, which provides detection of the signal and measurement of its carrier frequency using a consistent tuning over the frequency range and has a sensitivity sufficient to receive powerful pulse signals. Panoramic receiver is equipped with a microwave signal delay line, designed to delay the signals for a specified period of time.

To determine the value of the input signal frequency, the entire frequency range is divided using frequency-selective splitters (CIR) calculated for a certain number of sub-bands (channels), the band of which must coincide with the frequency band used in the algorithm of the digital radio frequency memory and corresponds to the values of 500 MHz to 2000 GHz.

If the pulse signal is determined, it also goes to the frequency setting stage.

If the signal is not defined, then it re-enters the stage Calculation of the frequency of reception and transmission, where the signal is fed to the stage Setting the frequency.

At the same time, low-power signals are searched using a search receiver. These signals are quasi-continuous signals, their parameters can take any value within a certain interval.

Search receiver refers to measuring receivers that can be tuned in a relatively wide frequency band and are used to detect, identify and measure parameters of radio signals.

Stage 3. Setting the frequency.

After the reception of signals by receiving antennas, the signals are amplified, the position code of the frequency channel number is formed, in the band of which a signal is detected, while the RF signal is delayed by the delay line for the formation of the position code and then fed to the input of the search receiver and the formation of address switching. When the operating frequency is set and determined in accordance with the data, in accordance with the task, it proceeds to the stage Check availability and determination of signal parameters.

Step 4. Check for the presence and determination of signal parameters.

The task of this stage is to determine the parameters of the detected signals, to determine their types, the beginning and end of the signals. Serviced signals are determined on the basis of experimental data and tasks of the proposed method.

If the received signal responds to the request. Is there a signal? and it is determined, it goes to the stage Determination of the type of radiating means and the stage of its work.

Step 5. Determining the type of radiating agent and the stage of its operation. If the type of the radiating means and the stage of its operation are determined, then the signal goes to the next stage. Comparison of the type of the radiating means with the database, setting the priority (1-4) using a digital radio frequency memory device.

At stage 5 of the proposed method, a comparison is made of the type of radiating means with the database of the entered data, including the flight task.

The measurement results in the form of a digital code is a command to record the input signal in the digital radio frequency memory and provide a search mode in other parts of the input frequency range.

The position code of the frequency channel number is transmitted to tune the digital radio frequency memory device to the frequency of the received signal and the type of the emitting means and the stage of its operation are determined.

The technology and devices of the HRPC used in the claimed method make it possible to receive and store in digital form copies of radio frequency signals, as well as to carry out their subsequent digital processing in order to form signals with different types of modulation. The CDPC system generates special modulated signals, which are actually radio portraits of targets of various types. When receiving such signals in the radar of the enemy, false targets are formed that are hardly distinguishable from the real ones. As a result, the enemy is forced to spend significant resources on tracking false targets, which may result in additional losses and deterioration of the overall situation. In fact, the action of the system with the DIAC can be compared here with the effect of disinformation on the enemy.

The use of digital radio frequency memory technology provides a number of significant advantages for EW systems and other devices and radio systems. In a system with MSC, there is no need to form a signal to influence the radar from scratch. For this purpose, the received radar signal is used, which is processed accordingly. The return signal transmitted by the system with the CSRP in the direction of the radar is perceived by it not as an external interfering signal that needs to be filtered out, but as a useful signal containing information about the objects of interest. That is, this signal can not be ignored by the radar, which is very important. Systems with HRPC are multifunctional, capable of operating in various modes of radar suppression, as well as generating numerous false target images.

The decision on the most dangerous signals for the RES is due to the choice of the search receiver band, which provides channel recording.

The priority of servicing the most dangerous signals is taken into account when generating response signals of the EI EC, irradiating the object, are recorded in the copy memory, and the parameters of the input signals are systematically updated, the optimal type of reproducible signals are selected, and at this stage the possibility of creating active simulation interference no less than 4 RES.

Upon detection of the RES signals, their radio engineering and temporal parameters are measured, then the detected RESs are identified by their radiation types (NI, SOI, AI, or CI) and the stage of its operation. The signal parameters to be determined include: pulse duration, pulse repetition period, exact signal frequency, signal amplitude, signal type.

If the priority of signal servicing is set, the signal is transmitted to the next stage - Setting the interference parameters depending on the type of tool and its operation stage and on Recording a copy of the signal, and if not set, the signal is sent to the Verification of target designation stage and the signal analysis is repeated all stages, starting with the first.

Step 6. Record a copy of the signal.

At this stage, copies of the signals are recorded, which are then fed to step 7.

Stage 7. Reproduction of a copy of the signal with the endowment of modulation.

At this stage, the interference parameters are determined and the formation of imitation signal-like active interference of the required type takes place based on the recovery of the signal at the carrier frequency from a stored digital copy of a certain duration with the endowment of modulation. If the formation of signal-like copies occurred, the signal goes to the next stage. If the copies of the signal are not reproduced, the signal returns to step 6 Record the copy of the signal and then to the stage Playback of the copy of the signal with the endowment of modulation. If copies of the signal are reproduced, then the signal goes to step 8 Checking the formation time of the interference.

Step 8. Check the time of formation of interference.

The moment of the beginning of the signal (t _n ) interference is fixed, provided that at the stage of Reproduction of a copy of the signal with the endowment of modulation, it is detected and measured. The moment of the beginning of the signal is assigned the value of the timer of the channel processor.

Stage 9. Time is over?

If the interference time is over and the interference signal is not generated, the signal is sent to the Check for presence and determination of signal parameters, if the generation time of the interference is determined, then the signal is sent to the Check for target designation check.

In addition, after the stage Checking the presence of target designation and determining the stage, the target designation signal can be transferred to the stage of stage 5 Definition

type of radiating means and the stage of his work.

The interference generated by the claimed method serves for switching depending on the frequency range, which are amplified and transmitted to transmitting antennas, which radiate them in the direction of the EI REM, i.e. the interference signals are analyzed, their parameters are determined, and then re-radiation occurs interfering signals can be transmitted at least four RES.

The inventive method of generating interference differs from analogs and prototypes using a fundamentally new method of receiving, processing, transmitting a microwave signal and generating interference, based on the principle of parallel processing by a panoramic receiver in combination with search methods adapted for various types of signals.

In the methods used in the analogues and the prototype, after the radiation signal from the RES is detected, its frequency values are stored in frequency memory devices, and then these values are compared with the stored ones, and an interference signal is generated at a specific frequency.

In this case, a pulsed source of individual protection of the target, upon detecting the arrival of a RES pulse, radiates interference at a certain frequency, aimed at disrupting the functioning (failure of tracking) of the radiation source.

In the proposed method, an adaptive, consistent in spectrum, coherent with respect to the input signal, the interference is generated by storing and reproducing copies of the probing signals, while its structure is similar to the structure of the useful signal.

In the present method, the evaluation and characteristics of the signal can occur by a single pulse, then the resulting values are transmitted to the digital radio frequency memory, which is part of the active interference station. If the received copies of the signals cover the duration of all elements of the resolution, the masking noise. If the duration of the formed copies is equal to the duration of the burst of a signal, then the disturbance is imitating.

An important element in ensuring the creation of imitating signal-like (coherent with respect to the input signal) signals is the organization of the continuous reception of probing signals of various types - AI, SOI, NO, and others, and their memorization.

Analysis of existing signal processing methods in relation to the conditions of a wide operating band, a multi-signal environment and provision of reception without signal skipping with its memorization, including the leading edge of a single pulse, taking into account frequency tuning, led to fundamental decisions of the proposed method and creation of a block diagram of the implementation way.

In the inventive method, the reception of the RES signals is carried out on a single pulse of the leading edge of any kind of RES signals. In this case, the interference station operates at a specific frequency and radiates a single pulse into space. Reflecting from the REC, he carries useful information about him. At the same time, the interference station is additionally switched on and forms the first pulse at this frequency. When a pulse arrives at the first arrival time, it emits a simulation-induced interference disturbance at the same frequency, aimed at disrupting the functioning of the radiation source.

When developing digital devices, it is often necessary to form pulses attached to the input signal. The signal front in electronics is the transition of a digital signal from the “zero” state (lower level) to the “one” state (upper level) (increase of the signal) or from the “one” state to the “zero” state (signal decay). The active signal level is the level corresponding to the arrival of a signal, that is, the performance of this signal by the corresponding function.

In accordance with the claimed method determine the detection data RES combined panoramic panorama-search method.

There are search and searchless ways to determine the frequency of RES.

Search methods for determining the frequency based on the restructuring of the receiver and with a significant time intelligence, can measure the carrier frequency with great accuracy, and provide high resolution.

Search methods are usually implemented panoramic receivers.

Searchless methods make it possible to determine the carrier frequency almost instantaneously over the entire range of frequencies being explored. Reducing the time of frequency exploration based on searchless methods comes at the cost of either a deterioration in accuracy and resolution, or an increase in equipment.

Receivers using non-search methods for determining the frequency, provide simultaneous reception of signals in a wide range of operating frequencies without rebuilding the local oscillators or filters.

In JSC "CNIRTI named after academician A.I. Berg ”were carried out field tests on modeling the method of creating intentional active imitation interference to radio-electronic means.

In accordance with the obtained experimental data, the proposed method is as follows.

The signal (external) from the conditional REM enters the first stage of checking for the presence of target designation, which checks for the presence of target designation - to do this, before you prepare for the interference station, parameters of targets are introduced - suppressed radars of known types.

If the target is found, then determine and estimate the frequency of the powerful signal, which is pulsed.

At the same time, low-power signals are searched that are related to continuous signals — their parameters can take any value within a certain interval.

For a coarse determination of the input signal frequency, the entire frequency range is divided using frequency selective splitters (CIR) calculated for 28 subbands (channels) with a bandwidth of 500 MHz matching the frequency band used in the algorithm of a digital radio frequency memory device. As a result of filtering and detecting the incoming signal (s), a video signal (video signals) is generated, then the video pulses, after detecting the input signal, are used to adjust the threshold voltages of three bands: (4-8) GHz, (8-12) GHz, (12-18 GHz.

If a signal is detected, it enters the stage of setting the operating frequency of an active jamming station.

In the event that a target is found, the signal arrives at a stage corresponding to installation of active interference on the operating frequency of the station.

After receiving signals from receiving stations of the jamming station, signals are amplified, the position code of the frequency channel number is formed, in the band of which a signal is detected, while the RF signal is delayed by the delay line during the formation of the position code and then fed to the input of the search receiver and the formation of address switching. When the operating frequency is set and determined in accordance with the data specified by the flight task, it proceeds to the stage of checking the presence and determining the signal parameters.

The task of this stage is to determine the parameters of the detected signal, determine the type of signal, and determine the start and end points of the signal. Serviced signals are determined on the basis of experimental data and tasks of the proposed method.

When a signal is detected, the signal arrives at the stage of determining the type of radiating agent and the stage of its operation.

If the signal is determined, then the position code of the frequency channel number is formed and it is transmitted to tune the digital radio frequency memory device to the frequency of the received signal, where the type of the radiating means and its operation stage are determined, as well as the order of servicing the most dangerous signals, which is taken into account when generating response signals RES UO, irradiating the object. In this case, the copies and parameters of the input signals are recorded in the memory, which are systematically updated, the optimal type of reproducible signals are selected, and at this stage the possibility of creating active imitation interference of at least 4 radio electronic means is evaluated.

Upon detection of the RES signals, their radio engineering and temporal parameters are measured, then the detected RESs are identified by their radiation types (NI, SOI, AI, or CI) and the stage of its operation. The signal parameters to be determined include: pulse duration, pulse repetition period, exact signal frequency, signal amplitude, signal type. Based on the measured values of the pulse duration and repetition period, the type of signal is determined, in accordance with Table 1.

* Note: If the start of the signal is recorded in the pulse descriptor, but the end of the signal is not fixed, the signal is considered continuous.

Next, the formation of simulated interference of the required type takes place based on the restoration of the signal at the carrier frequency from a memorized digital copy with a working frequency band of 750–1250 MHz and a maximum duration of the memorized signal is 163 μs, recording a copy of the signal, and then interfering with the radiation of the signal copy modulated in frequency, amplitude and time of radiation with frequency tuning by coherent memorization.

In this case, the moment the signal begins (t _n ) is interfered with, provided that at this stage it is detected and measured.

The formed signal-like copies of the signals are fed to the switch, depending on the frequency range, and then they are amplified and sent to the transmitting antennas, which radiate them in the direction of the radio electronic line.

As a result of the simulation of the method and experimental tests, in addition to all the positive qualities, an increase in the efficiency of interference generation was achieved by using the method of forming a digital radio frequency memory, and as a result, frequency memorization, analysis of RES signals, their formation in digital form and instantaneous carrier frequency tuning on the frequency of the RES, with the determination of the pulse duration of the time parameters, and then the reproduction of exact copies of the signals of the RES, the choice of the optimal type is reproducible signals, ordering signals, etc. occurs much more intensively than in the known methods, and, moreover, due to the possibility of creating active simulation interference at least 4 RESs, which also allows to increase the efficiency of creating active interference to radio-electronic means.

For the implementation of the proposed method of creating deliberate active imitation interference with radio electronic means it is necessary:

- ensuring accurate time-frequency overlap between the work intervals of the suppressed equipment and radio-frequency suppression complexes;

- formation of the most rational optimal interference structure;

- ensuring coherence of interference with respect to the received signal, which allows to increase the spectral density of the interfering signal;

- ensuring the required interference-signal ratio at the input of the suppressed radio-electronic means, at which the required value of the interference level is reached; The analysis of the level of existing methods for the formation of deliberate adaptive active signal-like simulation interference to radio-electronic means made it possible to establish that the analogs characterized by a set of features that are identical to all the features stated technical solutions are absent, which indicates the compliance of the claimed method with the condition patentability "novelty."

The search results of the known solutions in this and related areas of technology in order to identify signs that coincide with the features of the declared object, different from the prototype, showed that they do not follow explicitly from the prior art. The prior art also revealed no prominence of the effect of the transformations envisaged by the essential features of the claimed invention on the achievement of the said technical result. Therefore, the claimed invention meets the condition of patentability "inventive step".

Claims (1)

A method of creating intentional active signal-like imitation interference to radio-electronic means (RES), which consists in receiving signals from the RES, assess their characteristics, determine the angular coordinates of the RES, form an interfering signal based on the received data and emit it in the direction of the transmitter of the suppressed RES; characterized in that the reception of the RES signals is carried out in the form of a single pulse single reception by means of a combined panoramic receiver with frequency range scanning on the principle of parallel processing in combination with search methods adapted for various types of RES signals, signal characteristics and detection of the RES are performed by recognizing the type RES and target indication checks stored in the program of target parameters of repressed RES of known types, in the absence of target indications on The pressured RESs check the availability and measurement of the frequency of a single pulse of the signal and generate information about the frequency of the input signal as a code of the frequency signal number that is entered as a target indication in the parameters program, the formation of an interfering signal based on the received data is performed by processing the received signal so that it was perceived by the suppressed RES not as an interfering signal, but as a useful signal containing information about the objects of interest, the emission of an interference signal in eg Payment of a transmitter of a suppressed RES is performed in the form of a response useful signal, the order of suppression of the most dangerous signals for the RES is taken into account when generating response signals irradiating the RES, is recorded in the memory and the priority of signal service is set.

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