KR101297759B1 - Ir led controlling apparatus for cctv and method thereof - Google Patents

Abstract

PURPOSE: An infrared ray (IR) LED control apparatus of a monitoring camera system and a control method thereof are provided to acquire a monitoring image of clear picture quality as necessary, by changing a driving current of the IR LED according to the existence of a movable subject in a monitoring target region during night photographing. CONSTITUTION: An image processing unit (152) of a camera (150) recognizes a subject and movement of the subject. A control unit (120) outputs a first IR LED light penetration control signal according to the pre-established time, and recognizes movement of the subject in the monitoring target region through a subject signal and a subject movement sensing signal. When the subject movement is recognized, the control unit outputs a second IR LED light penetration control signal. An IR LED light emitting driving unit (130) supplies a driving current with different output levels to an IR LED light emitting unit (140) according to the first and the second IR LED light penetration control signals. [Reference numerals] (120) Control unit; (130) Infrared ray LED light emitting driving unit; (140) Infrared ray LED light emitting unit; (151) Image photographing unit; (152) Image processing unit; (153) Image photographing control unit; (160) Communication unit ; (AA) Main monitoring system

Description

IR LED controlling device for surveillance camera system and its control method

The present invention relates to an infrared LED control device of a surveillance camera system and a control method thereof.

More specifically, by using a CCTV camera installed in the surveillance target area, the driving current of the infrared LED that performs the lighting function is changed according to the presence or absence of a moving object in the surveillance target area at night, so that it is clear if necessary. The present invention relates to an infrared LED control device of a surveillance camera system and a method of controlling the surveillance camera system capable of acquiring a surveillance video of image quality.

In general, a surveillance camera system installs a plurality of surveillance cameras in a place to be monitored, receives images captured from the installed surveillance cameras, displays them on a screen, and monitors them in real time or stores them for later checking. Surveillance device having a storage means, a sensor for detecting the subject, and an infrared light emitter attached to the outside or inside the surveillance camera to recognize and photograph the subject in a dark environment.

That is, the surveillance system installs a surveillance camera at a place to be monitored in order to monitor the environment of the surveillance region, and receives an image captured by the surveillance camera to monitor the environment of the surveillance region in real time through the surveillance screen. The images taken by the surveillance cameras are stored and provided as data that can be rechecked if necessary.

In addition, the inside and outside of the surveillance camera is equipped with an infrared LED light emitter, and when the monitoring target area in the dark environment, such as at night to ensure a readable surveillance image and transmits to the monitoring device.

As described above, as the light emitted from the infrared light emitter provided outside or inside the camera moves away from the subject as the photographing object, the illuminance falls in proportion to the square of the distance, thereby shortening the monitoring distance.

In other words, the existing surveillance camera system uses a method of illuminating the infrared LED inside and outside the camera for night surveillance, and when the surrounding of the subject is dark or the distance from the subject becomes far, the surveillance camera is the subject. Due to the darkening of the surroundings, it is difficult to accurately grasp the focus of a subject to be photographed, and thus, a clear surveillance image is secured and the identification of the surveillance image is very low, so that the surveillance system cannot perform its function.

In addition, in the case of the infrared LED, the heat is generated very much due to the characteristics of the LED when it is continuously turned on, and there is a problem that the life of the infrared LED is shortened due to overheating.

Republic of Korea Patent Application Publication No. 10-2006-0135131 (December 29, 2006) "CCT camera lighting control device" Republic of Korea Patent Publication No. 10-2012-0014950 (2012.02.21.) "Method and apparatus for turning on and off the lighting for a closed circuit television camera"

An object of the present invention, in the surveillance system using a CCTV, when the motion is captured through the surveillance camera during the night, especially at night, the output current of the infrared LED is rapidly increased to the maximum current to obtain a clear image of the surveillance image To provide an infrared LED control device and a control method of the surveillance camera system.

That is, an object of the present invention is to maximize the efficiency of the infrared LED at night, to overcome the limitations of the distance and to accurately focus on a subject such as a person or a license plate, it is possible to provide a vivid image quality monitoring As a result, it is a surveillance system using CCTV that can accurately recognize the license plate of a person or vehicle that is the subject, and maximizes the output current of the infrared LED when motion is captured by surveillance cameras in the dark, especially at night. The present invention provides an infrared LED control device and a control method of a surveillance camera system capable of obtaining a surveillance video of a clear picture quality by rising to a current.

According to an embodiment of the present invention, a surveillance camera system includes an image processing unit, and outputs an image captured in response to a control signal input from an external device to the image processing unit, and the image processing unit is previously input. A camera 150 for recognizing the movement of the subject and the subject by comparing the received image with the currently input image, and outputting a first infrared LED emission control signal according to a preset time, and the subject output from the camera 150 And control means for receiving a subject motion detection signal, recognizing movement of a subject in the surveillance target region, and outputting a second infrared LED flood control signal when the subject movement is recognized. And infrared LED floodlight driving means 130 for supplying driving currents having different output levels to the infrared LED floodlight means 140 in response to the first and second infrared LED floodlight control signals of the control means 120. Characterized in that made.

The control means 120, when the subject and the movement of the subject is not recognized by the image processing unit 152 of the camera 150, 80 of the maximum current for the infrared LED light emitting means 140. Performs a basic light amount control mode for outputting a first infrared LED light emission control signal so that a current corresponding to% is supplied as a driving current, and the subject and the subject in the surveillance target area through the image processor 152 of the camera 150. When the movement of the light source is recognized, the second light emitting control signal is transmitted to the driving current by supplying a current corresponding to one of the values of 100% to 150% of the maximum current after switching the basic light amount control mode to the maximum light amount control mode. It is characterized by outputting.

The control means 120, when supplying a current corresponding to one of the values of 100% to 150% of the maximum current as a drive current, compares the supply time with a preset supply time again if the preset time exceeds And outputting a first infrared LED light emission control signal so that a current corresponding to 80% of the maximum current is supplied as a driving current.

The control means 120, when the zoom magnification of the camera 150 is set to the maximum, and the tilt angle of the camera 150 is set to 80 degrees or more, the basic light amount control mode is switched to the maximum light amount control mode. And outputting a second infrared LED light emission control signal to supply a current corresponding to one of the values of 100% to 150% of the maximum current as a driving current.

When the pan / tilt movement signal is input in response to a control signal input from the outside, the control unit 120 switches the basic light amount control mode to the maximum light amount control mode and then 100% to the maximum current. And outputs a second infrared LED light emission control signal to supply a current corresponding to one of the values of 150% as the driving current.

In addition, according to another embodiment of the present invention, in the LED control method of the surveillance camera system, (1) the control means 120 determines whether or not the subject and the subject movement in the monitoring target area through the camera 150 step; (2) If it is determined that there is a moving subject in the area to be monitored, the control means 120 switches the basic light amount control mode to the maximum light amount control mode and outputs the maximum current calculated according to a preset condition as a drive current. Outputting a second infrared LED light emission control signal; (3) the control means 120 counting a time performed in the maximum light amount control mode and determining whether the counted time exceeds a preset mode switching time; And (4) the control unit 120 switches the current mode from the maximum light amount control mode to the basic light amount control mode when the counted time exceeds the mode switching time, and then maximum current to the infrared LED light emitting means 140. And outputting a first infrared LED light emission control signal such that only a current corresponding to 80% of the power is supplied as a driving current.

The maximum current is characterized in that the current corresponding to one of the values of 100% to 150% of the maximum current for the infrared LED light emitting means.

The control means 120, when the zoom magnification of the camera 150 is set to the maximum, and the tilt angle of the camera 150 is set to 80 degrees or more, the basic light amount control mode is switched to the maximum light amount control mode. And outputting a second infrared LED flood control signal to supply a current corresponding to one of the values of 100% to 150% of the maximum current as a driving current.

When the pan / tilt movement signal is input in response to a control signal input from the outside, the control unit 120 switches the basic light amount control mode to the maximum light amount control mode and then 100% to the maximum current. And outputs a second infrared LED light emission control signal to supply a current corresponding to one of the values of 150% as the driving current.

As described above, according to the infrared LED control device and the control method of the surveillance camera system of the present invention, by using the camera of the CCTV installed in the surveillance target area at night shooting according to the presence or absence of a moving subject in the surveillance target region By changing the driving current of the infrared LED that performs the illumination function, it is possible to obtain a clear video quality surveillance image when necessary.

That is, the present invention maximizes the efficiency of the infrared LED at night, thereby overcoming the limitations of the distance, and by precisely focusing on a subject to be photographed, such as a person or a license plate, by providing a clear video surveillance image. It can be secured, thereby providing a surveillance system using CCTV that can accurately recognize the license plate of the person or vehicle as the subject.

1 is a block diagram illustrating an infrared LED control apparatus of a surveillance camera system according to the present invention.
2 is a time diagram illustrating an infrared LED driving control signal when a subject is not recognized.
3 is a time diagram illustrating an infrared LED driving control signal when a subject is recognized.
4 is a flowchart illustrating a control method of the surveillance camera system according to the present invention.
5 is a view for explaining the brightness state of the infrared LED light emitter according to the prior art and the infrared LED to which the present invention is applied at night time.

Hereinafter, an infrared LED controller of a surveillance camera system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Infrared LED control apparatus of the surveillance camera system according to the present invention, as shown in Figure 1 in accordance with the control of the control unit 120 described above, the image capture unit 151, the zoom ratio of the image capture unit 151, FOCUS, etc. The image output controller 152 and the image output unit 151 for controlling the image are stored in the internal memory, and the current input image is compared with the previously input image stored in the internal memory to compare the subject and the movement of the subject. Recognize the movement of the subject in the surveillance area by outputting a first infrared LED light emission control signal or a subject detection signal output from the camera 150 according to a predetermined time and a camera 150 to recognize, When the movement of the subject is recognized, the controller 120 outputs a second infrared LED flood control signal, and in response to the first and second infrared LED flood control signals of the controller 120. Infrared LED is composed of the transparent portion 140, each infrared light transmitting LED driver 130 for supplying a driving current having a different output levels in.

The control unit 120 outputs a first infrared LED light emission control signal (see FIG. 2) so that a current corresponding to 80% of the maximum current is supplied as a driving current to the infrared LED light emitting unit 140 after a predetermined time elapses. After the basic light amount control mode is performed, when the subject and the movement of the subject are recognized by the image processing unit 152 of the camera 150, the basic light amount control mode is switched to the maximum light amount control mode. The second infrared LED light emission control signal (see FIG. 3) is output such that a current corresponding to one of the values of 100% to 150% of the maximum current is supplied as the driving current.

When the control unit 120 supplies a current corresponding to one of the values of 100% to 150% of the maximum current as a driving current, the supply time is compared with a preset supply time and again exceeds the preset time, again the maximum current. The first infrared LED light emission control signal is output to supply a current corresponding to 80% of the driving current. This may prevent the infrared LED light emitting unit 140 from overheating.

The control unit 120 is set to a maximum zoom magnification by the image capturing control unit 153 in response to a control signal input from the outside, the tilt angle of the camera 150 is set to 80 degrees or more, or the external When the pan / tilt movement signal is input from the device, the basic light amount control mode is switched to the maximum light amount control mode, and then a current corresponding to one of the values of 100% to 150% of the maximum current is converted into the drive current. And outputs a second infrared LED light emission control signal to be supplied.

The control signal for adjusting the zoom magnification or tilt angle of the camera 150 is output from the main monitoring system located outside. That is, the manager (user) who monitors the surveillance target area using the surveillance camera system to which the present invention is applied may adjust the zoom magnification or tilt angle of the camera 150 installed in the surveillance target area. At this time, the main surveillance system provides a menu item to serve to adjust the zoom magnification and tilt angle of the camera 150), and the administrator selects this menu item and the zoom magnification or tilt angle of the camera 150 at a desired position. Input information for adjusting the information, such information is generated as a control signal is input to the control unit 120 through the communication unit 160.

Referring to the infrared LED control method of the surveillance camera system configured as described above are as follows.

Surveillance camera system to which the present invention is applied power is supplied by the user (administrator), when the operation request signal is input, the control unit 120 recognizes this, the image taking unit 151 of the camera 150, infrared LED floodlight driving unit Outputting the photographing control signal and the first LED light emission control signal (refer to FIG. 2) for each preset time to photograph the monitoring target area, and the photographed video signal through the communication unit 160 to the main monitoring system. To send.

At this time, the image capturing unit 151 of the camera 150 outputs the captured image to the image processing unit 152, the image processing unit 152 stores the input image in the internal memory (not shown), the next image is When input, the image stored in the internal memory is compared with the next image to recognize whether there is a subject or a movement of the subject in the surveillance region, and transmits the recognition result to the controller 120.

Then, as shown in FIG. 5, the controller 120 continuously checks and determines whether the subject and the subject's movement are in the monitored region through the camera 150 (S110).

As a result of the determination in step S110, when it is determined that there is a moving subject in the monitoring target area, the controller 120 switches the basic light amount control mode, which is the current mode, to the maximum light amount control mode, and calculates the maximum calculated according to a preset condition. The second infrared LED light emission control signal (see FIG. 3) is output to the infrared LED light emission driver 130 to output the current as the driving current (S120).

That is, when the movement of the subject is not detected in the monitoring target area, as illustrated in FIG. 2, the control unit 120 only has a current corresponding to 80% of the maximum current of the infrared LED specification of the infrared LED light emitter 140. While outputting the first infrared LED light emission control signal to be supplied to the light emitter 140, when the movement of the subject is detected in the monitoring target area, as shown in Figure 3 to 100 ~ 150% of the maximum current using the infrared LED The first infrared LED light emission control signal is output to the infrared LED light emission driver 130 to be supplied with a corresponding current.

In other words, as shown in FIG. 4, when it is determined that there is a movement of a subject in the monitoring target area, the controller 120 instantly generates a driving current of the infrared LED emitter 140 supplied to the infrared LED emitter 140. By increasing the efficiency, the camera 150 controls the camera 150 to capture the monitoring target area while the light amount of the infrared LED light emitter 140 is larger than the basic light amount control mode. Accordingly, the control unit 120 may provide a night photographing image that is as clear as a daytime photographing image, thereby facilitating identification of an object to be identified, such as a license plate of a person or a vehicle in the surveillance region.

Thereafter, the controller 120 counts the time being performed in the maximum light amount control mode through a counter (not shown) to check whether the maximum light amount control mode release time has arrived (S140) and determine (S150).

As a result of the determination in step S150, when the maximum light intensity control mode execution time exceeds the mode switching time, the control unit 120 switches the current mode from the maximum light intensity control mode to the basic light intensity control mode (S160) and then the infrared LED light emitting unit ( The first infrared LED light emission control signal is output to the infrared LED light emission driver 130 so that only a current corresponding to 80% of the maximum current is supplied as the driving current. Thus, it is possible to prevent overheating that may occur when the current supplied to the infrared LED light emitter 140 is rapidly raised and maintained for a long time.

In addition, when the maximum light intensity control mode release time does not arrive in step S150, the control unit 120 performs the operation again from the step S120, and controls the entire system to receive an image through the camera 150 in the maximum light intensity control mode. .

On the other hand, the control unit 120 receives a control signal output from the main monitoring system through the communication unit 160, the zoom magnification is set to the maximum by this control signal, or the tilt angle of the camera 150 is 80 degrees If it is set as above or when a pan / tilt motion signal is input, the basic light intensity control mode is converted to the maximum light intensity control mode and then corresponds to one of 100% to 150% of the maximum current. A second infrared LED light emission control signal is output so that current is supplied to the drive current.

Herein, while the present invention has been described with reference to the preferred embodiments, those skilled in the art will variously modify the present invention without departing from the spirit and scope of the invention as set forth in the claims below. And can be changed.

120:
130: infrared LED floodlight driver
140: infrared LED floodlight
150: camera
151: video recording unit
152: image processing unit
153: video recording control unit
160:

Claims (9)

In a surveillance camera system,
The image processor includes a built-in image processor, and outputs the captured image to the image processor in response to a control signal input from the outside, and the image processor compares the previously input image with the currently input image to recognize the subject and the movement of the subject. Camera 150;
While outputting a first infrared LED light emission control signal according to a preset time, the camera 150 receives a subject and a subject motion detection signal output from the camera 150 to recognize movement of a subject in a surveillance target area, and recognizes a subject movement. Control means 120 for outputting a second infrared LED light emission control signal; And
Infrared LED light emitting driving means 130 for supplying a drive current having a different output level to the infrared LED light emitting means 140 in response to the first and second infrared LED light emitting control signals of the control means 120,
The control means 120 is
When the subject and the movement of the subject are not recognized by the image processing unit 152 of the camera 150, a current corresponding to 80% of the maximum current with respect to the infrared LED light emitting unit 140 is a driving current. A basic light quantity control mode for outputting a first infrared LED light emission control signal to be supplied to the camera; and when the subject and the movement of the subject are recognized by the image processor 152 of the camera 150 in the monitoring target region, the basic light quantity Surveillance camera system, characterized in that for switching the control mode to the maximum light control mode and outputs a second infrared LED flood control signal so that a current corresponding to one of the values of 100% to 150% of the maximum current is supplied to the drive current. LED controller.
delete The method of claim 1,
The control means 120,
When supplying a current corresponding to one of the values of 100% ~ 150% of the maximum current as the driving current, the current corresponding to 80% of the maximum current again when the supply time is exceeded by comparing with the preset supply time. LED control device of a surveillance camera system, characterized in that for outputting a first infrared LED light emission control signal to be supplied as a drive current.
The method of claim 1,
The control means 120, when the zoom magnification of the camera 150 is set to the maximum, and the tilt angle of the camera 150 is set to 80 degrees or more, the basic light amount control mode is switched to the maximum light amount control mode. And outputting a second infrared LED flood control signal to supply a current corresponding to one of the values of 100% to 150% of the maximum current as a driving current.
The method of claim 1,
When the pan / tilt movement signal is input from the outside, the control unit 120 switches the basic light amount control mode to the maximum light amount control mode and then selects one of 100% to 150% of the maximum current. LED control device of a surveillance camera system, characterized in that for outputting a second infrared LED flood control signal to supply a corresponding current to the drive current.
In the LED control method of the surveillance camera system,
(1) the control means 120, determining whether or not the subject and the subject move in the monitoring target region through the camera 150;
(2) When the subject and the movement of the subject are not recognized by the image processing unit 152 of the camera 150 through the image processing unit 152 of the camera 150, the control means 120 of the maximum current of the infrared LED light emitting means 140 Perform a basic light amount control mode that outputs the first infrared LED light emission control signal so that a current corresponding to 80% is supplied as a driving current, and the subject and the subject of the subject to the monitored region through the image processor 152 of the camera 150. When the motion is recognized, after switching the basic light amount control mode to the maximum light amount control mode, the second infrared LED light emission control signal is output so that a current corresponding to one of 100% to 150% of the maximum current is supplied to the drive current. step;
(3) the control means 120 counting a time performed in the maximum light amount control mode and determining whether the counted time exceeds a preset mode switching time; And
(4) When the counted time exceeds the mode switching time, the control means 120 switches the current mode from the maximum light amount control mode to the basic light amount control mode and then sets the maximum current to the infrared LED light emitting means 140. Outputting a first infrared LED floodlight control signal such that only a current corresponding to 80% is supplied as a driving current;
LED control method of the surveillance camera system, characterized in that consisting of.
delete The method according to claim 6,
The control means 120, when the zoom magnification of the camera 150 is set to the maximum, and the tilt angle of the camera 150 is set to 80 degrees or more, the basic light amount control mode is switched to the maximum light amount control mode. And outputting a second infrared LED flood control signal so that a current corresponding to one of the values of 100% to 150% of the maximum current is supplied as a driving current. Way.
The method according to claim 6,
The control means 120, when a pan / tilt movement signal is input from the outside, changes the basic light amount control mode to the maximum light amount control mode, and then selects one of 100% to 150% of the maximum current. And outputting a second infrared LED flood control signal to supply a current corresponding to the driving current.

Images