KR0185909B1 - Exposure control apparatus for video camera - Google Patents

Abstract

The exposure control device of the present invention adjusts exposure to a photographing scene by using an image signal applied to an image pickup device through an aperture of a video camera. The positioning unit designates the position of the shooting scene of the subject to be photographed. The display means displays a photographing scene applied through the image pickup device and a window set in the photographing scene. When the exposure control unit generates an exposure control signal based on a weight value differently set for the shooting scene in the set window and the shooting scene outside the window, the driving means drives the aperture in response to the exposure control signal to open or boil down the aperture. . As a result, since the exposure degree can be adjusted centering on the subject no matter where the subject is located in the shooting scene, accurate exposure control on the shooting scene is possible.

Description

Exposure control device of video camera

1 is a block diagram showing a video camera having a general exposure control device.

2 are diagrams (a)-(c) respectively showing windows for extracting exposure information used in a conventional exposure control method.

Figure 3 is a block diagram showing the exposure control device of the video camera according to an embodiment of the present invention.

4 (a)-(c) are diagrams showing windows respectively positioned by the photographer.

5 (a) to 5 (c) show respective cases of photographing a subject in various environments.

* Explanation of symbols for main parts of the drawings

21: Positioning 22: Viewfinder

23: location information generator 24: exposure control unit

211: position determination switch 241: brightness information extractor

242: exposure value determiner

The present invention relates to a video camera, and more particularly, to an exposure control apparatus of a video camera capable of controlling exposure so that exposure control can be performed irrespective of brightness of a subject to be photographed.

The video camera has an automatic exposure control function for adjusting the aperture so that a constant amount of light can be applied to the image pickup device regardless of the brightness of the subject to be photographed. The structure of a general automatic exposure control device will be described with reference to FIG.

1 is a block diagram showing a video camera having a general exposure control device. In FIG. 1, an optical image signal of a scene to be photographed is applied to an imaging device 13 made of a charge-coupled device (CCD) or the like through the objective lens 11 and the aperture 12. The imaging device 13 photoelectrically converts an applied optical video signal to generate an electrical video signal. The noise reduction unit 14 removes noise components included in the electrical image signal applied from the image pickup device 13. The video signal from which the noise component is removed is applied to the exposure controller 16 and the signal processor 15, respectively. The video signal processed by the signal processor 15 is supplied to the viewfinder 17 or the like.

Meanwhile, the exposure controller 16 includes a brightness information extractor 161 and an exposure value determiner 162 to generate a signal for controlling the opening and closing of the aperture 12. The brightness information extractor 161 receives the noise-removed video signal from the noise reduction unit 14 and detects average size information of brightness information of a scene. The exposure value determiner 162 compares the detected average size information with a reference value, and generates a control signal for bouncing down the aperture when the average size information is larger than the reference value, and generates a control signal for opening the aperture below the reference value. The diaphragm 12 adjusts the amount of light that is opened or simmered by the motor 18 driven according to the control signal output from the exposure value determiner 162 and applied to the image pickup device 13. As a result, the apparatus in FIG. 1 can perform automatic exposure control so that the average of the amount of light incident on the image pickup device 13 is always equal to the reference value.

2 (a) to (c) show a window for extracting exposure information used in a conventional exposure control method. In Figs. 2 (a) to (c), the largest rectangular box corresponds to one frame. The conventional method of extracting light quantity information of a scene to be captured by a conventional exposure control device is as follows: (1) Method of using the average value of the brightness of the entire screen (2 (a), (2) Center of the recording screen Method of adjusting brightness by averaging only brightness information (Fig. 2 (c) and (3) by dividing the screen into a plurality of areas and changing the importance of each area, especially by increasing the weight of the center of the screen Method of Extracting Information (Figure 2 (c)).

According to the related art 1 described with reference to FIG. 2A, when the subject in the scene to be photographed is too dark or too bright compared to the brightness of the background, accurate exposure control through the aperture 12 is impossible. The prior art (2) of FIG. 2 (b) and the prior art (3) of FIG. 2 (c) allow accurate exposure control when the subject is located at the center of the shooting scene, but the subject is If it is located outside, there is a problem that accurate exposure is not possible.

In order to solve the problems caused by the above-described conventional methods, the present invention enables a photographer to designate a subject position in a shooting scene, thereby making it possible to focus on a target subject no matter where in the shooting scene. An exposure control device of a video camera capable of precise exposure control is provided.

In order to achieve the above object of the present invention, an apparatus for adjusting exposure to a photographing scene using an image signal applied through an image pickup device of a video camera comprises: an aperture; A positioning switch for instructing exposure control using the positioned window to generate a first positioning signal corresponding to the window position shift operation of the photographer, and when the positioning switch is pressed, the window in the shooting scene is pressed. Positioning means for generating a second positioning signal for setting; Means for displaying a photographing scene and a window set in the photographing scene in response to a positioning signal applied from the positioning means; Receives a video signal from the image pickup device, a first positioning signal and a second positioning signal from the positioning means, and when a second positioning signal is applied, first brightness information of pixels located in the window. Compute the brightness average value and the second brightness average value of the brightness information of the pixels located outside the window, multiply the first brightness average value by the first weight value and the second brightness average value by the second weight value, and average the multiplied result again. Calculating a frame brightness information signal for a photographing scene, wherein the brightness information extractor having a first weight value greater than a second weight value; An exposure value determiner for generating an exposure control signal by comparing a frame brightness information signal applied from the brightness information extractor with a preset reference value; And means for driving the aperture in response to the exposure control signal of the exposure control unit.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram illustrating an exposure control apparatus of a video camera according to an exemplary embodiment of the present invention. In the apparatus of FIG. 3 according to the embodiment of the present invention, the objective lens 11, the aperture 12, the image pickup device 13, the noise reduction unit 14, and the signal processor having the same functions as those of the conventional FIG. 15 and the motor 18 are provided. The electrical image signal output from the noise reduction unit 14 is applied to the exposure control unit 24 according to the present invention. The output signal of the signal processor 15 is applied to the viewfinder 22.

The positioning unit 21 generates positioning signals PSEL1 / PSEL2 in order to specify the position of the window displayed in the viewfinder 22. The positioning unit 21 may be implemented to input a positioning signal using existing direction setting keys. The first positioning signal PSEL1 is used to temporarily specify the position of the window displayed in the viewfinder 22. In addition, the second positioning signal PSEL2 is generated to display through the viewfinder 22 that the position of the window is determined when the positioning switch 211 built in the positioning unit 21 is pressed. . These positioning signals PSEL1 and PSEL2 are supplied to the exposure control unit 24 and the position information generator 23. The brightness information extractor 241 in the exposure controller 24 extracts frame brightness information (FBD) related to a window whose position is determined by the second positioning signal PSEL2. The frame brightness information FBD is generated for one scene, in particular by an image signal processed differently inside and outside a window. The exposure value determiner 242 receives the frame brightness information FBD to control the driving of the motor 18. On the other hand, the position information generator 23 generates the window signal WIN1 or WIN2 based on the signals PSEL1 and PSEL2 supplied from the positioning unit 21 and supplies it to the viewfinder 22. Here, the first window signal WIN1 is a signal for displaying a window of a dotted line or a faint line on the screen of the viewfinder 22, and the second window signal WIN2 is a signal for displaying a window of a solid line or a bright solid line. to be. The viewfinder 22 receives the window signal WIN1 or WIN2 and the image signal, and displays two applied signals together on the screen.

4 (a)-(c) show a window positioned by the photographer.

As shown in Figs. 4 (a) to (c), the apparatus of Fig. 3 according to the present invention is a first positioning signal generated from the positioning unit 21 by the operation of the positioning unit 21 of the photographer. According to PSEL1, the window can be moved in the left / right, up / down, and diagonal directions on the screen of the viewfinder 22.

When photographing using the apparatus of FIG. 3 is started, the position information generator 23 displays the first window signal WIN1 to display a window on the screen of the viewfinder 22 based on the stored window initial positioning signal. Occurs. The exposure controller 24 controls the driving of the motor 18 so that the aperture 12 has a predetermined opening degree. The viewfinder 22 receives the first window signal WIN1 generated according to the initial position designation signal of the window to display a window (FIG. 4A) represented by a dotted line or a faint line at the center of the screen. At the same time, the viewfinder 22 exhibits a video signal photoelectrically converted by the imaging device 13.

The photographer looks at the shooting scene and the window displayed on the screen of the viewfinder 22, and manipulates the positioning unit 21 so that the window indicated by the dotted line is moved toward the subject in the shooting scene. The window displayed on the screen of the viewfinder 22 by the photographer's manipulation of the positioner 21 can be moved as shown in FIG. 4B or FIG. 4C.

When the positioning unit 21 generates the first positioning signal PSEL1 corresponding to the key operation of the photographer and supplies it to the position information generator 23, the position information generator 23 is supplied from the positioning unit 21. It is determined whether the positioning signal is a first positioning signal PSEL1 or a second positioning signal PSEL2. If it is determined that the positioning signal is the first positioning signal PSEL1, the position information generator 23 generates the first window signal WIN1 to display a window at a position determined by the first positioning signal PSEL1. do. As a result, the viewfinder 22 displays the window indicated by the dotted line at the position on the screen of the viewfinder 22 designated by the photographer. By this process, when the window displayed on the screen of the viewfinder 22 is moved to the desired position of the photographer, that is, the position of the subject to be photographed, the photographer sets the second positioning signal PSEL2. The position determination switch 211 is operated to output. The second positioning signal PSEL2 generated by the photographer's operation is supplied to the exposure control unit 24 and the position information generator 23. The position information generator 23 generates the second window signal WIN2 and supplies the second window signal WIN2 to the viewfinder 22 when the photographer inputs the second positioning signal PSEL2 for determining the position of the window. The viewfinder 22 displays a window represented by a solid line or a bright solid line on the screen in response to the second window signal WIN2. The photographer can know that the exposure adjustment using the currently positioned window is made based on the solid line window displayed through the viewfinder 22.

On the other hand, when the second positioning signal PSEL2 is applied to the exposure control unit 24, the brightness information extractor 241 of the exposure control unit 24 uses the same window as the window currently displayed in the viewfinder 22. By using the image pickup device 13 and the noise reduction unit 14 is performed to distinguish the area of the scene image signal. When the region is separated through the window, the brightness information extractor 241 detects brightness information of pixels located in the window and brightness information of pixels located outside the window from the image signal for a scene. The brightness information extractor 241 detects brightness information of pixels located in the window and brightness information of pixels located outside the window from the image signal for a scene. The brightness information extractor 241 generates a first brightness average value by averaging brightness information of pixels located in the window, and generates a second brightness average value by averaging brightness information of pixels located outside the window. When the first brightness average value and the second brightness average value are calculated, the brightness information extractor 241 multiplies the first brightness average value and the second brightness average value, respectively.

In this case, the weighting values are preset such that the weighted value multiplied by the first brightness average value is greater than the weighted value multiplied by the second brightness average value. The brightness information extractor 241 again averages the brightness average values multiplied by the weighting values to generate frame brightness information FBD for a scene. The frame brightness information FBD is compared with a reference value preset by the exposure value determiner 242. When the frame brightness information FBD is larger than the reference value, the exposure value determiner 242 generates and supplies the first exposure control signal CTL1 for the diaphragm 12 to sleep. On the other hand, when the frame brightness information is less than the reference value, the exposure value determiner 242 generates the second exposure control signal CTL2 for opening by the aperture 12 and supplies it to the motor 18. Since the opening degree of the diaphragm 12 is determined by the motor 18 supplied with the exposure control signal CTL1 or CTL2, automatic exposure control is possible.

5 (a) to 5 (d) show a case of photographing a subject in various environments. 5 (a) and 5 (b) show the case where the subject is located at the center of the shooting scene, and FIGS. 5 (c) and (d) show the case where the subject is biased to the left of the shooting scene. 5A and 5C show a case where the background is dark and the subject is bright. 5 (b) and (d) show a case where the background is bright and the subject is dark.

Referring to FIGS. 5A to 5D, the present invention will be described with reference to the conventional cases as follows. In the case of Figs. 5A and 5B, the above-mentioned prior art 1 is overexposed by an object that is too bright (in the case of Fig. 5A) and underexposed (Fig. 5B). However, the prior arts (2) and (3) and the present invention can be appropriately exposed. However, in the case of FIG. 5 (c), the prior arts (1), (2), and (3) have problems of overexposure, while the present invention enables normal exposure control. And, in the case of Figure 5 (d), the prior art (1) and (2) and (3) has a problem of lack of exposure, while the present invention can control the normal exposure.

In the above-described embodiment of the present invention, the average of the average brightness information calculated for each of the windows and the outside of the window is multiplied by the weighted value, but the embodiment of multiplying each pixel by the weighted value is also possible.

As described above, the video camera having the exposure control device according to the present invention adjusts the exposure degree centering on the subject even if the subject exists at any position within the shooting scene, thereby bringing the effect of precise exposure control on the shooting scene. .

Claims (4)

An apparatus for controlling exposure to a photographing scene by using an image signal applied through an image pickup device of a video camera, the apparatus comprising: an aperture; A position determination switch for instructing exposure adjustment using a positional window to generate a first positioning signal corresponding to the window position shift operation of the photographer, and when the position determination switch is pressed, Positioning means for generating a second positioning signal for setting; Display means for displaying a photographing scene and a window set in the photographing scene in response to a positioning signal applied from the positioning means; Receives a video signal from an image pickup device, a first positioning signal and a second positioning signal from the positioning means, and when a second positioning signal is applied, first brightness of brightness information of pixels located in the window. A second brightness average value of the average value and brightness information of the pixels located outside the window is calculated, the first brightness average value is multiplied by the first weight value, and the second brightness average value is multiplied by the second weight value, and the multiplied result is averaged again. Calculating a frame brightness information signal for the scene, wherein the brightness information extractor, wherein the first weight value is greater than the second weight value; An exposure value determiner for generating an exposure control signal by comparing a frame brightness information signal applied from the brightness information extractor with a preset reference value; And means for driving an aperture in response to an exposure control signal of the exposure control unit. The display apparatus according to claim 1, wherein the presenting means comprises: a viewfinder for displaying a photographing scene and a window on the photographing scene; And a first display signal for displaying a window having a position designated by the first positioning signal to the viewfinder, and a second display signal for displaying exposure control using the window displayed on the viewfinder. Exposure control device of the video camera comprising a location information generator for generating a. The exposure control apparatus of claim 3, wherein the first display signal and the second display signal are signals for displaying windows having shapes that are distinguished from each other on a screen of the viewfinder. The diaphragm of claim 1, wherein the exposure value determiner generates an exposure control signal for opening the aperture when the frame brightness information signal is less than a preset reference value, and when the frame brightness information signal is greater than the preset reference value. Exposure control device of the video camera to generate an exposure control signal to doze off.