RU2812340C1 - Method for generating and processing signal embedded in masking interference - Google Patents

Abstract

FIELD: radio communications.

SUBSTANCE: invention can be used to transmit confidential information over radio communication channels with a limited frequency resource. The method of generating and processing a signal built into masking interference additionally consists in the fact that for each change in the value of the carrier frequency of the useful signal, a different value of the symbolic signal transmission rate is set, and with each change in the value of the carrier frequency of the useful signal, the value of the symbolic transmission frequency of the signal and the structure of the masking interference are changed for each value of the carrier frequency of the useful signal is selected taking into account the fact that each change in the symbol transmission rate of the signal leads to a change in the width of the frequency spectrum band it occupies; when isolating a signal at each carrier frequency, the change in the structure of the masking interference is taken into account, taking into account the fact that each change in the symbol rate signal transmission leads to a change in the width of the frequency spectrum band it occupies. Changes in the symbol rate of the signal are known at the receiving end.

EFFECT: improved confidentiality of information due to changing the bandwidth of the information signal built into the structure of the masking interference.

1 cl, 6 dwg

Description

The invention relates to the field of radio communications and can be used to transmit confidential information over radio communication channels with a limited frequency resource.

The “Method for protecting information exchange in a local radio communication system” is known (RF Patent No. 2114513, IPC H04K 3/00, publ. 06.27.1998, Bulletin No. 18). In the known method, the protection of information exchange in a local system is based on reducing the signal-to-noise ratio (SNR) for receivers receiving an attempt of unauthorized access to transmitted information. To guarantee protection in all possible situations, an SNR of less than unity is provided due to the fact that during operation of the radio communication system, noise signals are continuously emitted beyond the perimeter of the system and upward, having a power greater than the power of the operating signals in the radio communication system, and which cover the entire frequency band, used in the system.

The implementation of the known method assumes the presence of two subsystems: the creation of noise interference and information exchange. Subscriber radio stations protect against noise exposure using a priori information about the structure of the interference.

The disadvantages of this known method are that increasing the confidentiality of information transmission is possible only in a limited area where transmitter antennas are located that create noise interference; it is impossible to transmit information outside the loop.

Known “Method of information protection and radio communication system with increased intelligence protection” (RF Patent No. 2253184, IPC H04K 3/00, publ.: 05.27.2005, bulletin: 15)

In the known method, in a radio communication system containing an information subsystem and a noise interference subsystem, as well as elements of the information subsystem, elements of a noise interference creation subsystem, an interface block for subsystem elements is introduced, which ensures the production of barrage interference in free periods of time and at permitted frequencies, connected between the elements of the information subsystems and subsystems for creating noise interference, elements of the information subsystem and elements of the subsystem for creating noise interference are integrated into a single mobile complex, and each element of the information subsystem is made in the form of a multi-channel radio station with time division of channels, and each element of the subsystem for creating noise interference is made in the form of barrage transmitters (PZP) based on autostochastic generators.

The disadvantage of the known method is that the subsystem for creating noise interference ensures that the barrier interference is placed in free periods of time, that is, the barrier interference is placed in the time domain, not the spectral domain, therefore, with long-term analysis, it is possible to determine the information and noise barrier components of the signal in the time domain, which will lead to a decrease in the confidentiality of information transfer.

The closest in its technical essence to the claimed method is “Method of generating and processing a signal built into masking interference” (RF Patent No. 2790098 MPK H04K 1/02, publ.: 02.14.2023 Bulletin No. 5).

In the prototype method, a useful signal and masking interference are formed on the transmitting side of the radio line in the form of an additive mixture, and the carrier frequency of the useful signal is selected so that the frequency spectrum occupied by it is within the frequency band occupied by the masking interference, and the structure of the masking interference is chosen such so that at frequency positions occupied by the useful signal there are no spectral components of the masking interference or the value of the modulus of their amplitudes does not exceed 5% of the modulus of the amplitudes of the spectral components of the useful signal, and at other frequency positions not occupied by the useful signal, the amplitude of the spectral components of the masking interference in modulus was equal to the amplitude of the spectral components of the useful signal, the useful signal and masking interference are transmitted in the form of an additive mixture over a radio link, and the useful signal is received and isolated by compensating for the masking interference as a result of coherent processing on the receiving side of the radio link, characterized in that the value of the carrier frequency of the useful signal is periodically changed signal within the frequency band occupied by the masking interference, and the corresponding structure of the masking interference, and the order of changes in the values of the carrier frequency of the useful signal and the corresponding changes in the structure of the masking interference, as well as the operating time of the radio link at the current carrier frequency are initially known both on the transmitting side and on the receiving side, while the duration of continuous operation of the radio link on one carrier frequency is selected so that it does not exceed 1% of the total time of message transmission from the transmitting side to the receiving side.

The disadvantage of the prototype method is that the radio link operates strictly at the same speed, i.e. within the same channel bandwidth, which reduces the confidentiality of information transfer.

The objective of the invention is to create a method for transmitting information that will increase the confidentiality of information transfer.

The technical result is to increase the confidentiality of information by changing the bandwidth of the information signal built into the structure of the masking interference.

The technical result is achieved by the fact that in the method of generating and processing a signal built into masking interference, which consists in the fact that on the receiving and transmitting sides the order of changing the values of the carrier frequency of the useful signal and the spectral bandwidth of the useful signal are determined, and the carrier frequency of the useful signal is chosen so In such a way that the frequency spectrum occupied by it is within the frequency band occupied by the masking interference, the structure of the masking interference is set such that at the frequency positions occupied by the useful signal there are no spectral components of the masking interference or the value of the modulus of their amplitudes does not exceed 5% of the modulus of the amplitudes of the spectral component of the useful signal, and at the remaining frequency positions not occupied by the useful signal, the amplitude of the spectral components of the masking interference in modulus was equal to the amplitude of the spectral components of the useful signal, the useful signal and masking interference are formed on the transmitting side of the radio link in the form of an additive mixture for each value of the useful carrier frequency signal, transmit the useful signal and masking interference in the form of an additive mixture over a radio link, while periodically changing the value of the carrier frequency of the useful signal within the frequency band occupied by the masking interference, receive and isolate the useful signal by compensating for the masking interference as a result of coherent processing on the receiving side of the radio link , and the specified reception procedure is performed at each carrier frequency, characterized in that for each change in the value of the carrier frequency of the useful signal, the symbolic signal transmission rate is set, and the indicated changes in the symbolic signal transmission rate are known on the receiving side, and the structure of the masking interference for each the values of the carrier frequency of the useful signal are selected taking into account the fact that each change in the symbolic transmission rate of the signal leads to a change in the width of the frequency spectrum band occupied by it, with each change in the value of the carrier frequency of the useful signal, the value of the symbolic transmission rate of the signal is changed, and when the signal is allocated on each carrier frequency takes into account the change in the structure of the masking interference, taking into account the fact that each change in the symbol rate of signal transmission leads to a change in the width of the frequency spectrum band it occupies.

Thanks to a new set of essential features, which consist in the fact that, in agreement on the receiving and transmitting sides, for each change in the value of the carrier frequency of the useful signal, they set their own value for the symbolic transmission rate of the signal, which determines the frequency bandwidth of the useful signal in a noise-like signal, which leads to increased confidentiality transmission of information, since without a priori data, an outside observer will not be able to determine the parameters of the information signal.

The claimed method is illustrated by illustrations in which:

in fig. 1 - information sequence;

in fig. 2 - spectrum modules of the useful signal, in the case of a low symbol rate in the useful signal;

in fig. 3 - spectrum modules of the useful signal, in the case of a high symbol rate of transmission in the useful signal;

in fig. 4 - modules of the spectrum of the noise signal, in the case of a low symbol rate in the useful signal;

in fig. 5 - modules of the noise signal spectra, in the case of a high symbol transmission rate in the useful signal;

in fig. 6 - module of the spectrum of the total signal, representing the additive sum of the useful signal and masking interference.

The implementation of the claimed method is carried out as follows.

On the transmitting side, a useful signal is generated and masking interference is generated. Moreover, the masking interference is formed in such a way that the spectrum of the useful signal is located within the frequency band occupied by the masking interference. In this case, the structure of the masking interference is chosen such that at the frequency positions occupied by the useful signal its spectral components are absent or the value of their amplitude modulus does not exceed 5% of the amplitude modulus of the spectral components of the useful signal. And at the remaining frequency positions not occupied by the useful signal, the amplitude of the spectral components of the masking interference would be equal in magnitude to the amplitude of the spectral components of the useful signal.

In this case, the value of the carrier frequency and the frequency bandwidth of the useful signal are periodically changed within the frequency band occupied by the masking interference, depending on the symbol transmission rate. And along with a change in the value of the carrier frequency, the structure of the masking interference corresponding to it (the value of the carrier frequency) is also changed. And they change the structure of the masking interference in such a way that at the frequency positions occupied by the useful signal its spectral components are absent or the value of their amplitude modulus does not exceed 5% of the amplitude modulus of the spectral components of the useful signal.

The order of changes in the values of the carrier frequency and the frequency bandwidth of the useful signal, and the corresponding changes in the structure of the masking interference, as well as the operating time of the radio link at the current carrier frequency are initially known both on the transmitting side and on the receiving side.

As an example, in FIG. 2 and 3 show the modules of the useful signal spectra, and FIG. 4 and 5 masking interference satisfying the above conditions.

Since the useful signal and masking interference are formed in one radio transmitting path, then at the output of the radio transmitting path there will be a total signal representing an additive mixture of the useful signal and masking interference, and the spectrum of the total signal will be close in structure to the spectrum of masking interference, for which all spectral coefficients have approximately equal values.

As an example, in FIG. Figure 6 shows the module of the spectrum of the total signal, the spectral coefficients of which have approximately equal values, under conditions of channel noise.

The signal embedded in the interference becomes inaccessible to radio reception equipment that does not know the parameters of the useful signal.

The useful signal is received and isolated by compensating for masking interference as a result of coherent processing on the receiving side of the radio link.

The implementation of these procedures is carried out as a result of subtracting the masking interference from the received total signal. In practice, such an operation is implemented by filtering using a filter whose amplitude-frequency characteristic corresponds to the structure of the masking interference in which the useful signal is embedded.

The proposed technical solution involves a periodic change of the carrier frequency, the frequency bandwidth of the useful signal, and a corresponding change in the structure of the masking interference. This approach will increase the confidentiality of information transfer in relation to an outside observer. Which will not have a priori information about the parameters of the useful signal built into the masking interference.

The implementation of the invention is carried out by the sequence of the following technical procedures.

P.1 An information signal is generated.

A.2 On the receiving and transmitting sides, the order of changing the values of the carrier frequency and the spectral bandwidth of the useful signal are determined. Moreover, the carrier frequency of the useful signal is selected in such a way that the frequency spectrum occupied by it is within the frequency band occupied by the masking interference.

A.3 On the receiving and transmitting sides, the masking interference structure is chosen such that at the frequency positions occupied by the useful signal there are no spectral components of the masking interference or the value of their amplitude modulus does not exceed 5% of the amplitude modulus of the spectral components of the useful signal, and at other frequency positions , not occupied by the useful signal, the amplitude of the spectral components of the masking interference was equal in magnitude to the amplitude of the spectral components of the useful signal.

A.4 In this case, the masking interference structure is set for each value of the carrier frequency of the useful signal, defined in A.2, so that it meets the requirements of A.3.

P.5 The useful signal and masking interference are generated on the transmitting side of the radio link in the form of an additive mixture.

In this case, procedure A.5 is carried out for each value of the carrier frequency of the useful signal, determined in accordance with A.2.

P.6 The useful signal and masking interference are transmitted in the form of an additive mixture over a radio link. In this case, the value of the carrier frequency of the useful signal is periodically changed within the frequency band occupied by the masking interference in accordance with Clause 3.

P.7 The useful signal is received and isolated by compensating for masking interference as a result of coherent processing on the receiving side of the radio link. Moreover, the specified reception procedure is performed at each carrier frequency determined by P.2.

The procedures for generating and receiving a useful signal and masking interference over a radio channel are known, see (“Method of information protection and a radio communication system with increased intelligence protection”, RF Patent No. 2253184, IPC H04L 9/00, publ.: 05/27/2005, Bulletin No. 15 , as well as “method for radio suppression of communication channels” RF Patent No. 2450458, IPC H04K 3/00, publ.: 05.10.2012 Bulletin No. 13).

The procedures for generating and receiving a useful signal and masking interference over a radio channel are known from ("Method of information protection and radio communication system with increased intelligence security", RF Patent No. 2253184, IPC H04L 9/00, publ.: 05.27.2005, Bulletin No. 15, and also “Method of radio suppression of communication channels” RF Patent No. 2450458, IPC H04K 3/00, publ.: 05.10.2012 Bulletin No. 13).

The procedures for forming an additive mixture of a useful signal and masking interference, which can be Gaussian noise, are known from (p. 124, Sklyar B. Digital communication. Theoretical foundations and practical application: Translated from English. M.: Williams, 2003. 1104 p. .).

Procedures for coherent signal processing (implementation of the operation of additive subtraction of masking noise) are known from (p. 207, Sklyar B. Digital communication. Theoretical foundations and practical application: Translated from English. M.: Williams, 2003. 1104 pp.).

The procedures for generating signal spectra, as well as the technical features of their coherent reception and processing are known from “Coherent radio link”, RF patent No. 2329608, publ.: 07.20.2008 Bull. No. 20.

The procedures for operating a radio link at various frequencies are known from ("Method of adaptive data transmission in a radio link with pseudo-random tuning of the operating frequency", RF patent No. 2707572, publ.: 11/28/2019, Bulletin No. 34.

Filtering procedures are known from (“Method for automatic detection of narrow-band signals, RF patent No. 2382495, publ.: 02.20.2010 Bulletin No. 5.

Thus, in the inventive method, when implemented by performing procedures for generating a useful signal and masking interference on the transmitting side in one radio transmitting device, in selecting the carrier frequency and frequency spectrum bandwidth so that the signal spectrum is within the frequency band occupied by the masking interference, as well as choosing such a structure of masking interference so that its spectral components at frequency positions occupied by the useful signal are absent or the value of their amplitude modulus does not exceed 5% of the amplitude modulus of the spectral components of the useful signal, and at other frequency positions not occupied by the useful signal , the amplitude of the spectral components of the masking interference would be equal in magnitude to the amplitude of the spectral components of the useful signal, increasing the confidentiality of the transmitted information, since the frequency bandwidth of the useful signal can change in accordance with the required symbol rate, and an outside observer who does not have a priori information about the parameters of the useful signal will not be able to correctly recognize the parameters of the useful signal.

Claims (1)

A method for generating and processing a signal built into masking interference, which consists in determining on the receiving and transmitting sides the order of changes in the values of the carrier frequency of the useful signal and the spectral bandwidth of the useful signal, and the carrier frequency of the useful signal is selected in such a way that the frequency spectrum occupied by it was within the frequency band occupied by the masking interference, the structure of the masking interference is set such that at the frequency positions occupied by the useful signal, the spectral components of the masking interference are absent or the value of the modulus of their amplitudes does not exceed 5% of the modulus of the amplitudes of the spectral components of the useful signal, and at the remaining frequency positions not occupied by the useful signal, the amplitude of the spectral components of the masking interference was equal in magnitude to the amplitude of the spectral components of the useful signal, the useful signal and the masking interference are formed on the transmitting side of the radio link in the form of an additive mixture for each value of the carrier frequency of the useful signal, the useful signal is transmitted and masking interference in the form of an additive mixture along the radio link, while periodically changing the value of the carrier frequency of the useful signal within the frequency band occupied by the masking interference, receiving and separating the useful signal by compensating for the masking interference as a result of coherent processing on the receiving side of the radio link, and the specified reception procedure is performed at each carrier frequency, characterized in that for each change in the value of the carrier frequency of the useful signal, its own value of the symbolic signal transmission rate is set, and the indicated changes in the symbolic signal transmission rate are known on the receiving side, and the masking interference structure for each value of the carrier frequency of the useful signal is selected taking into account the fact that each change in the symbolic transmission rate of a signal leads to a change in the width of the frequency spectrum band it occupies, with each change in the value of the carrier frequency of the useful signal, the value of the symbolic transmission rate of the signal is changed, and when isolating a signal at each carrier frequency, the change in the structure of the masking interference is taken into account taking into account the fact that each change in the symbol rate of signal transmission leads to a change in the width of the frequency spectrum band it occupies.