RU2769085C1 - Interference system for ground seismic intelligence around the perimeter of a functioning military facility and method for its implementation - Google Patents

Abstract

FIELD: military affairs.

SUBSTANCE: invention relates to reducing the visibility of armaments and military and special purpose equipment (AMSPE) and can be used to hide and simulate a functioning military facility in points of permanent deployment and spare areas of concentration of troops from seismic ground reconnaissance equipment, in particular from SAR, and high-precision weapons (HPW) guidance systems. The substance of the proposed jamming system along the perimeter of a functioning military facility and the method for its implementation is as follows. Firstly, in the creation of a system for interfering with ground seismic reconnaissance along the perimeter of a functioning military facility, consisting of seismic signal receivers, seismic emitters and control equipment, including a control unit for interfering with ground seismic reconnaissance with a seismic background control user interface, interconnected by wire or wireless connection. Secondly, in the claimed method for jamming, which consists in installing seismic signal receivers and seismic emitters combined in the form of blocks with a linear cascade of wave superposition into the ground around the perimeter of a functioning military facility. To do this, each subsequent seismic emitter is installed in a block in the zone of active wave propagation of the previous one. When seismic waves appear from a functioning military facility, they are recorded using a seismic signal receiver and sent to the control equipment, in which the jamming control unit starts the operation of the seismic emitters. At the same time, the seismic emitters create programmed own seismic waves, on the one hand, amplifying the simulated seismic vibrations in the ground around a functioning military facility due to the superposition of waves on each other in one phase, thereby exciting oscillations of double amplitude and interfering with ground seismic exploration by 360° along the perimeter of a functioning military facility, on the other hand, when amplified simulating waves are emitted in antiphase with respect to the seismic waves of a functioning military facility, oscillations of real waves in the ground are damped.

EFFECT: concealment and imitation of a functioning military facility from technical means of ground-based seismic reconnaissance, in particular from SAR and HPW guidance systems.

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Description

The invention relates to reducing the visibility of weapons, military and special equipment (AMSE) and can be used to hide and simulate a functioning military facility at permanent deployment points and spare areas of troop concentration from seismic ground reconnaissance equipment, in particular from reconnaissance and signaling equipment (RSA), and guidance systems for precision weapons (WTO).

The relevance of the invention of the claimed system for jamming ground seismic surveys along the perimeter of a functioning military facility and the method of its implementation is due to the high efficiency of the use of SAR during a number of armed conflicts, in particular in Korea, Iraq, Afghanistan, etc., with the practical absence of effective technical means and ways of masking functioning military facilities from seismic ground reconnaissance equipment.

Among the known devices for masking objects, taken as analogues, there is a device for masking objects (Patent RU 2693052, 07/01/2019), containing a control unit and associated masking plates, made by N-layer, separated by dielectric spacers. At the same time, camouflage plates are placed on the surface of a flexible heat-insulating coating, the dimensions of which correspond to the linear dimensions of the object. Attachment points to the outer surface of the object are installed along the perimeter of the flexible heat-insulating coating. Additionally, a background temperature sensor, M temperature sensors and M subtraction circuits are introduced, where M is the number of thermal zones on the coating surface, each of which corresponds to a characteristic zone of the object surface having the same temperature, while the output of the m-th temperature sensor is connected to the first input of the corresponding subtraction circuits, and the second inputs of the subtraction circuits are combined and connected to the output of the background temperature sensor. The output of the m-th subtraction circuit is connected to the corresponding input of the control unit.

The main disadvantage of the known device is, first of all, that it does not have the ability to provide hiding or simulating an object from seismic ground reconnaissance tools, since it is intended only for hiding military objects in the visible and infrared ranges of the electromagnetic wave spectrum.

A seismic direction finder device for ground targets is known (Patent RU 140989 U1, May 27, 2014), containing a channel for receiving and processing seismic signals, including a seismic sensor that is connected to the input of the receiving device, the output of the receiving device is connected to the input of the logic block, the output of the logic block is the output channel for receiving and processing seismic signals, the output of the common actuator is the output device as a whole. In this case, two additional devices for receiving and processing signals are outputs of logical blocks of channels for receiving and processing seismic signals connected to the inputs of the computing unit and connected to the input of the actuating device. In the NVU-P device, two channels for receiving and processing seismic signals (POSS) are additionally introduced, including a seismic sensor (SD), the output of which is connected to the input of the receiving device (RS), and the output of the receiving device is connected to the input of the block logic device (LB). The outputs of the logical blocks are the outputs of the channels for receiving and processing seismic signals and are connected to the inputs of the input computing unit (WB), the output of the computing unit, which is connected to the input of the actuating device (ED), the output of which is the output of the seismic direction finder of ground targets.

The main disadvantage of the known device is, first of all, that it does not have the ability to provide hiding or simulating an object from seismic ground reconnaissance tools, since it is intended only for direction finding of ground targets.

A device for detecting moving ground objects by a seismic signal with a normalized probability of false alarms is known (Patent RU 2570230 C1, 10.12.2015), containing a seismic receiver connected in series, an analog-to-digital converter and two signal processing paths. Moreover, the first tract contains connected seismic signal processing circuits and a tract decision circuit. The second path contains: an adder, the first input of which is connected to the output of an analog-to-digital converter; a second input output from the noise generator connected to the output of the adder; broadband filter; limiter; narrow band filter; envelope; integrator; threshold device. In this case, the outputs of the decision circuit of the first path and the threshold device of the second path are connected to the inputs of the conjunctor, at the output of which a detection decision is formed.

The main disadvantage of the known device is, first of all, that it does not have the ability to provide hiding or simulating an object from seismic ground reconnaissance tools, since it is intended only for detecting moving ground objects by a seismic signal with a normalized probability of false positives.

The invention of a magnetoresistive transducer (Patent RU 2568148 C1, November 10, 2015) containing a silicon crystal with at least two recesses made in it is known. Planar metal structures are made along the length L and thickness b. Moreover, the size of the gap between the concentrators h is approximately not more than 2 thicknesses of the concentrator b and not less than 0.06 of the thickness of the concentrator L. A magnetically sensitive element is placed on the surface of the crystal in the area between the recesses. A planar coil of the first type is placed above the magnetically sensitive record, made with the formation of a magnetic field of the axis of easy magnetization of the magnetoresistive strips, separated from the magnetically sensitive element by the first layer of dielectric, in front of which a planar coil of the second type is placed, made with the formation of a magnetic field, use the strip separated from the planar coil of the first like a second dielectric layer.

The main disadvantage of the known device is, first of all, that it does not have the ability to provide hiding or imitation of an object from seismic ground exploration tools, since it is intended only for use in the design of magnetic field sensors.

The closest in technical essence to the claimed device and method of its application is a system for detecting penetration into a protected area [RU 2394277 C2, 07/10/2010] adopted as a prototype, consisting of remote receivers of seismic signals connected to the central equipment of the observation post by a pull cable, and seismic emitters, as well as seismic detectors installed in the directions of probable penetration of the intruder, which consist of additionally installed seismic signal receivers connected to information processing and seismic emitter control units to ensure their autonomous operation.

The known system is characterized by the fact that the seismic detectors are installed in the direction of the likely penetration of the intruder with the provision of retransmission of seismoacoustic waves in the direction of remote receivers of seismic signals.

However, despite the positive results achieved, the well-known system for detecting penetration into a protected area is not intended to create seismic interference in the zone of a functioning object and its use will not lead to the formation of a masking effect in the measurement range of seismic waves in the soil, since:

- has a low radiation intensity of seismic vibrations created by seismic emitters of low power, which are not able to suppress waves of higher intensity (amplitude) propagating in the ground from the object;

- has a limited range and is installed only in the direction of action of a potential enemy;

In addition, seismic emitters, a seismic signal receiver and an information processing and control unit are part of the seismic detector itself, which makes the system vulnerable in the event of failure of one of the constituent components, which subsequently makes it difficult or impossible to further operate the system.

The objective of the invention is to provide concealment and imitation of a functioning military facility in the points of permanent deployment and spare areas of concentration of troops from seismic ground reconnaissance equipment, in particular from SAR and WTO guidance systems.

The technical result of the invention is the creation of a jamming system around the perimeter of a functioning military facility and a method for its implementation, providing hiding and imitation of a functioning military facility from technical means of ground seismic reconnaissance, in particular from SAR and WTO guidance systems.

The specified technical result is achieved by the fact that the system for jamming ground seismic reconnaissance along the perimeter of a functioning military facility consists of seismic signal receivers, seismic emitters and control equipment interconnected by an extended cable, while the seismic signal receiver and seismic emitters are installed around a functioning military facility, blocking it 360° perimeter, and connected to control equipment, including a ground seismic jamming control unit and a seismic background control user interface, interconnected by wired or wireless communication. Moreover, the seismic emitters in the system are combined in the form of blocks with a linear cascade of superposition of high-amplitude waves, and the user interface for controlling the seismic background is made in the form of a control panel or a tablet, or a personal computer.

The method of jamming ground seismic reconnaissance is characterized by the fact that initially along the perimeter of a functioning military facility, seismic signal receivers and seismic emitters connected to each other by an extended cable and connected to control equipment are installed in the ground, combined in the form of blocks with a linear cascade of wave superposition. To do this, each subsequent seismic emitter is installed in a block in the zone of active wave propagation of the previous one, after which, when seismic waves appear from a functioning military facility, they are recorded using a seismic signal receiver and sent to the control equipment, in which the jamming control unit starts the operation of the seismic emitters. At the same time, seismic emitters create programmed own seismic waves, on the one hand, amplifying the simulated seismic vibrations in the ground around a functioning military facility due to the superposition of waves on each other in one phase, thereby exciting oscillations of double amplitude and interfering with ground seismic exploration by 360 ° along the perimeter of a functioning military facility, on the other hand, when amplified simulating waves are emitted in antiphase with respect to the seismic waves of a functioning military facility, oscillations of real waves in the ground propagating from a functioning military facility are damped due to the imposition of antiphase waves created in the seismic emitter unit. To control seismic activity in the area of the military facility, the jamming system is controlled by the operator manually, by software or autonomously.

The technical essence of the system for jamming ground seismic surveys along the perimeter of a functioning military facility and the method of its implementation is shown in Fig. 1-3.

On FIG. 1 shows a variant of the placement of the claimed ground seismic jamming system along the perimeter of a functioning military facility, where: 1 - seismic background control equipment, 2 - jamming control unit, 3 - user interface, 4 - extended cables, 5 - seismic signal receivers, 6 - seismic emitters, 7 - a functioning military facility, 8 - a seismic wave propagating from a functioning military facility, 10 - a block of seismic emitters.

On FIG. 2 shows the main elements of the claimed system for jamming ground seismic reconnaissance along the perimeter of a functioning military facility, specifying the relationship of the control equipment, the seismic signal receiver and the seismic emitters of the functioning facility relative to the SAR, where: 1 - seismic background control equipment, 2 - jamming control unit, 3 - user interface, 5 - receivers of seismic signals, 6 - seismic emitters, 7 - a functioning military facility, 8 - a seismic wave propagating from a functioning military facility, 9 - an intense seismic wave of higher amplitude propagating from seismic emitters in antiphase, 10 - a block of seismic emitters, 11 - natural waves generated by seismic emitters in one phase, 12 -. reconnaissance and signaling equipment.

On FIG. Figure 3 shows a variant of jamming ground seismic reconnaissance in the form of creating a seismic background around the perimeter of a functioning military facility, where: 1 - seismic background control equipment, 2 - jamming control unit, 3 - user interface, 4 - extended cables, 5 - seismic signal receivers , 6 - seismic emitters, 7 - a functioning military facility, 8 - a seismic wave propagating from a functioning military facility, 9 - an intense seismic wave of greater amplitude propagating from seismic emitters in antiphase, 10 - a block of seismic emitters, 11 - natural waves generated by seismic emitters in one phase , 12 - reconnaissance and signaling equipment.

Implementation of the invention.

To ensure the masking of a functioning military facility from seismic ground reconnaissance, in particular from SAR and WTO guidance systems, the claimed system for jamming ground seismic reconnaissance at a military facility contains: control equipment 1, including a control unit for jamming 2 ground seismic reconnaissance with a user interface 3 seismic background control, made in the form of a control panel with a personal computer, interconnected by wire or wireless communication, connected by an extended cable 4 with seismic signal receivers 5 and seismic emitters 6.

The operation of the proposed system of jamming ground seismic reconnaissance at a military facility is as follows.

Initially, along the perimeter of a functioning military facility 7 (see Fig. 1), seismic signal receivers 5 and seismic emitters 6 are installed in the ground, which are combined in the form of blocks with a linear cascade of wave superposition 10 and interconnected by an extended cable 4, which are respectively connected to the control equipment 1, (see Fig. 2). To cover the perimeter of a functioning military facility 7 at 360°, each subsequent seismic emitter 6 is installed in a block with a linear cascade of high-amplitude waves 10 in the zone of active wave propagation 11 of the previous one.

After installation around the perimeter of a functioning military facility 7 of a system for jamming from ground seismic reconnaissance, when seismic waves 8 appear from a functioning military facility 7, they are recorded by a seismic signal receiver 5 and sent to control equipment 1, in which the operator programs the waves in the desired phase using the control unit jamming 2 ground seismic exploration and starts the operation of seismic emitters 6. At the same time, seismic emitters 6 create programmed own seismic waves 11, which, on the one hand, amplify the simulated seismic vibrations in the ground around a functioning military facility 7 due to the superposition of waves on each other in one phase , thereby excite oscillations of double amplitude 9 (see Fig. 3) and interfere with ground-based seismic reconnaissance of SAR 12 at 360° along the perimeter of a functioning military facility 7, on the other hand, when amplified simulating waves 9 are emitted in antiphase with respect to seismic waves 8 of a functioning military facility 7 dampen oscillations of real waves 8 in the ground propagating from a functioning military facility 7 due to the imposition of antiphase waves 11 generated in the block 10 seismic emitters. To control seismic activity in the area of the military facility 7, the jamming system is controlled by the operator manually using software or autonomously.

The effectiveness of the claimed system for jamming ground seismic reconnaissance and the method for its implementation is evaluated by the results of reducing the visibility of military and military equipment in points of permanent deployment and spare areas of concentration of troops from seismic ground reconnaissance equipment, in particular from SAR and WTO guidance systems and is characterized by the features of the physical foundations for creating a seismic background around a masked functioning military facility, due to the superposition of waves emitted from seismic emitters on the one hand, amplifying the simulated seismic vibrations in the ground around a functioning military facility due to the superposition of waves on each other in one phase, thereby exciting oscillations of double amplitude and interfering with ground-based seismic reconnaissance of the SAR on 360° around the perimeter of a functioning military facility. On the other hand, when amplified simulating waves are emitted in antiphase with respect to the seismic waves of a functioning military facility, the radiation generated in antiphase dampens the oscillations of real waves in the ground propagating from a functioning military facility due to the superposition in antiphase of the waves generated in the seismic emitter unit. Under these conditions, there is a decrease in the visibility of a functioning military facility from ground seismic reconnaissance, which ensures the disruption of the guidance of HTO systems, due to the creation of a simulated, false seismic background around the camouflaged military facility in the form of the so-called "quasi-white" or "white noise", against which no attenuated frequencies of seismic radiation from a functioning military facility are recognized.

Thus, in the claimed system for jamming ground seismic reconnaissance and the method for its implementation, a technical result has been achieved, which consists in creating a system for jamming along the perimeter of a functioning military facility and a method for its implementation, providing hiding and imitation of a functioning military facility from technical means of ground seismic reconnaissance in in particular from SAR and WTO guidance systems.

Claims (4)

1. A system for jamming ground seismic reconnaissance, consisting of seismic signal receivers, seismic emitters and control equipment interconnected by an extended cable, characterized in that the seismic signal receiver and seismic emitters are installed around a functioning military facility, covering its perimeter by 360 °, and connected to control equipment, including a control unit for jamming ground seismic surveys with a user interface for seismic background control, interconnected by wire or wireless communication, while seismic emitters in the system are combined in the form of blocks with a linear cascade of wave superposition to form high-amplitude waves, amplifying simulated seismic waves in the ground around a functioning military facility. 2. The system according to claim. 1, characterized in that the user interface for controlling the seismic background is made in the form of a control panel, or a tablet, or a personal computer. 3. A method of jamming ground seismic reconnaissance, characterized in that initially, along the perimeter of a functioning military facility, seismic signal receivers and seismic emitters connected to each other by an extended cable and connected to control equipment are installed in the ground, combined in the form of blocks with a linear cascade of wave superposition, for this each subsequent seismic emitter is installed in a block in the zone of active wave propagation of the previous one, after which, when seismic waves appear from a functioning military facility, they are recorded using a seismic signal receiver and sent to the control equipment, in which the jamming control unit starts the operation of the seismic emitters, while the seismic emitters create programmed own seismic waves, on the one hand, amplifying the simulated seismic vibrations in the ground around a functioning military facility due to the superposition of waves on each other in one phase, thereby excite oscillations of double amplitude and interfere with ground seismic exploration at 360° along the perimeter of a functioning military facility, on the other hand, when amplified simulating waves are emitted in antiphase with respect to the seismic waves of a functioning military facility, they dampen oscillations of real waves in the ground propagating from a functioning military facility object due to the imposition in antiphase of the waves created in the block of seismic emitters. 4. The method according to claim 3, characterized in that to control seismic activity in the area of the military facility, the jamming system is controlled by the operator manually, by software or autonomously.

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