UA128248U - DEVICES FOR MUSCLING OF TRANSMISSION, REGISTRATION AND RECEIPT INFORMATION - Google Patents

Abstract

Device for damping means of transmitting, recording and receiving information signals, comprising a modulating oscillator consisting of three high frequency noise generators with different bandwidths (1-3) and a low frequency noise signal generator (4), a signal receiver (9), spectrum analyzer (10), electronic computer (11), first (8) and second (19) power amplifiers, adder (6), signal level analyzer (12), automatic gain control (1 4), amplifier (15), modulator (17), power source (13), emitter (20). The device has a pulse generator (5), the first (7) and the second (18) digital filters, the second adder (16), the output of the adder (16) is connected to the input of the modulator (17), and the inputs of the adder (16) with are connected to the outputs of the amplifier (15) and the impulse jump generator (5), and the input of the generator (5) is connected to the output of the electronic computer (11), with the inputs of the first (7) and second (18) digital filters connected with the outputs of the electronic computer (11) and the input of the first digital filter (7) is connected to the output of the first sum (6), and the filter output (7) is connected to the input of the signal analyzer (12), and the input and output of the second digital filter (18), respectively, to the output of the modulator (17) and the output of the power amplifier (19).

Description

A useful model concerns the protection of information, in particular the active protection of information signals by suppressing the optimal capacity of means for their transmission, registration and reception.

A device for jamming the transmission, registration and reception of information signals is known, containing a simulated oscillation generator, consisting of three generators of noise-like signals with different cases of cut-off frequencies, the first and second power amplifier, a generator of a low-frequency noise-like signal, an adder, a modulator, an emitter, a source power supply, information signal receiver, spectrum processor. The generators of the high-frequency noise-like signal are connected to the first adder.

The generator of a low-frequency noise-like signal is connected to the second adder.

The receiver of the information signal is connected to the second adder through the spectrum inverter.

The outputs of the first and second adders are combined with the inputs of the modulator. The output of the modulator is connected to the input of the power amplifier. The output of which is connected to the emitter (see patent of Ukraine Mo 75641, IPC NO4K 3/00, Byul. Mo 5, 2006).

Such a device allows you to receive broadband interference that does not contain components that correspond to the spectral composition and power of the information that needs to be protected. But the known device has a number of disadvantages.

First, according to the ND TZI of Ukraine, there are two ranges of noise: 10 Hz-1 MHz and 1 MHz-1

GHz At the same time, the noise generators of the aforementioned device operate in the frequency ranges of 300-500 MHz, 500-800 MHz and 6800-1200 MHz, respectively. That is, the first frequency range to be protected does not overlap.

Secondly, when generating noise, the spectral characteristics of transmitted or received information signals are not taken into account. Therefore, the level of protection of information signals remains constant, since at every moment of time the device equally makes noise in the airspace, regardless of the composition of the information to be protected.

A known device for jamming the means of transmission of registration and reception of information signals is a device containing a generator of modulated oscillations, which consists of three generators of noise-like signals with different cut-off frequency bands, the first and second power amplifier, a generator of a low-frequency noise-like signal, an adder,

Zo modulator, emitter, power source, receiver of information signals, spectrum processor. An electronic computing machine (EC) is introduced into the device, a spectrum analyzer is used as a spectrum calculator, a modulated oscillation generator, additionally contains a low-frequency noise generator, and the outputs of all generators are combined with the inputs of adders, and the control inputs of these generators are connected to control outputs of the computer that controls the mode of operation of the generator of modulated oscillations. The receiver of information signals is connected with its output to the input of the first power amplifier and the input of the spectrum analyzer, and the output of the spectrum analyzer is connected to the input of the computer. The output of the first power amplifier is connected to the output of the adder by the input of the modulator (see patent of Ukraine Mo 91098 МПК НО4К 3/00, Byul. Mo 12, 2010).

The known device has the disadvantage that when the information signal is equal to or greater than the total noise-like signal Ost, the requirements for ensuring the required level of protection are not met.

The closest to the claimed device is a device for jamming means of transmission of registration and reception of information, containing a generator of modulated oscillations, composed of three generators of noise-like signals with different cut-off frequency bands and a low-frequency noise-like signal generator, first and second power amplifiers, adder, modulator, emitter, power source, receiver of information signals, spectrum analyzer, computer, and signal level analyzer.

Its inputs are connected to the outputs of the first power amplifier and the adder, and its output is connected to the output of the automatic gain control system, the output of which is connected to the gain control input of the amplifier, and the signal input is connected to the output of the adder, and the output of the amplifier is connected to the input of the modulator, the second input of which is connected to the output of the first power amplifier, and the output of the modulator is connected to the input of the second power amplifier, the output of which is connected to the input of the emitter (see patent of Ukraine Mo 100297, МПК НО4К 3/00, Bull. Mo 23, 2012 r.).

The known device has a drawback: it cannot meet the requirements for ensuring the required level of protection of the information signal in the conditions of using modern means of unauthorized obtaining of information based on a computer. This is due to the fact that modern means of radio-electronic intelligence have the ability to conduct a spectral analysis of the received frequency mixture and isolate an information signal, because noise-like interference signals have constant spectra. That is, having a computer in the radio-electronic complex, it is possible to process and extract an information signal from the frequency ether mixture.

The useful model is based on the task of improving the device to obtain a higher level of protection of the information signal by the fact that for each information signal that needs protection, a oscillating noise signal and a chaotic impulse interference signal are generated, which form universal spectral characteristics with an amplitude

Os""Ot, which performs the function of blocking the transmission, registration and reception of information signals by modern radio-electronic intelligence complexes, which will lead to an increase in the complexity of separation from the resulting signal of the output speech and information electromagnetic signals and data.

The task is solved by the fact that the device for jamming means of transmission, registration and reception of information signals, containing a generator of modulated oscillations, which consists of three generators of high-frequency noise-like signals with different cut-off frequency bands and a low-frequency noise-like signal generator, a receiver of information signals, an analyzer spectrum, electronic computing machine, first and second power amplifier, adder, signal level analyzer, automatic gain control system, amplifier, modulator, power supply, emitter, according to a utility model, the device houses a pulse hopping interference generator, the first and second digital filters, the second adder, and the output of the adder is connected to the input of the modulator, and the inputs of the adder are connected to the output of the amplifier and the pulse hopping interference generator, and the input of the generator is connected to the output of the electronic computer, and the inputs of the first and second of digital filters are connected to the outputs of the electronic computing machine, and the input of the first digital filter is connected to the output of the first adder, and the output of the filter is connected to the input of the signal level analyzer, and the input and output of the second digital filter, respectively, to the output of the modulator and to power amplifier output.

The essence of the device for jamming means of transmission, registration and reception of information signals is explained by a functional block diagram.

Outputs of generators 1, 2, Z high-frequency noise-like signals of oscillating frequency and

From the generator 4 of the low-frequency noise-like signal of the oscillating frequency, the inputs of the first adder b are connected to which the operating point displacement current is supplied from the power supply source 13 to the non-linear region of the volt-ampere characteristic of the semiconductor active element. The output of the receiver 9 of information signals is connected to the inputs of the first power amplifier 8 and the spectrum analyzer 10. The output of the spectrum analyzer 10 is connected to the input of the electronic computer 11 and is connected to the inputs of generators 1, 2, from high-frequency noise-like signals of oscillating frequency, generator 4 of a low-frequency noise-like signal of an oscillating frequency, a 5-pulse hopping interference generator, a first 7 digital filter and a second 18 digital filter. The output of the first adder 6 is connected to the input of the first digital filter 7, the output of which and the output of the first power amplifier 8 are connected to the inputs of the signal level analyzer 12. The output of the signal level analyzer 12 is connected to the input of the automatic gain control system 14. The output of the automatic gain control system 12 is connected to the input of the amplifier 15, and the second input of the amplifier 15 is connected to the output of the first digital filter 7. The output of the amplifier 15 is connected to the first input of the second adder 16, and the second input of the adder 16 is connected to the output of the generator 5 impulse hopping interference. The output of the second adder 16 is connected to the input of the modulator 17, the second input of which is connected to the output of the first amplifier 8. The output of the modulator 17 is connected to the input of the second digital filter 18. The output of the second digital filter 18 is connected to the input of the second power amplifier 19, and its output from connected to the input of the emitter 20.

From the source 13 of the power supply to the second power amplifier 19, a current is supplied to offset the operating point of the current-voltage characteristic of its active semiconductor element.

The device for jamming means of transmission, registration and reception of information signals works as follows.

From the output of the receiver 9, the information signal enters the spectrum analyzer 10, where the signal is decomposed into frequency components. The signal can be both sound (speech) and at the frequency of transmission of a digital message. In the spectrum analyzer 10, high-frequency signals, which are identified as test frequencies of computing equipment, are not transmitted to the input of the computer 11.

Further, the spectral composition of the signal is analyzed by an electronic computer 11, which makes a decision regarding the choice of the optimal operating mode of generators 1, 2, of high-frequency noise-like signals of an oscillating frequency, generator 4 of a low-frequency noise-like signal of an oscillating frequency, generator 5 of a pulse-hopping interference, the first digital filter 7 and the second digital filter: 18. Generator 1 of a high-frequency noise-like signal of an oscillating frequency in the frequency band from 100 MHz to 500 MHz, generator 2 of a second high-frequency noise-like signal of an oscillating frequency - in a frequency band of 500 MHz to 900 MHz, and generator C of a third high-frequency noise-like signal of an oscillating frequency - in the frequency band from 900 MHz to 1300 MHz, the generator 4 of the fourth low-frequency noise-like signal of the oscillating frequency - in the frequency band from 10 Hz to 100 MHz, the generator 5 of the fifth pulse jumping interference in the frequency band in the range of computer clock frequencies used by the computer 11 sets for the generator channels 1, 2, 3, 4 and 5 of the frequency generation band, moreover, in this band, the frequency swing is carried out, that is, according to the received information signal, a more powerful and effective interference is created. Computer 11 also controls digital filters 7 and 18. Regarding the first low-frequency digital filter 7, Computer 11 sets a signal bandwidth of 3 1 MHz, if the information signal is a digital message transmission signal (packet messages). In the second digital filter 18, which is a bandpass filter, a bandwidth is set to create broadband interference or blocking interference.

The level and frequency of the interference signal created by generators 1, 2, C and 4 depends on the spectral signal and the level of the input signal. At the same time, due to the use of computer 11, it becomes impossible to detect the regularities of the generation of noisy signals of an oscillating frequency due to the possibility of using any mathematical algorithm to control the operation mode of generators 1, 2, C of high-frequency noisy signals of an oscillating frequency, generator 4 of a low-frequency noisy signal of an oscillating frequency and generator 5 of pulse jumping obstacle. Also, a secret key is entered into the computer 11, which, in turn, determines the operating parameters of the mathematical algorithm and the possibility of its correction.

From the outputs of generators 1, 2, high-frequency noise-like signals of the oscillating frequency and generator 4 of low-frequency noise-like signals of the oscillating frequency get to adder b, where their summation takes place. Then the received noise-like signal is sent to the first digital filter 7, where the signal is formed depending on the information ones. Next, the generated noise-like signal is sent to the signal level analyzer 12, where the amplitude of the noise-like signal Ot is compared with the amplitude of the information signal Os. According to the results of the comparative analysis, a control signal is produced for the system 14 of automated gain control, i.e., the fulfillment of the requirement Os""Ot. This signal is fed to the amplifier 15, to the second input of which is fed a noise-like signal from the output of the first digital filter 7. At the output of the amplifier 15, the noise-like signal has an amplitude Os»»IOt, which ensures a stable high level of security of the information signal. Then the noise-like signal is added on the second adder 16, with the signal of the pulse generator 5. Next, the received mixture of signals is modulated with the input information signal that needs protection, using the modulator 17, to the second input of which the input signal from the output of the receiver 9 of information signals is fed through the power amplifier 8. Then the generated signal is fed to the second digital filter 18, for the final formation noise-like interference signal, the output of which is sent to the second power amplifier 19. At the same time, at the output of the modulator 17, modulated oscillations are produced, which oscillate, and with a frequency band that significantly exceeds the frequency bands of the information signal, generators 1, 2, From high-frequency noise signals with an oscillating frequency, generator 4 of a low-frequency noise signal with an oscillating frequency and an amplitude that provides required level of protection. The use of the generator 5 pulse hopping interference ensures the impossibility of using equipment that is based on a computer, since the pulse hopping interference constantly affects the clock frequency of the computer, which interferes with the operation of computing equipment. From the second power amplifier 19, the received signal is fed to the emitter 20. The power source 13 sets the operating modes of the first adder 6 and the power amplifier 19.

Thus, the useful model provides an expansion of the functional capabilities of the device for jamming the means of transmission, registration and reception of information, and also introduces a fundamentally new algorithm for generating a noise-like signal with an oscillating frequency in the form of a dynamically adjustable amplitude level and noise composition based on the spectral composition of the input information signal, and as well as the application of impulse hopping interference,

which creates additional obstacles in the interception and reception of information signals by modern means of radio-electronic intelligence.

Sources of information: 1. Duksenko N.A. Algorithm for restoration of images received from unmanned aerial vehicles /N.A. Duksenko, V.A. Khoroshko // Informatics and mathematical methods in modeling, Vol. 6, Mo. 1, 2016.-S. 5-11. 2. Khoroshko V.A. Video information processing system coming from unmanned aerial vehicles / V.A.

Khoroshko, Yu.E. Khokhlacheva // Collection of scientific works of NAU "Protection of Information", Vol. Mo 22, 102015. - P. 60-74.

Z. Khoroshko V.A. Recognition of video information streams transmitted by unmanned aerial vehicles / V.A. Khoroshko, Yu.E. Khokhlacheva //Modern special equipment, Mo. 3, 2016. - P. 132-143. 4. Khoroshko V.A. Evaluation of the effectiveness of the airborne radio-line in the conditions of interference / V.A. Khoroshko, Yu.E. Khokhlacheva, N.P. Tymchenko // Information security, Mo 1 (25), 2017. -

P. 40-47. 5. Khoroshko V.A. Increasing the efficiency of the communication channel of the radio control of the aircraft with the operator / V.A. Khoroshko, Yu.E. Khokhlacheva // Information security, Mo. 2 (26), 2017. - b. 90-95.

Claims (1)

UTILITY MODEL FORMULA A device for jamming the means of transmission, registration and reception of information signals, containing a modulated oscillation generator, which consists of three generators of high-frequency noise-like signals with different cut-off frequency bands (1-3) and a low-frequency noise-like signal generator (4), information signal receiver (9), spectrum analyzer (10), electronic computing machine (11), first (8) and second (19) power amplifiers, adder (6), signal level analyzer (12), automatic gain control system ( 14), amplifier (15), modulator (17), power source (13), Zo emitter (20), which is distinguished by the fact that the device contains a pulsed jump interference generator (5), the first (7) and the second (18) digital filters, the second adder (16), and the output of the adder (16) is connected to the input of the modulator (17), and the inputs of the adder (16) are connected to the outputs of the amplifier (15) and the pulse hopping interference generator (5), and the input generator id (5) is connected to the output of the electronic computing machine (11), and the inputs of the first (7) and second (18) digital filters are connected to the outputs of the electronic computing machine (11), and the input of the first digital filter (7) connected to the output of the first adder (6), and the output of the filter (7) is connected to the input of the signal level analyzer (12), and the input and output of the second digital filter (18), respectively, to the output of the modulator (17) and to the output of the power amplifier (19).