RU2684477C1 - Radio communication system with increased detection resistance - Google Patents

Abstract

FIELD: radio equipment and communications.SUBSTANCE: invention relates to the field of radio equipment. Radio communication system contains an information subsystem on the transmitting and receiving sides, each of which is associated with a noise interference subsystem. Information subsystem of the transmitting side contains the source of information connected to the antenna array through two modulators connected in series, a digital-to-analog converter, an amplifier and a switch. Each modulator is connected by means of a signal generator to an interface unit, which is connected to a noise interference subsystem containing a series-connected noise generator and a second switch with a second antenna array. On the receiving side, the information subsystem contains a third antenna array connected to the recipient of information through a serially connected third switch, amplifier, analog-to-digital converter and two demodulators connected via a interface unit with the receiving-side noise interference subsystem containing the second noise generator and the fourth switch with the fourth antenna array connected in series.EFFECT: improving the security of transmitted information.3 cl, 2 dwg

Description

The invention relates to the field of radio engineering and can be used to create reconnaissance closed systems or radio communication systems, designed with the ability to suppress enemy radio intelligence.

Radio reconnaissance provides information by intercepting radio communications (open and encrypted) conducted via wired communications. Today, as part of the ongoing military reform and the reduction of military radio communications forces and means, when the army has to some extent use the resources of the country's unified telecommunication network, the construction of which was carried out and carried out without taking into account reconnaissance, ensuring the required indicators of the mentioned communications equipment security is becoming vital .

A number of monographs and teaching aids, in particular, “Protection of Information by Technical Means,” are devoted to the means of protecting information from interception by radio intelligence equipment. Edited by Yu.F. Katorina - St. Petersburg: NRU ITMO, 2012.416 s., V.A. Vartanesyan. Electronic intelligence. Military Publishing House. 1991.251 p., A.I. Paly. Radio war. Ripol Classic, 2013.214 s.

These funds are also the subject of domestic and foreign developments protected by patents.

A known system described in patent RU 2114513, publ. 1998.06.27, which implements a method of protecting information exchange in a local radio communication system in the VHF, microwave, and shorter radio waves using artificially created radio interference, providing a reduction in signal-to-noise ratio for receivers attempting unauthorized access to transmitted information. Due to the continuous radiation during operation of the known radio communication system beyond the perimeter of the system and noise signals having a power greater than the power of the working signals in the above-mentioned radio communication system, and covering the entire frequency band used, the signal-to-noise ratio is less than unity. For the effective operation of the known system, it is necessary that the spectral density of the noise exceeds the spectral density of the information signal in the entire frequency range, which requires significant energy costs when operating elements of the subsystem that creates noise-like noise.

A known method of enhancing the reconnaissance of a radio communication channel (UA 44332, publ. 2009.09.25) by creating a radio communication channel at a frequency that provides the maximum signal-to-noise ratio at the input of the receiving side, and communicating between the transmitting and receiving side at a set frequency with a controlled power level of the radio transmitter . The known method does not provide enough using the data on the enemy’s radio reconnaissance means of effective protection against unauthorized access to transmitted information.

A known method of radio communication (application RU 2010115144, publ. 2011.10.20), based on the transmission of a narrow-band information signal, at the same time as sending an interference signal of a comb structure with spectral and energy characteristics of comb elements similar to the characteristics of a narrow-band information signal, while filtering on the receiving side said narrowband information signal from an interfering signal. Creating an interfering signal does not provide sufficient protection for the transmitted information.

Closest to the claimed radio communication system with enhanced intelligence is described in patent RU 2253184, publ. 2005.05.27, a system configured to suppress enemy radio communications and radio control channels, while on the transmitting and receiving sides, the system contains an information subsystem, each of which is designed as a multi-channel radio station with time division of channels, a noise generation subsystem, each of the elements of which are made in the form of a transmitter of barrage interference with a pathogen generating a noise signal, as well as a block for interfacing elements of subsystems, while as a pathogen She used autostochastic oscillators operating in different frequency ranges.

A disadvantage of the known system is insufficiently effective suppression of radio intelligence and insufficiently complete secrecy of radio communications in the operation of the channels used, formed with time division.

The objective of the invention is the creation of a radio communication system containing information subsystems that implement the temporary separation of channels with their diversity in space, and equipped with antenna arrays made with the possibility of spatial filtering.

The technical result of the proposed system is to expand its functionality and improve the intelligence of radio communications, including increasing the secrecy of its work, protecting the modes used, waveforms; exchange protocol and types of modulation due to more effective suppression of enemy radio intelligence.

The specified technical result is achieved by a radio communication system with increased intelligence protection, which includes transmitting and receiving sides, each of which contains an information subsystem associated with a noise interference subsystem via an interface unit, in which, in contrast to the known system, the information subsystem of the transmitting side contains a source information connected through series-connected first modulator, second modulator, digital-to-analog converter, amplifier and first switch with the antenna array, while the first and second modulators are connected respectively through the first and second signal generators to the interface unit, which is connected to a noise interference subsystem containing a noise generator in series and a second switch with a second antenna array, while the receiving side information subsystem contains a third antenna array connected through a series-connected third switch, amplifier, analog-to-digital converter, first demodulator and second demodulator with receiving Telem information, both connected to the demodulator interface unit, which is associated with the subsystem of the receiving side noise interference, comprising a series connection of a second noise generator and a fourth switch with a fourth array.

To prevent the possible entry into the process of information exchange of radio reconnaissance equipment of the opposite side and their maximum suppression, as well as to disrupt its means of target designation and guidance, the proposed radio communication system further comprises a blocking subsystem controlled by the interface unit, made and acting similarly to the noise interference subsystem with a choice directions and parameters of emitted signals.

In a compact embodiment of the proposed radio communication system, when the receiving and transmitting sides are combined, the information subsystems of the transmitting and receiving sides are connected to the noise interference subsystem by a single interface unit controlling the entire system.

The composition of the system, the structural diagram of which is shown in FIG. 1, the transmitting A and receiving B sides are included, each of which contains: an information subsystem 1, a noise (and obstruction) interference subsystem 2, and an interface unit 3, while the transmitting side contains an information source 4, first 5 and second 6 modulators, digital an analog converter 7, an amplifier 8, a first switch 9 and a first antenna array 10. In addition, the transmitting side includes a first 11 and a second 12 signal generators, a noise generator 13, a second switch 14 and a second antenna array 15. The third antenna array 16 and the third switch one 7 belong to the receiving side, which also contains an amplifier 18, an analog-to-digital converter 19, demodulators 20 and 21, an information receiver 22, a second noise generator 23, a fourth switch 24 and a fourth antenna array 25.

The spatial arrangement of the elements of the information subsystem, as well as the radio intelligence in general, is shown in FIG. 2, where 1A is the information subsystem (with transmitter) of the transmitting side, 1B is the information subsystem (with transmitter) of the receiving side; 26 - a means of radio intelligence; 27 - line transmitter - receiver; 28 - characteristic (diagram) of the radiation pattern of the information subsystem of the transmitting side; 29 is a radiation pattern of the information subsystem of the receiving side; 30 is a radiation pattern of a noise generating subsystem of a transmitting side; 31 is a radiation pattern of a receiving side noise generation subsystem; 32 is a radiation pattern of a receiving antenna of a radio intelligence station; 33 is a radiation pattern of a subsystem for creating a blocking interference of a transmitting side.

Spaced apart receiving and transmitting sides, as well as each of the space-separated subscribers, are equipped with their own separate antenna arrays, which provide spatial filtering of radiation.

The system operates as follows.

Information from the information source 4 of the information subsystem 1 of the transmitting side A after two-stage modulation carried out using modulators 5 and 6, then through a circuit including a digital-to-analog converter 7, amplifier 8, switch 9, antenna array 10, and also generators 11 and 12 converted to radio signals. The generated radio signals in accordance with the available information about the location of the recipient 22 are transmitted in the direction specified by line 27 (transmitter-receiver) in accordance with the radiation pattern 28, either directly or through a reflector of known design. At the same time, the noise (and obstruction) interference subsystem 2, configured to select the direction and parameters of the emitted signals and implemented mainly using multichannel noise interference transmitters controlled in space by the respective switches, generates a masking radiation that hides the parameters and the exchange protocol, in accordance with radiation pattern 30, excluding the direction to the subscriber (recipient of information), which corresponds to the directional pattern laziness 28.

On the receiving side B, the information subsystem 1 receives radio signals from the direction specified by line 27 (transmitter-receiver), and delivers the received information to the receiver 22. In this case, the noise interference subsystem 23 of the receiving side, containing the noise generator, masks the useful signal with its radiation.

The information subsystem 1 of the receiving side B (object 1B), on the basis of the available data, forms a radiation pattern along line 29 towards the information subsystem of the transmitting side A (object 1A) and simultaneously, for masking, generates radiation in a wide frequency band in accordance with the radiation pattern 31 Thus, in the proposed technical solution, when the transmitting side emits interference into space, the direction in which information signals are transmitted is excluded, while ensuring The spatial channels in which the radio intelligence stations operate are suppressed.

The receiving side A, providing directional reception of information signals, emits interference into space, excluding the direction from which these signals come.

The operation of the subsystems is controlled by the interface unit 3, implemented on the basis of microprocessors, which ensures coordination of their operation modes.

As a result, the radio intelligence 26 receives noise signals from directions defined by radiation patterns 30 from the transmitting side and 31 from the receiving subscriber.

In critical cases and with the known location of the radio intelligence 26, the noise and obstruction interference subsystem 2 generates interference-radiation with a radiation pattern 33 for the maximum possible suppression of the said radio intelligence, as well as target designation and guidance by increasing the level of interference to a value exceeding the level of the useful signal at the entrance of the mentioned funds.

In all the aforementioned cases, the selective suppression of spatial intelligence means does not prevent the exchange of radio information between subscribers.

For complex radio communication options with several radio intelligence tools, spatial notch filters are formed that prohibit information emissions in the direction of radio intelligence tools for the duration of their presence in the area. If it is necessary to transmit radio signals to several subscribers spaced along the bearing and (or) the angle of the location, the antenna arrays similarly provide the formation of the corresponding spatial radiation directivity characteristics.

Thus, the proposed radio communication system can be implemented with varying degrees of reconnaissance, providing the possibility of implementing peacetime and wartime regimes.

In addition, the separation of subsystems not only by time, but also by spatial feature provides an increase in the speed of exchange and throughput of the system, as well as the ability to work with multiple subscribers spaced in space.

Claims (3)

1. A radio communication system with enhanced intelligence, which includes the transmitting and receiving sides, each of which contains an information subsystem associated with the noise interference subsystem through the interface unit, characterized in that the information subsystem of the transmitting side contains an information source connected to the antenna array through two modulators connected in series, a digital-to-analog converter, an amplifier and a switch, while the first and second modulators are connected, respectively, through the second and second signal generators, with an interface unit that is connected to a noise interference subsystem comprising a noise generator and a second switch with a second antenna array in series, while the receiving side information subsystem contains a third antenna array connected to the information receiver through a third switch in series , an amplifier, an analog-to-digital converter and two demodulators, both demodulators connected to the interface unit, which is connected to the noise suppression subsystem the exe of the receiving side, containing in series a second noise generator and a fourth switch with a fourth antenna array. 2. The radio communication system according to claim 1, characterized in that it further comprises a barrage interference subsystem configured to select the direction and parameters of the emitted signals and controlled by the interface unit. 3. The radio communication system according to claim 1 or 2, characterized in that, when combining the receiving and transmitting sides, it contains information subsystems of the transmitting and receiving sides connected to the noise interference subsystem by means of a single interface unit, which is the control unit of the entire system.

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