RU2583160C1 - Method for interference suppression of radar station - Google Patents

Abstract

FIELD: radio.

SUBSTANCE: invention relates to radar and may be used for interference suppression of radar stations. Said result is achieved by a method for interference suppression radar, based on illumination with active interference using a jamming of set of passive radiators, illuminating a set of passive radiators with instances of probing signal of suppressed radar, instances are emitted using repeater jammer with imitation of Doppler frequency shift. Said technical result is achieved also by that an instance of probing signal is emitted with imitation of Doppler frequency shift, and also by increased equivalent length of plurality of passive radiation radiators by several instances of probing signal of radar station with imitation of Doppler, as well as by that a set of passive radiators is formed by ejection of dipole reflectors.

EFFECT: technical result is low power consumption of producing active interference illuminating a set passive reflectors and high efficiency of suppressing radar station.

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Description

The claimed technical solution relates to the field of radar and can be used in the interference suppression of radar stations.

The prior art method of jamming suppression of the radar, which consists in setting passive interference (Reference. Radar systems. Fundamentals of construction and theory. Edited by Ya. D. Shirman. M., "Radio Engineering" - 2007, p. 82). Intentional passive jamming is carried out by firing cartridges with dielectric dipole reflectors or repeaters to suppress centimeter-range radar, or foil tape for a meter-long radar in the direction of the aircraft. In this case, a cloud of passive interference is formed, reflecting the radar signals and thereby making it difficult to detect the target. The advantage of this method of countering the radar is that the spectrum of the interference generated by reflection from the cloud of passive interference of the probing signal, in structure and frequency band, corresponds to the structure of the radar signal and freely passes through its receiver and secondary processing systems. The large reflective surface and the length of the cloud of passive interference create a reflected signal of high power and duration and make it impossible to detect a useful signal.

The disadvantage of this method is that the speed of the cloud after firing quickly acquires the wind speed and, therefore, the interference can be suppressed by the system of selection of moving targets (SDC) (Radar Reference Edited by M., Skolnik, M., “Owls. Radio ”, 1979, v. 3, p. 281).

The closest known method of interference suppression of radar, which consists in highlighting the active interference with the help of the director of active interference set of passive emitters (Handbook. Radar systems. Fundamentals of construction and theory. Edited by Ya. D. Shirman. M., "Radio Engineering" - 2007 ., p. 81). The aggregate of passive emitters may be the underlying surface of the earth or water, clouds, elevations, local objects with a large reflective surface, or intentional passive interference. At the same time, barrage noise-like interference reflected from the aggregate of passive emitters is also received by the radar along the side lobes of the antenna radiation pattern and mask well signals from real targets.

A disadvantage of the known closest method is that the creation of barrage noise-like interference requires very high energy costs. In addition, such interference is different in structure from the radar signal and therefore can be filtered or compensated in the radar receiver.

Thus, the task (technical result) is to reduce the energy intensity of the director of active interference, highlighting a set of passive reflectors and increasing the effectiveness of radar suppression.

The task (technical result) is achieved by the fact that in the method of interference suppression of the radar, based on highlighting the active interference with the help of the director of active interference of a set of passive emitters, according to the invention, the set of passive emitters is highlighted with copies of the probe signal of the suppressed radar, copies are emitted by the designer of the response interference.

The task (technical result) is also achieved by the fact that a copy of the probing signal is emitted with a simulated Doppler frequency shift.

The task (technical result) is also achieved by increasing the equivalent length of the set of passive emitters by emitting several copies of the radar probe signal with imitation of the Doppler frequency shift.

The task (technical result) is also achieved by the fact that a set of passive emitters is formed by ejecting dipole reflectors.

The essence of the method is that the passive jammer receives the probing signal of the suppressed radar and emits a signal in the form of several copies of it, giving these signals a Doppler frequency shift similar to the frequency shift of the signal reflected from a real moving target. The set of passive emitters illuminated by such a signal begins to emit quasi-noise signals, the length of which is determined by the length of the passive interference. When POP emits several copies (packs) of pulses, the equivalent length of the interference cloud increases in proportion to the total duration of the copies. If the length of the packet of illuminating pulses is no more than the probe repetition period, the response interference director (POP) can receive the next probe pulse with possibly changed parameters (carrier frequency, frequency modulation slope, etc.). Due to the Doppler shift, which simulates the frequency shift of the signal reflected from a real moving target, the suppressed radar cannot use the SDS system for protection.

The effectiveness of this method of jamming increases for two reasons: firstly, the pulsed signals with the same power ratio of the POP have a much larger pulse power than the power of continuous noise interference, and the conversion of the pulse signal emitted by the POP into an extended quasi-noise signal occurs due to the length of the passive cloud interference, secondly, the emission of several copies leads to an equivalent increase in the length of the cloud of interference. In addition, due to the selected Doppler shift of the POP signals, equivalent to the Doppler shift in the signal reflected from a real moving target, the radar cannot use the SDC system.

As a passive interference, any combination of reflecting points (underlying or water surface, meteorological conditions, real or false targets, local objects, industrial facilities, etc.) can be used.

Thus, the task is solved and the claimed technical result is achieved.

Claims (4)

1. The method of jamming suppression of a radar station (radar), based on highlighting the set of passive emitters with active interference using an active jammer, characterized in that the sets of passive emitters are highlighted with copies of the probe signal of the suppressed radar, copies are emitted using the response jammer. 2. The method according to p. 1, characterized in that a copy of the probe signal is emitted with a simulated Doppler frequency shift. 3. The method according to p. 1, characterized in that they increase the equivalent length of the aggregate of passive emitters by emitting several copies of the radar probe signal with imitation of the Doppler frequency shift. 4. The method according to p. 1, characterized in that the set of passive emitters is formed by ejecting dipole reflectors.