RU2402788C2 - Method for detection of hidden radio transmitters - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: in process of searching, antenna system of sought-for transmitter is acted upon by means of elementary antennas switching in passive antenna system displaced in limited space of searching, to massive base, and radio signal is received outside limited space, which after amplification and detection is compared to available reference signal, such as signal of antennas switching control, using results of comparison, decision is made on availability of hidden radio transmitter.

EFFECT: high selectivity to illegally installed radio transmitters, noise immunity to background radio signals, possibility to provide a high efficiency of hidden radio transmitters detection with any type of carrier modulation, including radio transmitters with closed or masked radio channel.

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Description

The invention relates to radio engineering, in particular to methods for detecting radio transmitters that are unauthorized installed in a room.

A known method of searching for radio microphones (Yu.F. Katorin, E.V. Kurenkov, A.V. Lysov, A.N. Ostapenko. Big encyclopedia of industrial espionage. St. Petersburg, "Polygon", 2000, 885 pp.), According to which, in the space of the inspected room, with the help of a broadband radio emission receiver, the level of the electromagnetic field is monitored, which increases as you approach the transmitter of the radio microphone, compare it with a predetermined threshold level, after which you decide on the presence of the radio microphone.

The threshold level is chosen so that the search device does not respond to radio emissions from natural and legal radio sources, including those remote from the search site. As a rule, the threshold level should coincide with the level of the electromagnetic background in the room, otherwise either the probability of false positives increases (with a threshold value less than the background level), or the sensitivity decreases (with a threshold value exceeding the background level) and, accordingly, the detection range.

The known method does not have selectivity with respect to the signal of the desired radio microphone, therefore, its sensitivity and detection range are entirely determined by the level of electromagnetic background in the room and, as a rule, are small.

A modification of the previous method is the so-called “acoustical connection” method (A.A. Khorev. Search for electronic devices for intercepting information using electromagnetic field indicators. Special technique, 2008, No. 1, 2), which is that it is recorded using broadband the radio signal is subjected to the simplest (amplitude or frequency) demodulation, after which the demodulated low-frequency signal is tapped using an acoustic transducer (speaker, headphones, etc.). As you approach the radio microphone, due to the acoustic feedback between its microphone and the speaker of the search device, the latter listens to a characteristic whistle, the tone, the volume of which changes when the search device moves.

Practice shows that the effect of “acoustic coupling” arises only in relation to those radio microphones in which the usual types of modulation are used - amplitude and frequency. Moreover, in the case of frequency modulation, the effect is due to the presence of "spurious" amplitude modulation in the frequency-modulated signal. However, for high-quality transmitters (for example, with quartz frequency stabilization) having small limits of carrier variation and a correspondingly low signal level at the detector output of the search device, the effect of “acoustic coupling” is rather weak, up to its complete absence.

In addition, the “acoustical fixation” method is unsuitable for searching for radio microphones with a closed or masked radio channel, in which inversion, spectrum, digital transmission methods, and complex non-standard types of modulation are used to close (mask) the radio channel.

Thus, the disadvantage of the method of "acoustical tie" is a narrow area of its applicability, in particular, the method is effective only when searching for low-quality radio microphones that use standard types of carrier modulation.

A known method of detecting hidden radio microphones (patent RU No. 2099870, IPC G01S 11/00, published 12/20/1997), including radiation into a limited space of an acoustic signal, receiving at least two points of a limited space and at one point outside of it radio signals , their demodulation, filtering, Fourier transform and subsequent comparison of the spectra of signals obtained at two points in a limited space, with the allocation of spectral components with maximum relative to each other and relative to the level of false t intensity audits, comparing the selected spectral components with the spectral components of the signal received outside the limited space, with the final selection of those whose intensities are greater than or equal to the intensities of the spectral components of the signal received outside the limited space, the subsequent reception of those radio signals whose frequencies correspond to the frequencies finally selected spectral components, while the acoustic signal is emitted during the time T, fi tratsiyu received radio signal by using Fourier transform produce at least two times the interval T, and the presence of the microphone is judged by preservation of the frequency spectral components of the demodulated position signal in the interval T, and their absence outside this interval.

The essence of the known method lies in the fact that a test acoustic signal is emitted into the test space and a radio echo modulated by it is received from a hidden radio microphone. The received radio signal after appropriate processing is subjected to correlation analysis and the degree of correlation of the spectrum of the received radio signal with the spectrum of the emitted acoustic signal is judged on the presence of a hidden microphone with a radio transmitter.

The main disadvantage of this method is its low detection efficiency of radio transmitters with non-standard types of modulation of the radio signal (pulse and code-pulse modulation, digital transmission methods, etc.).

The objective of the invention is to develop a method for the selective detection of covert radio transmitters with any type of modulation of the radio signal.

The technical result of the proposed method is its selectivity with respect to illegally installed radio transmitters, noise immunity to background radio signals, high search efficiency independent of the type of modulation of the radio channel.

The result of the invention is achieved due to the fact that in the method for detecting hidden radio transmitters, including receiving a radio signal outside a limited space, its amplification, detection and subsequent correlation comparison with a known reference signal, the results of which make a decision about the presence of a hidden radio transmitter in the search process by switching elementary antennas of a passive antenna system on a massive base act on an electromagnetic field within a limited space, while in honors the known reference signal using antenna switching control signal.

The physical principles on which the proposed method for detecting covert radio transmitters is based are as follows.

It is well known that antenna systems are integral parts of modern transceiver radio equipment.

According to the theory of antennas, the near, intermediate, and far radio wave zones are distinguished in the irradiated antenna space. In each of these zones, the electromagnetic field created by the antenna system behaves differently and is described by rather complex expressions and dependencies that are completely established only for a small number of so-called elementary antennas (a quarter and a half-wave dipole, a loop antenna, etc.). Without going into the details of antenna theory, we note the following:

- the intermediate zone, which is a transition between the near and far zones, is not of interest in our case and is mentioned only for completeness;

- the near zone, without a clear boundary, extends approximately over a distance equal to several wavelengths (according to various sources, depending on the criterion, from 5 to 20);

- the electromagnetic field in the near field has a complex structure, the dependence of the field on the distance is irregular. Any conductive objects placed in the near zone of the antenna can seriously change the electromagnetic field within the zone, especially the field can change when the dimensions of the conductive objects and / or the distance between them and the antenna are a multiple of the working wavelength of the radio transmitting device (quarter, half wavelengths, etc.). In this case, changes in the field in the near zone accordingly change the nature of the field in the far zone;

- the far zone is the region of space behind the intermediate zone, in which the field is already finally formed in the form of a plane electromagnetic wave, the characteristics of which change inversely with the square of the distance from the radiating system.

Based on the foregoing, it can be argued, and this is confirmed experimentally, that the appearance of any conductive objects in the near zone of the antenna of the radio transmitter causes a field change, which is especially pronounced when their linear dimensions coincide with the working wavelength of the transmitter or a multiple of it (half, quarter). In this case, the conductive object actually becomes part of the antenna system, significantly affects the characteristics of the electromagnetic field in the near field, which, in turn, entails a change in the electromagnetic field of the radio transmitting device in the far zone. Thus, in addition to the main internal modulation of the radio transmitter, a kind of external modulation of the radio signal emitted by it occurs.

If in the near zone of the antenna of the desired radio transmitter the parameters of the antenna system are changed according to a certain law, then the receiver located in the far zone will receive a signal additionally modulated in amplitude in accordance with the law of changing the parameters of the antenna system. It is important to emphasize that this effect on the antenna as the final element of the transmitting path of the radio transmitter will occur regardless of the type of carrier modulation and the methods of changing (masking) the information signal in the transmitter itself.

The signals of other radio transmitting devices located outside the near zone of the antenna system of the desired transmitter will not undergo additional modulation, which allows them to be identified as non-hazardous and not taken into account.

In embodiments of the method, the effect on the antenna of the radio transmitter can be carried out by introducing into the near zone conductive elements with linear dimensions close to the working wavelength of the transmitter, or by changing their parameters according to the known law.

In practice, it is apparently impossible to implement a quick and regular introduction / removal of conductive elements into the near zone and vice versa, therefore, the second of the above possibilities is implemented in the proposed method.

Let us agree to call the set of conductive elements intended for effecting a passive antenna system (PAS), and individual elements - elementary antennas. As elementary antennas, it is possible to use, for example, linear quarter-wave vibrators, the lengths and quantity of which are determined by the operating frequency range of the desired radio transmitters. The impact on the antenna of the desired radio transmitting device is produced by switching according to a certain law of elementary antennas PAS to a massive metal base, which is also part of the PAS. Switching is carried out, for example, using microwave diodes controlled signals of the microcontroller.

In the process of searching for PAS with continuously switched antennas, they are slowly moving in the limited space of the inspected room, while the receiver is stationary located at an arbitrary point in the limited space or near it.

In embodiments of the method, as a signal controlling the switching, it is possible to use a periodic signal, which can be generated directly in the receiver independently of the control signal and carry out synchronous detection. In this case, the receiver and PAS can be made in the form of separate autonomous units.

If the switching control signal is non-periodic or has the form of another complex function of time, then an instant comparison of the signals received by the receiver and the switching PAS is performed and the function of their mutual correlation is calculated. In this case, the electric connection of the radio signal receiver with the switch is necessary, since at the same time as switching the PAS elementary antennas, the switch must provide a reference signal to the receiver analysis device, with which the received and demodulated signal of the radio transmitter is compared.

The drawing shows a diagram illustrating one of the options for experimental verification of the health of the proposed method.

Designations in the diagram: 1 - limited space (search zone) of the possible location of a hidden radio transmitter 2, a radio signal receiver - 3 installed at an arbitrary point near the search zone, 4 - a broadband amplifier, 5 - a detector, 6 - a low-frequency amplifier, 7 - a comparison device (analysis), 8 - indicating device, 9 - passive antenna system (PAS), containing elementary antennas 10 and a massive base 11 with a switch 12.

The prototype device that implements the proposed method, structurally consisted of two autonomous portable units. The first block 9, including the PAS and the switch 12, was slowly moved within the area of the alleged unauthorized radio transmitter (1-5 m). The second unit 3 - a receiving device containing a receiving antenna, a broadband amplifier 4, a detector 5, a low-frequency amplifier 6, an analysis device 7 and an indicating device 8, were stationary in the far zone (in an adjacent room). At the stage of experimental verification, a spectrum analyzer was used as an analysis device, and an oscilloscope connected to its output served as an indication device. The detection criterion was the appearance in the spectrum of the received and detected radio signal of the transmitter of the frequency components of the control signal of the switch.

Four quarter-wave vibrators switched on a metal base were used as PAS. The length of the vibrators was 25, 19, 12, 8 cm, which ensured the optimal overlap of the search frequency range of 250-1500 MHz.

As the control signal of the switch, a meander with a frequency of 30 kHz was used, which simultaneously switched all four elementary antennas for a period of ≈16.5 μs, followed by a pause for the same interval.

The test radio transmitter, which was used as the desired object in the experiments, contained a series-connected microphone, a low-frequency amplifier, a spectrum inversion device, the output signal of which modulates the carrier frequency generator. Carrier frequency modulation with a frequency deviation of about 200 kHz was carried out, which characterizes the test radio transmitter as broadband. Its operating frequency was about 470 MHz and was chosen as the most commonly used in covert radio transmitters. The transmitter power is 5 mW.

First of all, when the PAS and the test radio transmitter were turned off, the receiving device was turned on. Having ascertained by the presence on the oscilloscope screen of random noise signals in its operability, a voltage was applied to the test radio transmitter. At the same time, a detected signal of the carrier frequency of the transmitter was observed on the oscilloscope screen, which is a constant level with little noise.

After supplying voltage to the PAS switch, sawtooth pulses with a frequency of 30 kHz were observed on the oscilloscope screen.

Thus, the appearance of the frequency component of the switch signal in the spectrum of the received radio signal when the PAS is turned on confirms the fact that under the influence of the PAS, the carrier frequency of the test radio transmitter is modulated in amplitude in accordance with the switch signal.

Further, by slowly moving the PAS block, the dependence of the amplitude of the frequency component of the switch signal in the received signal was determined.

It was found that for a 5 mW radio transmitter with an operating frequency of 470 MHz, the reliable detection range was 4 m, for a 5 mW transmitter with an operating frequency of 1200 MHz - 2 m. There were no false detections within the indicated distances.

It should be noted that in the case of using a correlation comparison of the received and detected radio signal with the switching control signal, the detection range can significantly increase.

In fact, in the proposed method, as well as in the prototype method, the spectrum of the radio signal of the desired radio transmitting devices is converted by adding new known frequencies to it, followed by their identification in the received radio signals.

New in the proposed technical solution is the method of spectrum conversion, which consists in external modulation of the signal of the radio transmitter by acting according to the well-known law on its antenna system.

Compared with the known methods of searching for hidden radio transmitters, the proposed method has several advantages, which are as follows.

First of all, since the impact on the spectrum is carried out in the near zone of the transmitting antenna, the method provides unique selectivity with respect to closely spaced radio transmitters and is noise-immune to the signals of other radio sources.

Another advantage of the proposed method, due to the fact that the spectrum is changed by acting on the final element of the radio transmitter - the antenna, is that it provides the ability to search and detect any, regardless of the type of modulation used in them, radio transmitters.

Finally, the ability to implement external modulation of the radio signal of the transmitter according to any, including a rather unique law, provides a low background level during the search and, as a result, high search sensitivity.

Claims (1)

A method for detecting hidden radio transmitters, including receiving a radio signal at an arbitrary point in a limited space of the possible location of the desired radio transmitter or near the specified limited space, its amplification, detection and subsequent comparison with a known reference signal, the results of which make a decision about the presence of a hidden radio transmitter, characterized in that in the process of searching by switching elementary antennas to a massive metal base, slowly moving A passive antenna system, which is located in a limited space of the investigated room, acts on the electromagnetic field of a limited space of the possible location of the desired radio transmitter, and the control signal for switching elementary antennas of a passive antenna system is used as a reference signal, and the detection criterion is the appearance of the received and detected radio signal in the spectrum a radio transmitter of the frequency components of the switching control signal.

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