RU2755567C1 - Method for radio anti-mission systems - Google Patents

Abstract

FIELD: countering anti-aircraft missile systems.

SUBSTANCE: invention relates to the field of countering anti-aircraft missile systems (AAS) by generating interference. According to the values of the parameters of the radio emission of radio-electronic means of the AAS, the required number N of self-expanding aircraft and the coordinates of their delivery with installed means of radio interference, radio navigation determination of coordinates and radio signal transmission are determined. Launching the carriers from the aircraft delivers N aircraft to their delivery coordinates and separates the aircraft from their carriers. Aircraft are deployed and brought to a working state. The coordinates of the delivery of radio interference equipment are specified by means of radio navigation coordinates determination and their values are transmitted by means of radio signal transmission on board the aircraft. On board the aircraft, the structural and spatial parameters of radio interference signals are determined for each radio interference device. Their values are transmitted to the corresponding means of radio interference and suppression of radio-electronic means of the AAS is carried out by means of radio interference.

EFFECT: effectiveness of aircraft protection against AAS damage is increased.

1 cl, 2 dwg

Description

The invention relates to the field of countering anti-aircraft missile systems (SAM) by generating interference.

The closest in technical essence and the achieved result is a method (prototype) of electronic countermeasures to anti-aircraft missile systems (see, for example, [1] pp. 137-143), based on the search, detection and measurement on board the aircraft (LA) parameters radio emissions of radio electronic means (RES) of the air defense missile system and, on the basis of their values, the formation and radiation from the board (aircraft) of radio interference of the required structure in the direction of the radio electronic means of the air defense missile system.

The main disadvantage of this method is the ability to detect and track the aircraft by the radiation of the onboard radio interference means by the constituent electronic reconnaissance elements of the air defense missile system. For example, the radiation of the on-board jamming station becomes an additional source of data for the air defense system's electronic reconnaissance means, which characterizes the angular coordinates of the aircraft. Similarly, the guided missile of the air defense missile system can also use the signal of the onboard jamming station to aim at the aircraft (in the mode of assessing the direction by the energy characteristics of the radiation). Consequently, the technical implementation in the constituent elements of the air defense missile system of the possibility of assessing the parameters of interference emissions can lead to a decrease in the effectiveness of the use of on-board protection of aircraft.

The technical result, which the present invention is aimed at, is to increase the efficiency of aircraft protection from damage to the air defense missile system.

The technical result is achieved by the fact that in the known method of radio countermeasures of the air defense missile system, based on the search, detection and measurement of parameters on board the aircraft of radio emission from the air defense systems of the air defense missile systems, the required number of N self-expanding aircrafts and the coordinates of their delivery with installed radio interference equipment (SRP) are determined by the values of the radio emission parameters of the air defense systems. , radio navigation determination of coordinates and transmission of radio signals, where N≥1 is the number of self-expanding aircraft with installed SRP, radio navigation determination of coordinates, transmission of radio signals and, accordingly, their carriers, the launch of carriers from the aircraft delivers N self-expanding aircraft with installed SRP, radio navigation signal determination of coordinates and transmission of radio to their delivery coordinates and separate the self-expanding aircraft with installed PSA, radio navigation position determination and transmission of radio signals from their carriers, deploy self-expanding aircraft with installed PSA, radio navigational determination of coordinates and radio signal transmission and bring them to a working state, clarify by means of radio navigation coordinates determination of the coordinates of delivery of the URS and transmit their values by means of transmitting and transmitting radio signals on board the aircraft, on board the aircraft using the coordinates of the URS, coordinates of its location and radio emission parameters of the radio electronic means of the air defense missile system are determined by the structural and the spatial parameters of the radio interference signals for each PDS, transmit their values to the corresponding PDS and suppress the PDS of the RES of the air defense missile system.

The essence of the invention lies in the transfer of the interference component from the aircraft board to the optimal area of space with the use of the thrown PSA. At the same time, the control of the spatial and structural parameters of the interference effect on the REM of the air defense missile system is carried out from the aircraft.

Figure 1 shows a diagram explaining the essence of the method (where: 1 - aircraft, 2 - air defense missile systems, 3 - self-expanding small-sized aircraft with installed SRP, radio navigation support and data transmission, 4 - carrier, 5 - guided missile air defense system, 6 - interference field, affecting the RES of the air defense missile system, 7 - the propagation of the information exchange signal of the aircraft and the SRP. 8 - the propagation of the location signal of the air defense missile system. The air defense missile system 2 searches, detects and measures 8 trajectory parameters of the aircraft 1 by the reflected signal. and the launch of a guided missile 5. Simultaneously, upon the fact of irradiation on board the aircraft 1, the parameters of signals from the air defense system of the air defense missile system 2 are measured. and the coordinates of their delivery with the established PSA, radio navigation definition coordinates and transmission of radio signals 3. From the board of aircraft 1, launch vehicles 2 and delivery of self-expanding small-sized aircraft with installed SRPs, radio navigation determination of coordinates and transmission of radio signals 3 to their coordinates are carried out. When the coordinates of delivery by carriers 3 are reached, the self-expanding small-sized aircraft with installed SRP, radio-navigation determination of coordinates and radio signal transmission 3 are separated and brought into serviceable. The delivery process is accompanied by errors, therefore, the coordinates of the delivery of the SRS 3 are specified by means of radio navigation coordinates 3, and their values are transmitted by 7 means of transmitting radio signals 3 on board the aircraft 1. On board the aircraft 1, using the coordinates of the SRS 3, the coordinates of its location and radio emission parameters of the RES of the air defense missile system 1 are determined structural and spatial parameters of radio interference signals for each PDS 3 and their values are transmitted 7 to the corresponding PDS 3. PDS 3 form an interference field 6.

Figure 2 shows a block diagram of a device with which the proposed method can be implemented. The block diagram of the device contains: installed on the aircraft N launching devices of reactive carriers 10; N reactive carriers 11 of cassettes, including a self-expanding small-sized aircraft 12, on board which are installed SRP 13, a radio navigation receiver 17, a data reception / transmission unit 14, coupled by a radio channel with an aircraft data transmission / reception unit; on board the aircraft 9 - data receiving / transmitting unit 15, onboard vehicle RTR 16 aircraft. In this case, all on-board devices and units are interfaced with each other.

The device works as follows. The onboard vehicle RTR 16 LA 9 searches, detects and measures the parameters of signals from the air defense system of the air defense missile system. In the case of detecting signals from the REM of the air defense missile system, the RTR 16 tool measures their parameters and generates a control signal to the launching devices of the reactive carriers 10 to launch the reactive carriers 11 in the direction of the calculated delivery coordinates. Launchers of reactive carriers 10 launch reactive carriers 11, on the sides of which cassettes are installed. The cassettes, upon reaching the delivery coordinates on the signal or are automatically separated (fired off) from the carriers 11 and release the self-expanding small-sized aircraft 12. The self-expanding small-sized aircraft 12 are opened and the data receiving / transmitting units 14, the radio navigation receivers 17 and the SRP 13 are released. the delivery coordinates are specified, the values of which are transmitted through the data receiving / transmitting units 14, 15 to the RTR 16 means 16. The RTR 16 means, based on the values of the parameters of the signals of the air defense missile system and the aircraft location coordinates, generates an information signal about the structure of the interfering signal and through the data receiving / transmitting units 14 , 15 transmits it to the SRP 13, which form the required structure of the interference signal and emit it in the direction of the RES of the air defense missile system.

Thus, the proposed method, by transferring the means of jamming the on-board protection system from the aircraft to a given point in space and by optimally controlling the parameters of the jamming field, increases the efficiency of aircraft protection from being hit by the air defense missile system. Thus, the method proposed by the authors eliminates the disadvantages of the prototype

The proposed technical solution is new, since the publicly available information does not know the method of radio countermeasures of the air defense missile system, based on the search, detection and measurement of parameters on board the aircraft of radio emissions from the air defense system of the air defense missile system, the determination of the required number of N self-expanding aircrafts and the coordinates of their delivery with the established SRP from the values of the radio emission parameters of the air defense systems of the air defense missile system, radio navigation determination of coordinates and transmission of radio signals, where N≥1 is the number of self-expanding aircraft with installed SRP, radio navigation determination of coordinates, transmission of radio signals and, accordingly, their carriers, launching from the aircraft delivery carriers N self-expanding aircraft with installed SRP, radio navigation determination of coordinates and transmission of radio signals its coordinates for the delivery and separation of self-expanding aircraft with installed PSA, radio navigation determination of coordinates and transmission of radio signals from their carriers, deployment of self-expanding aircraft with installed by means of radio navigation coordinates determination and transmission of radio signals and bringing them to a working state, clarification by means of radio navigation determination of the coordinates of the delivery of the URS and transmission of their values by means of radio signal transmission on board the aircraft, determination on board the aircraft using the coordinates of the SRP, coordinates of its location and radio emission parameters of the RES SAM of structural and spatial parameters of radio interference signals for each SRP, transmission of their values to the corresponding SRP and the implementation of suppression of SRP RES of the SAM.

The proposed technical solution is practically applicable, since standard electronic components and devices, as well as delivery vehicles and small-sized aircraft, can be used for its implementation.

1 Kupriyanov A.I., Shustov L.N. Electronic warfare. Fundamentals of the theory / A.I. Kupriyanov, L.N. Shustov. M .: Vuzovskaya kniga, 2011.800 p.

Claims (1)

The method of radio counteraction to anti-aircraft missile systems, based on the search, detection and measurement of parameters on board the aircraft of radio-electronic equipment of the anti-aircraft missile complex, is distinguished by the fact that the values of the radio-emission parameters of the radio-electronic equipment of the anti-aircraft missile complex determine the required number N of self-expanding aircraft and coordinates their delivery with installed means of radio interference, radio navigation determination of coordinates and transmission of radio signals, where N> 1 is the number of self-expanding aircraft with installed means of radio interference, radio navigation determination of coordinates, radio transmission and transmission of radio signals and, accordingly, their carriers, by launching the carriers from the aircraft, N self-opening aircraft are delivered with installed means of radio interference, radio navigation determination of coordinates and transmission of radio signals to their delivery coordinates and department self-opening aircraft with installed means of radio interference, radio navigation determination of coordinates and transmission of radio signals from their carriers, deploy self-opening aircraft with installed means of radio interference, radio navigation determination of coordinates and transmission of radio signals and bring them into working condition, specify the coordinates of delivery of means of radio navigation determination of coordinates and transmit their values by means of transmitting radio signals on board the aircraft, on board the aircraft using the coordinates of the radio interference equipment, the coordinates of their location and the radio emission parameters of the radio electronic means of the anti-aircraft missile complex determine the structural and spatial parameters of the radio interference signals for each radio interference means, transmit their values to appropriate means of radio interference and carry out suppression by means of radio interference of radio electronic x means of an anti-aircraft missile system.

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