KR100726435B1 - Method for controlling exposure quantity according distance of an object and photographing apparatus thereof - Google Patents

Abstract

Disclosed are a method of controlling an exposure amount according to a distance of a subject and a photographing apparatus using the same. The exposure control method may include converting an optical signal received from a subject into an electrical signal, converting the electrical signal into a digital image signal, separating the luminance signal and calculating AF data, and calculating the AF data based on the AF data. Determining a focus lens position value with respect to the AF data, determining a distance value of the subject corresponding to the focus lens position value with reference to the focused focus lens position value and the distance value of the subject corresponding to the focus lens position value, And controlling the exposure amount based on the luminance signal difference and the distance value of the subject. As a result, the image quality of the photographed image may be improved by compensating the exposure in consideration of the distance from the lens to the subject during strobe light emission.

Exposure Control, Photographing Device, Exposure Compensation

Description

Method for controlling exposure amount according to distance of subject and photographing apparatus applying the same

1 is a block diagram of a photographing apparatus to which an exposure control method according to a distance of a subject according to an embodiment of the present invention is applied;

2 is a graph illustrating a position of a focus lens according to AF data;

3 is a flowchart provided to explain a method of controlling an exposure amount according to a distance of a subject according to an embodiment of the present invention; and

4A and 4B are graphs illustrating the exposure control method performed by the controller of FIG. 3.

Explanation of symbols on the main parts of the drawings

110: lens unit 120: aperture

130: CCD 140: image signal processing unit

141: CDS / AGC 143: A / D conversion unit

145: digital signal processing unit 150: storage unit

160: control unit 161: location search unit

163: distance determination unit 170: aperture driving unit

The present invention relates to a photographing apparatus for controlling the exposure amount according to the distance of the subject, and more particularly, to a distance of the subject for adjusting the brightness of the shooting environment according to the distance of the subject during strobe light in the absence of a dimmer sensor. It relates to a method of controlling the exposure amount and a photographing apparatus applying the same.

The photographing apparatus captures an image by detecting light reflected from a subject using a photoelectric conversion element. Such photographing apparatuses include digital cameras and digital camcorders.

In general, the photographing apparatus includes a dimming sensor, the dimming sensor is a sensor for measuring the amount of light emitted during strobe light to adjust the amount of light emission according to the degree of light emission.

However, in order to reduce costs, a photographing apparatus without a dimming sensor is required, and such a photographing apparatus without the dimming sensor is difficult to control the amount of light emitted during strobe light.

This is because, in the conventional photographing apparatus without the dimming sensor, the amount of strobe light is fixed, so when the subject is far from the lens, the amount of light is insufficient and the image is too dark, and when the subject is near the lens, the image is too bright.

Therefore, an exposure amount control method for supplying an appropriate exposure amount to a captured image is required so that a subject may be photographed with natural brightness even if the strobe light emission amount is fixed in the photographing apparatus without a dimmer sensor.

Accordingly, an object of the present invention is to provide a method of controlling an exposure amount according to a distance of a subject to adjust exposure according to a distance of a subject from a lens of a photographing apparatus when strobe light is emitted in the absence of a dimmer sensor, and a photographing apparatus using the same.

Exposure control method according to the present invention for achieving the above object comprises the steps of: converting an optical signal received from a subject into an electrical signal; Converting the electrical signal into a digital video signal to separate a luminance signal and calculate AF data; The focus lens position value of the AF data is determined based on the pre-stored focus lens position value of the subject and the distance values of the subject corresponding to the focus lens position value, based on the AF data. And determining a distance value of the subject corresponding to the focus lens position value and controlling the exposure amount based on the difference between the luminance signal and the distance value of the subject.

Preferably, the controlling step includes: searching whether the focus lens position value corresponding to the focus lens position value for the subject exists; And if there is a value searched in the search step, determines the searched value as the distance value of the subject, and if there is no searched value, the focus lens position value corresponding to a previously stored distance boundary value and a focus lens position value for the subject Determining a distance value of the subject by calculating a ratio.

Also preferably, the controlling may include opening and closing of an aperture to adjust the amount of the received optical signal to control the exposure amount of the captured image based on a distance value of the subject, and an electronic shutter speed to adjust the amount of the electrical signal. And controlling the gain of the video signal from which the noise is removed from the electrical signal.

On the other hand, the photographing apparatus for controlling the exposure amount according to the distance of the subject of the present invention, an image pickup device for converting the optical signal received from the subject into an electrical signal, and converts the output signal of the image pickup device into a digital video signal to separate the luminance signal An image signal processor configured to calculate AF data, and a storage unit configured to store a focus lens position value focused on the subject and a distance value of the subject corresponding to the focus lens position value based on the AF data; And determining a focus lens position value with respect to the AF data by referring to the values stored in the storage unit, determining a distance value of the subject corresponding to the focus lens position value, and adjusting an exposure amount based on the luminance signal difference and the subject distance value. It is provided with a control part for controlling.

The storage unit may further store a distance boundary value for distinguishing a macro area close to a preset subject distance from a photographing area after the macro area and a focus lens position value corresponding to the distance boundary value.

Preferably, the controller may further include: a position search unit for searching whether the focus lens position value coinciding with the focus lens position value of the subject exists in the storage unit; and if the value is found in the position search unit, the searched value is used as the distance value of the subject. And a distance determiner configured to determine a distance value of the subject by calculating a ratio between the focus lens position value corresponding to the distance boundary value and the focus lens position value with respect to the subject if there is no searched value.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

1 is a photographing apparatus for controlling an exposure amount according to a distance of a subject according to an embodiment of the present invention.

Referring to FIG. 1, the photographing apparatus for controlling the exposure amount according to the present invention includes a lens unit 110, an aperture 120, a CCD 130, an image signal processor 140, a storage unit 150, and a controller 160. And an aperture driving unit 170.

First, the lens unit 110 includes a zoom lens (not shown) capable of enlarging or reducing the size of the subject, a focus lens (not shown) for adjusting the focus of the subject, and an aperture 120 for adjusting the amount of light. Receives an optical signal from a subject.

The CCD 130 is an imaging device that converts and outputs an optical signal of a subject incident through the lens unit 110 into an electrical signal.

The image signal processor 140 separates the luminance signal from the digital image signal generated by performing predetermined signal processing on the electrical signal output from the CCD 130 and outputs AF data. In order to perform such an operation, the image signal processor 140 includes a CDS / AGC 141, an A / D converter 143, and a digital signal processor 145.

The CDS / AGC 141 removes noise included in the electrical signal received from the CCD 130 and adjusts the gain so that the level of the input image signal is kept constant.

The A / D converter 143 converts an analog video signal input from the CDS / AGC 141 into a digital video signal.

The digital signal processor 145 separates the luminance signal by performing predetermined signal processing on the digital image signal output from the A / D converter 143, and converts the contrast based on the luminance difference of the image signal. One AF data is calculated.

The storage unit 150 corresponds to a focus lens position value and a distance value of the subject corresponding to the focus lens position value, and a distance boundary value and a distance boundary value for distinguishing a macro region close to the subject distance and a photographing region after the macro region. The position of the focus lens to be stored.

Here, the distance boundary value is a distance value that distinguishes the boundary between the distance between the object and the distance from the lens.

The controller 160 includes a location searcher 161 and a distance determiner 163. The controller 160 determines a focus lens position value of the AF data input from the digital signal processor 145, and determines a distance value of the subject corresponding to the focus lens position value.

The controller 160 controls the aperture driver 170, the CCD 130, and the image signal processor 140 to correct the exposure of the captured image so as to supply an appropriate exposure amount to the determined distance value of the subject.

Referring to FIG. 2, the AF data has the largest value at the position PF of the focus lens in which focus is accurately achieved. When the focus lens moves from the out of focus position to the correct position, the AF data gradually increases, and gradually decreases after passing the focused position.

Accordingly, the position value of the focus lens moved to focus the subject to be photographed based on the AF data can be known.

The position search unit 161 searches whether the focus lens position value corresponding to the focus lens position value of the subject exists among the focus lens position values stored in the storage unit 150.

The distance determiner 163 determines a distance value corresponding to the focus lens position value searched by the position searcher 161 as the distance value of the subject. The distance value of the subject is determined by calculating a ratio with respect to the focus lens position value.

More specifically, the controller 160 adjusts the opening and closing degree of the aperture 120 to provide the exposure amount according to the distance of the subject to be photographed based on the distance boundary value stored in the storage 150. The exposure of the captured image is corrected by controlling the electronic shutter speed for adjusting the electrical signal amount of the CCD 130 and the image signal processor 140 for adjusting the gain of the image signal from which the noise is removed from the electrical signal.

The aperture driver 170 drives an aperture motor (not shown) to control the degree of opening and closing of the aperture 120 to adjust the amount of light received from the subject.

Hereinafter, a method of controlling an exposure amount of a photographing apparatus according to an exemplary embodiment of the present invention will be described with reference to FIGS. 3, 4A, and 4B.

3 is a flowchart illustrating a method for controlling an exposure amount of the photographing apparatus illustrated in FIG. 2, and FIGS. 4A and 4B are graphs for describing the method for controlling an exposure amount of FIG. 3.

3, 4A, and 4B, first, a luminance signal is separated from a subject and a focus lens position value that is focused on the subject is determined (S201).

That is, the image signal processor 140 converts the optical signal received from the subject into an electrical signal and performs predetermined signal processing to separate the luminance signal, and the controller 160 data-contrast the contrast based on the luminance difference of the digital image signal. The focus lens position value is determined based on the AF data at the position where one AF data has a peak to peak.

Subsequently, it is searched whether among the focus lens position values previously stored in the storage unit 150, a value coinciding with the determined focus lens position value for the subject exists (S203). If there is a focus lens position value for the detected subject, a distance value corresponding to the focus lens position value is determined as the distance value of the subject (S205).

If there is no focus lens position value with respect to the found subject, the controller 160 determines a distance value of the subject by calculating a ratio between the focus lens position value corresponding to the preset distance boundary value and the focus lens position value with respect to the subject ( S207).

 Next, at least one of the opening and closing degree of the aperture controlling the amount of light received from the subject, the electronic shutter speed controlling the amount of the electrical signal, and the gain of the image signal from which the noise is removed from the electrical signal to control the exposure amount to the distance value of the subject are determined. Controlling to correct the exposure of the captured image (S209).

In detail, referring to FIG. 4A, the exposure amount is E _A at the target brightness T _b based on the luminance difference of the digital video signal at the distance boundary value in the moving picture and the monitoring state before the still picture shooting, and the brightness of the shooting environment during the strobe shooting. Increases to T _s , so when the exposure E _A is fed to the image, the subject will be taken very brightly.

Thus, in the monitoring state, the exposure amount E _B at the brightness T _s due to strobe light emission is supplied to the captured image to correct the exposure to have an appropriate brightness. In other words, the strobe light output is fixed as T _s -T _b so that the increase in brightness due to strobe light can be seen. Therefore, the exposure is reduced from E _A to E _B by the increased brightness to compensate the exposure to obtain a natural image with appropriate brightness. .

In addition, referring to FIG. 4B, the exposure amount for the target brightness T _b at the distance threshold is E _{B. When} the distance of the subject is smaller than the distance threshold, the brightness of the shooting environment increases to T _s when the strobe is emitted. If the exposure dose E _B that is equal to the distance threshold value is supplied without taking into consideration, the captured image becomes very bright.

Therefore, if the distance of the subject is smaller than the distance boundary value, the exposure amount is reduced by E _C. That is, when the distance of the subject is close, the exposure amount is reduced from E _B to E _C , and the appropriate exposure amount E _C is supplied to the captured image at the target brightness T _b to compensate for the exposure.

4A and 4B, graphs showing a relationship between exposure amount to brightness of a photographing environment at a distance boundary value for distinguishing a macro region close to a subject and a photographing region after the macro region are values generated by experiments.

As described above, according to the exposure amount control method of the photographing apparatus according to the present invention, the image quality of the photographed image may be improved by correcting the exposure in consideration of the distance from the lens to the subject during strobe light emission.

In addition, while the above has been shown and described with respect to preferred embodiments of the present invention, the present invention is not limited to the specific embodiments described above, the technology to which the invention belongs without departing from the spirit of the invention claimed in the claims Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

Claims (5)

Converting an optical signal received from a subject into an electrical signal; Converting the electrical signal into a digital video signal to separate a luminance signal and calculate AF data; And The focus lens position value of the AF data is determined based on the pre-stored focus lens position value of the subject and the distance values of the subject corresponding to the focus lens position value, based on the AF data. Determining a distance value of the subject corresponding to the focus lens position value and searching whether the focus lens position value corresponding to the focus lens position value for the subject exists; If there is a value found in the searching step, the searched value is determined as the distance value of the subject. If there is no searched value, the focus lens position value corresponding to the previously stored distance boundary value and the focus lens position value for the subject are determined. Calculating a ratio to determine a distance value of the subject; And And controlling the exposure amount based on the difference between the luminance signal and the distance value of the subject. delete The method of claim 1, The control step, The image signal from which the noise is removed from the electrical signal and the opening and closing degree of the aperture adjusting the received optical signal amount, the electronic shutter speed adjusting the electrical signal amount, and the electrical signal to control the exposure amount of the photographed image based on the distance value of the subject And controlling at least one of the gains of the exposure apparatus. An imaging device for converting an optical signal received from a subject into an electrical signal; An image signal processing unit converting an output signal of the image pickup device into a digital image signal to separate a luminance signal and calculate AF data; A storage unit for storing a focus lens position value at which the subject is in focus and a distance value of the subject corresponding to the focus lens position value based on the AF data; A position search unit for searching whether the focus lens position value coinciding with the focus lens position value of the subject exists in the storage unit; If there is a value searched by the position search unit, the searched value is determined as a distance value of the subject. If there is no searched value, a focus lens position value corresponding to a previously stored distance boundary value and a focus lens position value for the subject are determined. A distance determiner configured to calculate a ratio and determine a distance value of the subject; And And a controller configured to control an exposure amount based on the difference between the luminance signal and the distance value of the subject. The method of claim 4, wherein The storage unit, And a distance boundary value for distinguishing a predetermined macro area from which the subject distance is close to a preset shooting area after the macro area, and the focus lens position value corresponding to the distance boundary value.

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