BG113236A - Device for pulse disturbance shaping of systems using phase modulation - Google Patents

Abstract

The invention "Device for pulse disturbance shaping of wireless systems using phase modulation" provides disturbance shaping in the form of a series of pulses, as each series is composed of pulses having a random initial phase, a carrier frequency equal to the carrier frequency of the disturbed system and a duration equal to the phase modulation period of the disturbed system. The invention provides sensitive phase distortion of the desired signal from the disturbed system. Therefore, effective jamming of the reception of the message encoded by the phase modulation is achieved at insignificant values of the ratio between the disturbance and desired signal strength. Thus, other things being equal, a significant increase in the radius of action of the invention is achieved compared to that of other jamming systems.

Description

Nikolai Lichkov Georgiev

Ognyan Dimov Todorov

Device for generating pulse disturbances of systems using phase modulation

FIELD OF TECHNOLOGY

The invention relates to a device for generating pulse interference in wireless systems using phase modulation. Various devices are used to disturb these systems, which usually form an interfering signal in the form of continuous radiation in the frequency band corresponding to that of the interfering system, which has amplitude noise modulation [1-13]. There are no data on the use of noise phase or frequency modulation of the interference signal, probably due to the major technical problems associated with their creation, as well as the risk of interference outside the frequency band of the interference system. A disadvantage of the known devices is that their use does not significantly affect the phase distortion of the useful signal of the interfering system, therefore effective prevention of receiving the encoded by phase modulation message is achieved at significant values of the relationship between interference energies and useful signal. .

The invention relates to a "Device for generating pulse interference of wireless systems using phase modulation", which under the same other conditions has a longer range than the existing ones, which is achieved by distorting the phase of the useful signal of a channel of the disturbed system. The device is also applicable to multi-channel systems (similar to those used in satellite navigation systems), in which case it is advisable to use at least one device for each channel.

BACKGROUND OF THE INVENTION

Some of the most common systems using phase modulation are those for satellite navigation such as GPS (USA), Galileo (EU), GLONASS (Russia), BeiDou (China), NAVIC (India) and QZSS (Japan) [1 -13]. They transmit data from satellites to the receiving modules on several radio channels with different operating frequencies. The most commonly used methods of accessing data transmitted by satellites are multi-channel code division multiple access (CDMA) and frequency division multiple access (FDMA). Regardless of the method of channel separation, useful information is transmitted by phase modulation of the carrier frequencies with one or two pseudo-random codes and the so-called. navigation message [1-13]. These codes have characteristics close to random noise, but with cyclic repetitions. To the pseudo-random signals are added by sum per module the navigation data, which are contained in the on-board computers of the satellites and are updated by the ground command center. Each satellite is identified by a pseudo-random number (PRN-number), which allows the use of the same frequency for all satellites.

There are two types of pseudo-random codes used in GPS: C / A code (clear / access or coarse / acquisition code) and P code (private or precision code). The C / A code consists of 1023 bits with a repetition of 1 millisecond. Each satellite emits a unique sequence of 1023 bits, which allows the receiver to distinguish it from the others. The precision P-code is used for military purposes and is a pseudo-random code with a repetition cycle of 267 days. Each satellite broadcasts a unique snippet of this code that changes each week.

AARTOS, ND-BU002 and SKYLOCK [8,9,10] are some of the best systems for interfering with wireless systems using phase modulation integrated into the anti-aircraft anti-aircraft system (UAV). The AARTOS system was developed and manufactured by the German company AARONIA AG has been developed and improved for nearly ten years, and is currently in its sixth generation, and in 2019 it sold over 100 installations worldwide. The method of operation of the AARTOS system is reduced to the detection of UAVs through a combination of passive radio sensors that detect the emissions of the onboard modules of UAV control systems, radar sensor (at the customer's request) and optical sensors. Continuous, amplitude-modulated disturbances are formed to disrupt the operation of satellite navigation aids.

The high-end UAV Detecting and Jamming System ND-BU002 was developed by the American company NOVOGUARD GROUP. This system is able to work for a long time in automatic mode, using as a main sensor three-coordinate active radar and directional automatic day-night optical sensor.

UAV Counter ND-BU002 is a nine-channel remote-controlled interference system using a directional antenna mounted on a Rap-Tilt platform to automatically rotate the radiation in the UAV direction. The disruption of satellite navigation aids is achieved by interfering with the three main frequency channels of GPS by forming three channels of continuous, amplitude-modulated interference.

The SKYLOCK system, which is part of the Israeli Avnon Group, includes an interference generating unit that generates vertically polarized radiation in five frequency bands, one of which is designed to interfere with one of the GPS channels through continuous, amplitude-modulated interference. .

TECHNICAL ESSENCE

The object of the invention is to provide a Device for generating pulse interference on wireless systems using phase modulation.

For this purpose, a device is proposed (Figure 1), which through a broadband directional or non-directional receiving antenna and amplifier (1) registers the presence of wireless systems using phase modulation and through the signal analysis and control unit (2) selects the specific system to be disturbed and determine its carrier frequency (f _r ) and periodicity of phase modulation (t _d ). Then the signal analysis and control unit (2) switches off the receiving antenna and the amplifier (1) for a predetermined period of time and submits to the trigger unit (3) a command to start operation and data for the selected wireless interference. system using phase modulation.

After the preset time period for switching off the receiving antenna and the amplifier (1) has elapsed, the signal analysis and control unit (2) switches it to operating mode and switches off the unit for generating trigger pulses (3).

During the period during which the trigger unit (3) is switched on, it generates a series of pulses with a duration equal to the period of phase modulation of the interfering system (t _d ) and with a repetition period (T _s ) , slightly exceeding the period of repetition of the phase modulation of the disturbed system (T _s = m _r + ε). These pulses are fed to the input of a controllable delay line (4) having η the number of outputs, the delay between two adjacent outputs _Δ Τ being regulated by the signal analysis and control unit (2) so as to ensure the occurrence within the period of phase modulation of the interfering system (m _d ) of one pulse from each of the outputs of the controllable retention line (4) (in particular this delay could be the same, ie _Δ Τ = t _d / n) . The series of starting pulses received from each output of the hold line enter the input controlled pulse interference generators (5) and turn them into operating mode, where they, according to the signal analysis and control unit (2), adjust the carrier its frequency so that it coincides with the frequency of the interfering system (f _r ) and form pulses with a random initial phase. These pulses are fed to the input of amplifiers with directional or non-directional emitting antennas (6), from the output of which they are emitted in the direction of the interfering system. The value of ε is chosen to be equal to or greater than the time required for the controllable pulse generators (5) to be ready to generate a new pulse after the generation of the previous pulse has been completed.

Operating as described, the device generates disturbances in the form of η number of series of pulses, each series being composed of pulses with a random initial phase, with a carrier frequency equal to the carrier frequency of the disturbed system and with a duration equal to the phase modulation period. the disturbed system (t _d ).

As a result, at the input of the disturbed system for one period of phase modulation will be received η the number of pulse disturbances, which partially overlap in the time at which each of these pulses will have a random initial phase. Therefore, the described "Device for generating impulse interference of wireless systems using phase modulation" provides a significant phase distortion of the useful signal of the interfering system. Therefore, the effective inhibition of the reception of the phase-modulated message will be achieved at insignificant values of the ratio between the interference energies and the useful signal. In this way, under the same other conditions, a significant increase in the range of the Device compared to that of other interference generating systems is achieved.

DESCRIPTION OF THE ATTACHED FIGURES

The attached FIG. 1 is a block diagram of the "Device for generating impulse interference of wireless systems using phase modulation".

EXAMPLE OF EMBODIMENT OF THE INVENTION

The invention "Device for generating impulse interference of wireless systems using phase modulation" is realized in a working model developed by IMSTCHA "Academician Angel Balevski" - BAS "Stationary system for electronic counteraction of unmanned aerial vehicles ADD-SSRI", which is designed to disrupt satellite navigation and ground control systems of short-range unmanned aerial vehicles for extended periods of time. Among other components, this system includes interference generating units L1 (1575.42 MHz), L2 (1227.6 MHz) and L5 (1176.45 MHz) of the GPS navigation system, which are among the most common wireless systems using phase modulation. .

The main technical characteristics of ADD-SSRI are:

Disturbance zone:

- at a distance of up to 5,000 m;

- in azimuth - at the user's choice 360 ° or 180 °;

- at an angle of location - 90 °.

Output power for each individual channel - not less than 50 Wt;

Power supply - 220V / 50Hz (at the customer's choice - 110V / 60Hz and 24 V);

Operating temperature - from minus 40 ° C to plus 65 ° C.

During the implementation of the working model of "Stationary system for electronic counteraction of unmanned aerial vehicles ADDSSRI" it is taken into account that the data on the presence of carrier frequencies (f _r ) and the periodicity of phase modulation (t _d ) of interfering systems forming navigation messages in LI channels , L2 and L5 are known, as well as the hypothesis that these systems operate continuously. Therefore, in the example of the implementation of the "Device for generating pulse interference of wireless systems using phase modulation", realized by working sample of the blocks for interfering with the channels L1, L2 and L5 of the GPS navigation system of the Stationary System for radio-electronic counteraction of ADDSSRI unmanned aerial vehicles', the receiving antenna and the amplifier (1) and the signal analysis and control unit (2) are not included.

The ADD-SSRI system has three simultaneous channels. After switching on the SSRI system in operating mode, each of the channels includes in operating mode a block for generating trigger pulses (3), which forms a series of pulses with a duration equal to the period of phase modulation of the interfering system (m _d ) and period of repetition (T _s ), slightly exceeding the period of repetition of the phase modulation of the disturbed system (T _s = τ _Γ + ε).

Considering that used in this navigation system:

the C / A signal is 1023 bits with a repetition of one millisecond (ie its emission frequency is 1.023 MHz, or one bit is emitted for 10 ' ^3/1023 = 0. 97752 10' ⁶ seconds - whence follows, that the period of its phase modulation is 0.97752 microseconds);

The P-code has a cycle of 266.4 days and is of 2.3547 * 10 ¹⁴ bits with a transmission frequency of 1.023 GHz (ie considering that 266.4 days are 23016960 seconds, one bit is transmitted for 0.97746 10 ' ⁷ seconds - hence the period of its phase modulation is 97,746 nanoseconds);

The frequency L1 is modulated with two codes, and while the frequency L2 is modulated with only one military code, both frequencies are modulated with a navigation message. The latter is 37,500 bits and is emitted in 12.5 minutes (ie considering that 12.5 minutes is 750 seconds, then one bit is emitted in 750/37500 = 0.02 seconds - hence the period of its phase modulation is 20 milliseconds), trigger pulses are formed in each of the channels with a duration of 20 milliseconds, 0.97752 microseconds or 97.746 nanoseconds, respectively.

These pulses are fed to the input of controllable delay lines having 2 outputs, and the delay between two adjacent outputs is equal to 0.5 of the duration of the trigger pulses. The series of trigger pulses received from each output of the hold line enter the pulse interference generators and turn them on in the operating mode, where they form pulses with a random initial phase. The signals from the output of the pulse interference generators are fed to the input of amplifiers with non-directional transmitting antennas, from the output of which they are transmitted in the direction of the interfering system.

ANNEX (USE) OF THE INVENTION

The invention is intended to be used in a number of systems for preventing the unauthorized operation of means using wireless modulated systems, such as unmanned and manned aircraft, land and vessels.

In this regard, the invention is related to the implementation of Work Package 2 "Intelligent Security Systems" of Project BG05M2OP001-1.002-0006 Competence Center "Quantum Communication, Intelligent Security Systems and Risk Management" (Quasar), funded by the Operational Program Science and Education for Smart Growth 2014-2020, co-financed by the European Union through the European Structural and Investment Funds

LITERATURE

1. Unmanned Aerial Vehicles Systems Airworthiness Requirements (USAR) [Text]: STANAG 4671, NSA / 0976 (2009) -JAIS / 4671, Edition 1;

2. Unmanned Aerial Vehicles (UAS) [Text]: ICAO CIR 328 AN / 190 ICAO. - Montreal, Canada: ICAO. 2011;

3. General concept of unmanned mobile vehicle, http://helpiks.org/6-70012.html;

4. https://en.wikipedia.Org/wiki/satellite_navigation#cite_note-18;

5. Concept for air surveillance and reconnaissance with UAVs, MoD, 2012, www.mod.bg/bg/doc/drugi/20120607_Koncepcia_vazdushno_nabljudenie.pdf;

6. AG Korchenko, OS Ilyash, Generalized classification of unmanned aerial vehicles, National Aviation University, Kyiv, https: //zhups_2012_4_9.pdf;

7. Hasamski AI, Nachev AD, UAV Design - Methods and Effectiveness, Yearbook of the Institute for Advanced Studies in Defense, 2002, pp. 14-22;

8. https://drone-detection-system.com;

9. https://www.nqdefense.com/products/anti-drone-system/nd-bu002high-end-anti-drone-system;

10. https: //www.skylockl .com /? Utm_source = google & utm_medium = cpc & utm_term = skylock & utm_campaign = skylock & gclid = EAIaIQobChMIrpzq9vqN6w IVWe3tChlULw4EEAAYASADE

11. https://en.wikipedia.org/wiki/Field-programmable_gate_array;

12. file: /// C: / Users / Lishkov / AppData / Local / Microsoft / Windows / INetCac he / IE / J362FJAE / assembly-instructions-kt-ac3dr-01 .pdf;

13. https://www.dji.com/bg/phantom-3-standard.

Claims (1)

Device for generating pulse interference of wireless systems using phase modulation, consisting of a broadband receiving antenna and an amplifier (1), the output and input of which are connected to the signal analysis and control unit (2) and amplifiers with radiating antennas (6 ), whose inputs are connected to controllable pulse generators (5), CHARACTERIZED IN THAT one input of the controlled pulse noise generators (5), which regulates its operating frequency, is connected to one output of the analysis unit of the signal and control (2), the one which gives data on the operating frequency of the interfering system (f _r ), and the other input of the controlled pulse interference generators (5), the one which turns it on, is connected to the output of the controlled line for a delay (4), one input of a controllable delay line (4), which regulates the delay time between two adjacent outputs ( _Δ Τ), is connected to the output of the signal analysis and control unit (2), this coyote o gives commands to control the delay time between its adjacent outputs ( _Δ Τ), and the other input of the controllable delay line (4) is connected to the output of the block for generating trigger pulses (3), whose input is connected to the output of the signal analysis and control unit (2), which provides data for the period of phase modulation of the interfering system (Ο-