KR20160097172A - Jamming system - Google Patents

Abstract

A jamming system is disclosed. The jamming system comprises a source disturbing device, and a plurality of relay jamming devices. The source disturbing device fundamentally generates and transmits a jamming signal. The relay jamming device receives the jamming signal from the source disturbing device or other jamming devices to radiate the jamming signal, and transfers the jamming signal to other jamming devices.

Description

Jamming system using repeating method [

The present invention relates to a technique for disturbing a radio wave in an area where radio disturbance is required.

Due to the development of wireless mobile communication technology, space for public places and security that require quietness has been increased due to indiscreet voice calls and data use through mobile communication terminals such as smart phones and radios including mobile phones. And a jamming technique is known as such a solution. 1 is a diagram showing a conventional radio wave disturbance system. As shown in FIG. 1, the radio wave disturbance system is a system in which a radio wave disturbance device 10 is placed in a radio disturbance area to disturb a radio wave. However, when the disturbance is caused by one disturbance source, when the output is increased, the disturbance occurs in addition to the area where the disturbance is required as shown in FIG. 1, and the shaded area may occur depending on the complex area or the terrain structure. Also, if there is a site that should not be a radio disturbance within the radio disturbance area, this site also belongs to the radio disturbance area.

Korean Patent Registration No. 10-1154052 (issued on June 08, 2012)

A radio disturbance system that enables precise propagation disturbance only in a radio disturbance region is disclosed.

The propagation disturbance system according to one aspect includes a source disturbance device and a plurality of relay disturbance devices. The source disturbance device originates and emits the radio disturbance signal. The relay disturbance device receives the radio disturbance signal from the source disturbance device and the other disturbance device and emits it to the other disturbance device.

According to one aspect, a relay disturbance device is cascaded with a source disturbance device and another relay disturbance device.

According to an aspect, at least one of the plurality of relay disturbance apparatuses emits a radio disturbance signal in accordance with predetermined radiation control information.

According to one aspect, the radiation control information comprises at least one of a radiation intensity and a radiation direction.

Meanwhile, a relay disturbance apparatus according to an aspect includes an input unit and a radiation / relay processing unit. The input section receives the radio disturbance signal from the source disturbance device or the other disturbance device. The radiation / relay processing section includes a radiation processing section for radiating the inputted radio wave disturbance signal through an antenna, and a relay processing section for transmitting the signal to another relay disturbing device.

According to one aspect, the radiation processing section includes an input detecting section for detecting the strength of the radio disturbance signal, an RF output setting section for adjusting the strength of the radio disturbance signal, and an RF output setting section for adjusting the intensity of the radio disturbance signal, . The relay disturbing apparatus further includes a control unit for setting an output intensity adjustment value of the output setting unit according to the intensity detected by the input detecting unit.

According to an aspect of the present invention, the relay processing unit includes an RF sampling unit that couples a predetermined amount of the signal in the propagation disturbance signal amplified by the RF amplification unit, and then transmits the signal to another relay disturbing apparatus.

According to one aspect, the radiation processing unit includes an RF amplifying unit for amplifying an inputted radio wave disturbing signal, and the relay processing unit couples a predetermined amount of the signal in the radio wave disturbing signal amplified by the RF amplifying unit, And an RF sampling unit.

According to one aspect, the relay disturbing apparatus further includes a frequency band distributing unit for separating the radio wave disturbing signal input to the input terminal into frequency bands, and the radiating processing unit is configured in a plurality of units for processing the band separated signals, and the RF sampling unit The radio disturbance signals output from the plurality of radiation processing units are combined into a single signal and transmitted to another relay disturbing apparatus.

According to one aspect, the control unit controls at least one of the radiation intensity and the radiation direction of the radio wave disturbance signal in accordance with the predetermined radiation control information.

The disclosed propagation disturbance system and relay disturbance system create the effect of enabling propagation disturbance only in the propagation disturbance region.

1 is a diagram showing a conventional radio wave disturbance system.
2 is a block diagram of a radio disturbance system using a relay scheme according to an embodiment of the present invention.
3 is a block diagram illustrating a radio disturbance system using a relay scheme according to another embodiment of the present invention.
4 is a diagram showing a range of propagation disturbance using a relay scheme.
5 is a block diagram illustrating a relay disturbance apparatus according to an embodiment of the present invention.
6 is a block diagram illustrating a sub-configuration of a radiating / relaying processing unit according to an embodiment of the present invention.
7 is a block diagram illustrating a sub-configuration of a radiating / relay processing unit according to another embodiment of the present invention.
8 is a block diagram illustrating a relay disturbance apparatus according to another embodiment of the present invention.
9 is a diagram illustrating an RF sampling unit according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The foregoing and further aspects of the present invention will become more apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a block diagram showing a radio disturbance system using a relay system according to an embodiment of the present invention, FIG. 3 is a block diagram showing a radio disturbance system using a relay system according to another embodiment of the present invention, and FIG. Is a diagram showing a range of propagation disturbance using a relay scheme. As shown in FIG. 2, the radio disturbance system includes one source disturbance device 10 and a plurality of relay disturbance devices 20. The devices 10 and 20 can be wired, and can be connected by a cascade. In addition to the cascade method, a tree structure can be connected. The source disturbance device 10 is a device for originating a radio disturbance signal. The source disturbance device 10 can generate a radio disturbance signal using a tone-sweep jamming principle or a white noise additive sweep jamming jamming principle. However, this is merely an example, and there is no limitation in the manner of generating the radio disturbance signal. The relay disturbance apparatus 20 receives a disturbance signal from the source disturbance apparatus 10 or another relay disturbance apparatus 20 and amplifies and emits the inputted disturbance signal. And also to the other disturbance device 20.

On the other hand, when there is only one radio disturbance signal outputted from the source disturbance apparatus 10, the relay disturbance apparatus 20 receives the signal directly. However, when the signal is outputted from two or more terminals, A separate external frequency coupling unit 30 can be added which can be combined with a signal. The propagation disturbance signal combined into one signal line by the external frequency coupler 30 is input to the input terminal 30 of the relay disturbance device 20.

Thus, the radio disturbance system radiates the radio disturbance signal to the radio disturbance area using the relay system. Therefore, as shown in FIG. 4, even if the radio disturbance area is wide, the radio disturbance can be covered only in the radio disturbance area . Also, even if there is a shadow area in the radio disturbance area, propagation disturbance is achieved through the relay disturbance device 20 located in the shaded area as illustrated in FIG.

5 is a block diagram illustrating a relay disturbance apparatus according to an embodiment of the present invention. As illustrated in FIG. 5, the relay disturbance apparatus 20 includes an input unit 100 and a radiation / relay processing unit 200. The input unit 100 may be an input terminal cascaded with the source disturbance apparatus 10 or the other disturbance apparatus 20. The input unit 100 receives the radio wave disturbance signal from the source disturbance apparatus 10 or the other disturbance apparatus 20. The radiation / relay processing unit 200 radiates the radio wave disturbance signal inputted through the input unit 100 to the outside through the antenna, and transmits it to the other disturbance apparatus 20 connected to the output terminal by cascade. The radiating antenna may be an omnidirectional antenna or a directional antenna. When the radiating antenna is an omnidirectional antenna, the radio disturbing signal is radiated in all directions. If the radiating antenna is an omnidirectional antenna, the radio disturbance signal is radiated only in a specific direction.

Meanwhile, the relay disturbance apparatus 20 may further include a control unit 300. The control unit 300 may be a micro-control unit that controls the relay disturbance apparatus 20 as a whole. The controller 300 can control the radio disturbance signal to be radiated according to the preset radiation control information. The radiation control information may be stored in an internal memory or an external memory of the control unit 300 as data set for at least one of a radiation direction and a radiation intensity. In one embodiment, the radiation control information is information input directly to the relay disturbance device 20 from the manager. That is, the administrator can directly access the place where the relay disturbance device 20 is installed, and access the information through the communication interface of the relay disturbance device to input the radiation control information. In another embodiment, the radiation information may be received from the source disturbance device 10 or from a separate management server. In this case, the control unit 300 receives or receives the radiation control information from the source disturbance apparatus 10 or a separate management server, and writes the received radiation control information into the memory as a room use setting value. Although not shown, the relay disturbance apparatus 20 may further include a communication unit for wired or wireless communication with the source disturbance apparatus 10 or a separate management server.

When the radio disturbance signal is input, the control unit 300 controls the radiation / relay processing unit 200 to radiate the radio disturbance signal according to preset broadcasting control information. If the radiation information is a radiation intensity, the control unit 300 adjusts the radiation intensity of the radio disturbance signal by controlling the amplification gain so that the radiation intensity of the radio disturbance signal is equal to a predetermined radiation intensity. If the radiation information is in the radiation direction, the control unit 300 controls the radiation direction of the radio disturbance signal by controlling the radiation directional gain so that the radiation direction of the radio disturbance signal is a predetermined radiation direction. When the radiation information is both the radiation intensity and the radiation direction, the control unit 300 controls the amplification gain and the directional gain so that the radiation intensity and the radiation direction of the radio disturbance signal become the predetermined radiation intensity and radiation direction, And the radiation direction is adjusted. According to this, not only propagation disturbance can be precisely performed over the entire range of the radio wave disturbance area using the relay system, but also when the disturbance excluded site that should not be disturbed in the radio wave disturbance area exists, It is possible to prevent occurrence of radio wave disturbance at the disturbance excluded site.

6 is a block diagram illustrating a sub-configuration of a radiating / relaying processing unit according to an embodiment of the present invention. 6, the radiation / relay processing unit 200 includes an RF amplification unit 211 and an RF sampling unit 221. The RF / The RF amplification unit 211 can be regarded as a configuration of a radiation processing unit and the RF sampling unit 221 can be regarded as a configuration of a relay processing unit. The RF amplifier 211 amplifies the radio disturbance signal input through the input terminal. At this time, the RF amplifier 211 amplifies the radio disturbance signal according to the amplification gain control of the controller 300. The RF sampling unit 221 extracts a part of the propagation disturbance signal amplified by the RF amplification unit 211. For this, the RF sampling unit 221 may use a coupler. The RF sampling unit 221 couples and extracts a predetermined amount of signal from the RF disturbance signal amplified by the RF amplification unit 211 and transmits it to an input terminal of another cascade-connected disturbance apparatus. The extraction of a certain amount of signal by the RF sampling unit 221 minimizes the output loss of the disturbance radio wave to be radiated to the antenna. Meanwhile, the antenna unit 400 radiates the amplified radio disturbance signal. In one embodiment, the antenna unit 400 emits a radio disturbing signal in a specific direction in accordance with the radiation directivity gain control of the controller 300. [

7 is a block diagram illustrating a sub-configuration of a radiating / relay processing unit according to another embodiment of the present invention. As shown in FIG. 7, the radiation / relay processing unit 200 includes a radiation processing unit 210 and a relay processing unit 220. The emission processing unit 210 includes an input detection unit 212, an RF output setting unit 213 and an RF amplification unit 211. The relay processing unit 220 includes an RF sampling unit 221. [ The input detecting unit 212 detects the intensity of the radio wave disturbance signal inputted through the input terminal and transmits the detected intensity to the controller 300. The control unit 300 sets the output value of the RF output setting unit 213 according to the intensity of the signal detected by the input detecting unit 212. The RF output setting unit 213 adjusts the intensity level of the radio wave disturbance signal according to the output value set by the control unit 300. This is to prevent the problem of causing a failure of the relay disturbance device 20 by lowering the input radio disturbance signal to an appropriate level suitable for the input of the RF amplification part 211. The RF amplification unit 211 receives the radio wave disturbance signal from the RF output setting unit 213 and amplifies the received signal.

The RF sampling unit 221 extracts a part of the propagation disturbance signal amplified by the RF amplification unit 211. For this, the RF sampling unit 221 may use a coupler. The RF sampling unit 221 couples and extracts a predetermined amount of signal from the RF disturbance signal amplified by the RF amplification unit 211 and transmits it to an input terminal of another cascade-connected disturbance apparatus. The RF sampling unit 221 is the same as that described with reference to FIG. 6 may be applied to the antenna unit 400 and the control unit 300 as they are.

8 is a block diagram illustrating a relay disturbance apparatus according to another embodiment of the present invention. The relay disturbance apparatus shown in Fig. 8 is basically the same as the above-described relay disturbance apparatus. The relay disturbance apparatus 20 shown in FIG. 8 further includes a frequency band division unit 500. The relay disturbance apparatus 20 shown in FIG. 8 includes a frequency band division unit 500, The configuration is different. The frequency band distributor 500 distributes the radio wave disturbance signals, which are combined into one band, to each of the predetermined bands when they are input through the input terminal. In FIG. 2, the frequency bands are divided into two frequency bands. However, the frequency bands are illustrative and may be three or more. Each of the radiation processing units 210 receives and processes any one of the distributed disturbance signals. As shown in the figure, each of the radiation processing units 210 may include an RF amplification unit 211, and may further include an input detection unit 212 and an RF output setting unit 213. The roles and operations of these configurations are as described above. The radio disturbance signals amplified by the RF amplifying units 211 are radiated to the outside through the antenna unit 400. Here, the antenna unit 400 includes a plurality of antennas for radiating different radio disturbance signals having different frequency bands.

Meanwhile, the relay processing unit 220 includes an RF sampling unit 221. The RF sampling unit 221 couples a predetermined amount of signals from the final output signal of the radiation processing units 210 and combines the signals into a single signal through an internal multiplexer and then transmits the single signal to the other disturbance apparatus connected to the cascade . Extracting a certain amount of signals using the coupler in the RF sampling unit 221 minimizes the output loss of the disturbance radio wave to be radiated to the antenna and also reduces the input intensity to the other disturbance apparatus connected by cascade. The control unit 300 is as described above. However, since there are a plurality of the radiation processing units 210, the control unit 300 controls the plurality of radiation processing units 210, respectively.

The present invention has been described with reference to the preferred embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

10: source disturbance device 20: relay disturbance device
100: input unit 200: radiation /
210: radiation processing unit 211: RF amplification unit
212: input detection unit 213: RF output setting unit
220: Relay processing unit 221: RF sampling unit
300: control unit 400: antenna unit

Claims (2)

A source disturbance device originating and radiating a radio disturbance signal; And
A plurality of relay disturbing apparatuses including a radiation disturbance apparatus including a radiation disturbance apparatus or a radiation disturbance apparatus which receives and receives a radio disturbance signal from a source disturbance apparatus or another relay disturbance apparatus and transmits the inputted radio disturbance signal to another other disturbance apparatus,
A source disturbance device and a plurality of relay disturbance devices are connected by a cascade and use a relay method for transmitting a radio disturbance signal,
The radiation / relay processing unit
An RF sampling unit for coupling a predetermined amount of the signal in the propagation disturbance signal amplified by the RF amplifying unit and then transmitting the signal to the input unit of the other disturbance unit to form a cascade connection.
An input part for receiving a radio wave disturbance signal from a source disturbance device or another disturbance device connected by cascade; And
A radio frequency (RF) amplifier for amplifying the inputted radio wave disturbance signal and radiating the amplified radio wave disturbance signal through an antenna; and a controller for coupling a predetermined amount of the radio wave disturbance signal amplified by the RF amplifying part, A radiating / relaying processing part including a relaying part including an RF sampling part for transmitting a cascade connection to an input part of the apparatus;
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