KR101217785B1 - Video camera with adjustable brightness of light and method for adjusting of the same - Google Patents

Abstract

The present invention relates to a video camera device capable of adjusting the light intensity and a method of adjusting the light intensity thereof, in a camera equipped with a night light, a video camera device that can adjust the light intensity to prevent saturation of a near-field subject and its The purpose is to provide a method for adjusting the illumination intensity.
The present invention for achieving this object, the imaging unit for converting the input image into an electrical signal; A digital signal processor for calculating a histogram according to the brightness of an image input from the image pickup unit; A saturation determination unit that determines the brightness of illumination by calculating the number of saturated pixels from the image output from the digital signal processor; A brightness controller configured to generate brightness control information by using pulse width modulation according to whether the illumination intensity determined by the saturation determination unit is increased or decreased; And an illumination unit for illuminating the light based on the brightness control information generated by the brightness control unit. .

Description

VIDEO CAMERA WITH ADJUSTABLE BRIGHTNESS OF LIGHT AND METHOD FOR ADJUSTING OF THE SAME}

The present invention relates to a video camera device, and more particularly, to a camera, which is configured to turn on a nighttime lighting device to capture an image, to prevent saturation on a screen by increasing luminance of a near subject in preparation for the entire screen, The present invention relates to a video camera device capable of controlling the brightness of illumination to obtain an image, and a method of controlling the illumination intensity thereof.

If there is no separate ambient light at night and you need to turn on the lighting equipment provided in the video camera, the brightness of the subject is inversely proportional to the square of the distance between the light source and the subject. The rapid increase and saturation phenomenon appear.

In this phenomenon, since the automatic exposure (AE) function built in the camera operates based on the average brightness of the entire screen, the near object close to the light source is relatively high in brightness and saturated, making it difficult to recognize the shape.

As a way to solve this problem, there is a means for adjusting the brightness of the illumination using information such as the aperture value, shutter speed, automatic gain control (AGC) value determined in the automatic exposure function of the camera, but the aperture, shutter and There is a restriction that the automatic gain control function should be set and operated automatically. That is, when the aperture, shutter, or automatic gain adjustment function is manually set or the operating range is limited, it cannot be applied.

In addition, since the autoexposure related information is information on an average brightness of the screen, it is insufficient to prevent saturation of a near subject occupying a portion of the screen.

The present invention has been made in view of the above problems, in a camera equipped with a night light, to provide a video camera device that can adjust the illumination brightness to prevent the saturation of the near-field subject and its illumination intensity control method The purpose is.

The present invention for achieving the technical problem relates to a video camera device capable of adjusting the illumination intensity, the image pickup unit for converting the input image into an electrical signal; A digital signal processor for calculating a histogram according to the brightness of an image input from the image pickup unit; A saturation determination unit that determines the brightness of illumination by calculating the number of saturated pixels from the image output from the digital signal processor; A brightness controller configured to generate brightness control information by using pulse width modulation according to whether the illumination intensity determined by the saturation determination unit is increased or decreased; And an illumination unit for illuminating the light based on the brightness control information generated by the brightness control unit. It includes.

On the other hand, the present invention relates to a method for adjusting the illumination intensity of the video camera device, (a) the image pickup unit converts the image input through the lens and the aperture into an electrical signal; (b) a digital signal processing unit calculating a histogram according to the luminance of an image input from the imaging unit; (c) determining, by the saturation determination unit, the brightness of illumination by calculating the number of saturated pixels from the image output from the digital signal processing unit; (d) generating, by the brightness controller, brightness control information by using pulse width modulation (PWM) according to whether the illumination brightness is increased or decreased by the saturation determination unit; And (e) illuminating the lighting unit based on the brightness control information generated by the light control unit. .

According to the present invention as described above, when the CCTV video camera to shoot the image by the self-illumination (IR LED, etc.) at night, in the dark place to obtain a clear image with the maximum brightness possible, random objects such as intruders appeared If you are close to the camera with it, the brightness of the illumination is reduced appropriately to prevent screen saturation. Therefore, it is possible to prevent the intruder's face from saturation, thereby obtaining a clear image with evidence.

1 is an overall configuration diagram conceptually showing a video camera device (A) capable of adjusting the illumination intensity according to the present invention.
2 is an exemplary view showing a histogram when the luminance is high and saturated according to the present invention.
3 is an exemplary view showing a histogram whose brightness is adjusted to prevent saturation of a screen according to the present invention.
4 is an overall flowchart of a method for adjusting illumination intensity of a video camera device according to the present invention;
5 is a detailed flowchart of the process of determining the intensity of illumination by calculating the number of saturated pixels from an image according to the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

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

A video camera apparatus capable of adjusting illumination intensity according to the present invention will be described with reference to FIGS. 1 to 3 as follows.

1 is an overall configuration diagram conceptually showing a video camera apparatus A capable of adjusting illumination intensity according to the present invention. As illustrated, the imaging unit 100, the digital signal processing unit 200, and the saturation determination unit 300 are illustrated. ), The brightness controller 400 and the lighting unit 500.

The imaging unit 100 is an imaging device such as a CCD or CMOS sensor included in a conventional camera, and converts an input image into an electrical signal.

In this case, the image is an input image after the brightness is adjusted through the aperture through the lens.

The digital signal processor (DSP) 200 controls the automatic exposure of the image input from the image capturing unit 100 by controlling an aperture, a shutter, an automatic gain controller, and the like, and a white balance (WB). It calculates luminance information for each screen area, distribution of pixels according to luminance (histogram), image enhancement, motion detection, differential information for auto focusing, and so on.

That is, the digital signal processing unit 200 calculates a histogram according to the brightness of the image input from the imaging unit 100.

The saturation determination unit 300 performs a function of determining the brightness of illumination by calculating the number of saturated pixels from the image output from the digital signal processing unit 200. As shown in FIG. The calculation module 310 and the reference value determination module 320 is included.

Specifically, the pixel counting module 310 sets the luminance saturation boundary value of the image, and based on histogram information according to the luminance of the entire image output from the digital signal processing unit 200, the luminance in the histogram is the boundary. The number of pixels saturated beyond the value is calculated.

Here, the threshold means a value for determining that the screen is saturated.

FIG. 2 is an exemplary view showing a histogram when the luminance is high and saturated according to the present invention. As shown in the present embodiment, the boundary value of the saturated pixel is set to TH8. On the other hand, such a threshold value can be arbitrarily determined by the user's control.

In addition, the pixel number calculating module 310 may directly calculate the number of pixels exceeding the boundary value of luminance without using the histogram.

The reference value determination module 320 sets a reference value of the number of pixels and determines the increase or decrease of the brightness by comparing the number of pixels calculated by the pixel number calculating module 310 with the reference value.

In detail, the reference value determination module 320 sets a reference value of the number of pixels and determines whether the number of pixels calculated by the pixel number calculation module 310 is equal to or less than a first reference value.

As a result of the determination, when the calculated number of pixels is equal to or less than the first reference value, the reference value determination module 320 determines an increase in the illumination intensity, and when the calculated number of pixels exceeds the first reference value, the reference value determination module 320 determines the first value. 2 Determine whether the reference value is exceeded.

As a result of determination, when the calculated number of pixels exceeds the second reference value, the reference value determination module 320 determines the reduction of the illumination intensity, and when it is less than the second reference value, the pixel number calculation module 310 calculates the number of pixels. Try again.

As described above, the reference value determination module 320 compares the first reference value and the second reference value having different values with the calculated number of pixels. This is to prevent the increase and decrease of brightness from being repeated frequently. Meanwhile, the first reference value and the second reference value may be arbitrarily determined by the user's control.

The brightness controller 400 generates brightness control information using pulse width modulation (PWM) according to whether or not the illumination brightness is determined by the saturation determination unit 300.

3 is an exemplary view showing a histogram whose brightness is adjusted to prevent saturation of a screen according to the present invention.

The lighting unit 500 illuminates the light based on the brightness control information generated by the light control unit 400.

Hereinafter, the method of adjusting the illumination intensity of the video camera device having the above-described configuration will be described with reference to FIGS. 4 to 5.

FIG. 4 is a flowchart illustrating a method for controlling illumination intensity of a video camera apparatus according to the present invention. As shown in FIG. 4, the imaging unit 100 converts an image input through a lens and an aperture into an electrical signal (S100). ), A second process (S200) in which the digital signal processing unit 200 calculates a histogram according to the brightness of the image input from the imaging unit 100, and the saturation determination unit 300 outputs from the digital signal processing unit 200. The third step (S300) of determining the brightness of the illumination by calculating the number of saturated pixels from the captured image, the light intensity control unit 400 according to the increase or decrease of the illumination intensity determined by the saturation determination unit 300, the pulse width A fourth process (S400) of generating brightness control information using modulation (PWM) and a fifth process (S500) of lighting unit 500 illuminating the light based on the brightness control information generated by the light control unit 400. Done including Lose.

FIG. 5 is a detailed flowchart of a third process S300 in which the saturation determination unit 300 determines the brightness of illumination by calculating the number of saturated pixels from the image output from the digital signal processing unit 200 according to the present invention. As illustrated, the pixel counting module 310 of the saturation determination unit 300 sets the luminance saturation boundary value of the image and based on histogram information according to the luminance of the entire image output from the digital signal processing unit 200. In step S310, the number of pixels whose luminance in the histogram exceeds the threshold is saturated or is directly calculated without using the histogram.

Thereafter, the reference value determination module 320 sets a reference value of the number of pixels and determines whether the number of pixels calculated by the pixel number calculation module 310 is equal to or less than a first reference value (S320).

As a result of the determination in step S320, when the calculated number of pixels is less than or equal to the first reference value, the reference value determination module 320 determines an increase in illumination intensity (S330). When the calculated number of pixels exceeds the first reference value, the reference value is determined. The determination module 320 determines whether the second reference value is exceeded (S340).

As a result of the determination in step S340, when the calculated number of pixels exceeds the second reference value, the reference value determination module 320 determines the reduction of the illumination intensity (S350), and when it is less than or equal to the second reference value, the calculated number of pixels. The procedure is then performed as a step S310 of comparing with the first reference value.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. Accordingly, all such appropriate modifications and changes, and equivalents thereof, should be regarded as within the scope of the present invention.

A: Video camera device with adjustable light intensity
100: imaging unit 200: digital signal processing unit
300: saturation determination unit 310: pixel count calculation module
320: reference value determination module 400: brightness control unit
500: lighting unit

Claims (8)

An imaging unit 100 for converting an input image into an electrical signal;
A digital signal processor (200) for calculating a histogram according to the luminance of an image input from the image pickup unit (100);
A saturation determination unit (300) for determining the brightness of illumination by calculating the number of saturated pixels from the image output from the digital signal processing unit (200);
A brightness controller 400 for generating brightness control information using pulse width modulation (PWM) according to whether the illumination intensity determined by the saturation determination unit 300 is increased or decreased; And
An illumination unit 500 for illuminating the light based on the brightness control information generated by the brightness control unit 400; Including but not limited to:
The saturation determination unit 300,
A luminance saturation boundary value of an image is set, and based on histogram information according to luminance of the entire image output from the digital signal processing unit 200, the number of pixels whose luminance in the histogram exceeds the boundary value is saturated and calculated. A pixel number calculating module 310; And
A reference value determination module 320 for setting a reference value of the number of pixels and comparing the number of pixels calculated by the pixel number calculating module 310 with a reference value to determine the increase or decrease of luminance; The video camera device is adjustable illumination intensity comprising a.
delete The method of claim 1,
The reference value determination module 320,
And setting a reference value of the number of pixels, and determining whether the number of pixels calculated by the pixel number calculating module 310 is equal to or less than a first reference value.
The method of claim 3, wherein
The reference value determination module 320,
As a result of determination, when the calculated number of pixels is less than or equal to the first reference value, the illumination intensity is determined to be increased. When the calculated number of pixels exceeds the first reference value, the reference value determination module 320 determines whether the second reference value is exceeded. Characterized by judging,
As a result of the determination, when the calculated number of pixels exceeds the second reference value, the illumination intensity is determined to be decreased. When the calculated number of pixels is less than the second reference value, the pixel number calculation module 310 performs the pixel count calculation again. A video camera device capable of adjusting the illumination intensity.
The method of claim 1,
The threshold value is,
A video camera device capable of adjusting illumination intensity, which is set as a threshold value for determining that the screen is saturated and is controlled by a user.
The method of claim 4, wherein
The first reference value and the second reference value,
A reference camera set by a user's control to prevent the increase and decrease of the brightness from being repeated frequently, and having a different value.
In the illumination intensity control method of the video camera device,
(a) the imaging unit 100 converting the image input through the lens and the aperture into an electrical signal;
(b) a step in which the digital signal processing unit 200 calculates a histogram according to the brightness of the image input from the imaging unit 100;
(c) determining, by the saturation determination unit 300, the brightness of illumination by calculating the number of saturated pixels from the image output from the digital signal processing unit 200;
(d) generating, by the brightness controller 400, brightness control information using pulse width modulation (PWM) according to whether the illumination brightness is increased or decreased by the saturation determination unit 300; And
(e) illuminating the light by the lighting unit 500 based on the brightness control information generated by the brightness control unit 400; Including,
The step (c)
(c-1) The saturation determination unit 300 sets the luminance saturation boundary value of the image, and based on the histogram information according to the luminance of the entire image output from the digital signal processing unit 200, the luminance in the histogram is the same. Calculating the number of pixels saturated beyond the threshold, or directly calculating the number of pixels exceeding the luminance threshold without using the histogram;
(c-2) setting the reference value of the number of pixels by the saturation determination unit 300 and determining whether the number of pixels calculated by the pixel number calculating module 310 is equal to or less than a first reference value;
(c-3) As a result of the determination in the step (c-2), when the calculated number of pixels is less than or equal to the first reference value, the saturation determination unit 300 determines an increase in illumination intensity, and the calculated number of pixels is determined by the first number. Determining whether the second reference value is exceeded when the reference value is exceeded; And
(c-4) determining, by the saturation determination unit 300, a decrease in illumination intensity when the calculated number of pixels exceeds the second reference value as a result of the determination in step (c-3); Illumination brightness control method of a video camera device comprising a. delete

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