RU2326500C1 - Coherent data transmission system using random signals - Google Patents

Abstract

FIELD: physics, data communication.

SUBSTANCE: invention relates to the field of spread-spectrum data communication performed using random carriers, in particular, to coherent data transmission systems using random signals and may be used to enhance the structured security of the carrier signal. The coherent data communication system contains a data source, a random signal accumulator and a modulator/transmitter, and a communication channel at the transmitting side and a band-pass filter, an amplifier, the first multiplier, the second multiplier, an inverter, a random signal copy accumulator, the first integrator, the second integrator, a subtractor, a resolver, and a data receiver at the receiving side.

EFFECT: increase in structured security of carrier signals.

4 dwg

Description

FIELD OF THE INVENTION

The invention relates to the field of information transfer with the expansion of the spectrum, carried out using chaotic carriers, in particular to coherent information transmission systems with chaotic signals, and can be used to increase the structural secrecy of the carrier signal.

State of the art

Known broadband radio communication system containing on the transmitting side: a serial-parallel converter, pseudorandom sequence multipliers and carriers, an adder; on the receiving side: a broadband filter, pseudo-random sequence and carrier multipliers, an integrator, a gating device, a parallel-serial converter (see Interference immunity of radio communication systems with expanding the spectrum of signals by modulating the carriers with a pseudo-random sequence. // V.I. Borisov, V.M. Zinchuk, A.E. Limarev, N.P. Mukhin, G.S. Nakhmanson. / Under the editorship of V.I. Borisov. - M.: Radio and communications, 2003. ill. 314, p.30).

Also known is a broadband communication system comprising on the transmitting side: an encoder, a frequency modulator, a pseudo noise sequence generator, a frequency synthesizer, a mixer; on the receiving side: mixer, frequency synthesizer, pseudo-noise sequence generator, synchronization unit, frequency demodulator, decoder (see Prokis John. Digital communication. Transl. from English / Ed. by D. D. Klovsky. - M .: Radio and Svyaz, 2000, ill., s. 629).

However, these communication systems have low structural secrecy of the carrier signals, since the structure of the pseudo-random sequences used in them can be determined during the radio reconnaissance using an energy receiver.

Closest to the technical nature of the present invention is a communication system comprising a driver of chaotic radio or optical pulses, a chaotic dynamic system, a communication channel, a dynamic system of the receiving side, the output of the driver of chaotic radio or optical pulses being connected to the input of the communication channel, the output of the channel connection is connected to the input of the dynamic system, the output of the dynamic system is the output of the communication system (see patent RU 2185032, Н04К 1/00, H04L 9/00, Н04В 1/02, 2002.07.10).

However, the presence of pauses in the transmission of information by a chaotic signal allows the enemy to restore the moments of transition from unit to minus one and vice versa using an energy receiver (see Ultra-wideband communication. Theory and application. - M .: SOLON-Press, 2005. p. 28), consisting from the quadrator and integrator. Thus, the adversary can restore the structure of the carrier signal, which indicates a low informational secrecy proposed in the prototype version of the transmission of information by chaotic signals.

Disclosure of invention

The objective of the invention is to develop a coherent system for transmitting information by chaotic signals, where chaotic signals recorded and reproduced from an information storage device (for example, a CD-ROM or a hard drive) are used once as a carrier. This will increase the structural secrecy of the signals of the information transmission system due to the fact that each bit of the information sequence is transmitted by its time interval of the chaotic signal. As a result, the structural secrecy of the signals of the information transmission system increases due to the fact that the enemy is deprived of a determinate signal parameter. Using an energy receiver (quadrator, integrator) does not allow the enemy to distinguish the structure of carrier signals.

The technical result that can be obtained using the present invention is to increase the structural secrecy of the carrier signals.

The technical result is achieved in that in a coherent information transmission system with chaotic signals, comprising a transmitting side with an information source, a receiving side with an information recipient and a communication channel, are additionally introduced on the transmitting side: chaotic signal storage device, modulator-transmitter, on the receiving side: band-pass filter , amplifier, first multiplier, second multiplier, inverter, chaotic signal copy storage, first integrator, second integrator, subtractor, solving devices moreover, the output of the information source is connected to the first input of the modulator-transmitter, the output of the chaotic signal storage device is connected to the second input of the modulator-transmitter, the output of the modulator-transmitter is connected to the input of the communication channel, the output of the communication channel is connected to the input of the bandpass filter, the output of the bandpass filter is connected to the input amplifier, the output of the amplifier is connected to the first inputs of the first multiplier and the second multiplier, the output of the drive of the copy of chaotic signals is connected to the second input of the first multiplier and to the input of the inverter, the inverter output is connected to the second input of the second multiplier, the output of the first multiplier is connected to the input of the first integrator, the output of the second multiplier is connected to the input of the second integrator, the output of the first integrator is connected to the first input of the subtractor, the output of the second integrator is connected to the second input of the subtractor, the output of the subtractor connected to the input of the deciding device, the output of the deciding device is connected to the input of the recipient of information.

Brief Description of the Drawings

Figure 1 shows a coherent system for transmitting information with chaotic signals, a structural diagram.

Figure 2 shows the timing diagrams explaining the principle of operation of the proposed coherent information transmission system with chaotic signals.

Figure 3 shows the timing diagrams explaining the principle of operation of the energy receiver, the input of which receives a chaotic signal generated by the prototype.

Figure 4 shows the timing diagrams explaining the principle of operation of the energy receiver, the input of which receives a chaotic signal generated by the claimed information transmission system.

The implementation of the invention

Into a coherent information transmission system with chaotic signals, containing on the transmitting side an information source 1, a communication channel 2, on the receiving side an information receiver 3, are introduced on the transmitting side: a chaotic signal storage 4, a modulator-transmitter 5; on the receiving side: a band-pass filter 6, an amplifier 7, a first multiplier 8, a second multiplier 9, an inverter 10, a drive for copying a chaotic signal 11, a first integrator 12, a second integrator 13, a subtractor 14, a resolver 15, and the output of the information source 1 is connected with the first input of the modulator-transmitter 5, the output of the drive of the chaotic signal 4 is connected to the second input of the modulator-transmitter 5, the output of the modulator-transmitter 5 is connected to the input of the communication channel 2, the output of the communication channel 2 is connected to the input of the bandpass filter 6, the output is The filter 6 is connected to the input of the amplifier 7, the output of the amplifier 7 is connected to the first inputs of the first multiplier 8 and the second multiplier 9, the output of the drive of the copy of chaotic signals 11 is connected to the second input of the first multiplier 8 and to the input of the inverter 10, the output of the inverter 10 is connected to the second input the second multiplier 9, the output of the first multiplier 8 is connected to the input of the first integrator 12, the output of the second multiplier 9 is connected to the input of the second integrator 13, the output of the first integrator 12 is connected to the first input of the subtractor 14, the output of the second and integrator 13 is connected to the second input of the subtractor 14, the output of the subtractor 14 is connected to the input of the resolver 15, the output of the resolver 15 is connected to the input of the recipient 3.

Introduced on the transmitting side: chaotic signal storage 4, modulator-transmitter 5; on the receiving side: a band-pass filter 6, an amplifier 7, a first multiplier 8, a second multiplier 9, an inverter 10, a drive for copying a chaotic signal 11, a first integrator 12, a second integrator 13, a subtractor 14, a resolver 15, and the output of the information source 1 is connected with the first input of the modulator-transmitter 5, the output of the drive of the chaotic signal 4 is connected to the second input of the modulator-transmitter 5, the output of the modulator-transmitter 5 is connected to the input of the communication channel 2, the output of the communication channel 2 is connected to the input of the bandpass filter 6, the output is The filter 6 is connected to the input of the amplifier 7, the output of the amplifier 7 is connected to the first inputs of the first multiplier 8 and the second multiplier 9, the output of the drive of the copy of chaotic signals 11 is connected to the second input of the first multiplier 8 and to the input of the inverter 10, the output of the inverter 10 is connected to the second input the second multiplier 9, the output of the first multiplier 8 is connected to the input of the first integrator 12, the output of the second multiplier 9 is connected to the input of the second integrator 13, the output of the first integrator 12 is connected to the first input of the subtractor 14, the output of the second and the integrator 13 is connected to the second input of the subtractor 14, the output of the subtractor 14 is connected to the input of the resolver 15, the output of the resolver 15 is connected to the input of the information recipient 3 in the proposed coherent information transmission system with chaotic signals, which can increase its structural secrecy by eliminating pauses in the chaotic signal.

Coherent information transmission system with chaotic signals with increased structural secrecy works as follows.

When synchronizing the transmitting and receiving sides on the transmitting side from the information source 1, an information signal (Fig. 2-b) is fed to the input of the modulator-transmitter 5, a chaotic signal from the chaotic signal storage 4 (Fig. 2-a) is received at its second input ) In the modulator-transmitter 5 is the multiplication of the information signal (Fig.2-b) by a chaotic carrier (Fig.2-a). From the output of the modulator-transmitter 5, the generated signal (Fig. 2-c) is supplied to the communication channel 2. From the communication channel 2, the signal is fed to the output of the bandpass filter 6, from the output of the bandpass filter 6, the received signal is fed to the amplifier 7, which after amplification is fed to the inputs of the multipliers 8 and 9. The other inputs of the multipliers 8 and 9 receive copies of the chaotic signal from the information storage device 11 (Fig. 2-a), and to the second multiplier it passes through the inverter 10. From the outputs of the multipliers 8 and 9, the signals through the integrators 12 and 13 are fed to a subtractor 14. From The ode of the subtractor 14, the difference signal (Fig.2-d) is supplied to the decider 15, where the received levels are compared with the threshold voltage value, from the output of the decider 15 information (Fig.2-e) is sent to the information receiver 3.

Through the use of a chaotic carrier signal recorded and reproduced from the drive, the structural secrecy of the coherent transmission system with chaotic signals is increased, since it will be able to withstand electronic intelligence measures aimed at signal disclosure. Structural secrecy will be ensured by the fact that there will be no pauses in the transmission of information.

The principle of operation of an energy receiver is based on the release of signal energy, which is determined by an expression of the form

where E _S is the energy of the received signal, T is the duration of the received signal, S (t) is the temporal representation of the signal.

In order to determine the energy of the signal, it is necessary to voltage the signal received by the receiver, squared and integrated. For the technical implementation of squaring, you can use the quadratic characteristic of the diode, which has the characteristic S ² (t) in the region of small signals. After squaring S (t), it is necessary to integrate it; for this, you can use the integrator implemented on the RC circuit. As a result, a diode and a series-connected integrator (RC circuit) allow you to calculate the signal energy.

If the chaotic signal used by the prototype (Fig. 3-a) is fed to the input of an energy receiver (not shown), consisting of a diode and an integrator, by integrating (storing) the power of the received pulses within their duration, then its output will be a signal is allocated (Fig. 3-b), which is necessary for a decision by a threshold device. From the output of the threshold device to the input of the decoder receives pulses (Fig.3-c) with a duration equal to the duration of the excess of the integrated signal above the threshold level. From the signal received at the input of the energy receiver (Fig. 3-a), useful information is extracted (Fig. 3-c), while the presence of a pulse at a given position in the information stream corresponds to the transmitted unit, and the absence of a pulse corresponds to a minus one symbol.

If the chaotic signal used by the claimed device (Fig. 4a) also arrives at the input of the energy receiver, where by integrating (accumulating) the power of the received pulses within their duration, a signal is generated (Fig. 4-b), which is necessary for a threshold decision device. From the output of the threshold device, pulses are input to the decoder input (Fig. 4-c) with a duration equal to the duration of the excess of the integrated signal above the threshold level. From the signal received at the input of the energy receiver (Fig. 4-a), information is extracted (Fig. 4-c), but, unlike the prototype, the transition from minus one to one and vice versa is not visible, since a copy of the information recorded on the storage medium is unknown , that is, the energy receiver in the case of unity, and in the case of minus unity will give a decision on unity, and it is impossible to break informational secrecy without a copy of the chaotic carrier signal.

Thus, the proposed coherent communication system using chaotic signals increases the structural stealth of the carrier signal.

The present invention in comparison with the prototype and other known technical solutions has the advantage of structural secrecy of the used carrier signals, since the drive can periodically overwrite the chaotic carrier.

Claims (1)

A coherent system for transmitting information with chaotic signals, comprising a transmitting side with an information source, a receiving side with an information receiver and a communication channel, characterized in that it is additionally introduced on the transmitting side: a chaotic signal storage device, a modulator-transmitter, on the receiving side: a band-pass filter, amplifier, first multiplier, second multiplier, inverter, chaotic signal copy storage, first integrator, second integrator, subtractor, resolver, and the output is Information book is connected to the first input of the modulator-transmitter, the output of the chaotic signal storage device is connected to the second input of the modulator-transmitter, the output of the modulator-transmitter is connected to the input of the communication channel, the output of the communication channel is connected to the input of the bandpass filter, the output of the bandpass filter is connected to the input of the amplifier, the output the amplifier is connected to the first inputs of the first multiplier and the second multiplier, the output of the drive of the copy of chaotic signals is connected to the second input of the first multiplier and to the inverter input, the output of the inverter with is single with the second input of the second multiplier, the output of the first multiplier is connected to the input of the first integrator, the output of the second multiplier is connected to the input of the second integrator, the output of the first integrator is connected to the first input of the subtractor, the output of the second integrator is connected to the second input of the subtractor, the output of the subtractor is connected to the input of the deciding device, the output of the deciding device is connected to the input of the recipient of information.

Images