KR19980050597A - Backlight Compensator for Video Cameras - Google Patents

Abstract

The present invention relates to an image signal compensation technique applied to a video camera. In the conventional image signal processing technique, there is a defect that it is impossible to control the brightness of both the main subject and the background to an appropriate brightness.

Therefore, in order to solve the problem, the present invention receives the luminance signal Y output from the image signal processor 24 to evaluate the luminance level of each region, and receives the subject brightness compensation signal from the microcomputer 26 to receive the clock. A luminance evaluation and compensation signal output unit 25 for outputting together with the signal, and an opening amount control signal of the aperture 21A based on the evaluation value to correct the backlight; The microcomputer 26 obtains a new brightness compensation signal satisfying both the brightness of the main subject and the background subject based on the correction signal.

Description

Backlight Compensator for Video Cameras

1 is a block diagram of a typical video camera.

Figure 2 is a block diagram of an embodiment of a backlight compensation apparatus of the video camera of the present invention.

FIG. 3 is a detailed convex diagram of luminance evaluation and compensation signal output units in FIG. 2; FIG.

4A is an exemplary view of a screen in which backlight is present.

(B) is a waveform diagram of each brightness control signal for correcting backlight.

5 is a flowchart of an operation signal of the microcomputer in FIG.

* Explanation of symbols for main parts of the drawings

21A: Aperture 21B: Image pickup device

22: video signal preprocessor 23: A / D return

24: image signal processing unit 25: luminance evaluation and compensation signal output unit for each area

26: microcomputer 27A, 27B: D / A converter

28: adder 29: aperture driving unit

The present invention relates to an image signal compensation technology applied to a video camera, and in particular, by controlling the opening amount of the aperture around the main subject to compensate for backlight, the brightness of the main subject becomes moderate but the brightness of the background subject deteriorates. In order to prevent the brightness of the main subject and the background gain of the brightness of the background subject is related to the backlight compensation device of the video camera to be able to display a screen of a suitable brightness as a whole.

FIG. 1 is a block diagram of a general video camera. As shown therein, an aperture 11A for adjusting an amount of light of a subject to be photographed and an image pickup device for converting an optical signal incident through the aperture 11A into an electrical signal 11B, a video signal preprocessor 12 for performing preprocessing such as controlling gain so as to be suitable for processing the video signal output from the imaging element 11B, and the video signal preprocessor 12 An A / D converter 13 for converting an analog video signal output from the digital signal into a digital signal, a video signal processor 14 for converting the video signal converted into the digital signal into a luminance signal and a color difference signal, and a backlight In order to compensate, the luminance evaluation unit 15, which receives the luminance signal Y output from the image signal processing unit 14 and evaluates the luminance level for each region, and controls the system units as a whole,The microcomputer 16 outputs the opening amount control signal of the diaphragm 1lA based on the evaluation value, and outputs the luminance gain control signal, and under the control of the microcomputer 16, An aperture driver 17 for controlling the opening amount and an A / D converter 18 for converting a digital luminance gain control signal output from the microcomputer 16 into an analog signal and outputting the analog signal to the image signal preprocessor 12. ), And its operation is as follows.

When the subject is photographed, light incident through the lens group (not shown in the drawing) and the aperture 11A is captured by an imaging device 11B such as a CD and converted into an electrical signal, and then the image signal preprocessor 12 Is preprocessed by the photoconductive cell Cds and the automatic gain controller AGC, and converted back into a digital signal via the A / D converter 13.

The video signal converted into the digital signal is supplied to the video signal processor 14, converted into a luminance signal Y, a color difference signal U, and V, and then transferred to a next image format converter. Reprocessed to meet specifications.

Meanwhile, the area luminance evaluation unit 15 receives the luminance signal Y output from the image signal processing unit 14 and performs the region redness operation of the luminance signal to evaluate its redness value, that is, the region luminance signal. Output the value.

Therefore, the microcomputer 16 controls the brightness of the screen based on the evaluation value of the luminance signal for each region. That is, when the evaluation value is larger than the reference value, the aperture driving unit 17 controls the aperture 11A in the closing direction, and in the opposite case, the aperture 11A is controlled in the opening direction to determine the final output image signal Vout. The luminance level is kept at a constant level.

In addition, the microprocessor 16 checks whether the backlight is on the basis of the evaluation value of the luminance signal for each area, and if it is determined that the backlight is back, the aperture 11A is opened slightly more than the normal control amount, and on the other hand, the D / A converter ( 18, the automatic gain control amount in the image signal preprocessor 12 is controlled, so that the main subject is not displayed too brightly due to backlight.

However, in the conventional image signal processing technology, the luminance level of the final output signal is maintained at a constant level by adjusting the iris and automatic gain control amount. When adjusting the luminance level in such a manner, the main subject in the backlight mode is used. Has a defect that is displayed darkly, and to solve this problem, if the brightness of the screen is made brighter than the normal screen brightness through backlight compensation, the brightness of the main subject is appropriate, but the background is too bright, and ultimately the main subject and the background There was a defect that prevented all of the brightness from being controlled to the appropriate brightness.

Accordingly, an object of the present invention is to provide a backlight compensation apparatus for a video camera that varies the luminance gain of the main subject and the luminance gain of the background subject so that the brightness of the screen is uniform even regardless of the existence of the light source.

FIG. 2 is a block diagram illustrating a backlight compensation apparatus of a video camera of the present invention for achieving the above object. As shown therein, an aperture 21A and an aperture 21A for adjusting an amount of light of a subject to be photographed are shown. Image pickup device 21B for converting the optical signal incident through the optical signal into an electrical signal, and preprocessing such as controlling gain to be suitable for processing the image signal output from the image pickup device 21B in the system. A signal preprocessor 22, an A / D converter 23 for converting an analog video signal output from the video signal preprocessor 22 into a digital signal, and a video signal converted into the digital signal and a luminance signal. The image signal processor 24 converts the color difference signal and the luminance signal Y output from the image signal processor 24 to correct the backlight to evaluate the luminance level of each region, and The luminance evaluation and compensation signal output unit 25 for each area that receives the subject brightness compensation signal from the computer 26 and outputs the same with the clock signal, and controls the opening amount of the aperture 21A based on the evaluation value to correct the backlight. A microcomputer 26 which outputs a signal and obtains a new brightness compensation signal satisfying both the brightness of the main subject and the background subject based on the original brightness signal of the subject and the brightness correction signal of the subject; And a D / A converter 27A for converting a digital subject brightness compensation signal output from the compensation signal output unit 25 into an analog signal, and a digital subject brightness correction signal output from the microcomputer 26. Outputs the brightness compensation signal obtained by adding the D / A converter 27B and the output signals of the D / A converters 27A and 27B to the video signal preprocessor 22. And an aperture driving unit 29 for controlling the opening amount of the aperture 21A under the control of the adder 28 and the microcomputer 26, to which the operation and effect of the present invention thus constructed are attached. When described in detail with reference to 3 to 5 as follows.

When the subject is photographed, light incident through the aperture 21A is picked up by the image pickup device 21B and converted into an electrical signal by the image pickup device 21B, and then the image signal preprocessor 22 Preprocessed by the gain controller AGC, and returned as a digital signal through the VD converter 23. The digital video signal is converted into a luminance signal and a color difference signal by the video signal processor 24, and the final output video signal Vout. Will be printed).

Meanwhile, as shown in FIG. 4A, the main subject 41 is positioned at the center of the screen, and the backlight 42 is located at one side of the background area AT of the main subject 41. The process of correcting the backlight will be described below.

The luminance evaluation and compensation signal output unit 25 for each region shorts the switch SW1 by using the selection signal SEL as shown in FIG. 3 and outputs a luminance signal Y for one screen from the image signal processor 24. ) Is stored in the memory 25A, and the luminance level is evaluated for each preset area of the screen, and the evaluation value is output to the microcomputer 26. (S1)

The microcomputer 26 checks the luminance level evaluation value for each region, and if the luminance level of the specific region is found to be significantly higher than the luminance level of the other region, determines that the backlight 42 is present. In order to achieve an appropriate level, the aperture 21A is slightly closed through the aperture driver 29. (S2)

However, in this case, the luminance level of the background area 43 is maintained at an appropriate level as shown in (a) of FIG. 4 (b), but the luminance level of the main subject 41 at a position slightly away from the backlight 42 is appropriate. It is slightly lower than the level.

That is, since the luminance level of the main subject 41, which is considered to be important, is set to be slightly lower than the appropriate level, the brightness correction value is set based on the main subject 41, and then the image signal preprocessor is processed through the D / A converter 27B. The gain of the brightness level is output to (22) and readjusted around the main subject 41 as shown in (b) of FIG. 4 (b) (S3).

However, in this case, the brightness level of the main subject 41 is maintained at an appropriate level in contrast to the above, but the brightness level of the background area 43 is set higher than the appropriate level, so that the image quality of the background screen is very poor.

As a result, while the luminance level of the main subject 41 is maintained at the same level as ⓑ of FIG. 4 (b), the luminance level of the background area 43 must be maintained at the original level before correction as shown by ⓐ of FIG. 4 (b). There is.

To this end, the microcomputer 26 calculates a subject original brightness value-a subject brightness compensation value to obtain a subject brightness compensation value. That is, the subject brightness correction value such as ⓑ of FIG. 4 (b) is subtracted from the original brightness value of the subject such as ⓐ in FIG. 4 (b), where the subject refers to the subject of the background area AT. At this time, the main subject 41 is excluded from the subtraction target (S4).

The microcomputer 26 controls to store the subject brightness compensation value obtained by the above operation as shown in ⓒ of FIG. 4 (b) in the memory 25A of the luminance evaluation and compensation signal output unit 25 for each area. The signal 26 is outputted. At this time, the read / write controller 25B opens the switches SW1 and SW3 using the selection signal SEL and shorts the switches SW2 so that the subject brightness compensation value is reduced. It is interfered with the memory 25A. (S5)

Then, the read / write controller 25B outputs the read signal RD in order to output the subject brightness compensation signal COM stored in the memory 25A in the luminance evaluation and compensation signal output unit 25 for each region. The switch SW4 is short-circuited using the selection signal SEL. In addition, a clock signal CLX required for converting the subject brightness compensation signal COM into an analog signal is generated (S6).

Accordingly, the subject brightness compensation signal COM output from the memory 25A is converted into an analog signal through the D / A converter 27A, and a waveform such as ⓒ of FIG. 4 (b) is output therefrom, which is an adder. In addition to the original brightness signal of the subject as shown in (b) of FIG. 4 (b) supplied through the D / A converter 27B at (28), the final auto gain control signal is output from the adder 28, which is automatic. The gain control signal means a signal in which the luminance level of the background area 43 maintains the level ⓐ of FIG. 4 (b), and the luminance level of the main subject 41 maintains the ⓑ level of FIG. 4 (b).

Accordingly, since the gain is controlled by the image signal preprocessor 22 based on the automatic gain control signal, both the main subject 41 and the background area 43 are displayed on the screen with appropriate brightness.

As described in detail above, the present invention generates a brightness compensation signal that satisfies both the brightness gain of the main subject and the brightness gain of the background subject to control the gain in the image signal preprocessing unit so that the screen of normal image quality is not affected by backlight. There is an effect that can be displayed.

Claims (2)

In the video camera image signal processing apparatus, the luminance signal Y output from the image signal processing unit 24 is evaluated to evaluate the luminance level of each region, and the subject brightness compensation signal is supplied from the microcomputer 26 to receive the clock signal. And outputs an opening amount control signal of the aperture 21A based on the evaluation value to correct the backlight and the original brightness signal and the subject brightness of the subject. The microcomputer 26 obtaining a new brightness compensation signal satisfying both the brightness of the main subject and the background subject based on the correction signal, and the subject brightness output from the luminance evaluation and compensation signal output unit 25 for each region. D / A converters 27A and 27B for converting a compensation signal and a subject brightness correction signal output from the microcomputer 26 into digital signals, respectively, and the D / A converter 2 And an adder (28) for outputting the brightness compensation signal obtained by adding the output signals of 7A) and (27B) to the video signal preprocessor (22). The display apparatus of claim 1, wherein the area-specific luminance evaluation and compensation signal output unit 25 includes a memory 25A for storing the luminance signal Y and the brightness compensation signal output from the image signal processing unit 24, and the microcomputer. The memory 25A is controlled by using the selection signal SEL to control the read / write of the luminance signal Y and the brightness compensation signal according to the control signal CS supplied from 26, and to control the input / output of them. And a read / write control unit (25B) for controlling switching of the switches (SW1-SW4) connected to the input / output terminals of the < RTI ID = 0.0 >