KR102147396B1 - Method and system for performing communication and jamming - Google Patents

Abstract

In a system that performs communication with the friendly side and disturbance to the enemy side together, a plurality of relay nodes receiving the first modulated signal used for communication inside the enemy side, and the enemy side generates a first modulated signal A receiver that identifies modulation information about a method to perform, and data used for communication with the friendly side are converted into a second modulation signal that causes communication-like jamming with the first modulation signal based on the modulation information. A system comprising a transmitter for modulating and transmitting a second modulated signal, wherein the plurality of relay nodes transmits a relay signal for relaying the second modulated signal.

Description

TECHNICAL FIELD [Method and system for performing communication and jamming]

The present disclosure relates to a method and system for performing communication and disturbance. More specifically, the present disclosure relates to a method and system for performing communication with a friendly side and disturbance to an enemy side together.

The future war is gradually changing into a network centric warfare (NCW) that can share the situation of the battlefield in real time even in a distributed location. Accordingly, research on electronic warfare is being conducted in order to gain an edge in future wars that are conducted in the form of network-oriented warfare. In electronic warfare, a technology that detects communication signals, identifies Pia, and disturbs the enemy's signals is the core. In particular, in electronic warfare, a technology that disrupts the communication of the enemy side by transmitting a disturbing signal that causes jamming with the communication signal of the enemy side plays a central role.

Conventionally, as a method of using electromagnetic wave noise to disturb communication of the enemy side, jamming has been performed in a method of emitting a radio frequency (RF) signal with high power. For example, broadband jamming that performs jamming for a plurality of frequency bands, pulse jamming that uses a characteristic that a pulse signal appears in a wide range in a frequency domain, and a combination of tones appearing in a plurality of specific frequencies Thus, a jamming method such as tone jamming to perform jamming was used.

However, the conventional jamming method using electromagnetic wave noise has a problem that communication of the friendly side may also be affected by a jamming signal for disturbing the enemy side.

In addition, a method of optimizing the duration of the jamming pulse and the pulse modulated signal based on the modulation identification has been proposed in order to disturb the communication of the enemy side. This method of using the optimized pulse may improve jamming performance than the method using the conventional electromagnetic wave noise, but pulse jamming instantaneously generates a high-power RF signal, so the enemy side uses the optimized pulse. There is a limit in that you can understand and cope with the

Therefore, in order to solve the problems and limitations of the conventional jamming methods, the communication of the friendly side is not affected by the jamming signal for disturbing the enemy side, while an improved system that prevents the enemy side from easily grasping the jamming signal. Jamming skills are required.

Various embodiments are to provide a method and system for performing communication and disturbance. The technical problem to be achieved by the present disclosure is not limited to the technical problems as described above, and other technical problems may be inferred from the following embodiments.

As a means for solving the above-described technical problem, a system for performing communication with a friendly side and disturbance on an enemy side according to an aspect of the present disclosure is a first modulated signal used for communication inside the enemy side. A plurality of relay nodes for receiving a signal; A receiver for identifying modulation information on a manner in which the enemy side generates the first modulated signal; And modulating the data used for communication with the friendly side into a second modulated signal that causes communication-like jamming with the first modulated signal based on the modulated information, and modulates the second modulated signal. It includes a transmitter that transmits, and the plurality of relay nodes may transmit a relay signal for relaying the second modulated signal.

The plurality of relay nodes may include first nodes receiving the first modulated signal; And second nodes that transmit the relay signal.

The receiver may identify the modulation information based on only a signal received by the first nodes among the first modulation signals.

The receiver may receive only signals transmitted by the second nodes among the relay signals.

The plurality of relay nodes may be divided into the first nodes and the second nodes according to whether each of the plurality of relay nodes belongs to an influence zone of the first modulated signal.

It may be determined whether the plurality of relay nodes belong to an influence zone of the first modulated signal based on at least one of a signal to noise ratio (SNR) and position information of each of the plurality of relay nodes. have.

The plurality of relay nodes may transmit the relay signal with an intensity corresponding to the intensity of the first modulated signal.

The transmitter transmits the data to the second modulated signal in a modulation method including any one of binary phase shift keying (BPSK), 4-quadrature amplitude modulation (4-QAM), and 16-quadrature amplitude modulation (16-QAM). Can be modulated with

According to another aspect of the present disclosure, a method for performing communication with a friendly side and disturbance to an enemy side together includes: receiving a first modulated signal used for communication inside the enemy side; Identifying modulation information regarding a manner in which the enemy side generates the first modulated signal; Modulating data used for communication with the friendly side with a second modulated signal that causes communication-like jamming with the first modulated signal based on the modulated information, and transmitting the second modulated signal; And transmitting a relay signal for relaying the second modulated signal.

Communication with the friendly side can be performed using a jamming signal to disturb the communication of the enemy side by the system that performs communication with the friendly side and disturbance on the enemy side according to the present disclosure. The means can be diversified.

It can be said that the system according to the present disclosure is economical because the friendly side communicates with less power while jamming the enemy side. In addition, since a signal similar to that of the enemy side is transmitted with a small amount of power, the enemy side cannot easily grasp the jamming signal, thereby increasing the effect of disturbance on the communication of the enemy side.

1 is a diagram for describing a model for a communication system in an electronic warfare.
FIG. 2 is a diagram for describing a system for performing communication with a friendly side and disturbance with an enemy side according to some embodiments.
3 is a block diagram illustrating elements constituting a system for performing communication with a friendly side and disturbance with an enemy side according to some embodiments.
4 is a diagram illustrating a graph for comparing performance according to a modulation method of a system for performing communication with a friendly side and disturbance with an enemy side according to some embodiments.
5 is a diagram illustrating a graph for comparing performance according to a jamming to signal ratio (JSR) of a system that performs communication with a friendly side and disturbance with an enemy side according to some embodiments.
6 is a flow chart showing steps of configuring a method for performing communication with a friendly side and disturbance with an enemy side according to some embodiments.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings. It goes without saying that the following description is only for specifying the embodiments and does not limit or limit the scope of the invention. What can be easily inferred by experts in the art from the detailed description and examples is interpreted as belonging to the scope of the rights.

The terms “consisting of” or “comprising” as used herein should not be interpreted as necessarily including all of the various elements or various steps described in the specification, and some of the elements or some steps It should be construed that it may not be included, or that additional components or steps may be further included.

Terms including an ordinal number such as'first' or'second' used in the present specification may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from other components.

Terms used in the present specification have been selected as general terms that are currently widely used in consideration of functions in the present invention, but this may vary according to the intention or precedent of a technician working in the field, the emergence of new technologies, and the like. In addition, in certain cases, there are terms arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the corresponding invention. Therefore, the terms used in the present invention should be defined based on the meaning of the term and the overall contents of the present invention, not a simple name of the term.

The present embodiments relate to a method and a system for performing communication and disturbance, and detailed descriptions of matters widely known to those of ordinary skill in the art to which the following embodiments belong will be omitted.

1 is a diagram for describing a model for a communication system in an electronic warfare.

Referring to FIG. 1, a communication system 10 in electronic warfare may include a transmitter 11, an intended receiver 12 and an unintended receiver 13. In system 10, transmitter 11 and intended receiver 12 may belong to a first side, and unintended receiver 13 may belong to a second side that is hostile to the first side.

When the transmitter 11 transmits a communication signal to the intended receiver 12 and the intended receiver 12 receives the communication signal, communication inside the first side can be performed. The communication signal may mean a signal in which data to be communicated is encoded and modulated in a specific manner. Thereafter, the communication signal is demodulated and decoded so that data to be communicated may be transmitted inside the first side.

The unintended receiver 13 may intercept communication signals between the transmitter 11 and the intended receiver 12 and may disturb communication between the transmitter 11 and the intended receiver 12. The second side collects information on the first side by capturing and disturbing the communication signal of the first side through an unintended receiver 13 and conducts electronic warfare in a manner that interferes with the communication inside the first side. can do.

The unintended receiver 13 is an interceptor 14 that captures a communication signal between the transmitter 11 and the intended receiver 12 and a jammer 15 that disturbs the communication between the transmitter 11 and the intended receiver 12 It may include. Further, an unintended receiver 13 may cause noise and other effects on the intended receiver 12.

The communication aspect in electronic warfare can be modeled like the system 10. The system and method for performing communication with the friendly side and disturbance on the enemy side together according to the present disclosure may correspond to an embodiment of the unintended receiver 13.

FIG. 2 is a diagram for describing a system for performing communication with a friendly side and disturbance with an enemy side according to some embodiments.

Referring to FIG. 2, the system 100 for performing communication with the friendly side and disturbing the enemy side together may include a plurality of relay nodes 110, a receiver 120, and a transmitter 130. However, the present invention is not limited thereto, and the system 100 may further include general-purpose components in addition to the presented components.

The transmitter 130 may serve as a source for generating data used for communication with the friendly side. The transmitter 130 may modulate data used for communication with the friendly side.

Receiver 120 may receive a signal transmitted by transmitter 130. The receiver 120 may receive a signal modulated by the transmitter 130 and perform demodulation to restore data used for communication with the friendly side.

In addition to receiving the signal transmitted by the transmitter 130, the receiver 120 may identify in what manner the modulated signal has been modulated. Specifically, the receiver 120 may identify information on how the modulated signal is generated. Since the receiver 120 can identify a modulation scheme in addition to signal reception, the receiver 120 can serve as a fusion center.

The plurality of relay nodes 110 may relay a signal transmitted by the transmitter 130. In addition, each of the plurality of relay nodes 110 may repeat a signal relayed by another relay node again. The signal of the transmitter 130 is transmitted to the receiver beyond the range in which the signal transmitted by the transmitter 130 is transmitted by the plurality of relay nodes 110, or even when there is a terrain that interferes with the signal transmission of the transmitter 130. 120) can be delivered.

The plurality of relay nodes 110 may be disposed within the communication range of the friendly side. The communication range of the friendly side may be determined according to the form in which the plurality of relay nodes 110 are arranged. In Figure 2, an example of the communication range of the friendly side is shown by a solid line.

In an environment in which the system 100 operates, communication inside the enemy side may also be performed. The enemy side may send and receive signals through the transmitter 210 of the enemy side and the receiver 220 of the enemy side. In Figure 2, an example of the communication range of the enemy side is shown by a dotted line.

The system 100 may disturb communication performed inside the enemy side. The system 100 identifies the modulation information on the manner in which the modulated signal is generated by receiving the modulated signal used by the enemy side for communication, and causes jamming with the signal used by the enemy side for communication based on the modulation information. It is possible to perform disturbance on the enemy side by sending out a signal.

The system 100 may communicate with the friendly side through a signal that causes jamming with a signal used by the enemy side for communication. The signal that causes jamming with the enemy side signal is a jamming signal that disturbs communication from the enemy side, but may be a signal including data for communication from the side of the friendly side. Accordingly, the system 100 may communicate with the friendly side and disturb the enemy side together.

The system 100 can perform communication-like jamming in that the system 100 performs jamming on the enemy side and the jamming signal can serve as a communication signal on the friendly side. have. Unlike conventional jamming methods, communication-like jamming of the system 100 can be performed at low power at a general communication signal level without using high-power pulses, so it may be difficult for the enemy side to grasp communication-like jamming. The effect of jamming can be increased.

Some of the plurality of relay nodes 110 may serve as a sensor 111 for receiving a signal used by the enemy for communication according to a predetermined criterion. At least one sensor 111 may receive a signal used for communication by the enemy side and transmit it to the receiver 120. The receiver 120 can identify the modulation information of the enemy side from the transmitted signal, and the transmitter 130 transmits a communication-like jamming signal that simultaneously performs communication with the friendly side and disturbance to the enemy side based on the modulation information. Can be generated.

Nodes of the plurality of relay nodes 110 that do not perform the role of the sensor 111 may transmit a relay signal for relaying a communication-like jamming signal. A communication-like jamming signal may be transmitted to the receiver 120 and the receiver 220 of the enemy side by the relay signal, so that communication with the friendly side and disturbance on the enemy side may be performed together.

3 is a block diagram illustrating elements constituting a system for performing communication with a friendly side and disturbance with an enemy side according to some embodiments.

Referring to FIG. 3, the system 100 for performing communication with the friendly side and disturbing the enemy side together may include a plurality of relay nodes 110, a receiver 120, and a transmitter 130. It is modeled as a block diagram.

The plurality of relay nodes 110 may receive a first modulated signal used for communication within the enemy side. The plurality of relay nodes 110 may transmit the received first modulated signal to the receiver 120. In the process of transmitting the first modulated signal to the receiver 120, the first modulated signal may be transmitted to the receiver 120 by a method in which the plurality of relay nodes 110 relay the first modulated signal.

The receiver 120 may identify modulation information regarding a method in which the enemy side generates the first modulated signal. The receiver 120 may identify modulation information by receiving the first modulated signal transmitted from the plurality of relay nodes 110. The receiver 120 may transmit modulation information to the transmitter 130. The modulation information may be transmitted to the transmitter 130 in a manner that is relayed by the plurality of relay nodes 110.

The modulation information may refer to a method in which data used for communication inside the enemy side is modulated with a first modulated signal. For example, a method of modulating the first modulated signal may be a method such as amplitude modulation, phase modulation, and frequency modulation.

The transmitter 130 modulates the data used for communication with the friendly side into a second modulated signal that induces communication-like jamming with the first modulated signal based on the modulation information, and modulates the second modulated signal. Can be sent out. The transmitter 130 may receive modulation information from the receiver 120 and generate a second modulated signal.

The transmitter 130 may perform communication with the friendly side and disturb the enemy side together by transmitting the second modulated signal. When the second modulated signal is transmitted to the receiver of the enemy side, the second modulated signal may cause jamming with the first modulated signal used for communication inside the enemy side. When the second modulated signal is transmitted to the receiver 120, the second modulated signal may transmit data used for communication with the friendly side to the receiver 120.

In order for the transmitter 130 to transmit the second modulated signal to the receiver on the enemy side and transmit it to the receiver 120, the transmitter 130 may relay the second modulated signal through a plurality of relay nodes 110. have. Accordingly, the plurality of relay nodes 110 may transmit a relay signal for relaying the second modulated signal.

The plurality of relay nodes 110 may include first nodes receiving the first modulated signal and second nodes transmitting the relay signal. Roles are divided within the plurality of relay nodes 110, so that each purpose can be achieved more efficiently, and the process of receiving the first modulated signal and the process of transmitting the relay signal can be prevented from colliding. , The efficiency of communication and disturbance performed by the system 100 may be increased. Referring to the example shown in FIG. 2, the plurality of relay nodes 110 may be composed of 10 relay nodes, and may be composed of seven first nodes and three second nodes.

The receiver 120 may identify modulation information based only on signals received by first nodes among the first modulation signals. First nodes among the plurality of relay nodes 110 may be more suitable for receiving the first modulated signal than the second nodes. Therefore, in order to more accurately identify modulation information, it may be advantageous for the first nodes to use only a signal that is transmitted to the receiver 120 by receiving the first modulation signal from the enemy side.

The receiver 120 may receive only signals transmitted by the second nodes among relay signals. Second nodes among the plurality of relay nodes 110 may be more suitable for transmitting relay signals than the first nodes. Accordingly, in order for the receiver 120 to more accurately receive the relay signal, it may only receive the relay signal relayed by the second nodes.

As shown above, the plurality of relay nodes 110 may divide a subject that performs a role of receiving a first modulated signal and a role of transmitting a relay signal into first nodes and second nodes, and the receiver 120 may also distinguish between a signal to which the first modulated signal is relayed and a target for receiving a signal to which the second modulated signal is relayed.

The plurality of relay nodes 110 may be divided into first nodes and second nodes according to whether each of the plurality of relay nodes 110 belongs to an influence zone of the first modulated signal. If it is in the influence of the first modulated signal used for communication inside the enemy, it may mean that it is located in the communication range of the enemy.Therefore, a node in the influence of the first modulated signal among the plurality of relay nodes 110 Since they may be advantageous for relaying the first modulated signal, they may be set to relay the first modulated signal instead of relaying the second modulated signal.

As a specific method of determining whether each of the plurality of relay nodes 110 belongs to the influence zone of the first modulated signal, a signal to noise ratio (SNR) of each of the plurality of relay nodes 110 and At least one of the location information may be utilized. For example, if the noise-to-signal ratio for the first modulated signal used for communication inside the enemy side is greater than or equal to a specific value, it may be determined to belong to the first nodes, and relative to the enemy's transmitter and the enemy's receiver Location information may be considered.

The plurality of relay nodes 110 may transmit a relay signal with an intensity corresponding to the intensity of the first modulated signal. Specifically, the plurality of relay nodes 110 have a strength at which the first modulated signal used for communication within the enemy side is received by the enemy side receiver, and the relay signal is transmitted from the enemy side receiver with a corresponding strength. You can adjust the strength at which relay signals are transmitted so that they can be received.

When the relay signal is transmitted with an intensity corresponding to the intensity of the first modulated signal, compared to the conventional high-power pulse emission method, low power can be consumed and the relay signal can be easily detected by the enemy's receiver. It may be difficult, and accordingly, the effect of disturbing the enemy side by causing jamming with the first modulated signal used for communication inside the enemy side can be improved.

The first modulated signal used for communication inside the enemy side and the second modulated signal causing jamming with the first modulated signal may be modulated by various methods. As an example, when the receiver 120 identifies modulation information regarding a method of generating a first modulated signal by binary phase shift keying (BPSK), the transmitter 130 uses binary phase shift keying (BPSK), 4- The second modulated signal may be generated by a modulation method including any one of 4-quadrature amplitude modulation (QAM) and 16-quadrature amplitude modulation (16-QAM).

4 is a diagram illustrating a graph for comparing performance according to a modulation method of a system for performing communication with a friendly side and disturbance with an enemy side according to some embodiments.

Referring to FIG. 4, a graph 400 showing experimental results for evaluating the theoretical performance of the system 100 for performing communication with the friendly side and disturbing the enemy side together is shown.

The graph 400 may represent a change in a bit error rate (BER) according to a change in E _b /N ₀ (energy per bit to noise power spectral density ratio). E _b /N ₀ is an index in which a signal to noise ratio (SNR) is standardized and may mean SNR per bit. The bit error rate is an index indicating the ratio of bits with errors among received bits, and a lower bit error rate may mean that communication is accurately performed.

In the graph 400, for each of the modulation methods of the friendly side, that is, the methods in which the transmitter 130 modulates data used for communication with the friendly side with a second modulation signal that causes jamming with the first modulation signal. The change of the bit error rate according to the change of, E _b /N ₀ is shown.

In the experiment on the graph 400, the first modulated signal used for communication inside the enemy side is modulated in a 4-QAM scheme, the second modulated signal is modulated in a BPSK, 4-QAM and 16-QAM scheme, The plurality of relay nodes 110 is configured with 10 relay nodes, and the 10 relay nodes are set to include three first nodes and seven second nodes. In addition, the jamming to signal ratio (JSR) was set to a value of -10 dB.

Referring to the graph 400, in the case of BPSK and 4-QAM, it is confirmed that the friendly side may have a lower bit error rate than the enemy side, so that communication with the friendly side can be performed while disturbing the enemy side. It could be confirmed that there is.

FIG. 5 is a diagram illustrating a graph for comparing performance according to a jamming to signal ratio (JSR) of a system that performs communication with a friendly side and disturbance with an enemy side according to some embodiments.

Referring to FIG. 5, a graph 500 shows a change in bit error rate according to a change in a jamming to signal ratio (JSR) for each of the modulation schemes on the friendly side.

In the experiment on the graph 500, the first modulated signal is modulated in a 4-QAM scheme, the second modulated signal is modulated in a BPSK, 4-QAM and 16-QAM scheme, and a plurality of relay nodes 110 It is set to consist of three first nodes and seven second nodes. In addition, the first modulated signal of the 4-QAM scheme was set to have an E _b /N ₀ value of 8 dB.

Referring to the graph 500, in the case of BPSK and 4-QAM, the bit error rate of the friendly side at the value of the jamming-to-signal ratio (JSR) near -8 dB is maintained at a good value of about 10 ^-3 , while the enemy side It was confirmed that the bit error rate of can be disturbed to have a value of about 10 ^-2 . This is, in that the bit error rate of the friendly side can have a value of about 10 ^-3 , it was confirmed that the system 100 can disturb the signal of the enemy side while enabling communication of the friendly side.

6 is a flow chart showing steps of configuring a method for performing communication with a friendly side and disturbance with an enemy side according to some embodiments.

Referring to FIG. 6, a method of performing communication with the friendly side and disturbance to the enemy side together may consist of steps processed in a time series in the system 100 shown in FIG. 3. Therefore, even if omitted below, the contents described above with respect to the system 100 of FIG. 3 may be applied to a method of performing communication with the friendly side and disturbance to the enemy side of FIG. 6 in the same manner.

In step 610, the system 100 may receive a first modulated signal used for communication within the enemy side.

In step 620, the system 100 may identify modulation information regarding a manner in which the enemy side generates the first modulated signal.

In operation 630, the system 100 may modulate data used for communication with the friendly side into a second modulated signal that causes jamming with the first modulated signal based on the modulated information.

In operation 640, the system 100 may transmit a relay signal for relaying the second modulated signal.

Meanwhile, the method of performing communication with the friendly side and disturbing the enemy side together according to the present disclosure may be recorded in a computer-readable recording medium in which one or more programs including instructions for executing the method are recorded.

Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and floptical disks. A hardware device specially configured to store and execute program instructions such as magneto-optical media, and ROM, RAM, flash memory, and the like may be included. Examples of program instructions may include high-level language codes that can be executed by a computer using an interpreter as well as machine language codes such as those produced by a compiler.

Although the embodiments have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention defined in the following claims are also the scope of the present invention. Belongs to.

100: A system that communicates with the friendly side and disturbs the enemy side together.
110: multiple relay nodes
120: receiver
130: transmitter

Claims (10)

In the system for performing disturbance on the enemy side while communicating with the friendly side by using a signal used by the enemy side for communication,
A plurality of relay nodes for receiving a first modulated signal used for communication inside the enemy side;
A receiver for identifying modulation information on a manner in which the enemy side generates the first modulated signal; And
Transmitting the second modulated signal by modulating the data used for communication with the friendly side into a second modulated signal that causes communication-like jamming with the first modulated signal based on the modulated information Including a transmitter,
The plurality of relay nodes,
Transmits a relay signal for relaying the second modulated signal,
Depending on whether each of the plurality of relay nodes belongs to the sphere of influence of the first modulated signal,
When belonging to the influence zone, the plurality of relay nodes are divided into first nodes receiving the first modulated signal,
When not in the influence zone, the plurality of relay nodes are divided into second nodes that transmit the relay signal. delete The method of claim 1,
The receiver,
Identifying the modulation information based only on the signal received by the first nodes of the first modulation signal. The method of claim 1,
The receiver,
A system for receiving only signals transmitted by the second nodes among the relay signals. delete The method of claim 1,
The plurality of relay nodes,
The system, wherein it is determined whether or not to belong to an influence zone of the first modulated signal based on at least one of a signal to noise ratio (SNR) and position information of each of the plurality of relay nodes. The method of claim 1,
The second nodes,
And transmitting the relay signal with an intensity corresponding to the intensity of the first modulated signal. The method of claim 1,
The transmitter,
Modulating the data into the second modulated signal by a modulation method including any one of binary phase shift keying (BPSK), 4-quadrature amplitude modulation (4-QAM), and 16-quadrature amplitude modulation (16-QAM), system. In the method of performing disturbance on the enemy side while communicating with the friendly side by using a signal used by the enemy side for communication,
The method is performed by a system comprising a plurality of relay nodes, a receiver and a transmitter,
Receiving a first modulated signal used for communication inside the enemy side;
Identifying modulation information regarding a manner in which the enemy side generates the first modulated signal;
Modulating data used for communication with the friendly side with a second modulated signal that causes communication-like jamming with the first modulated signal based on the modulated information, and transmitting the second modulated signal; And
Including the step of transmitting a relay signal for relaying the second modulated signal,
The plurality of relay nodes,
Depending on whether each of the plurality of relay nodes belongs to the sphere of influence of the first modulated signal,
When belonging to the influence zone, the plurality of relay nodes are divided into first nodes receiving the first modulated signal,
When not in the influence zone, the plurality of relay nodes are divided into second nodes that transmit the relay signal. In a computer-readable recording medium in which a program for implementing a method of performing a disturbance on the enemy side while communicating with a friendly side by using a signal used by an enemy side for communication,
The method is performed by a system comprising a plurality of relay nodes, a receiver and a transmitter,
Receiving a first modulated signal used for communication inside the enemy side;
Identifying modulation information regarding a manner in which the enemy side generates the first modulated signal;
Modulating data used for communication with the friendly side into a second modulated signal that causes communication-like jamming with the first modulated signal based on the modulated information, and transmitting the second modulated signal; And
Including the step of transmitting a relay signal for relaying the second modulated signal,
The plurality of relay nodes,
Depending on whether each of the plurality of relay nodes belongs to the sphere of influence of the first modulated signal,
When belonging to the influence zone, the plurality of relay nodes are divided into first nodes receiving the first modulated signal,
When not in the influence zone, the plurality of relay nodes are divided into second nodes that transmit the relay signal.

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