KR20150100200A - Apparatus for detecting multi-target of unmanned security monitoring system - Google Patents

Abstract

The present invention relates to a targets detecting apparatus of an unmanned security monitoring system and, more particularly, to a targets detecting apparatus of an unmanned security monitoring system, capable of remotely extracting intruder information by detecting a plurality of targets which intrude in divided detection regions using a radar signal and monitoring an image through a camera. The targets detecting apparatus of the unmanned security monitoring system according to the embodiment of the present invention includes a camera sensor unit which includes a lens and an image sensor, a radar sensor unit which includes a transmitter and a receiver, a signal processing unit which includes a radar signal processing unit and an image signal processing unit, and a communication unit which transits the intruder information to a security control center.

Description

[0001] The present invention relates to a multi-target detection apparatus for an unmanned security monitoring system,

The present invention relates to a multiple target detection apparatus for an unmanned security monitoring system. More specifically, a non-buried detection device is installed in a security area to detect a plurality of targets (a plurality of intruders) on a subdivided detection area through a single detection device, thereby detecting not only video surveillance through a camera but also radar signals Detecting a plurality of targets (a plurality of intruders) intruding into divided detection areas by intervals, and detecting unauthorized security surveillance information such as the presence of an intruder, the intruder information such as the total number, location and speed of intruders infiltrating per unit time remotely And more particularly to a multi-target detection system of a system.

In general, the unmanned security monitoring system collects target data that infiltrates into various security areas such as major industrial facilities, military bases, residential areas, etc. in order to maintain security in real time and concentrates them in the security control center, Is a system for preventing and maintaining safety in advance.

Such an unmanned security monitoring system uses various sensors to detect an intruder in a security area. For example, an infrared ray system, a heating cable system, an image system, and the like are used, and the most widely used system is an infrared ray system.

However, there is a problem in that the infrared system is highly scattered by moisture, is sensitive to an external environment such as a light source, has a short detection range and is difficult to detect a plurality of targets. In addition, It is impossible to detect a plurality of targets. In addition, although the image system can detect a plurality of targets, it is susceptible to a light source, causing a malfunction in sunset or sunrise, deteriorating night detection performance, and blocking images due to fog or rain.

Korean Patent Publication No. 10-2005-0090111

In order to solve such a problem, the present invention is not limited to video surveillance through a camera by detecting a plurality of targets (a plurality of intruders) on a subdivided detection area by installing a non-embedded detection device in a security area, Detecting a plurality of targets (a plurality of intruders) entering the detection area divided by intervals using the radar signal, it is possible to remotely extract intruder information such as presence of an intruder, total number of intruders infiltrating per unit time, The present invention provides a multi-target detection apparatus for an unmanned security monitoring system.

Another object of the present invention is to provide a multiple target detection apparatus capable of acquiring information on an intruder more accurately by extracting information on an intruder through an image because it simultaneously uses video surveillance through a camera as well as a radar signal have.

It is another object of the present invention to provide a multiple target detection apparatus which detects a plurality of targets using a radar signal and is not affected by the environment such as a light source, an eye, a rain, and a fog.

According to the present invention, a camera sensor unit including a lens and an image sensor for video surveillance in a detection area; A transmitter for receiving the radar signal generated by the signal processing unit and modulating the radar signal to transmit the radar signal modulated to the detection area; A radar sensor unit including a receiver for receiving a radar signal; A radar signal processor for generating a radar signal and transmitting the radar signal to the transmitter, receiving a radar signal received by the receiver, and analyzing information about a plurality of targets in the detection area, A signal processing unit including an image signal processing unit for analyzing image information related to a plurality of targets; And a communication unit for transmitting information on a plurality of targets in the detection area analyzed by the signal processing unit and intruder information in the detection area including the image information to the security control center, wherein the detection area is divided into a section detection area , Intruder information on a plurality of targets infiltrating into the divided section detection area is extracted using the camera sensor unit, the radar sensor unit, and the signal processing unit. do.

The radar sensor unit may further include a local oscillator for generating a local oscillation signal, wherein the local oscillator includes an oscillator for generating a local oscillation signal; A frequency phase controller for controlling a local oscillation signal of the oscillator; And a distributor for distributing the local oscillation signal oscillated from the oscillator to the transmitter and the receiver.

The transmitter includes a frequency modulator for modulating a radar signal generated by the signal processor and a local oscillation signal distributed by the divider to generate a frequency modulated signal; A frequency filter for removing the noise signal from the frequency modulated signal generated by the frequency modulator; And a power amplifier for amplifying the frequency-filtered signal by the frequency filter and outputting the amplified signal to a transmission antenna.

The receiver includes a low noise amplifier for receiving a radar signal reflected from a plurality of targets in the detection area through a receiving antenna to lower the noise figure of the radar signal and amplify the radar signal; A frequency demodulator for mixing a radar signal amplified by the low noise amplifier with a local oscillation signal distributed by a divider of the local oscillator to generate a frequency demodulated signal; And a frequency filter for filtering the noise signal from the frequency demodulated signal generated by the frequency demodulator.

The radar signal processing unit of the signal processing unit may include a radar signal generator for generating a radar signal for detecting a target for each section detection area in the detection area; A transmission connection unit for transmitting the radar signal generated by the radar signal generator to the transmitter, a reception connection unit for transmitting the signal filtered by the frequency filter of the receiver to the analog-digital converter, An analog-to-digital converter for converting an analog type filtered signal transmitted by the receiving connection unit into a digital signal; A low-pass filter for removing noise of the digital signal converted by the analog-to-digital converter; A plurality of band-pass filters for filtering a digital signal from which noises have been removed through the low-pass filter at a frequency for each section detection area; A plurality of fast Fourier transformers for performing frequency conversion for each frequency for extracting intruder information from a digital signal filtered at a frequency for each section detection area through the band pass filter; An intruder information extractor for calculating a frequency-converted signal by the fast Fourier transformer to extract intruder information from a plurality of targets in an detection area; And a microprocessor for controlling operations of the signal processor including the radar signal generator and the intruder information extractor.

The video signal processing unit of the signal processing unit may include a video connection unit receiving the video information detected by the camera sensor unit; And an image information exporter for displaying the image information received from the image connection unit as image information related to a plurality of targets by interlocking with the microprocessor.

The present invention detects a plurality of targets (a plurality of intruders) that enter a detection area divided for each section using a radar signal and extracts intruder information such as presence of an intruder, total number of intruders infiltrating per unit time, It is possible to operate a more precise security system.

Further, according to the present invention, since a plurality of targets are detected by using a radar signal, it is not affected by the environment such as the light source, the snow, the rain, the fog, and the like.

Further, the present invention uses a radar system in which a transmitter and a receiver are integrally formed, a radar signal is transmitted through a transmitter in a plurality of targets within a detection region, and a radar signal reflected from a plurality of targets is received through a receiver, It is possible to more effectively extract intruder information such as location and speed.

In addition, since the present invention utilizes not only a radar signal but also video surveillance through a camera, information on an intruder is extracted through an image, thereby obtaining more accurate information on an intruder.

1 is a configuration diagram illustrating an unmanned security monitoring system including a plurality of target detection apparatuses according to an embodiment of the present invention.
FIG. 2 is a configuration diagram showing the multiple target detecting device of FIG. 1 in detail.
FIG. 3 is a detailed view of the radar sensor unit of FIG. 2. FIG.
4 is a block diagram showing the signal processor of FIG. 2 in detail.
5 is a conceptual diagram showing a state in which a multiple target detection device according to an embodiment of the present invention is used.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to constituent elements of each drawing, it should be noted that the same constituent elements are denoted by the same reference numerals even though they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a configuration diagram illustrating an unmanned security monitoring system including a plurality of target detection apparatuses according to an embodiment of the present invention. FIG. 2 is a detailed diagram of the multiple target detection apparatus of FIG. 1, FIG. 4 is a configuration diagram showing the signal processing unit of FIG. 2 in detail, and FIG. 5 is a conceptual diagram showing a state in which the multiple target detecting apparatus according to the embodiment of the present invention is used.

Referring to FIG. 1, the wireless security monitoring system 1000 may include a plurality of target detection devices 10, a security control center 500, and a detection area 600. The multi-target detection apparatus 10 detects a plurality of targets (intruders) 610 that enter the detection region and detects intruder information including the number of intruders, position and speed from the detected plurality of targets 610, After the information is extracted, the intruder information and the video information are transmitted to the security control center 500, so that security and safety on the detection area can be maintained. Accordingly, the intruder information and the image information for a plurality of targets infiltrating into the divided section detection area are divided into a camera sensor unit 100, a radar sensor unit 200, and a signal processing unit 300, and transmits it to the communication unit 400 and finally to the security control center 500.

The multiple target detecting apparatus 10 according to the present invention is installed on the supporter 700 so as to face the center of the detecting region 600 and the transmitting and receiving antennas 240 and 250 are disposed so as to face the detecting region 600 (See Figs. 1 and 5).

The multi-target detection device 10 includes a camera sensor unit 100, a radar sensor unit 200, a signal processing unit 300, and a communication unit 400.

Referring to FIG. 2, the camera sensor unit 100 includes a lens 110 and an image sensor 120. Accordingly, an image of intruders is captured through the lens 110, and information on an image photographed through the image sensor 120 is stored.

The radar sensor unit 200 modulates the radar signal of the signal processing unit 300 and transmits the radar signal to the intruders (a plurality of targets) 610 on the detection area 600 through a transmission antenna (Tx antenna) (Rx antenna) 250, demodulates the received signal, and transmits the demodulated signal to the signal processing unit 300. The signal processing unit 300 demodulates the received signal. The radar sensor unit 200 includes a local oscillator 210, a transmitter 220, and a receiver 230.

Referring to FIG. 3, the local oscillator 210 generates a local oscillation signal. The local oscillation signal generated through the local oscillator 210 is converted to a lower frequency and amplified to a stable frequency. 3, the local oscillator 210 includes an oscillator 211, a frequency phase controller 212, and a distributor 213. The oscillator 211 oscillates a radio wave of a specific frequency. The frequency phase controller 212 controls a local oscillation signal of the oscillator 211 and the distributor 213 transmits a local oscillation signal oscillated from the oscillator 211 to a transmitter 220 and a receiver 230).

The transmitter 220 receives the radar signal generated by the signal processor 300, modulates the radar signal, and transmits the modulated radar signal to the detection area. 3, the transmitter 220 includes a frequency modulator 221, a frequency filter 222, and a power amplifier 223. The frequency modulator 221 modulates the radar signal generated by the signal processing unit 300 and the local oscillation signal distributed by the distributor 213 to generate a frequency modulated signal. The frequency filter 222 removes a noise signal from the frequency modulated signal generated by the frequency modulator 221. The power amplifier 223 amplifies the frequency-filtered signal by the frequency filter 222 and transmits the amplified signal to the transmission antenna 240. Accordingly, the radar signal generated by the local oscillator 210 is transmitted to the detection area 600 through the transmitter 220 and the transmission antenna 240.

The receiver 230 serves to reflect the radar signal transmitted by the transmitter 220 from a plurality of targets in the detection area and receive the reflected radar signal. 3, the receiver 230 includes a Low Noise Amplifier (LNA) 231, a frequency demodulator 232, and a frequency filter 233. In the receiver 230, The low noise amplifier 231 receives the radar signals reflected from a plurality of targets in the detection area through the receiving antenna 250 to lower the noise figure of the radar signal and amplify the radar signal. Receives the propagated signals reflected from the plurality of targets (610) in the region (600) and transmits the received signals to the low noise amplifier (231).

The frequency demodulator 232 mixes the radar signal amplified by the low noise amplifier 231 with the local oscillation signal distributed by the distributor 213 of the local oscillator 210 to generate a frequency demodulated signal do. The frequency filter 233 filters the noise signal from the frequency demodulated signal generated by the frequency demodulator 232. Therefore, the frequency demodulated signal filtered through the frequency filter 233 is transmitted to the reception connection unit 323 of the signal processing unit 300, and is transmitted to the signal processing unit 300 through the plurality of targets 610 in the detection region 600 Allow information to be analyzed.

The signal processing unit 300 generates a radar signal and transmits the radar signal to the transmitter 220. The signal processing unit 300 receives the radar signal received by the receiver 230 and transmits the radar signal to the plurality of targets 610 in the detection area 600, And analyzes image information about the plurality of detected targets 610.

The signal processing unit 300 includes a video signal processing unit 310 and a radar signal processing unit 320. 4, the radar signal processing unit 320 includes a radar signal generator 321, a transmission connection unit 322, a reception connection unit 323, an analog to digital converter A low pass filter (LPF) 325, a band pass filter (BPF) 326, a fast Fourier transformer (FFT) 327, An intruder information extractor 328, and a microprocessor 329.

The radar signal generator 321 generates a radar signal for detecting a target for each section detection area in the detection area 600. Here, the radar signal can be regarded as an optical signal including a continuous wave signal CW, a frequency synthesized signal FMCW, a phase code signal PCMCW, and a pulse signal Pulse. The transmission connection unit 322 transmits the radar signal generated by the radar signal generator 321 to the transmitter 220. Therefore, the radar signal transmitted to the transmitter 220 is transmitted to the frequency modulator 221 of the transmitter 220.

The receiving connection unit 323 transmits the signal filtered by the frequency filter 233 of the receiver 230 to an analog-to-digital converter (ADC) 324. The analog-to-digital converter (ADC) 324 converts the filtered analog signal received by the receiving connector 323 into a digital signal. Accordingly, the analog-to-digital converter (ADC) 324 converts an analog signal (a filtered signal), which is a function of the continuous variation amount, into a digital signal, which is a series of discrete numeric matrices corresponding thereto.

The low-pass filter 325 removes noise of the digital signal converted by the analog-to-digital converter 324. A plurality of the band-pass filters 326 are formed, and the low-pass filter 325 filters the digital signals from which noises have been removed by frequencies of the interval detection regions. Therefore, they are filtered according to the distance (per section detection area) frequency.

A plurality of the FFT units 327 are provided, and frequency conversion is performed for each frequency for extracting intruder information from a digital signal filtered through the band-pass filter 260 at a frequency per section detection area.

The intruder information extractor 328 calculates a frequency-converted signal by the fast Fourier transformer 327 to extract intruder information from a plurality of targets 610 in the detection area 600. Accordingly, the intruder information can be extracted from the plurality of targets 610 in the detection area 600 through the intruder information extractor 328, so that the intruder information including the number, the location, and the speed of the intruder can be known.

The microprocessor 329 controls the operation of the signal processor including the radar signal generator 321 and the intruder information extractor 328. The microprocessor 329 also controls image information displayed through the image information exporter 312, which will be described later. The microprocessor 329 controls the entire process of the video signal processor 310 including the video information exporter 312 and the radar signal processor 320 including the radar signal generator 321 and the intruder information extractor 328, The intruder information extracted from the plurality of targets 610 in the detection area 600 is notified to the security control center 500 through the communication unit 400. [

The image signal processing unit 310 includes a video connection unit 311 for receiving video information detected by the camera sensor unit 100 and a video connection unit 311 for transmitting video information received from the video connection unit 311 to the microprocessor 329 And a video information exporter 312 for displaying video information related to a plurality of targets by interlocking.

The communication unit 400 transmits intruder information in the detection area 600 including the information about the plurality of targets 610 in the detection area 600 analyzed by the signal processing unit 300 and the video information to the security control center 500, . Here, the intruder information in the detection area 600 refers to all intruder information including the number of intruders, the location and speed of the intruder, and the like.

The operation of the multi-target detection device 10 according to the present invention will now be described with reference to FIG.

As shown in FIG. 5, the multi-target detection apparatus 10 according to the present invention may be installed on a separate support 700 or may be installed using an existing structure. The multiple target detecting device 10 according to the present invention is provided on a support 700. The multiple target detecting device 10 according to the present invention is provided on a support 700 so that the transmission and reception antennas of the multiple target detection devices 10 are directed to the detection area 600, The intruder information such as the number of intruders, the position, and the speed of a plurality of targets entering into the terminal 600 is extracted. Particularly, a frequency-modulated radar signal is transmitted toward a plurality of targets 610 that are intruded for each of the segment detection areas 610 in the detection area 600, and the radar signals reflected from the plurality of targets 610 are used It is possible to monitor and control the detection area (security area, 600) by measuring the speed and position of the intruding target and measuring the number of the people.

Therefore, as shown in FIG. 5, the multi-target detection apparatus 10 of the present invention collects target information on an area classified by the section detection area 610, and based on the collected target information, Position, velocity and the like of the target on the target.

In addition, the multi-target detection apparatus 10 according to the present invention extracts a plurality of targets using a radar signal and simultaneously detects presence / absence and position of a plurality of targets through the image information displayed through the camera sensor unit 100 It is possible to perform a more precise and accurate function as the multiple target detecting apparatus 10.

5, a plurality of target detecting apparatuses 10 according to the present invention are installed. However, a plurality of target detecting apparatuses 10 are provided for each detecting region 600, and a plurality of target detecting apparatuses 10 may be installed in major industrial facilities, military bases, It is possible to collect data of intruding plural targets (intruders) and maintain security in real time.

Therefore, in the multi-target detection apparatus 10 according to the present invention, the transmitter 220 and the receiver 230 are integrally formed in the radar sensor unit 200, and the radar signal is transmitted through the transmitter 220 to a plurality of targets And receives a radar signal reflected from a plurality of targets through the receiver 230. [0034] FIG.

Particularly, the multi-target detection apparatus 10 according to the present invention is a multi-target detection apparatus in which a transmitter 220 and a receiver 230 are integrally formed and a radar system using a signal fed back from a plurality of targets in the detection region is used, Unlike the point-to-point method, in which a transmitter and a receiver are separated from each other and can only discriminate presence or absence of an intruder, information on a plurality of targets entering the detection area, that is, the number of intruders, There is an advantage that it can be detected.

The transmitter 220 modulates the frequency using the local oscillation signal and the receiver 230 demodulates the modulated signal so that the information about the intruder can be more accurately There is an advantage to extract. In addition, since the presence or absence of a plurality of targets can be precisely detected through image information as well as the detection of a plurality of targets by a radar signal, the present invention can serve as a more precise and accurate multiple target detection apparatus have.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the embodiments disclosed in the present specification are intended to illustrate rather than limit the present invention, and the scope and spirit of the present invention are not limited by these embodiments. The scope of the present invention should be construed according to the following claims, and all the techniques within the scope of the present invention should be construed as being included in the scope of the present invention.

1000: Unmanned security monitoring system
10: Multiple target detection device
100: camera sensor unit
110: lens
120: Image sensor
200: Radar sensor part
210: local oscillator 211: oscillator 212: frequency above 213: distributor
220: transmitter 221: frequency modulator 222: frequency filter 223: power amplifier
230: receiver 231: low noise amplifier (LNA) 232: frequency demodulator 233: frequency filter
240: transmitting antenna
250: Receive antenna
300: Signal processor
310: a video signal processor
311: Video connection
312: image information exporter
320: Radar signal processor
321: Radar signal generator
322:
323: Receive connection
324: Analog-to-digital converter (ADC)
325: Low-pass filter (LPF)
326: Bandpass filter (BPF)
327: Fast Fourier Transform (FFT)
328: Intruder Information Extractor
329: Microprocessor
400:
500: Security Control Center
600: detection area
610: Intruders (multiple targets)
620:
700: Support

Claims (6)

A camera sensor unit including a lens and an image sensor for video surveillance in a detection area;
A transmitter for receiving the radar signal generated by the signal processing unit and modulating the radar signal to transmit the radar signal modulated to the detection area; A radar sensor unit including a receiver for receiving a radar signal;
A radar signal processor for generating a radar signal and transmitting the radar signal to the transmitter, receiving a radar signal received by the receiver, and analyzing information about a plurality of targets in the detection area, A signal processing unit including an image signal processing unit for analyzing image information related to a plurality of targets; And
And a communication unit for transmitting information on a plurality of targets in the detection area analyzed by the signal processing unit and intruder information in the detection area including the image information to the security control center,
Wherein the detection area is divided into a section detection area and intruder information on a plurality of targets infiltrating into the divided section detection area is extracted using the camera sensor unit, the radar sensor unit, and the signal processing unit. A multiple target detection device for a security surveillance system.
The method according to claim 1,
Wherein the radar sensor unit further includes a local oscillator for generating a local oscillation signal,
The local oscillator includes an oscillator for generating a local oscillation signal; A frequency phase controller for controlling a local oscillation signal of the oscillator; And a distributor for distributing the local oscillation signal oscillated from the oscillator to the transmitter and the receiver.
3. The method of claim 2,
The transmitter
A frequency modulator for modulating a radar signal generated by the signal processing unit and a local oscillation signal distributed by the divider to generate a frequency modulated signal;
A frequency filter for removing the noise signal from the frequency modulated signal generated by the frequency modulator; And
And a power amplifier for amplifying the frequency-filtered signal by the frequency filter and outputting the amplified signal to a transmission antenna.
The method of claim 3,
The receiver
A low noise amplifier for receiving a radar signal reflected from a plurality of targets in the detection area through a receiving antenna to lower the noise figure of the radar signal and amplify the radar signal;
A frequency demodulator for mixing a radar signal amplified by the low noise amplifier with a local oscillation signal distributed by a divider of the local oscillator to generate a frequency demodulated signal; And
And a frequency filter for filtering the noise signal from the frequency demodulated signal generated by the frequency demodulator.
5. The method of claim 4,
The radar signal processing unit of the signal processing unit
A radar signal generator for generating a radar signal for detecting a target for each section detection area in the detection area;
A transmission connection unit for transmitting a radar signal generated by the radar signal generator to the transmitter;
A receiver connection for transmitting a signal filtered by the frequency filter of the receiver to an analog-to-digital converter;
An analog-to-digital converter for converting an analog type filtered signal transmitted by the receiving connection unit into a digital signal;
A low-pass filter for removing noise of the digital signal converted by the analog-to-digital converter;
A plurality of band-pass filters for filtering a digital signal from which noises have been removed through the low-pass filter at a frequency for each section detection area;
A plurality of fast Fourier transformers for performing frequency conversion for each frequency for extracting intruder information from a digital signal filtered at a frequency for each section detection area through the band pass filter;
An intruder information extractor for calculating a frequency-converted signal by the fast Fourier transformer to extract intruder information from a plurality of targets in an detection area; And
And a microprocessor for controlling operations of the signal processing unit including the radar signal generator and the intruder information extractor.
6. The method of claim 5,
The video signal processing unit of the signal processing unit
A video connection unit for receiving video information detected by the camera sensor unit; And
And an image information exporter for displaying the image information received from the image connection unit as image information related to a plurality of targets by interlocking with the microprocessor.

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