KR102309519B1 - Full-band communication apparatus and method for emitting jamming signals to interference target terminals - Google Patents

Abstract

An aspect of the present invention relates to a full-band communication apparatus for emitting jamming signals to an interference target terminal, which comprises: a reception unit for receiving a logical index assignment signal of a user terminal; a communication and jamming control unit for setting a first bandwidth corresponding to the logical index assignment signal of the user terminal to generate a first communication signal having the first bandwidth and generating a jamming signal based on a jamming signal bandwidth which is different from the first bandwidth; and a transmission unit for transmitting the first communication signal to a non-interference target including the user terminal and transmitting the jamming signal to the interference target terminal. Another aspect of the present invention relates to a full-band communication method for emitting jamming signals to an interference target terminal, which comprises the following steps of: allowing the user terminal to transmit a request for logical index assignment to a communication device; allowing the communication device to assign a logical index for the user terminal; allowing the communication device to set a first bandwidth corresponding to the logical index for the user terminal and generate a first communication signal having the first bandwidth; and allowing the communication device to set a jamming signal bandwidth which is different from the first bandwidth and generate a jamming signal having the jamming signal bandwidth. Accordingly, when an interference signal for disrupting communication of a counterpart is transmitted, a communication signal from the terminal which transmits the interference signal is not exposed.

Description

FULL-BAND COMMUNICATION APPARATUS AND METHOD FOR EMITTING JAMMING SIGNALS TO INTERFERENCE TARGET TERMINALS

The present invention relates to a full-band communication apparatus and method for radiating a jamming signal to an interference target terminal by a divided interference signal.

In the case of a military communication system among communication systems, a method for responding to communication interference of the other party is required. In general, a frequency band hopping method is mainly used in order to cope with the communication interference of the counterpart, and this method is a method of applying an interference signal by identifying a hopping pattern through continuous monitoring of the communication of the counterpart.

However, this frequency band hopping method has a problem in that when transmitting an interference signal to the other party, the corresponding frequency band cannot be used by the side transmitting the interference signal.

Accordingly, there is a need for a communication method in which only the communication of the other party is disabled without exposing the signal of the side transmitting the interference signal while operating the frequency band hopping system to cope with the communication interference of the other party.

SUMMARY OF THE INVENTION An object of the present invention is to provide a communication device and a method therefor that do not expose a communication signal of an interfering signal transmitting side when transmitting an interfering signal for interfering with communication of a counterpart.

However, the problems to be solved by the present invention are not limited to those mentioned above, and other problems to be solved that are not mentioned can be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description. will be.

According to an aspect of the present invention, a full-band communication device that radiates a jamming signal to an interference target terminal sets a receiver for receiving a logical index allocation signal of a user terminal, a first frequency band corresponding to the logical index allocation signal of the user terminal, and , a communication and jamming control unit for generating a first communication signal having a first frequency band and generating the jamming signal based on a jamming signal frequency band different from the first frequency band, a first to a non-interference target including a user terminal a transmitter for transmitting a communication signal and transmitting a jamming signal to an interference target terminal; may include.

The communication and jamming control unit sets the first frequency band based on the logical index generation unit that allocates the logical index to the user terminal corresponding to the logical index assignment signal, the logical index, and the first communication corresponding to the first frequency band. It may include a pseudo-noise sequence generator for generating a signal.

When the frequency band allocated to the user terminal is changed from the first frequency band to the second frequency band, the pseudo noise sequence generator may also change the jamming signal frequency band based on the second frequency band.

When the frequency band allocated to the user terminal is changed from the first frequency band to the second frequency band, the jamming signal frequency band may be different from the second frequency band.

According to another aspect of the present invention, a full-band communication method for radiating a jamming signal to an interference target terminal includes the steps of: requesting, by a user terminal, allocation of a logical index to a communication device; allocating a logical index to the user terminal in the communication device; Setting a first frequency band corresponding to a logical index for a user terminal in a communication device, and generating a first communication signal having a first frequency band, in the communication device, a jamming signal frequency band different from the first frequency band and generating a jamming signal having a jamming signal frequency band.

The communication device transmits a jamming signal to the interference target terminal, and the interference target terminal may be different from the user terminal.

When the frequency band allocated to the user terminal is changed from the first frequency band to the second frequency band, the jamming signal frequency band may also be changed based on the second frequency band.

When the frequency band allocated to the user terminal is changed from the first frequency band to the second frequency band, the jamming signal frequency band may be different from the second frequency band.

According to an embodiment of the present invention, it is possible to generate a signal that is indistinguishable from an interference signal for interfering with the other party's communication and thus not expose the signal to the other party, thereby maximizing the performance of the communication system.

According to an embodiment of the present invention, it is possible to solve the problem that the frequency band corresponding to the interference signal cannot be used when transmitting the interference signal.

1 is a schematic diagram of a full-band communication system emitting a jamming signal according to an embodiment of the present invention.
2 is a block diagram of a communication device according to an embodiment of the present invention.
3 is a flowchart illustrating a full-band communication method for radiating a jamming signal according to an embodiment of the present invention.

Advantages and features of the present invention, and a method for achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains. It is provided to fully inform the possessor of the scope of the invention, and the present invention is only defined by the scope of the claims.

In describing the embodiments of the present invention, if it is determined that a detailed description of a well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the terms to be described later are terms defined in consideration of functions in an embodiment of the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

1 is a schematic diagram of a full-band communication system emitting a jamming signal according to an embodiment of the present invention.

Referring to FIG. 1 , a communication system 1 may include a user terminal 10 , a communication device 20 , and an interference target terminal 30 .

The communication system 1 may be a system in which a communication infrastructure is established through the communication device 20 . In general, the communication system 1 may be a military communication system, or a system using a closed circuit network related to an in-house intranet, and is not limited thereto.

The user terminal 10 may transmit and receive a communication signal through a communication infrastructure in the communication system 1 . The user terminal 10 may transmit and receive a communication signal to and from the communication device 20 . The user terminal 10 may transmit and receive communication signals between the user terminals 10 in the communication system 1 .

The user terminal 10 may transmit a logical index allocation signal of each of the user terminals 10 to the communication device 20 . The logical index allocation signal may be a signal requesting allocation of a logical index allocated to the user terminal 10 .

The logical index allocated to the user terminal 10 may be information about a frequency band used by the user terminal 10 during communication. For example, the logical index may be start point information of a frequency band allocated to the user terminal 10 .

The plurality of user terminals 10 may request a logical index allocation signal from the communication device 20 . For example, referring to FIG. 1 , when there are three user terminals 10 , there may also be three logical index allocation signals requested by the user terminal 10 . A logical index may be allocated from the communication device 20 according to the logical index allocation signal. Also, based on the logical index, the communication device 20 may generate a first communication signal that can be transmitted/received to and from the user terminal 10 .

The user terminal 10 may receive the first communication signal generated by the communication device 20 based on the logical index allocation signal. For example, when the logical index allocation signal transmitted by the user terminal 10 is the start point information of the frequency band, the frequency band allocated to the user terminal 10 is a frequency band having a predetermined bandwidth at the start point of the frequency band. can be

The communication device 20 may generate a first communication signal that can be transmitted/received to and from the user terminal 10 . The first communication signal may be a signal generated by allocating a logical index to the user terminal 10 based on the logical index allocation signal of the user terminal 10 and generating the logical index based on the logical index. For example, looking at the case where the logical index is information on the start point of the frequency band allocated to the user terminal 10 , when the logical index is 700 MHz, the first communication signal is the frequency band allocated to the user terminal 10 at 700 MHz It may be a signal capable of communication at ~ 1200 MHz. Here, the bandwidth of the frequency band may be 500 MHz, but is not limited thereto.

When the logical index allocation signal transmitted by the user terminal 10 is changed, the communication device 20 changes and allocates the logical index allocated to the user terminal 10, and also changes and generates the first communication signal based on this. can do.

The communication device 20 may generate a jamming signal that can be transmitted to the interference target terminal 30 . The communication device 20 may generate a jamming signal based on the first communication signal transmitted to the user terminal 10 . For example, looking at the case where the logical index is the starting point information of the frequency band allocated to the user terminal 10, when the first communication signal is a signal capable of communication in the frequency band 700 MHz to 1200 MHz, corresponding to the jamming signal The frequency band may be a signal capable of communication in all bands except for the 700 MHz to 1200 MHz band. Through this, even if the communication device 20 transmits the jamming signal to the interference target terminal 30 , the user terminal 10 may not be unable to communicate due to the jamming signal, and the user terminal 10 may be irrespective of the jamming signal. Communication between each other is possible, and communication between the user terminal 10 and the communication device 20 may also be possible.

The communication device 20 may transmit a jamming signal to the interference target terminal 30 .

The interference target terminal 30 may cause communication interference with the user terminal 10 and the communication device 20 in the communication system 1 . For example, when the communication system 1 is a military system, the interference target terminal 30 may be a terminal that is not authorized to the military system. Alternatively, when the communication system 1 is a system related to a closed circuit network through an intranet or the like, the interference target terminal 30 may be a terminal that is not authorized to the closed circuit network.

Hereinafter, a detailed description will be given of the communication device 20 with reference to FIG. 2 .

2 is a block diagram of a communication device according to an embodiment of the present invention.

Referring to FIG. 2 , the communication device 20 may include a receiver 100 , a communication and jamming controller 200 , and a transmitter 300 . The communication and jamming controller 200 may include a logical index generator 210 and a pseudo noise sequence generator 220 .

The receiver 100 may receive a communication signal of the user terminal. The communication signal may include a logical index allocation signal of the user terminal. As described above, the logical index allocation signal may be a signal relating to a frequency band starting point allocated to the user terminal.

The receiver 100 may transmit the logical index allocation signal of the user terminal to the communication and jamming controller 200 .

The communication and jamming controller 200 may include a logical index generator 210 and a pseudo noise sequence generator 220 .

The communication and jamming control unit 200 may generate a first communication signal based on the logical index assignment signal received from the receiving unit 100 . The communication and jamming control unit 200 may generate a jamming signal based on the first communication signal.

More specifically, the logical index generator 210 included in the communication and jamming controller 200 may allocate a logical index to the user terminal based on the logical index allocation signal of the user terminal transmitted by the receiver 100 . Allocating the logical index may be allocating a frequency band used when the user terminal communicates. That is, when the logical index generator 210 receives the logical index allocation signal of the user terminal, the logical index generator 210 may allocate a frequency band in which the user terminal communicates. For example, when an arbitrary user terminal i (i=1,2,3??) transmits a logical index assignment signal to the communication device, the logical index generator 210 of the communication device generates the user terminal i (i=1 ??) ,2,3??) can be assigned a frequency band starting point of 700MHz. Through this, the user terminal i (i = 1, 2, 3 ??) can communicate in the 700 MHz to 1200 MHz band, which is the first frequency band.

The logical index generator 210 may allocate different logical indexes to each user terminal for a plurality of user terminals. Accordingly, when the logical index allocation signal of the user terminal is changed, the logical index generator 210 may allocate a new logical index to the user terminal.

The logical index may be referred to as a ULI (User Logical Index) for a plurality of user terminals i (i=1,2,3??), and includes all terms that may correspond to the logical index described above in the present invention. can do.

The logical index generator 210 may allocate a corresponding logical index j (j=1,2,3??) to each of the plurality of user terminals i (i=1,2,3??).

The logical index generator 210 may transmit the generated logical index to the pseudo noise sequence generator 220 .

The pseudo noise sequence generator 220 may be configured to generate a pseudo noise sequence for the purpose of generating a frequency according to a frequency band hopping method. The pseudo-noise sequence is a type of code previously agreed upon between the mobile terminal or the ground control station and the active repeater, and a frequency may be generated and output according to the code.

The pseudo noise sequence generator 220 may generate a frequency allocated to each user terminal based on a logical index allocated to each user terminal. The pseudo noise sequence generator 220 may generate a pseudo noise sequence (sequence) and determine a frequency value to be assigned to a user terminal based on the generated pseudo noise sequence (sequence). That is, the pseudo noise sequence generator 220 may determine and output a frequency band actually allocated to the user terminal based on the logical index allocated to the user terminal by the logical index generator 210 .

For example, when the logical index generator 210 allocates a logical index of 700 MHz to the user terminal i (i=1,2,3 ??), the pseudo noise sequence generator 220 generates the first frequency A first communication signal capable of communication in 700 MHz to 1200 MHz corresponding to the band may be generated.

The pseudo-noise sequence generator 220 is configured to generate a second number of user terminals i (i=1,2,3??) based on the corresponding logical index j (j=1,2,3??). One frequency band may be determined, and a first communication signal k (k=1.2.3 ??) may be generated based on the first frequency l (l=1,2,3??).

When the assigned logical index of the user terminal is changed, the pseudo noise sequence generator 220 also changes and sets the first frequency corresponding thereto, and when the first frequency is changed, the first communication signal may also be changed accordingly. For example, the pseudo-noise sequence generator 220 assigns the logical index to the user terminal i (i=1,2,3??) at 700 MHz and then changes to 1200 MHz and assigns it to the second frequency band. A second communication signal capable of communication in a corresponding 1200 MHz to 1700 MHz may be generated. The above-described first frequency band and second frequency band have been described as an example and are not limited thereto.

According to another embodiment of the present invention, when logical index information of some of the user terminals of the pseudo noise sequence generator 220 is changed, the frequency change may be set according to a weight assigned to each user terminal. . More specifically, the pseudo noise sequence generator 220 may store preset weight information for each user terminal. A weight for each user terminal may be the same or different for each user.

More specifically, when a logical index of a user terminal having a higher weight among weights for each user terminal is changed, the pseudo noise sequence generator 220 may change the frequency assigned to each of all user terminals. Alternatively, when the logical index of the user terminals having the first threshold weight or more is changed based on the preset threshold weight, the frequencies allocated to all user terminals may be changed. The weight and the first threshold weight of each user terminal may be preset values, and are not limited thereto.

The pseudo noise sequence generator 220 may transmit the generated first communication signal to the transmitter 300 . Alternatively, when the logical index of the user terminal is changed and allocated, the pseudo noise sequence generator 220 may transmit the generated second communication signal to the transmitter 300 .

The communication and jamming control unit 200 may generate a jamming signal based on the first communication signal. The jamming signal may be a signal transmitted to an interference target terminal different from the user terminal. More specifically, the jamming signal generated by the communication and jamming control unit 200 is based on the first communication signal k (k=1.2.3 ??) of the plurality of user terminals i (i=1,2,3??). can be generated, the jamming signal can be generated in all bands except for all frequency bands in which the first communication signal k (k=1.2.3 ??) of the plurality of user terminals i communicates.

For example, when user terminal 1 communicates with a first communication signal 1 that can communicate in 700 MHz to 1200 MHz, and user terminal 2 communicates with a first communication signal 2 that can communicate in 1200 MHz to 1700 MHz, the jamming signal The corresponding frequency band may be a signal capable of communication in all bands except 700 MHz to 1700 MHz. Accordingly, the jamming signal frequency band for the jamming signal generated by the communication and jamming controller 200 may not overlap the frequency band allocated to the plurality of user terminals i.

In addition, when the first frequency band allocated to the user terminal i (i=1,2,3 ??) is changed to the second frequency band, the communication and jamming control unit 200 determines a jamming signal frequency band based on this and , a jamming signal may be generated based on the jamming signal frequency band. The jamming signal frequency band may not overlap the second frequency band and may overlap the first frequency band.

According to another embodiment of the present invention, a first frequency band corresponding to a first communication signal k (k=1.2.3 ??) of a plurality of user terminals i (i=1,2,3 ??), respectively If 95% or more of the entire band is occupied, the jamming signal frequency band may be determined according to the user terminal weight.

For example, when a frequency band corresponding to each user terminal corresponds to all frequency bands, the jamming signal frequency related to the jamming signal generated by the communication and jamming controller 200 is the frequency of any user terminal among the plurality of user terminals. It is bound to overlap with the band. In this case, in the case of the user terminal overlapping the jamming signal frequency, the communication system cannot be utilized as the jamming signal is generated.

Accordingly, the communication and jamming control unit 200 may determine a jamming signal frequency in consideration of a user terminal having a high weight according to the weight of each user terminal. For example, when determining the jamming signal frequency, the communication and jamming controller 200 may determine a jamming signal frequency overlapping with the user terminal having a weight lower than the second threshold weight. Through this, the user terminal having a high weight may not become in a communication-disabled state by the jamming signal corresponding to the jamming signal frequency.

The user terminal weight may be a preset value, and the second threshold weight value may also be a preset value. A user terminal having a high weight may be a terminal that must be essentially configured in a communication system among user terminals, and a weight for the user terminal may be preset or changed.

The communication and jamming control unit 200 may transmit the generated first communication signal, the second communication signal, and the jamming signal to the transmitting unit 300 .

The transmitter 300 may transmit the first communication signal and the second communication signal to the user terminal. Alternatively, the transmitter 300 may transmit a jamming signal to the interference target terminal.

Hereinafter, a communication method through the full-band electronic attack type interference signal having the same technical content as the above-described device will be described.

3 is a flowchart illustrating a full-band communication method for radiating a jamming signal according to an embodiment of the present invention.

Referring to FIG. 3 , the communication method through the full-band electronic attack type interference signal includes the steps of a user terminal requesting a logical index assignment to a communication device (S101), allocating a logical index to the user terminal in the communication device (S102), Setting a frequency corresponding to the logical index in the user terminal in the communication device, generating a first communication signal corresponding to the set frequency (S103) and setting a jamming signal frequency different from the first frequency set in the communication device, It may include generating a jamming signal corresponding to the jamming signal frequency (S104).

In the step S101 of the user terminal requesting the logical index allocation from the communication device, the plurality of user terminals may transmit a logical index allocation signal to the communication device.

In the step of allocating a logical index to the user terminal in the communication device ( S102 ), the communication device may allocate a different logical index to each of the plurality of user terminals. The logical index may be start point information of a frequency band used for communication by the user terminal.

In the communication device setting a frequency corresponding to the logical index in the user terminal, and generating a first communication signal corresponding to the set frequency (S103), the communication device based on the logical index allocated differently to the plurality of user terminals to set a first frequency corresponding to each of the plurality of user terminals, and generate a first communication signal according to the set first frequency band.

In the step of setting a jamming signal frequency different from the first frequency set in the communication device and generating a jamming signal corresponding to the jamming signal frequency (S104), the communication device sets a jamming signal different from the first frequency set in each of the plurality of user terminals A frequency may be set, and a jamming signal may be generated based on the set jamming signal frequency. The communication device may transmit the generated jamming signal to the interference target terminal to interfere with the interference target communication system.

Detailed description of each step included in the communication method through the full-band electronic attack type interference signal will be omitted since it overlaps with the description described above in FIGS. 1 and 2 .

The above description is merely illustrative of the technical idea of the present invention, and various modifications and variations will be possible without departing from the essential quality of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

1: Communication system
10: user terminal
20: communication device
30: interference target terminal
100: receiver
200: communication and jamming control unit
210: logical index generator
220: pseudo noise sequence generator
300: transmitter

Claims (8)

In the full-band communication device for radiating a jamming signal to the interference target terminal,
a receiving unit for receiving, from a plurality of user terminals, frequency band information used by the user terminals during communication as a logical index allocation signal;
A first frequency band corresponding to the frequency band information used by the first user terminal for communication among the plurality of user terminals and a second frequency band corresponding to the frequency band information used by the second user terminal for communication are respectively set, A first communication signal having the first frequency band and a second communication signal having the second frequency band are generated, and the first jamming signal and the second frequency are generated based on a jamming signal frequency band different from the first frequency band. A second jamming signal is generated based on a jamming signal frequency band different from a band, and when at least a portion of the first frequency band and the second frequency band overlap, a weight according to a predetermined importance for each of the plurality of user terminals is applied. and comparing the weights of each of the first user terminal and the second user terminal with a predetermined threshold weight, determining a first user terminal less than the predetermined threshold weight as a non-interference target, and having a weight equal to or greater than the predetermined threshold weight a communication and jamming control unit for determining a second user terminal as the interference target terminal; and
a transmitter for transmitting the first communication signal to the first user terminal that is a non-interference target among the plurality of user terminals and transmitting the jamming signal to the second user terminal determined as the interference target terminal; containing
communication device.
According to claim 1, wherein the communication and jamming control unit
a logical index generator for allocating logical indexes to the first and second user terminals corresponding to the first frequency band and the second frequency band information;
setting the first frequency band and the second frequency band based on the logical index, and generating the first communication signal and the second communication signal corresponding to each of the first frequency band and the second frequency band including a pseudo noise sequence generator;
communication device.
3. The method of claim 2, wherein the pseudo-noise sequence generator
When the frequency band allocated to the first user terminal is changed from the first frequency band to the third frequency band, the jamming signal frequency band is also changed based on the third frequency band
communication device.
The method of claim 3, wherein when a frequency band allocated to the first user terminal is changed from the first frequency band to a third frequency band,
The jamming signal frequency band is different from the third frequency band
communication device.
In the full-band communication method for radiating a jamming signal to the interference target terminal,
requesting, by a plurality of user terminals, a logical index allocation to a communication device by transmitting frequency band information used by the user terminals during communication;
allocating logical indexes to frequency band information used by the first user terminal and the second user terminal during communication in the communication device, respectively;
In the communication device, a first frequency band corresponding to a logical index for the first user terminal and a second frequency band corresponding to a logical index for the second user terminal are respectively set, and a second frequency band having the first frequency band is set, respectively. generating a second communication signal having a first communication signal and the second frequency band;
In the communication device, a first jamming signal frequency band different from the first frequency band and a second jamming signal frequency band different from the second frequency band are set, and the first jamming signal having the first jamming signal frequency band and the generating a second jamming signal having a second jamming signal frequency band; and
When at least a portion of the first frequency band and the second frequency band overlap, a weight is given to each of the plurality of user terminals according to a preset importance, and the weights of the first user terminal and the second user terminal are predetermined. Comparing with a threshold weight of , determining a second user terminal equal to or greater than the predetermined threshold weight as the interference target terminal;
communication method.
6. The method of claim 5,
The communication device transmits the jamming signal to the interference target terminal,
The interference target terminal is different from the user terminal
communication method.
6. The method of claim 5,
When the frequency band allocated to the user terminal is changed from the first frequency band to the third frequency band, the jamming signal frequency band is also changed based on the third frequency band
communication method.
The method of claim 7, wherein when a frequency band allocated to the user terminal is changed from the first frequency band to a third frequency band,
The jamming signal frequency band is different from the third frequency band
communication method.

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