KR101444412B1 - surveillance camera apparatus and system for controlling Infrared light and control method therefor - Google Patents

Abstract

The present invention relates to a surveillance camera device and a surveillance camera system for controlling infrared lighting and a method for controlling infrared lighting. In particular, the device, the system and the method are capable of: preventing reduction of lifespan of an individual infrared light emitting diode (LED) light source and reducing failures thereof due to heat radiation to extend lifespan of entire infrared lighting by setting the individual infrared LED light source to supply infrared lighting as either a using light source or a preliminary light source according to a control signal so that the individual infrared LED light source can be operated as the using light source or the preliminary light source depending on the use time or whether operation is normal or not; reducing consumption of power required to provide infrared lighting by setting the individual infrared LED light source as either the using light source or the preliminary light source according to a lightness level of an image photographed by a surveillance camera or a difference in a lightness value by area and by adjusting a light quantity of the using light source to provide the infrared lighting; more increasing available time of the entire infrared lighting by providing lighting output optimized for the photographing environment; preventing deterioration in a quality of the photographed image visually unidentified of the surveillance camera; and reducing costs for repair and replacement or the like by allowing constant use of the infrared lighting without repairing or replacing the entire infrared lighting when there are failures or errors in the partial infrared LED light source which are often generated in the infrared lighting.

Description

[0001] The present invention relates to a surveillance camera apparatus and a control method thereof,

The present invention relates to an infrared light control surveillance camera device, a system and a control method thereof, and more particularly to an infrared light control surveillance camera device, system and control method thereof, And a control method thereof. 2. Description of the Related Art

1 and 2 show an example of a surveillance camera 10, 20 including a conventional infrared light.

1, a surveillance camera 10 including a conventional infrared light illumination includes an infrared illumination unit 13, a camera unit 12, and a housing 11 including an infrared LED light source 14.

The housing 11 functions to protect the camera unit 12 or the wiring necessary for the operation of the infrared illumination unit 13, and may be made of a material having a function of waterproof and moisture-proof.

The camera unit 12 is provided inside the housing 11 to photograph an object, and may include a lens unit and a CCD sensor unit.

The infrared ray illuminator 13 outputs infrared light to the photographing area. The subject photographed by the camera section 12 can be clearly recognized through the infrared light. To this end, the infrared illumination unit 13 includes a plurality of infrared LED light sources 14.

For example, as shown in Fig. 1, the infrared ray illuminating unit 13 may be disposed around the camera unit 12. Fig.

Alternatively, infrared illumination units 33 and 43 may be provided outside the camera unit 12 as in the example of FIG. That is, the camera unit 21 and the housings 30 and 40 may be provided.

The conventional infrared illumination unit 13 included in the surveillance camera in various forms includes a plurality of infrared LED light sources 14 to provide infrared light to the imaging region.

In general, when a power source to be supplied to a camera unit is supplied to a camera unit, power is supplied through a regulator and the voltage is very stable. However, when the power source is provided to the infrared illumination unit 13, the voltage is directly applied without a regulator, .

Therefore, the infrared LED light source 14 provided in the infrared illumination unit 13 often has frequent failures or shortened life spans due to an unstable power source.

In addition, the conventional infrared ray illuminator 13 has frequent failures of some individual infrared LED light sources 14 due to heat generation due to providing illumination.

In this way, if some of the individual infrared LED light sources 14 fail to provide a fault or uniform illumination in the conventional infrared light unit 13, the entire infrared light unit 13 may be replaced or some individual infrared LED light sources 14), which was a burden on the users of surveillance cameras because of the cost of repair and labor compared to the price of the infrared LED light source.

In addition, when the amount of light (amount of light) is gradually decreased due to the accumulation of the use time other than when the individual infrared LED light sources 14 fail as described above, the infrared illumination unit 13 needs to be entirely replaced.

However, it is difficult to visually confirm whether the infrared LED light source is normal output of the light provided due to the nature of the light, and it is difficult for the user of the surveillance camera to accurately grasp the time point of repair and replacement.

In addition, it is difficult to precisely determine the decrease in the amount of light in the captured image itself even when the captured image is viewed and judged, and it is difficult to prevent the continuous deterioration of the quality of the surveillance camera due to the gradual decrease in output of the infrared illumination.

Especially, nighttime crime rate is much higher than daytime crime rate, so it is very important to secure nighttime images in a security system using surveillance cameras. Infrared illumination included in surveillance cameras applied to these security systems is used to secure a clearer image at night. If the amount of infrared illumination is decreased gradually, it becomes difficult to secure a clear night image and the efficiency of night security is very poor This makes it difficult to identify and identify nighttime crime.

Korean Registered Utility Model No. 20-0425303 [Name: Light Amount Control Device of Surveillance Camera Using Infrared LED]

It is an object of the present invention to remedy the above-mentioned problems by setting an individual infrared LED (Light Emitting Diode) light source for providing infrared illumination to one of a use light source or a spare light source according to a control signal, And to provide an infrared light control surveillance camera device, system, and control method thereof, in which the infrared light control surveillance camera device operates as a used light source or as a spare light source in accordance with normal operation.

Another object of the present invention is to set each individual infrared LED light source as one of a use light source or a spare light source according to the brightness or brightness level of an image taken by a surveillance camera, And a method of controlling the infrared light control surveillance camera device, system, and control method thereof, which are provided with infrared light for adjusting the amount of light to reduce the use power of providing infrared light and provide an illumination output optimized for a photographing environment.

It is a further object of the present invention to provide a method of calculating a difference between a brightness value of a region of a photographed image and a brightness value of each region of a reference image already stored, (Light amount) of each of the used light sources is set to one of the used light source or the spare light source based on the deviation of the provided light amount (light amount) for each region calculated by calculating the deviation of the provided light amount And to provide an infrared light control surveillance camera device, system and control method thereof.

According to an aspect of the present invention, there is provided an infrared illumination control surveillance camera device including a camera unit for capturing an image; An infrared illumination unit including at least one infrared LED (Light Emitting Diode) light source set to one of a used light source and a standby light source according to a control signal and providing illumination through the used light source; And a light amount controller for setting each of the infrared LED light sources as one of the use light source or the spare light source and providing a control signal for adjusting the light amount (light amount) of the used light source to the infrared light illuminator.

The light amount control unit may increase the light amount of the used light source or set at least one of the spare light sources as the use light source according to the use time of each infrared LED light source.

Alternatively, the light amount control unit may check the normal operation of the infrared light unit, increase the light amount of the used light source when determining the abnormal operation including the light amount decrease and the light amount deviation, or set one or more of the spare light sources as the use light source .

Alternatively, the light amount control unit may set each of the infrared LED light sources as one of the use light source or the spare light source according to the brightness or brightness level of the image to be photographed, and adjusts the light amount (light amount) of the use light source according to the brightness or brightness level And provide the control signal to the infrared illumination unit.

At this time, the light amount control unit may set each of the infrared LED light sources to one of the used light source or the spare light source, or adjust the light amount (light amount) of the used light source based on the automatic exposure setting value confirmed from the camera unit.

Meanwhile, the infrared illumination control surveillance camera apparatus according to an embodiment of the present invention further includes an image comparison unit for calculating a difference between a brightness value of each region of the captured image and a brightness value of each region of the stored reference image (Light amount) provided by the infrared illuminating unit through the difference in the brightness value for each region, and then, based on the deviation of the provided light amount (light amount) for each region, , It is preferable to set each of the infrared LED light sources as one of the used light source and the preliminary light source, or separately adjust the light amount (light amount) of the used light source.

Alternatively, the light amount control unit classifies each infrared LED light source into at least one control set providing illumination to each region of the image to be photographed, and based on the deviation of the provided light amount (light amount) , Each of the infrared LED light sources may be set as one of the use light source or the spare light source for each control set, or the light amount (light amount) of the use light source may be adjusted for each control set.

Alternatively, the light amount control unit may classify each infrared LED light source in each control set into one or more detailed control sets that provide illumination in a more detailed sub-area than the sub-area, (Light quantity) of the used light source for each of the detailed control sets, or for setting the infrared LED light sources to one of the used light sources or the preliminary light sources for each of the detailed control sets in the control set based on the deviation of the light amount (light amount) May be adjusted.

Meanwhile, the image comparing unit may calculate the difference between the brightness value of the captured image and the brightness value of the already stored reference image through the brightness histogram.

According to another aspect of the present invention, there is provided an infrared illumination control method for an infrared illumination control surveillance camera device, the infrared illumination control method comprising: capturing a camera image; The light intensity control unit sets each infrared LED light source of the infrared illumination unit as one of a use light source and a spare light source and provides a control signal to the infrared illumination unit to adjust a light amount (light amount) of the use light source; And outputting the amount of light (amount of light) adjusted by the control signal by the infrared illumination unit through the use light source to provide illumination.

In the control signal providing step, the light amount control unit may increase the light amount of the used light source according to the use time of each infrared LED light source, or may set at least one of the spare light sources as the use light source.

Alternatively, in the control signal providing step, the light amount control unit may check the normal operation of the infrared light unit, increase the light amount of the used light source when determining the abnormal operation including the light amount decrease and the light amount deviation, Or more can be set as the use light source.

Meanwhile, in the infrared light control method according to an embodiment of the present invention, the light intensity control unit may check brightness or lightness level of the image to be photographed. In the control signal providing step, (LED) light source as one of the used light source or the preliminary light source according to the brightness or brightness level of the image to be photographed, and adjusts the light amount (light amount) of the used light source according to the brightness or brightness level To the infrared illumination unit.

In the control signal providing step, the light amount control unit sets each of the infrared LED light sources to one of the use light source and the spare light source based on the automatic exposure setting value confirmed from the camera unit, or sets the light amount (light amount) Can be adjusted.

The infrared illumination control method according to an exemplary embodiment of the present invention may further include calculating a difference between a brightness value of a region of the image to be photographed and a brightness value of each region of the stored reference image, At this time, in the control signal providing step, the light amount controller calculates the deviation of the provided light amount (light amount) by the infrared light illuminating unit through the difference of the brightness values for each region, It is possible to set each of the infrared LED light sources to one of the use light source or the spare light source based on the deviation, or individually adjust the light amount (light amount) of the used light source.

Alternatively, in the control signal providing step, the light amount control unit may classify each infrared LED light source into at least one control set providing illumination to each region of the image to be photographed, The amount of light of the used light source may be adjusted according to the control set, or the infrared LED light source may be set to one of the used light source and the preliminary light source for each control set.

Alternatively, in the control signal providing step, the light amount control unit may classify each infrared LED light source in each control set into one or more detailed control sets that provide illumination in a more detailed sub-area than the area, The infrared LED light source is set to one of the use light source or the spare light source for each of the detailed control sets in the control set based on the deviation of the generated light amount (light amount) The amount of light (amount of light) of the light source can be adjusted.

Meanwhile, in the brightness value difference calculation step, the image comparison unit may calculate the difference between the brightness value of the captured image and the brightness value of the already stored reference image through the brightness histogram.

According to an aspect of the present invention, there is provided an infrared light control surveillance camera system including a control server and a surveillance camera device, wherein the surveillance camera device captures an image, And an infrared LED (Light Emitting Diode) light source set to operate as one of a used light source and a spare light source, and provides illumination through the used light source, transmits the image to the control server, The control server receives the control signal from the control server and sets the infrared LED light source to one of the used light source or the spare light source or adjusts the light amount of the used light source according to the control signal, After receiving the image from the camera device, (Light amount) provided by the infrared illuminating unit through the difference of the brightness value of each region, and calculates a difference between the provided light amount per region The amount of light) in the infrared light source is set to one of the used light source or the preliminary light source, or a control signal for adjusting the light amount (light amount) of the used light source is generated and transmitted to the surveillance camera device.

Wherein the control server sets each of the infrared LED light sources as one of the use light source or the spare light source according to the brightness or brightness level of the image to be photographed and adjusts the light amount (light amount) of the use light source according to the brightness or brightness level And provide a control signal to the surveillance camera device.

Wherein the monitoring camera device transmits an automatic exposure setting value to the control server, and the control server transmits the infrared LED light source to one of the use light source and the spare light source based on the automatic exposure setting value transmitted from the surveillance camera device Or the amount of light (amount of light) of the used light source can be adjusted.

An infrared illumination control surveillance camera device, system, and control method thereof according to an embodiment of the present invention may include an infrared light LED (Light Emitting Diode) light source for providing infrared illumination by setting one light source or a spare light source according to a control signal, It is possible to operate as a used light source or a spare light source according to the use time or normal operation of the individual infrared LED light sources, thereby shortening the life time and failures of the individual infrared LED light sources due to heat generation and prolonging the service life of the entire infrared light .

The infrared illumination control surveillance camera device, system and control method thereof according to an embodiment of the present invention sets each individual infrared LED light source as one of a use light source or a spare light source according to the brightness or brightness level of an image taken by a surveillance camera By adjusting the light intensity (light amount) of the light source according to the luminance or brightness level of the shot image, infrared light is provided, thereby reducing the power used for providing infrared light and providing optimized light output for the shooting environment. It is possible to easily prevent deterioration in the quality of the surveillance camera photographed image, which is difficult to grasp visually while increasing the time further.

The infrared lighting control surveillance camera apparatus, system, and control method thereof according to an embodiment of the present invention calculates the difference between the brightness value for each region of the photographed image and the brightness value for each region of the already stored reference image, The infrared LED light sources are set to one of the use light source or the spare light source based on the deviation of the provided light amount (light amount) for each area calculated by calculating the deviation of the provided light amount (light amount) for each region provided by the infrared light through the difference in brightness value (Light quantity) of the used light source can be individually adjusted, so that it can be used continuously without repairing or replacing the entire infrared light for the failure or error of the partial infrared LED light source frequently occurring in the infrared illumination, thereby reducing the repair cost and the replacement cost There is an effect that can be done.

Figs. 1 and 2 show an example of a surveillance camera including a conventional infrared light.
3 is a perspective view of an infrared lighting control surveillance camera device according to an embodiment of the present invention.
4 is a configuration diagram of an infrared lighting control surveillance camera device according to an embodiment of the present invention.
5 is a configuration diagram of an infrared light control surveillance camera system according to an embodiment of the present invention.
FIG. 6 is an infrared ray illuminating unit of an infrared light control surveillance camera apparatus according to an embodiment of the present invention.
FIG. 7 is an infrared illumination unit of an infrared light control surveillance camera apparatus according to another embodiment of the present invention.
FIG. 8 is a comparative example of a brightness histogram compared by the image comparing unit according to an embodiment of the present invention.
9 and 10 are flowcharts of a method of controlling an infrared light according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings. In the following detailed description, exemplary embodiments of the present invention will be described in order to solve the above-mentioned technical problems.

3 is a perspective view of an infrared light control surveillance camera apparatus 100 according to an embodiment of the present invention.

Referring to FIG. 3, the infrared illumination control surveillance camera apparatus 100 according to an exemplary embodiment of the present invention includes a camera unit 120 for capturing an image, and includes a plurality of infrared LEDs (Amount of light) necessary for capturing an image through an infrared light unit 130 including a light emitting diode (LED) light source 131.

At this time, the infrared illumination control surveillance camera apparatus 100 according to an embodiment of the present invention may be configured such that, in order to provide sufficient infrared light even at the light amount of only the use light source at the time of shooting an image, And an infrared illumination unit 130 having an infrared LED light source 131.

For example, assuming that the amount of light to be photographed is 100%, the infrared illumination control surveillance camera apparatus 100 according to an embodiment of the present invention may include an infrared LED And an infrared illumination unit 130 including a plurality of infrared LED light sources 131 capable of outputting a light amount of 150% greater than the number of light sources by 50%.

At this time, the individual infrared LED light sources 131 of the infrared illumination unit 130 are classified into a used light source or a preliminary light source according to various preset control standards, and the infrared light is provided by the used light source, It is controlled so as not to be outputted.

In the case of a configuration in which the infrared LED light sources included in the infrared illumination unit are used in full, the entire substrate of the infrared illumination unit is replaced when the sufficient amount of light required due to the progressive failure of some infrared LED light sources over time is not received The repair and labor costs were significant.

On the other hand, even when a failure occurs in some infrared LED light sources 131, the infrared LED control surveillance camera apparatus 100 according to an embodiment of the present invention detects the failure, And the corresponding infrared LED light source having a failure is configured to be set as a spare light source so as to prevent a decrease in partial lighting output due to failure of an individual infrared LED light source and to prevent the entire infrared light unit from being changed do.

In the method of configuring the infrared ray illuminator 130 with a larger number of infrared ray LED light sources 131 than the required light amount as in the present invention, the unit price of the infrared ray LED light source 131 itself may be changed by replacing the entire infrared ray illuminator 130 It is very economical considering the usage environment of the surveillance camera 100 used for a long time after installation.

Meanwhile, as a more preferred embodiment, the infrared illumination control surveillance camera apparatus 100 according to an embodiment of the present invention controls the use light source among the infrared LED light sources 131 in the basic mode, It is preferable that the lifetime of the individual infrared LED light sources is extended by eliminating unnecessary power consumption by eliminating the heat generation due to the continuous use of the infrared LED light source and the use of the maximum light output.

Generally, the standard operating time of the infrared LED light source is known to be about 100,000 hours, but when used at an output of 100%, the life time is rapidly reduced to about 20,000 hours due to heat generation. However, when the output is less than 80%, the heat output is significantly reduced compared to the output of 100%, so that it is possible to use about 100,000 hours.

The infrared illumination control surveillance camera 100 according to an exemplary embodiment of the present invention may be configured such that the number of the individual infrared LED light sources 131 included in the infrared illumination unit 130 is further increased relative to the required light amount, The lifetime of the individual infrared LED light sources 131 itself can be increased by increasing the life span due to variable use and reducing the amount of heat generated by the dimming control. In addition, even when a failure or an error occurs in some light sources, It is possible to provide a uniform amount of light for the whole area and to cope with normal operation. Therefore, the replacement time of the infrared light unit 130 can be significantly delayed compared with the existing products.

Meanwhile, the housing 110 functions to protect the camera 120 or the wiring necessary for the operation of the infrared illumination unit 130, and may be made of a material having a waterproof and moisture-proof function.

FIG. 4 is a block diagram of an infrared lighting control and surveillance camera apparatus 100 according to an embodiment of the present invention.

Referring to FIG. 4, an infrared illumination control surveillance camera apparatus 100 according to an exemplary embodiment of the present invention includes a camera unit 120 that captures an image, an infrared ray sensor 120 that is set to one of a used light source and a spare light source, An infrared illumination unit 130 that includes at least one LED (Light Emitting Diode) light source 131 and provides illumination through the use light source, and the infrared LED light source 131 as one of the use light source and the spare light source And a light amount controller 160 for providing the control signal for adjusting the light amount of the used light source to the infrared light unit 130.

As a preferred embodiment, the camera unit 120 may include a lens unit (not shown) and a CCD sensor unit (not shown). At least one or more lenses may be mounted on the lens unit, and a zoom-in / out operation may be possible. The CCD sensor unit senses an image passed through the lens unit and transmits the image to the image processing unit.

The CCD sensor unit may further include an automatic exposure control unit 140 for checking the luminance or lightness of an image photographed by the camera unit 130 and then adjusting an automatic exposure setting value for the photographed image according to the luminance or lightness can do.

4, the automatic exposure control unit 140 is divided into the camera unit 120 and the camera unit 120. However, the automatic exposure control unit 140 is not limited to the physical configuration position It is possible to adjust the brightness or brightness of an image photographed by the CCD sensor unit of the camera unit 120 and output the adjusted automatic exposure setting value.

Meanwhile, as a preferred embodiment, the image processing unit 180 may perform image processing such as noise removal, scale conversion, and white balance adjustment on the photographed image.

The photographed image storage unit 190 receives photographed photographed images from the image processing unit 180, and stores the photographed photographed images.

In another preferred embodiment, the light amount controller 160 increases the light amount of the used light source according to the use time of each infrared LED light source 131, or sets at least one of the spare light sources as the use light source, The lifetime of the infrared illuminating unit 130 can be extended by keeping the use time of the plurality of infrared LED light sources uniformly within a certain range.

In another preferred embodiment, the light amount controller 160 checks whether the infrared illuminator 130 is operating normally, and then increases the light amount of the light source when it is judged abnormal operation including a light amount decrease and a light amount deviation, One or more of the preliminary light sources may be set as a use light source so that the infrared illumination unit 130 operates normally even when some infrared LED light sources fail or fail.

As described above, the infrared illumination control and surveillance camera apparatus 100 according to an embodiment of the present invention sets an individual infrared LED light source for providing infrared illumination as one of a use light source or a spare light source according to a control signal, It is possible to operate as a used light source or a spare light source in accordance with the use time or normal operation of the infrared light source, thereby shortening the lifetime and failure of the individual infrared LED light sources due to heat generation and extending the service life of the entire infrared light.

Meanwhile, in one embodiment, the infrared illumination control surveillance camera apparatus 100 according to an embodiment of the present invention may set an automatic exposure setting value set for an image photographed by the camera unit 120 to the automatic exposure control unit 140 And determines the brightness or brightness level of the photographed image based on the received automatic exposure setting value.

At this time, the infrared illumination control surveillance camera apparatus 100 according to an embodiment of the present invention may be configured to check the brightness or brightness level of the photographed image based on the white balance adjustment value adjusted in the image processing unit.

Thereafter, in one embodiment, the infrared light control surveillance camera apparatus 100 according to an embodiment of the present invention may control each infrared LED light source 131 in the light amount control unit 160 according to the brightness or brightness level, Or a spare light source, or adjust the light amount (light amount) of the used light source.

5 is a configuration diagram of an infrared light control surveillance camera system according to an embodiment of the present invention.

The infrared illumination control surveillance camera apparatus 100 according to an embodiment of the present invention may include an infrared light control surveillance camera system 100 including the control server 200 and the surveillance camera apparatus 100, And the like.

Referring to FIG. 5, the infrared light control surveillance camera system according to an embodiment of the present invention is an infrared light control surveillance camera system including a control server 200 and a surveillance camera apparatus 100.

The surveillance camera apparatus 100 includes at least one camera unit 120 for capturing an image, and an infrared LED (Light Emitting Diode) light source configured to operate as one of a use light source and a spare light source according to a control signal, An infrared illumination unit 130 for providing illumination through the control server 200, the control unit 130 transmits the image to the control server 200, receives a control signal generated based on the image from the control server 200, And a light amount controller 160 for setting the infrared LED light source to one of the used light source or the preliminary light source or adjusting the light amount (light amount) of the used light source.

At this time, the control server 200 receives the image from the surveillance camera device 100 and calculates the difference between the brightness value of each region of the image and the brightness value of each region of the stored reference image, (Amount of light) provided by the infrared illumination unit 130 through a difference between the values of the light source and the infrared light source, and calculates the deviation of the provided amount of light (amount of light) And an image comparator 170 for generating a control signal for adjusting the amount of light (amount of light) of the used light source and transmitting the generated control signal to the surveillance camera device 100.

As a preferred embodiment, the control server 200 may calculate the brightness value by comparing the brightness value of the captured image with the brightness value of the reference image stored in the reference image storage unit 150 have.

In another preferred embodiment, the control server 200 may further include an image processing unit 180 for performing image processing such as noise reduction, scale conversion, and white balance adjustment on the photographed image.

The control server 200 may further include a captured image storage unit 190 for receiving and storing a captured image imaged by the image processing unit 180.

For example, the control server 200 sets each of the infrared LED light sources as one of the use light source or the spare light source according to the brightness or brightness level of the image to be photographed, and adjusts the light amount (Light amount) of the control signal to the surveillance camera device 100.

More preferably, the surveillance camera apparatus 100 transmits the automatic exposure value set through the automatic exposure control unit 140 to the control server, and the control server 200 transmits The infrared LED light source may be set to one of the use light source or the spare light source or the light amount of the used light source may be adjusted based on the automatic exposure setting value.

Meanwhile, if the infrared light control surveillance camera device or the infrared light control surveillance camera system according to an embodiment of the present invention determines that the light source in which the abnormality occurs exceeds a certain level according to the difference in brightness value or the brightness level of each region, To the monitoring server operated by the administrator in the NVR or the DVR system, and notifies the abnormality of the abnormality.

FIG. 6 illustrates an infrared illumination unit 130 of an infrared illumination control surveillance camera apparatus 100 according to an embodiment of the present invention.

Referring to FIGS. 4 and 6, the infrared light control surveillance camera apparatus 100 according to an embodiment of the present invention controls the amount of light of each infrared ray The LED light source may be set as one of the use light source and the preliminary light source, and the control signal may be provided to the infrared light unit 130, the light amount of which is adjusted according to the brightness or brightness level.

At this time, the light amount controller 160 may calculate the brightness or lightness level based on the automatic exposure setting value determined by the camera unit 120, and may set each of the infrared LED light sources as one of the use light source and the spare light source, The amount of light (amount of light) of the used light source can be adjusted.

6A, the light amount controller 160 may control the brightness of the infrared LED light source (for example, the infrared LED light source) of the infrared LED light sources included in the infrared illumination unit 130 6a) 131 is set as a use light source and other infrared LED light sources (for example, 132 of FIG. 6A) are set as a spare light source, To provide illumination to the area.

6B, the light amount control unit 160 may control the entire infrared LED light sources included in the infrared light unit 130 (for example, the light sources shown in FIG. 6B) according to the calculated brightness or brightness level 131 and 132 may be set as a use light source and the amount of light (amount of light) of the used light source may be adjusted (dimming control) to provide illumination to a surveillance region photographed by the camera unit 120.

Although not shown, the light amount control unit 160 may calculate the brightness or brightness level according to the automatic exposure setting value determined by the automatic exposure setting unit 140, And adjustment of the amount of light can be performed.

Alternatively, the light amount control unit 160 may calculate the brightness or brightness level based on the illuminance value of the surveillance region measured from the illuminance sensor, and adjust the setting of the light source of the infrared illuminator 130 or the adjustment of the light amount You may.

Conventionally, it is difficult to visually confirm whether or not the provided light is normal due to the characteristics of the infrared LED light source, and it is difficult for the user of the surveillance camera to accurately grasp the time point of repair and replacement.

In addition, even if the captured image is viewed and judged, it is difficult to accurately determine the decrease in the amount of light in the captured image itself, and the image quality of the surveillance camera is degraded due to a gradual decrease in output of the infrared light, It was difficult to prevent continuous deterioration.

On the other hand, the infrared lighting control surveillance camera apparatus 100 according to an embodiment of the present invention can increase the number of currently used light sources according to the brightness or brightness level of the image, To prevent the lack of the light amount of the infrared ray illumination due to the decrease of the output of the individual infrared LED light source caused by the use of the old time and to improve the sharpness and the partial brightness of the image taken by the surveillance camera, It is possible to maintain uniformity at a level of quality.

As described above, the infrared illumination control surveillance camera apparatus 100 according to the embodiment of the present invention can be set as a used light source and a spare light source in various ways according to the brightness or brightness level of an image photographed by a surveillance camera, By providing infrared illumination, it reduces the power consumption of the infrared lighting and provides optimized lighting output for the shooting environment, thereby increasing the overall usable time of the infrared illumination, while reducing the quality of the surveillance camera image Thereby easily preventing it.

FIG. 7 illustrates an infrared illumination unit 130 of an infrared illumination control surveillance camera apparatus 100 according to another embodiment of the present invention.

Referring to FIGS. 4 and 7, the infrared illumination control surveillance camera apparatus 100 according to an exemplary embodiment of the present invention includes a brightness value for each region of the image to be photographed, a brightness value of the reference image already stored in the reference image storage unit 150, And an image comparing unit 170 for comparing the brightness values of the regions with each other to calculate a brightness difference value.

8, the image comparison unit 170 may calculate a brightness value (FIG. 8B) for each region of the image to be photographed and a brightness value (FIG. 8B) for each region of the reference image, 8A) can be calculated.

At this time, the light amount controller 160 calculates the deviation of the provided light amount (light amount) provided by the infrared light unit 130 through the calculated difference of the brightness value for each region, ), It is preferable to set each of the infrared LED light sources to one of the use light source or the spare light source, or separately adjust the light amount (light amount) of the used light source.

As a preferred embodiment, if it is determined by the image comparison unit 170 that the brightness 62 of a certain region is lower than the preset reference 61 in the image of the surveillance region captured by the camera unit 120, The controller 160 calculates the amount of light provided by the infrared LED light source configured to provide illumination to the partial area in the infrared illumination unit 130 and the amount of light provided by the other infrared LED light source set to provide illumination in another area, Is compared with the brightness difference to judge that the amount of light provided to the partial area has decreased due to aging of the light source, or it can be judged that a failure or an error has occurred in the light source.

Therefore, the light amount control unit 160 may control the number of the used light sources for the infrared LED light sources that provide illumination to the partial area, based on the variation of the amount of light provided for each area, Or the amount of light for the infrared LED light source providing illumination to the partial area may be set to be higher than that of the infrared LED light source for providing illumination to other areas.

For example, as shown in FIG. 7A, the light amount controller 160 may control each of the infrared LED light sources to include one or more control sets (a, b, c, d, e, f), and based on the deviation of the light quantity (light quantity) provided for each region generated for each control set, the infrared LED light sources (131, 132) (Light amount) of the used light source can be adjusted for each control set.

7A, in order to allow a larger number of control sets (for example, a, d) to be used as used light sources than other control sets (b, c, e, f) And the amount of light is set to be higher. In addition, it can be seen that some of the control sets (for example, c, e) are set so that the light source used as the used light source is very small or the amount of light is extremely low as compared with the other control sets (a, b, d and f) have.

7b, the light intensity controller 160 may control the respective infrared LED light sources in the respective control sets a, b, c, d, e, f to be more detailed (A1, a2, and a3 in the case of a control set) that provides illumination in a detailed sub-region, and a sub-region generated by the sub-control set (a1, a2, a3) (A1, a2, a3) in the control set (a) to one of the use light source or the spare light source, based on the deviation of the stray light amount (light amount) (Amount of light) of the used light source may be adjusted by the detailed control set (a1, a2, a3).

As shown in FIG. 7B, the light amount controller 160 may classify the control set (for example, a) into one or more detailed control sets (a1, a2, a3) It is possible to control the number of the detailed control sets a3 to be larger than the other detailed control sets a1 and a2 to be used as the used light sources and to set the light amount to be higher according to the deviation of the stray light quantity. In addition, some of the detailed control sets a2 may be set so that the amount of light used as the used light source is very small and the amount of light is also very low as compared with other detailed control sets a1 and a3.

As described above, the infrared lighting control surveillance camera apparatus 100 according to an embodiment of the present invention calculates the difference between the brightness value of each region of the image to be photographed and the brightness value of each region of the already stored reference image, The infrared LED light sources are set to one of the use light source or the spare light source based on the deviation of the provided light amount (light amount) for each area calculated by calculating the deviation of the provided light amount (light amount) for each region provided by the infrared light through the difference in brightness value (Light quantity) of the used light source can be individually adjusted so that it can be used continuously without repairing or replacing the entire infrared light for the failure or error of the partial infrared LED light source frequently occurring in the infrared light illumination, thereby reducing the repair cost and the replacement cost There is an advantage to be able to do.

9 and 10 are flowcharts of a method of controlling an infrared light according to an embodiment of the present invention.

Referring to FIG. 9, an infrared illumination control method according to an embodiment of the present invention is a method of controlling infrared illumination of an infrared illumination control surveillance camera apparatus 100, wherein the camera unit 120 first captures an image (S10).

Then, the light amount controller 160 sets each infrared LED light source of the infrared light unit 130 as one of a use light source and a spare light source (S20).

At this time, the light amount controller 160 may increase the light amount of the used light source according to the use time of each infrared LED light source, or may set at least one of the spare light sources as the use light source.

Alternatively, the light amount control unit 160 may check the normal operation of the infrared light unit 130 and increase the light amount of the used light source when determining abnormal operation including a light amount decrease and a light amount deviation, Or more can be set as the use light source.

Then, the light amount control unit 160 provides a control signal to the infrared light unit 130 to adjust the light amount (light amount) of the used light source (S25).

As a preferred embodiment, the light amount controller 160 checks the brightness or brightness level of the image to be photographed (S15), and then controls the respective infrared LED light sources according to the luminance or brightness level of the image to be photographed, (Light amount) of the used light source is adjusted according to the brightness or brightness level to the infrared ray illuminating unit 130. [0041] FIG.

In another preferred embodiment, the light amount control unit 160 sets each of the infrared LED light sources to one of the use light source or the spare light source based on the automatic exposure setting value confirmed (S15) from the camera unit 120 The amount of light (amount of light) of the used light source can be adjusted.

Then, the infrared illumination unit 130 outputs the light amount (light amount) adjusted by the control signal through the use light source to provide illumination.

Referring to FIG. 10, an infrared illumination control method according to another embodiment of the present invention is a infrared illumination control method of the infrared illumination control surveillance camera apparatus 100, wherein the camera 120 captures an image first (S50).

Thereafter, the image comparison unit 170 calculates the difference between the brightness value of the captured image and the brightness value of the already stored reference image (S55).

As a preferred embodiment, the image comparison unit 170 may calculate the difference between the brightness value of the captured image and the brightness value of the already stored reference image, using the brightness histogram.

At this time, the light amount control unit 160 calculates a deviation of light amount (light amount) provided by the infrared light unit 130 for each region through the difference of the brightness value for each region (S55).

Then, the light amount controller 160 sets each of the infrared LED light sources to one of the use light source and the spare light source based on the deviation of the light amount (light amount) for each region, or sets the light amount (light amount) Adjust.

In a preferred embodiment, the light amount controller 160 classifies each infrared LED light source into at least one control set that provides illumination to each region of the image to be photographed, The amount of light (light amount) of the used light source may be adjusted for each of the control sets according to the control set, in step S60.

In a more preferred embodiment, the light intensity controller 160 classifies each infrared LED light source in each control set into one or more sub-control sets that provide illumination in more detail sub-areas than the sub- The method comprising: setting each of the infrared LED light sources to one of the used light source and the spare light source for each of the detailed control sets in the control set based on a variation in the provided light amount (light amount) The amount of light (amount of light) of the used light source may be adjusted (S65).

The foregoing embodiments and advantages are merely exemplary and are not to be construed as limiting the present invention. However, the present invention is not limited to the above-described embodiments, and various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention. .

10, 20: Conventional infrared light monitoring camera device
11, 30, 40: housing 12, 21:
13, 33, 43: Infrared illumination part 14: Infrared LED light source
33, 43: Infrared illumination unit
100: Infrared light control surveillance camera device according to the embodiment of the present invention
110: housing 120:
130: Infrared illumination unit 131, 132: Infrared LED light source
140: Automatic exposure setting unit 150: Reference image storage unit
160: Light amount control unit 170:
180: Image processing unit 190:

Claims (21)

A camera unit for capturing an image;
An infrared illumination unit including at least one infrared LED (Light Emitting Diode) light source set to one of a used light source and a standby light source according to a control signal and providing illumination through the used light source;
A light amount control unit for setting each of the infrared LED light sources as one of the use light source and the spare light source and for providing a control signal for adjusting the light amount (light amount) of the used light source to the infrared light unit; And
And an image comparison unit for calculating a difference between a brightness value of the captured image and a brightness value of each of the stored reference images,
The light-
Wherein each of the infrared LED light sources is set as one of the used light source or the preliminary light source according to the brightness or brightness level of the image to be photographed, and the control signal, which adjusts the light amount (light amount) of the used light source according to the brightness or brightness level, (Light amount) provided by the infrared illuminating unit through the difference in brightness value of each region, and then calculates a deviation of the provided light amount (light amount) Wherein each of the infrared LED light sources is set to one of the use light source or the spare light source, or the light amount (light amount) of the use light source is individually adjusted.
The apparatus of claim 1, wherein the light amount control unit
Wherein the control unit increases the light amount of the used light source according to the use time of each infrared LED light source or sets at least one of the spare light sources as the use light source.
The apparatus of claim 1, wherein the light amount control unit
Characterized in that the infrared ray illuminator is inspected for normal operation and then the light intensity of the used light source is increased or the at least one of the preliminary light sources is set as a use light source when the abnormal operation including the light amount decrease and the light amount deviation is checked, Lighting control surveillance camera device.
delete The apparatus of claim 1, wherein the light amount control unit
Wherein the control unit sets each of the infrared LED light sources to one of the use light source or the spare light source or adjusts a light amount (light amount) of the use light source based on an automatic exposure setting value confirmed from the camera unit Camera device.
delete The apparatus of claim 1, wherein the light amount control unit
Wherein each of the infrared LED light sources is classified into at least one control set that provides illumination to each region of the image to be photographed, and based on the deviation of the provided light amount (light amount) Wherein each of the infrared LED light sources is set to one of the use light source and the spare light source, or the light amount of the use light source is adjusted for each control set.
The apparatus of claim 7, wherein the light amount control unit
Wherein each of the infrared LED light sources in each control set is classified into one or more detailed control sets that provide illumination in a more detailed sub-area than the area, and the deviation of the provided light quantity (light amount) (Light amount) of the used light source is adjusted for each of the detailed control sets, or the infrared LED light sources are set to one of the used light source or the preliminary light sources for each of the detailed control sets in the control set, Infrared light control surveillance camera device.
2. The image processing apparatus according to claim 1,
And calculates a difference between a brightness value of each of the images to be photographed and a brightness value of each of the regions of the reference image stored in the brightness histogram through the brightness histogram.
a) photographing a camera additional image;
b) providing a control signal to the infrared illumination unit, wherein the light amount control unit sets each infrared LED light source of the infrared illumination unit as one of a use light source or a spare light source and adjusts a light amount (light amount) of the use light source;
c) outputting the amount of light (amount of light) adjusted by the control signal by the infrared illumination unit through the use light source to provide illumination;
d) checking the brightness or brightness level of the photographed image by the light amount control unit; And
and e) calculating a difference between a brightness value of each of the captured images and a brightness value of each of the stored reference images,
The step b)
Wherein the light amount control unit sets each of the infrared LED light sources as one of the use light source or the spare light source according to the brightness or brightness level of the image to be photographed and adjusts the light amount (light amount) of the use light source according to the brightness or brightness level A control signal is provided to the infrared illumination unit, and a deviation of a provided light amount (light amount) provided by the infrared illumination unit is calculated through a difference of the brightness value of each region, and then a deviation of the provided light amount Wherein each of the infrared LED light sources is set as one of the use light source and the spare light source, or the light amount (light amount) of the use light source is individually adjusted.
11. The method of claim 10, wherein step b)
Wherein the light amount control unit increases the light amount of the used light source according to the use time of each infrared LED light source or sets at least one of the spare light sources as the use light source.
11. The method of claim 10, wherein step b)
The light amount control unit may check the normal operation of the infrared light unit and then increase the light amount of the used light source or set at least one of the spare light sources as the use light source when the abnormal operation including the light amount decrease and the light amount deviation is determined Characterized in that the infrared illumination control method comprises:
delete 11. The method of claim 10, wherein step b)
Wherein the light amount control unit sets each of the infrared LED light sources to one of the use light source or the spare light source or adjusts a light amount (light amount) of the use light source based on an automatic exposure setting value confirmed from the camera unit Infrared light control method.
delete 11. The method of claim 10, wherein step b)
Wherein the light amount control unit classifies each infrared LED light source into at least one control set that provides illumination to each region of the image to be photographed, and based on the deviation of the provided light amount (light amount) Wherein each infrared LED light source is set to one of the use light source and the spare light source for each control set, or the light amount (light amount) of the use light source is adjusted for each control set.
17. The method of claim 16, wherein step b)
The light amount control unit classifies each infrared LED light source in each control set into one or more detailed control sets that provide illumination in a finer detail area than the area, (Light amount) of the used light source is set to one of the used light source or the preliminary light source for each of the detailed control sets in the control set, or the light amount Wherein the infrared light control method comprises the steps of:
11. The method of claim 10, wherein step e)
Wherein the image comparing unit calculates a difference between a brightness value of each of the images to be photographed and a brightness value of each of the reference images stored in the reference image through the brightness histogram.
An infrared light control surveillance camera system including a control server and a surveillance camera device,
The surveillance camera device
And an infrared LED (Light Emitting Diode) light source set to one of a use light source and a spare light source in accordance with a control signal, and provides illumination through the use light source, and transmits the image to the control server And transmits the infrared LED light source to one of the use light source and the spare light source in accordance with the control signal after receiving the control signal generated based on the image from the control server and adjusting the light amount In addition,
The control server
The surveillance camera apparatus according to claim 1, further comprising: a surveillance camera apparatus that receives the image from the surveillance camera apparatus, calculates a difference between brightness values of the image and brightness values of the reference image, (Light amount) of each of the use light sources is set to be one of the use light source or the spare light source based on the deviation of the provided light amount (light amount) (Light amount) of the infrared light, and transmits the control signal to the surveillance camera device.
20. The system according to claim 19, wherein the control server
Wherein each of the infrared LED light sources is set as one of the used light source or the preliminary light source according to the brightness or brightness level of the image to be photographed, and the control signal, which adjusts the light amount (light amount) of the used light source according to the brightness or brightness level, Wherein the infrared camera is provided as a surveillance camera device.
21. The method of claim 20,
The surveillance camera device transmits an automatic exposure setting value to the control server,
Wherein the control server sets each of the infrared LED light sources to one of the use light source or the spare light source based on the automatic exposure setting value transmitted from the surveillance camera device or adjusts a light amount (light amount) of the used light source Infrared light control surveillance camera system.

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