KR100899120B1 - Unmanned Picture Administration System - Google Patents

Abstract

The present invention relates to an unmanned video surveillance system, and more particularly, the user in the control station to install an infrared emitting means to the camera installed in a remote location that requires shooting, and to drive the infrared emitting means only during night shooting By inputting the night shooting time and the night shooting end time through, the operation of the infrared emitting means starts or ends accordingly, so that the infrared emitting means does not operate during the daytime shooting and the infrared emitting means operates during the night shooting. It relates to an unmanned video surveillance system configured to allow shooting.

According to the present invention, the user in the control station can conveniently set the driving time and the end time of the infrared emitting means installed in the camera of the remote location, there is an advantage that can obtain a high-quality image by infrared light at night.

Unmanned surveillance system, camera, infrared

Description

Unmanned Picture Administration System             

1 is a block diagram showing the configuration of an unmanned video surveillance system according to a preferred embodiment of the present invention;

2 is a flowchart showing the operation of the unmanned video surveillance system according to the preferred embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100: local terminal unit

101: control unit

110: camera

120: infrared ray emitting means

130: setting unit

140: communication network interface unit

150: power supply

200: central control unit

300: communication network

According to the present invention, when the user in the control station inputs a night photographing time and a night photographing end time through a communication network to install an infrared ray emitting means in a camera installed at a remote location requiring photographing, and to drive the infrared ray emitting means only at night photographing. Accordingly, the present invention relates to an unmanned video surveillance system configured to allow operation of the infrared emitting means to be started or terminated so that the infrared emitting means does not operate during the daytime shooting and the infrared emitting means operates during the night shooting. .

In general, an unmanned video surveillance system installs a camera in an area requiring surveillance, and displays a video captured by the camera through a monitor installed in a remote control station so that the user in the control center can understand the local situation. Means system.

In general, such an unmanned video surveillance system has been used only in areas such as military facilities, laboratories, factories and banks that require strict security, but recently, the scope of use of the unmanned video surveillance system is rapidly expanding to general offices or homes.

As such, as the use range of the unmanned video surveillance system is expanded and popularized, more accurate and precise image quality is required to provide more improved services, and much research and development has been conducted to meet the demand.

By the way, in this context, conventional unmanned video surveillance system is generally supplied with light by sun rays during daytime shooting, so it is possible to obtain high quality image without any problem, but at night when the light supply is low There is a problem in that the surveillance function is weakened because the image quality cannot be obtained.

On the other hand, a camera having an illumination means such as an infrared lamp or an infrared light emitting diode (LED) has been developed in order to perform effective shooting at night or in a confined space with low light supply. In the case where the main monitoring target is a person, the person being photographed by the camera may not recognize the infrared light, and thus may not recognize the place where the camera is being photographed.

However, in order to separately install a camera equipped with such a lighting means in a conventional unmanned video surveillance system, a relatively expensive infrared camera has to be purchased and installed, and thus it is expensive. Because the user has to operate the camera for yourself to operate alternately, a troublesome problem occurs.

The present invention has been devised to solve these problems, by installing an infrared illumination means in the camera of the unmanned video surveillance system, and the operation of the infrared illumination means can be set by the user in the remote control station, so that the camera alone during the day It is an object of the present invention to provide an unmanned video surveillance system capable of performing a photographing operation and performing an infrared photographing by an infrared ray lighting means operating at a time set by a user at night.

In order to achieve the above object, the present invention is installed in a remote site that requires monitoring, the local terminal unit for capturing the image of the remote location and output the video signal, and the image installed in the control station and output from the local terminal unit through the communication network It includes a central control unit for receiving the signal and output to the monitor.

At this time, the local terminal is a camera that performs the function of capturing an image of a remote site and converts it into an electrical signal and outputs it as an image signal, an infrared emitting unit for emitting infrared rays toward a subject to be photographed by the camera; A setting unit configured to set a time and an end time for driving the infrared emitter by receiving a start time and an end time of infrared photographing of the camera from a user; and allowing the local terminal to exchange data through a central control unit and a wired / wireless communication network. And a communication network interface unit performing a network interface function, a power supply unit performing a function of supplying driving power to each unit described above, and a control unit performing a function of controlling the interaction and data flow of each unit as a whole.

The control unit instructs the power supply unit to supply power to the infrared emitter when the driving time of the infrared emitter set in the setting unit is reached, and drives the infrared emitter to the power supply unit. Command to cut off the supply to perform the function to terminate the operation of the infrared emitter.

On the other hand, it is preferable that the setting unit is provided in the form of a web page, so that the user can remotely input the infrared shooting start time and the end time after accessing the setting unit through the central control unit.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention in detail.

First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used to refer to the same components, even if displayed on different drawings.

1 is a block diagram showing the configuration of an unmanned video surveillance system according to a preferred embodiment of the present invention.

As shown, the local terminal 100 is installed in a remote location that requires monitoring and outputs the video signal after recording the remote image, and the local terminal 100 is installed in the control station through the communication network 300 It consists of a central control unit 200 consisting of a computer terminal for receiving the video signal output from the monitor to output.

In this case, the local terminal unit 100 includes a camera 110, an infrared emitting unit 120, a setting unit 130, a communication network interface unit 140, a power supply unit 150, and a control unit 101. .                     

The camera 110 performs a function of acquiring an image of a remote place and converting the image into an electrical signal to produce an image signal.

The infrared emitter 120 may be configured as an infrared LED or an infrared lamp to receive driving power from the power supply 150 to emit infrared rays toward the subject.

The setting unit 130 receives the start time and the ending time of the infrared shooting from the user to set a time for driving the infrared emitting unit 120, wherein the setting unit 130 is in a web page format. It is preferable that the user located in the control station is connected to the setting unit 130 through the central control unit 200 to input the infrared shooting time.

The power supply unit 150 supplies driving power to the respective units 101 to 140 in the local terminal unit 100.

The communication network interface 140 performs a function of allowing the local terminal 100 to exchange data through the central control unit 200 and the wired / wireless communication network 300 so as to be interoperable with each other at a remote location.

The control unit 101 performs a function of controlling the interaction and data flow of each of the above-described parts 110 to 150 as a whole, and in particular, when the infrared emitter driving time set in the setting unit 130 is reached, the power supply unit 150 Command the power supply to the infrared emitter 120 to drive the infrared emitter 120, and when the infrared emitter driving time is finished, a command message to the power supply unit 150 to cut off the power supply to the infrared emitter 120. Send and end the operation of the infrared emitter 120.

2 is a flowchart showing the operation of the unmanned video surveillance system according to the preferred embodiment of the present invention.

First, the user in the control station connects to the setting unit 130 of the local terminal 100 through the communication network 300 and inputs the night shooting start time and the night shooting end time according to the time to perform night photography.

Subsequently, the setting unit 130 sets time data for operating the infrared emitter 120 at the night photographing time and the end time input by the user.

When shooting of the remote location by the camera 110 is started, the remote image is taken by the camera 110 during the day, the video signal is sent to the central control unit 200 through the communication network, the night is entered by the user at night When the shooting time is reached, the setting unit 130 notifies the controller 101 that it is time to operate the infrared emitter 120.

When the notification is received from the setting unit 130, the control unit 101 instructs the power supply unit 150 to supply power to the infrared emitting unit 120, and accordingly, the power supply unit 150 starts supplying power to the infrared emitting unit 120. do.

When power is supplied to the infrared emitter 120, the infrared emitter 120 emits infrared rays to a subject to be photographed by the camera 110, and the camera 110 performs infrared photography to acquire the image and then acquires an electrical signal. Converted to and transmitted to the central control unit 200.

Therefore, the user can monitor the surveillance area through the infrared ray image displayed through the monitor of the central control unit 200.

On the other hand, when the time elapses again and becomes a daytime photographing end time input by the user, the setting unit 130 notifies the control unit 101 that the operation time of the infrared emitting unit 120 has ended, and the control unit 101 In response to the notification, the power supply unit 150 is controlled to cut off the power supply to the infrared emitter 120 to perform weekly photography.

As mentioned above, although preferred embodiments of the present invention have been described in detail, those of ordinary skill in the art to which the present invention pertains should realize the present invention without departing from the spirit and scope of the present invention as defined in the appended claims. It will be appreciated that various modifications or changes can be made. Accordingly, modifications to future embodiments of the present invention will not depart from the technology of the present invention.

As described above, according to the present invention, an infrared illuminating means is installed in a camera of an unmanned video surveillance system, and a user in a remote control station can remotely set the operation of the infrared illuminating means, so that the camera operates alone during the day. There is an advantage that can be taken by the infrared light by the infrared light means to perform the shooting at the time set by the user at night.

Claims (3)

It is installed at a remote site that requires monitoring, and the local terminal unit for capturing the image of the remote site and outputting the video signal, and the central terminal installed in the control center to receive the video signal output from the local terminal unit through the communication network and output it to the monitor. In the unmanned video surveillance system including a control unit, The local terminal unit, A camera which acquires an image of the remote site, converts the image into an electrical signal, and outputs the image signal;  An infrared emitter configured to emit infrared light toward a subject to be photographed by the camera; A setting unit configured to set a time and an end time for driving the infrared emitter by receiving a time for starting and ending an infrared photographing of the camera from a user; A communication network interface unit performing a communication network interface function so that the local terminal unit can exchange data with the central control unit through a wired or wireless communication network; A power supply unit performing a function of supplying driving power to each unit; The function of controlling the interaction and data flow of each part as a whole, and when the driving time of the infrared emitter is set in the setting unit, the power supply is commanded to the infrared emitter to drive the infrared emitter And a control unit which performs a function of terminating an operation of the infrared emitting unit by instructing the power supply unit to cut off power supply to the infrared emitting unit when the infrared emitting unit driving end time comes. The setting unit is provided in the form of a web page, so that a user can access the setting unit through the central control unit to remotely input the infrared shooting start time and end time. The unattended video surveillance system according to claim 1, wherein the infrared emitter is one of an infrared LED and an infrared lamp. delete

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