RU1841355C - Method for masking the radiation of radio-electronic systems - Google Patents

Abstract

FIELD: radio-technical masking.

SUBSTANCE: invention relates to the field of radio-technical masking of radiations of radio-electronic systems during their flight tests. This method is applicable to the following means: radio command systems, communication means and identification systems. The claimed method of masking the radiation of radio-electronic systems is carried out by adding a masking signal, by adding to the modulating information signals signals that convert the original radiation into radiation of another radio-electronic system.

EFFECT: The technical result is an increase in the stealth of masking signals during tests.

1 cl, 1 dwg

Description

The present invention relates to the field of radio-technical masking of the radiation of radio-electronic systems during their flight tests. This method is applicable to the following means: radio command systems, communications and identification systems.

Until recently, the main methods of radio-technical masking of the emissions of new electronic equipment during flight tests were: the use of noise signal generators operating in the masked frequency range, and the operation of the test facility with radiation into the air in a limited spatial sector.

However, these methods of masking radiation have very significant drawbacks. Firstly, the use of the noise method of radio-technical masking of radiation with simultaneous operation of the masked and masking equipment can lead to difficulties in the normal functioning of the receiver of the masked system. Secondly, during the operation of the tested electronic means in limited sectors, masking cannot be effective, since the radiation is received by the electronic intelligence equipment along the side and reverse lobes of the radiation pattern.

The purpose of the present invention is to develop such a method of radio-technical masking, which will allow to have a sufficiently high probability of hiding the masked signals of radio-electronic systems during flight tests for a long time. The masked element is the type of the tested radio-electronic system and, accordingly, its main parameters: command characteristics, signs of codes and ciphers, the construction of call signs, and others.

In the proposed method of radio-technical camouflage, this goal is achieved by using additional masking signals (radiation from active radio-technical camouflage equipment), which, in combination with the signals of the tested radio-technical system, should be perceived by the radio-technical intelligence equipment of a potential enemy as signals of a completely new unified system belonging to a different class, in relation to to the one being tested.

The essence of the invention is illustrated by the drawing (Fig. 1).

This method of active masking of radiation is carried out as follows. At the output of the tested radio-electronic system, a converting radio-technical camouflage device is installed, which, when transmitting secret information, generates complementary signals that mask one system for another.

Signals from radio command systems will be supplemented by a camouflage system in such a way that they are perceived by reconnaissance equipment as signals from an identification system. Communications signals will be supplemented by a camouflage system in such a way that they are perceived by reconnaissance means as signals from a command system. The signals of the identification system will be supplemented by the camouflage system in such a way that they are perceived by reconnaissance equipment as signals from the telemetry system.

In the receiving path of the electronic camouflage system, using a selector, all information will be decrypted and transmitted to the receiver of the camouflaged electronic system. Thus, in the process of flight tests of the new equipment, signals will not be received on the air from a masked system, but from a completely different unclassified system belonging to a different class of means.

With the help of this method of active radio-technical camouflage, it is possible to create entire false radio-technical objects or misinform a potential enemy regarding the principles of construction and combat use of the developed radio-electronic systems.

The proposed method of radio engineering radiation masking can be implemented using a special active masking device, which consists of two blocks - an onboard transmitter and a ground receiver. The first block includes: a switching device 1, a generator of additional signals 2, a mixer 3, an onboard power supply 4 and a transmitting antenna 5. The second block includes: a receiving antenna 6, a receiver 7, a selector 8, a switching device 9, a ground power source 10. In addition, the block diagram will include the tested airborne and ground radio devices 11 and 13 and their antennas 12 and 14, respectively.

During flight tests of electronic equipment, the functioning of the active radio-technical camouflage system will occur as follows.

The electronic system under test 11, located on board the aircraft and subject to masking, at some point begins to generate secret signals. However, from the output of the radio electronic means 11, these signals do not enter the transmitting antenna 12, but with the help of the switching device 1 to start the generator of additional signals 2 and to the mixer 3, which form a completely new unclassified signal, which is then fed to the transmitting antenna 5.

The ground unit of the camouflage system receives unclassified signals to the receiving antenna 6 and the receiver 7 transmits them to the selector 8, where unclassified information is decoded into secret information, due to the selection of signals, then through the switching device 9, the again secret signals are sent to the ground receiver of the tested electronic equipment 13 .

If the equipment under test is placed in a different order, i.e. the transmitter of the electronic system 11 is placed on the ground, and its receiver 13 is on board the aircraft, then the radio-technical masking equipment is placed, respectively, on the contrary, but all conversions with a secret signal are performed in the same order.

Claims (1)

A method for masking radiation from radio-electronic systems by adding a masking signal, characterized in that, in order to increase the secrecy of masking signals during testing, signals are added to the modulating information signals that convert the original radiation into radiation from another radio-electronic system.

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