KR101392351B1 - IR Camera combined with IR Illuminator - Google Patents

Abstract

The present invention relates to a control method of a CCTV photographing LED, and more particularly, to a method of controlling a CCTV photographing LED by extracting a sync signal from a video signal transmitted from a CCTV camera, analyzing the sync signal, And a method of controlling the LED by a method of driving an LED for a preset time from a start point of the lens opening time.
According to the present invention, it is possible to greatly reduce the amount of computation required for controlling the CCTV photographing LED and to provide sufficient illumination necessary for CCTV photographing, It is possible to provide light at a point in time when the illumination is absolutely necessary and to provide the light precisely according to the lens opening time even when the lens opening time is very short.

Description

[0001] Description of the Related Art [0002] A control method of a CCTV photographing LED

The present invention relates to a control method of a CCTV photographing LED, and more particularly, to a method of controlling a CCTV photographing LED by extracting a sync signal from a video signal transmitted from a CCTV camera, analyzing the sync signal, And a method of controlling the LED by a method of driving an LED for a preset time from a start point of the lens opening time.

A television system is classified into a closed circuit system and an open circuit system. An electronic closed circuit system refers to a system that transmits image information to a specific user for a specific purpose, and is called a closed circuit television It is called CCTV.

CCTV is a television system that transmits images to specific recipients and is used for various purposes such as industrial, educational, medical, monitoring for traffic control, disaster prevention, and in-house image information transmission.

Among them, when CCTV is used for surveillance purposes such as traffic control or disaster prevention, it is common to use the light in the infrared region since continuous shooting is required not only in daytime but also in nighttime. An infrared light emitter that emits infrared rays is installed together with the CCTV to obtain a sufficiently sensitive infrared image using the light of the infrared region. By using the LED that emits infrared light in the infrared light emitter as a light emitting device, the infrared light is continuously projected on the subject and the image can be taken at night.

The principle of shooting a picture is similar to taking several pictures in a short time. The lens is operated once per frame in order to capture 30 frames per second (the number of frames varies depending on the type of image). The lens is opened and closed, .

Therefore, it is sufficient to illuminate the subject only during the open time of the lens, but in the case of conventional CCTV photography LEDs, the LED is kept on so that the LED light source is constantly energized at the time the lens is closed, .

To improve this, Korean Patent No. 10-0970249 discloses a method for controlling LED illumination of a closed circuit television camera. In this prior art, the video sync signal is separated from the video signal input from the CCTV camera, and the exposure time and the exposure time of the image pickup device are calculated from the separated video sync signal, Controls the LED lighting by supplying and blocking the LED module to the LED module for the exposure time at the start of exposure of the CCTV camera image sensor.

However, since the prior art has to calculate the exposure time as well as the exposure time of the image pickup device, there is a problem that the complicated calculation must be continuously performed every 30 or more tens of ms per second. The time required for driving the LED is not taken into account, and therefore, the time when the lens is opened and the time when the LED is emitted do not coincide with each other.

In addition, when the number of frames per second is increased (several hundreds to several thousands frames per second), the time for one frame becomes very short, so that calculation for capturing the exposure time and exposure time of the image pickup device within one frame is difficult.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the related art, and it is an object of the present invention to control the LED for CCTV photography more accurately by reducing the calculation amount of the system and reducing the time required for the calculation.

The object of the present invention is to provide sufficient illumination for CCTV photography even when the LED driving time is long or an error occurs in the calculation process of the system.

It is another object of the present invention to provide an LED illumination device capable of accurately providing light in accordance with the lens opening time even when the lens opening time is very short,

According to another aspect of the present invention, there is provided a method of controlling an LED for CCTV, comprising the steps of: (a) extracting a synchronization signal from a video signal transmitted from a CCTV camera; (b) (C) driving the LED during a preset time from a start point of the lens opening time, wherein the presetting time is longer than the lens opening time.

Meanwhile, the step (c) may include driving the LED from a predetermined time before the start time of the lens opening time, wherein the predetermined time is longer than the driving time of the LED, Is longer than the lens opening time.

In another embodiment of the present invention, the step (b) further includes extracting the lens opening time and the number of frames per second of the CCTV camera. When the lens opening time is less than 1 / 5000s, the step (c) if the lens opening time is 1 / 5000s or more, the step (c) may include driving the LED at the starting point of the lens opening time after at least one frame using the synchronizing signal extracted at the step (a) Signal to drive the LED at the beginning of the lens opening time of the current frame.

In an embodiment of the present invention, the light emitted from the LED is infrared light, and the CCTV is an infrared camera, and the step (c) includes driving the LED with power in a range of 1 to 5 times the reference power .

According to the present invention, it is possible to greatly reduce the amount of computation required for controlling the LED for CCTV photography and to provide sufficient illumination necessary for CCTV photographing.

In addition, according to the presetting time setting, it is possible to provide the light at the time when the illumination is absolutely necessary in the CCTV photographing, regardless of the LED drive requirement or the calculation error of the system.

In addition, even when the lens opening time is very short, it is possible to accurately provide light in accordance with the lens opening time, and it is also possible to provide illumination with high intensity compared with the conventional case.

1 is a flowchart showing a first embodiment of an LED control method for CCTV photography of the present invention.
2 is a vertical line diagram illustrating a temporal relationship between the opening of the camera lens and the driving of the LED according to the first embodiment of the LED control method for CCTV photography of the present invention.
FIG. 3 is a vertical line diagram illustrating a temporal relationship between the opening of the camera lens and the LED driving according to the second embodiment of the LED control method for CCTV photography of the present invention.
4 is a flowchart showing a third embodiment of the LED control method for CCTV photography of the present invention.
5 is a vertical line diagram illustrating a temporal relationship between the opening of the camera lens and LED driving according to the third embodiment of the LED control method for CCTV photography of the present invention.
FIG. 6 is a vertical line diagram illustrating a temporal relationship between the opening of the camera lens and the LED driving according to the fourth embodiment of the LED control method for CCTV photography of the present invention.
7 is a vertical line diagram illustrating a temporal relationship between the opening of the camera lens and the LED driving according to the fifth embodiment of the LED control method for CCTV photography of the present invention.
FIG. 8 is a diagram illustrating an example of a video signal transmitted from a CCTV camera on a vertical line in an embodiment of the LED control method for CCTV photography of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

1 is a flowchart showing a first embodiment of an LED control method for CCTV photography of the present invention.

A first embodiment of a CCTV photographing LED control method according to the present invention comprises the steps of: (a) extracting a synchronizing signal from a video signal transmitted from a CCTV camera; (b) analyzing the synchronizing signal to determine a starting point And (c) driving the LED during a preset time from a start point of the lens opening time.

Conventionally, the synchronous signal is extracted and analyzed to drive both the lens open time start point and the open duration time of the CCTV camera.

However, in the present invention, only the lens opening time start point of the CCTV camera is calculated, and the lens opening time and the lens opening end time of the CCTV camera are not calculated. Therefore, .

Setting the pre-setting time instead of omitting the calculation of the lens opening time and the lens opening end time and driving the LED during the pre-setting time from the starting point of the derived lens opening time, At the same time, it can provide sufficient illumination for CCTV shooting.

8 is a diagram illustrating an example of a video signal transmitted from a CCTV camera on a vertical line in an embodiment of the CCTV photographing LED control method of the present invention. (Composite sync input, vertical sync output, burst output, odd / even output) of the video signal shown in FIG. 8, The output signal is extracted by a data processing process.

The starting point of the lens opening time of the CCTV camera can be derived by analyzing the conversion point (mode conversion point of the vertical sync output of FIG. 8) of the synchronizing signal extracted through the above steps. Driving the LED for a predetermined preset time from the starting point of the lens opening time derived by such a method corresponds to the first embodiment of the LED control method for CCTV photography of the present invention.

The temporal relationship of the opening of the camera lens and the LED driving according to the first embodiment is shown in Fig. The starting point of the lens opening time of the CCTV camera which is derived by extracting and analyzing the synchronizing signal from the video signal transmitted from the CCTV camera corresponds to A in FIG. The lens is opened during the lens open time shown in FIG. 2 to receive the light necessary for image photographing. In the first embodiment of the present invention, the lens open time and the lens open end time are not calculated, To the preset time and drives the LED during the preset time.

Since CCTV cameras often determine the number of frames per second and the lens opening time in each frame depending on the purpose of use and installation location, the number of frames per second and the number of frames per second The lens opening time can be known.

Therefore, the lens opening time information is acquired according to the setting of the CCTV camera (the first one is sufficient as long as the setting is not changed). If the LED is driven by setting the preset time longer than the lens opening time, It is possible to efficiently provide illumination.

Further, since the lens opening time is generally shorter than the frame time (e.g., 33 frames (30 ms) per second) (about 1 ms on average), even if the setting of the CCTV camera is changed, It is possible to provide illumination sufficiently covering the lens opening time even if the presetting time is not set at all when the CCTV camera setting is changed.

FIG. 3 is a vertical line diagram illustrating a temporal relationship between the opening of the camera lens and the LED driving according to the second embodiment of the LED control method for CCTV photography of the present invention.

The second embodiment of the present invention is a modification of the first embodiment for driving the LED during the pre-set time from the start point of the lens open time, and drives the LED from a predetermined time before the start of the lens open time.

In the second embodiment, the LED is driven from a predetermined time before the starting point of the lens opening time, so that even if LED driving is delayed due to a calculation error or the like, So that it can be sufficiently included in the driving time.

On the other hand, another reason that the starting time of the lens opening time and the LED driving time are shifted is that it takes time to drive the LED.

In order for the LED to react and generate light after the power input, it takes a long time to drive the LED although it depends on the performance of each LED. If the LED driving time is significantly shorter than the lens opening time, it does not affect the CCTV image capturing. However, if the LED driving time is longer than the lens opening time, .

In order to prevent this, the LED is driven from a predetermined time before the start point of the lens opening time as in the second embodiment. Meanwhile, the predetermined time is longer than the driving time required for driving the LED. According to the second embodiment, it is possible to smoothly perform image capturing even when arithmetic errors and delays occur in the process of deriving the driving time of the LED or the starting point of the lens opening time of the CCTV camera.

3 shows the temporal relationship between the opening of the camera lens and the driving of the LED according to the second embodiment on a vertical line. It is assumed that the LED drive required time C is operated as a kind of buffer time, It is possible to achieve the same effect as described above by setting it longer.

4 is a flowchart showing a third embodiment of the LED control method for CCTV photography of the present invention.

The third embodiment of the CCTV photographing LED control method according to the present invention analyzes not only the starting point of the lens opening time in the step (b) of the first embodiment for deriving the starting point of the lens opening time of the CCTV camera, Time and the number of frames per second are further extracted.

This embodiment is especially useful when the number of frames per second and the lens opening time vary during CCTV photographing.

The number of frames per second can be derived by analyzing the sync signal extracted from the video signal, or from the set value of the CCTV camera (in the latter case, it is not necessary to analyze the sync signal extracted from the video signal. ).

The lens opening time can be determined by analyzing the synchronizing signal extracted from the image signal. However, in the present embodiment, the lens opening time, the lens opening conventional time, and the lens opening time are calculated for each frame In this case, even if the synchronization signal extracted from the video signal is not analyzed, data corresponding to the setting change is received from the CCTV camera only when the setting for the lens opening time is changed It recognizes that the lens opening time has been changed and controls the LED to reflect this.

If the lens opening time is very short, the starting point of the lens opening time is derived by analyzing the synchronizing signal extracted from the image signal, and the process of opening and closing the lens may be performed before driving the LED. Therefore, it is impossible to derive the lens opening time start point in the same frame and to control the LED by using it.

This phenomenon is likely to occur especially when the lens opening time is less than 1 / 5000s.

Therefore, in the third embodiment of the present invention, when the lens opening time is less than 1 / 5000s and the lens opening time is less than 1 / 5000s, The driving of the LED is started at the starting point of the lens opening time after one frame or more based on the result of analyzing the synchronizing signal extracted from the video signal in step (a) and the number of frames per second extracted in step (b) If the lens opening time is 1 / 5000s or more, the LED is driven at the start point of the lens opening time of the current frame by using the synchronization signal extracted in the step (a).

The time relationship of the opening of the camera lens and the LED driving according to the third embodiment of the LED control method for CCTV photography of the present invention is shown by a vertical line in FIG.

When the lens opening time is short, the LED is controlled so that the LED can be driven at the lens opening time of the frame 2 (or frame 3 or more) by using the information about the starting point of the lens opening time derived from the frame 1. [ The LED is driven for a preset preset time and the preset time is set to a time long enough to cover the lens open time.

On the other hand, in the present embodiment, it is also possible to use the lens opening time information derived in the step (b) in setting the presetting time.

According to the embodiment shown in Fig. 5, in the case of the frame 1, the LED is not driven at the lens opening time, and the LED is driven from the second frame. Therefore, it is used for CCTV from the image taken in frame 2. Since there are more than 30 frames per second, there is little effect on the entire image captured by CCTV even without Frame 1.

And since the LED is driven for the lens opening time after at least 1 frame, the time margin of at least 33ms can be secured at 30 frames per second, so that regardless of the lens opening time, .

FIG. 6 is a vertical line diagram illustrating a temporal relationship between the opening of the camera lens and the LED driving according to the fourth embodiment of the LED control method for CCTV photography of the present invention.

The fourth embodiment of the present invention is a modification of the third embodiment, so that even when the lens opening time is less than 1 / 5000s, the LED is driven from a predetermined time before the start point of the lens opening time.

In the fourth embodiment, the synchronization signal analysis and extraction, the lens opening time, and the calculation errors that can occur in extracting the frame number per second are contrasted. The fourth embodiment drives the LEDs before the start time of the lens opening time, Even if the LED driving is delayed due to an error or the like, the starting point of the lens opening time can be sufficiently included in the LED driving time. In particular, as compared with the third embodiment, the pre-setting time is set by adding the required time for driving the LED before the start time of the lens opening time so that the LED driving time, which is one of the other causes that the starting time of the lens opening time is shifted from the LED driving time, do. Accordingly, it is possible to prevent the LED from generating light despite the lens opening time due to the LED driving time, and it is possible to prevent the LED from generating light due to the lens opening time, the lens open time start point of the CCTV camera, It is possible to perform image shooting smoothly.

7 is a vertical line diagram illustrating a temporal relationship between the opening of the camera lens and the LED driving according to the fifth embodiment of the LED control method for CCTV photography of the present invention.

In this embodiment, the power supplied to the LED is increased compared to the first to fourth embodiments. Since the present invention drives the LEDs to a sufficient degree to cover the lens opening time, CCTV photography can be performed using far fewer power sources than in the prior art, in which power is continuously supplied to the LEDs irrespective of whether the lens is open or closed .

Therefore, even if a larger power source is input than a general power source that is input to the LED for generating the light, the total input power is smaller than the conventional technology. Therefore, it is possible to increase the input power for driving LEDs in each frame, thereby providing more intense light than the prior art.

Claims (9)

A method of controlling an LED for illumination interlocked with a CCTV camera,
(a) extracting a synchronization signal from a video signal transmitted from the CCTV camera;
(b) analyzing the synchronization signal to derive a starting point of a lens opening time of the CCTV camera; And
(c) driving the LED for a preset time from a predetermined time before the start point of the lens opening time;
Control method of CCTV photographing LED
delete The method according to claim 1,
Wherein the predetermined time is longer than the driving time of the LED.
The method according to claim 1,
Wherein the presetting time is longer than the lens opening time.
The method according to claim 1,
Wherein the presetting time is longer than the sum of the predetermined time and the lens opening time.
The method according to claim 1,
Wherein the step (b) further extracts a lens opening time and a frame number per second of the CCTV camera
The method of claim 6,
Wherein when the lens opening time is less than 1 / 5000s, the step (c) drives an LED at a starting point of a lens opening time after one frame or more using the synchronization signal extracted in the step (a)
Wherein when the lens opening time is equal to or greater than 1 / 5000s, the step (c) drives the LED at the starting point of the lens opening time of the current frame using the synchronization signal extracted in the step (a) Control method
The method according to claim 1,
Wherein the light emitted from the LED is infrared rays, and the CCTV is an infrared camera.
The method according to claim 1,
Wherein the step (c) drives the LED with a power in a range of 1 to 5 times the reference power

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