RU2571532C1 - Nonlinear locator of unauthorised speech and visual information capturing devices - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: nonlinear locator comprises a control panel, a personal computer, an electromagnetic wave radiating unit configured to direct probing frequency signals towards an investigated surface, electromagnetic wave receiving units configured to receive frequency signals reflected from the investigated surface, a telemetric unit, an analyser for analysing the frequency spectrum of responses from nonlinear devices embedded in the investigated surface, and a display. The frequency spectrum analyser evaluates received signals for exceedance thereof of background noise. The method includes integrated processing of the surface investigation results and analysing the spectral pattern of responses, which predetermine high information-value of received signals. The display is configured to display response from a second harmonic, which corresponds to a semiconductor, with a red colour, and response from a third harmonic, which corresponds to an oxide, with a green colour.

EFFECT: high reliability of detecting unauthorised speech and visual information capturing devices owing to high information-value of received signals.

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Description

The invention relates to techniques for countering commercial and industrial espionage.

Non-linear locators were widely used to detect electronic “listening” and “spying” devices hidden inside the walls of rooms. The principle of operation of nonlinear locators is based on electromagnetic irradiation of objects containing semiconductor nonlinear elements (metal-oxide-metal transition, p-n junction, etc., hereinafter oxide and semiconductor), and the reception of the reflected higher multiple harmonics of the probe signal. Known devices are made using a probe radiation signal emitting unit, a reflected frequency signal receiving unit, a telemetry unit, a personal computer, an indicator (US 6049301 A, G01S 13/06, 11.04.2000; WO 02/39140 A2, G01S 13/00, 16.05 .2005; RU 2166769 C1, G01S 13/02, 05/10/2001; RU 22119669 C1, Н04К 3/00, 12/20/2003; RU 2205419 C2, G01S 13/00, 05/27/2003).

However, the known devices are characterized by poor-quality detection and the inability to classify "eavesdropping" and "spying" devices, due to only the simplest fixation of the amplitudes of the reflected signals.

Closest to the proposed one is a non-linear locator of devices for unauthorized removal of speech and visual information, comprising an electromagnetic wave emission unit configured to direct probing frequency signals to the surface being examined, electromagnetic wave receiving units configured to receive frequency signals reflected from the surface being examined, and a telemetry unit the inputs of which are connected with the corresponding outputs of the blocks for receiving electromagnetic waves, and the output through erfeys - a PC, a control panel connected to the control inputs of composite device assemblies (RU 2257012 C1, N04M 1/68, 20.07.2005).

The disadvantage of this device is also associated with the low reliability of detection and inaccurate identification of “eavesdropping” and “spying” devices, since it also lacks an integrated assessment of the pattern of responses of nonlinear objects.

The objective of the invention is to increase the reliability of counteracting commercial and industrial espionage with a technical result, which is expressed in better and more reliable detection of devices for unauthorized removal of speech and visual information, which is provided due to the greater information content of the received signals, namely due to the spectral analysis of signals emitted by non-linear devices of the 2nd and 3rd harmonic implemented directly in the nonlinear locator.

The problem is solved in that in a non-linear locator of devices for unauthorized removal of speech and visual information containing a control panel connected to a personal computer, an electromagnetic wave emission unit, configured to direct probing frequency signals to the surface being examined, electromagnetic wave reception units configured to receive frequency signals reflected from the surface being examined, a telemetry unit, the inputs of which are connected to the outputs of the blocks for receiving electromagnetic waves, and one of the outputs through the interface with external recording devices introduced an analyzer of the frequency spectrum of responses from nonlinear devices embedded in the examined surface - semiconductors and oxides and a display connected to its outputs, while the information input of the said frequency spectrum analyzer is connected to another output of the telemetry unit, the display is configured to indicate the response from the 2nd harmonic corresponding to the semiconductor in red, and the response from the 3rd harmonic corresponding to the oxide, in green, the PC outputs are connected to the control inputs of the frequency spectrum analyzer, radiation unit and electromagnetic wave reception units.

Partial essential features of the invention contribute to the solution of the problem.

As a block of electromagnetic wave radiation, a standard signal generator is used that sends a probing signal at a frequency of 1200 MHz. As blocks for receiving electromagnetic waves, selective devices are used tuned to the response frequencies of 2400 and 3600 MHz. The telemetric unit 6 is a combination of converting, filtering and matching nodes.

In FIG. 1 shows a functional diagram of the proposed nonlinear locator, FIG. 2 shows its general view.

The device includes: control panel 1 (Fig. 1), PC 2, electromagnetic radiation unit 3, electromagnetic wave reception units 4, 5, telemetry unit 6, interface 7, analyzer 8 of the frequency spectrum of responses from nonlinear devices embedded in the examined surface - semiconductors and oxides, display 9 with screen areas 10, 11. The position 12 on the diagram indicates the surface of the room to be examined (wall, window frames, chairs, etc.), and the positions 13.1, 13.2 indicate semiconductor devices for unauthorized removal re Eve and visual information (schematically shown only two such devices). All the component blocks of the nonlinear locator are compactly placed in a single housing (Fig. 2).

The control panel 1 is connected to the PC 2, the electromagnetic radiation unit 3 is configured to direct the antenna to the surface of the probing frequency signals. Blocks 4, 5 for receiving electromagnetic waves are configured to receive frequency signals reflected from the surface being examined by antennas. The inputs of the telemetric unit 6 are connected to the outputs of the blocks 4, 5 of receiving electromagnetic waves, and one of the outputs through the interface 7 is connected to external recording devices. A display 9 is connected to the outputs of the frequency spectrum analyzer 8. The information input of the frequency spectrum analyzer 8 is connected to the other output of the telemetry unit 6. The display 9 is configured to display in region 10 the response from the 2nd harmonic corresponding to the semiconductor in red, and in region 11 - the response from the 3rd harmonic corresponding to the oxide is green. The outputs of the PC 2 are connected to the control inputs of the analyzer 8 of the frequency spectrum, block 3 radiation and blocks 4 and 5 of the reception of electromagnetic waves.

As block 3 of electromagnetic radiation, a standard signal generator is used, which sends a probing signal at a frequency of 1200 MHz. As blocks 4 and 5 of the reception of electromagnetic waves, selective devices are used tuned to the response frequencies of 2400 and 3600 MHz.

The nonlinear locator works as follows.

On command from the control panel 1 through the PC 2 to the test surface 12 by the unit 3 of electromagnetic radiation using a transmitting antenna sends a probing signal with a frequency of 1200 MHz. When this signal is irradiated with semiconductor devices 13.1, 13.2 hidden in the surface, the highest multiple harmonics of the probe signal, in particular the 2nd and 3rd harmonics, are reflected from the latter. An object with a semiconductor (artificial semiconductor) corresponds to the 2nd harmonic, and an object with an oxide (natural semiconductor) corresponds to the 3rd harmonic. The received responses at frequencies of 2400 and 3600 MHz are received with the help of receiving antennas by blocks 4 and 5 of receiving electromagnetic waves.

Scan data at time points determined by PC 2 is fed to telemetry unit 6 and can be output to external devices via interface 7 (for example, recording to a flash device, hard copy).

The analyzer 8 of the frequency spectrum evaluates the received signals by exceeding them over background noise. In this case, an integral processing of the results of the inspection of the surface 12 takes place and the spectral pattern of the responses is analyzed, which determines the increased information content of the received signals.

We emphasize that, in contrast to the well-known technical solutions, the spectral analysis of signals of the 2nd and 3rd harmonics reradiated by nonlinear objects 13.1, 13.2 is realized directly in the nonlinear locator.

On display 9, in areas 10 and 11, two harmonics are displayed: the 2nd from the semiconductor (red) and the 3rd from oxide (green). The presence of the response - the amplitude and the corresponding color indication in any of the areas of the display 9 provide identification (classification) of the nonlinear object embedded in the surface 12. In the absence of response, there is no amplitude and, accordingly, no object. Thus, the display 9 is also a detection indicator. The image of the response from the 2nd harmonic in red, and the response of the 3rd harmonic in green determines an additional visual distinction between the responses to the operator (by the type of traffic light).

Additionally, the stability of the spectrum over time is evaluated on display 9 in regions 10 and 11, since the spectrum of the response from the oxide is not stable and varies in time, and the spectrum of the response from the semiconductor is stable in time.

The software for PC 2 is provided, which provides for the examination of the surface 12 in automatic mode with fixing the results of the examination obtained on display 9, as well as eliminating possible errors of the operator conducting the examination.

In this technical solution, a probing frequency of 1200 MHz is selected for the most likely detection of a SIM card.

In this technical solution, the results of the inspection of the room’s surface are both the objective assessment of the presence of embedded semiconductor devices, as well as the quickly obtained localized areas of the potential bookmark zones, documented in PC 2 with the subsequent receipt of a hard copy of the images of all potentially dangerous zones of the examined surface and indicating what kind of responses were obtained from a specific localized site.

Comparative tests of the proposed and opposed (according to the patent RU 2257012 C1) non-linear locators were carried out, which showed that the probability of detecting devices for unauthorized removal of speech and visual information by the proposed locator is approximately 30% more.

Thus, the proposed non-linear locator, in comparison with the known ones, is characterized by better and more reliable detection of devices of unauthorized removal of speech and visual information

Claims (3)

1. A non-linear locator of devices for unauthorized removal of speech and visual information, comprising a control panel connected to a personal computer, an electromagnetic wave emission unit configured to direct probing frequency signals to the surface being examined, electromagnetic wave receiving units configured to receive frequency waves reflected from the examined surface signals, a telemetric unit, the inputs of which are connected to the outputs of the blocks for receiving electromagnetic waves, and one of the outputs through the interface is connected to external recording devices, characterized in that an analyzer of the frequency spectrum of responses from non-linear devices embedded in the surface to be examined contains semiconductor non-linear elements - semiconductors and oxides, and a display connected to its outputs, while the information input of the said frequency spectrum analyzer is connected to another the output of the telemetric unit, the display is configured to indicate the response from the second harmonic corresponding to the semiconductor in red, and off ka from the third harmonic, the corresponding oxides, green, PC outputs connected to control inputs of the frequency spectrum analyzer, the radiation unit and receiving electromagnetic waves. 2. The non-linear locator according to claim 1, characterized in that a standard signal generator is used as a block of electromagnetic wave radiation, which sends a probe signal at a frequency of 1200 MHz. 3. The non-linear locator according to claim 1, characterized in that selective devices tuned to the response frequencies of 2400 and 3600 MHz are used as blocks for receiving electromagnetic waves.

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