KR20090095851A - Camera and photographing method - Google Patents

Abstract

A camera and a photographing method are provided to locate a filter on a light emitting path according to a determined photographing environment, thereby lessening intensity of emitting light. A filter(30) reduces a light amount of a light emitting unit(20). A controller(50) preliminarily emits the light emitting unit before main photographing. The controller determines a photographing environment of a subject from an electric signal of an image device(10). The controller drives a filter moving unit(40) according to the determination. The controller controls the light emitting unit to emit light.

Description

Camera and photographing method

The present invention relates to a camera and a photographing method, and more particularly, to a camera and a photographing method capable of effectively photographing a scene having insufficient light due to a soft atmosphere such as a cafe without shaking.

In a cafe-like space, a soft atmosphere of lighting is used, so when shooting in a cafe-like space, it is good to take a picture without emitting a flash. This is because when the flash is emitted, strong light generated by the flash's emission illuminates the subject, thereby emphasizing the subject rather than the surroundings. If the subject is over-emphasized due to the strong light of the flash, the unique atmosphere of the cafe space created through soft lighting cannot be captured in the photograph.

However, there was a problem that the picture is shaken when the non-luminous photographing is performed without shooting the flash under soft light. The space with the soft lighting is dark overall, so there is not enough light to take a picture. In order to shoot in low light conditions, a slow shutter speed must be set, so in this state, blurring of the photo due to camera shake is likely to occur.

SUMMARY OF THE INVENTION An object of the present invention is to provide a camera and a photographing method capable of effectively capturing a scene in which light is insufficient because light of a subtle atmosphere is used.

It is another object of the present invention to provide a camera and a photographing method capable of photographing a softly lit scene lacking light without shaking.

The present invention provides a camera and a photographing method capable of effectively photographing a scene in which light is insufficient, such as a cafe, by using a light of a subtle atmosphere without shaking.

The camera according to the present invention comprises an image pickup device for receiving an image of a subject and converting it into an electrical signal, light emitting means for emitting light toward the subject, a filter for reducing the amount of light from the light emitting means, and an external signal to emit the filter. Filter moving means for moving between the first position on the path and the second position deviating from the light emitting path, and preliminarily emitting the light emitting means prior to the main imaging and judging the photographing environment of the subject from the electrical signal of the image pickup device at the time of preliminary light emitting; And a control unit for driving the filter moving unit and mainly emitting the light emitting unit.

In the present invention, the control unit may move the filter to the first position when the color temperature of the photographing environment of the subject is in the range of 2900 K (Kelvin) to 3100 K.

In the present invention, the control unit corresponds to a brightness calculator that calculates brightness information from the electrical signal of the imaging device, and corresponds to each color of red, green, and blue from the electrical signal of the imaging device. And a color information calculator configured to calculate color information of the R gain, the G gain, and the B gain.

In the present invention, the control unit determines that the brightness of the photographing environment of the subject is in the range of 7 to 11 lux from the brightness information, and determines that the R gain and the B gain of the color information satisfy the following equation. Can be moved to the first position.

R gain> B gain × 2

The photographing method according to the present invention includes a preliminary light emitting step of emitting light emitting means, a preliminary imaging step of picking up an image of the subject in the preliminary light emitting step, and a photographing environment of the subject from the imaging results of the preliminary imaging step to determine the light emitting means. A light intensity adjusting step of arranging a filter on a light emitting path of the light emitting means when it is determined that the photographing environment needs to be alleviated, and a main imaging step of performing normal imaging of the light emitting means and performing main imaging.

In the present invention, the light intensity adjusting step can be determined as a photographing environment where the light intensity of the light emitting means needs to be relaxed when the color temperature of the photographing environment of the subject is in the range of 2900 K (Kelvin) to 3100 K.

In the present invention, the light intensity adjustment step includes a brightness calculation step of calculating brightness information from the imaging result of the preliminary imaging step, and red, green, and blue from the imaging result of the preliminary imaging step. A color information calculating step of calculating color information of R gain, G gain, and B gain corresponding to each color of may be included.

In the present invention, in the light intensity adjustment step, the brightness of the photographing environment of the subject is in the range of 7 to 11 lux from the brightness information, and it is determined that the R gain and the B gain of the color information satisfy the following equation. In this case, it may be determined that the photographing environment in which the light intensity of the light emitting means needs to be relaxed.

R gain> B gain × 2

In the camera and the photographing method of the present invention as described above, when it is determined that the shooting environment is an environment in which a soft atmosphere of lighting is used, such as a cafe, the filter is located on the light emitting path and the intensity of the light emitted is relaxed. Lighting can be used to effectively capture scenes with low light levels, and can be taken without shaking, while keeping the scene in a soft light.

Hereinafter, with reference to the embodiments of the accompanying drawings, the configuration and operation of the camera and the photographing method according to the present invention will be described in detail.

1 is a block diagram of a camera according to an embodiment of the present invention.

The camera according to the embodiment shown in FIG. 1 includes an image pickup device 10 that receives an image of a subject and converts it into an electrical signal, a light emitting means 20 that emits light toward the subject, and a filter that reduces the amount of light of the light emitting means ( 30, a filter moving means 40 for moving the filter, and a controller 50 for driving the filter moving means 40 and controlling the light emitting means 20.

The imaging device 10 is a photoelectric conversion device that is disposed at a position where image light of a subject is formed into an image and converts the formed image into an electrical signal. Therefore, the image pickup device 10 plays a central role in shooting of the camera. The imaging device 10 is electrically connected to the control unit 50 to exchange signals with the control unit 50 to operate. As the imaging device 10, a charge coupled device (CCD) imaging device, a complementary MOS (CMOS) imaging device, or the like may be used.

The light emitting means 20 emits light toward the subject at a predetermined timing and amount of light according to an instruction from the controller 50. There are two kinds of light amount emitted by the light emitting means 20, that is, main light emission and preliminary light emission. The preliminary light emission emits light of a light amount suppressed more than the main light emission so that the main light emission can be performed within a short time after the light emission operation.

The controller 50 is electrically connected to the imaging device 10 and the light emitting means 20, and functions to exchange control signals with these components, process data, and the like to control the operation of each component. To perform. The controller 50 includes an image processor 51, a light emission controller 52, a filter driver 53, a brightness calculator 54, a color information calculator 55, a mode setting unit 56, and photographing. Environmental determination unit 57;

The imaging device 10 receives an image light of a subject to generate an electrical signal. The image processing unit 51 of the control unit 50 converts the electrical signal input from the imaging element 10 into image data.

The filter 30 functions to reduce the light amount of the light emitting means 20. An ND filter (neutral density filter) may be used for the filter 30. The ND filter is a lens filter used when the brightness of the scene is adjusted to be low, and can reduce the amount of incident light of the lens evenly over the full wavelength band.

The filter 30 has a first position on the light emission path (the position represented by the solid line in FIG. 1), which is a path through which the light emitted by the light emitting means 20 passes, and a second position away from the light emission path (the dotted line in FIG. 1). Is positioned to be moveable between).

The filter moving means 40 functions to move the filter 30 between the first position and the second position. The filter moving means 40 may be provided with an actuator such as a motor. That is, the filter 30 is connected to the rotating shaft of the motor, and as the rotating shaft rotates, the filter 30 may move between the first position on the light emitting path and the second position deviating from the light emitting path.

As another configuration form, the filter moving means 40 may be provided with a sliding structure including an electromagnet. The sliding structure has an electromagnet driven by a control signal input from the outside, and the filter 30 can move between the first position and the second position by connecting the filter 30 to the electromagnet. In addition to the configuration of the filter moving means 40 may be modified in various forms, the present invention is not limited by the configuration of such a filter moving means (40).

The mode setting unit 56 functions to set an operation mode of the control unit 50 based on a signal received through the input unit 60 which the user manipulates to input setting information. When the user operates the input unit 60, the mode setting unit 56 sets the cafe mood shooting mode to the operation mode of the controller 50, and the controller 50 controls the shooting environment of the subject when the cafe mood shooting mode is in the cafe atmosphere shooting mode. Accordingly, the filter moving unit 40 may be driven.

The controller 50 preliminarily emits the light emitting means 20 before performing the main imaging using the imaging device 10. Then, the photographing environment of the subject is determined from the electrical signal of the image pickup device 10 during the preliminary light emission, and the filter driver 53 drives the filter moving means 40 according to the determination result to move the filter 30 to the first position. Or move it to the second position. The determination of the shooting environment may be performed by the shooting environment determiner 57.

The photographing environment determiner 57 may determine that the photographing environment is in a cafe atmosphere when the color temperature of the photographing environment of the subject is in the range of 2900 K to 3100 K. FIG. Among various properties of light, color temperature refers to the spectral distribution of a light source as a Kelvin temperature unit. All light has a color temperature, and as the color temperature increases, the composition ratio of the blue wavelength with higher energy increases and appears cold. On the contrary, when the color temperature decreases, the composition ratio of the red wavelength increases and appears warm.

Since the color temperature of a space where a soft atmosphere lighting is used, such as a cafe, is measured in the range of 2900 K to 3100 K, the control unit 50 moves the filter 30 to the first position in the shooting environment having the color temperature in this range. It is good. When the filter 30 moves to the first position, the filter 30 may relieve the amount of light of the light emitting means 20. Preferably, the control unit 50 moves the filter 30 to the first position when the color temperature of the shooting environment is about 3000K.

Specifically, in the present embodiment, the shooting environment determination unit 57 of the control unit 50 has the color temperature of the shooting environment of the subject in the range of 2900K to 3100K based on the calculation result of the brightness calculator 54 and the color information calculator 55. To judge that.

The brightness calculator 54 of the controller 50 performs a function of calculating brightness information from the image data of the image processor 51. The brightness information may be expressed in various units. In the present embodiment, lux (lux) is used as a unit representing brightness information (lighting degree) indicating a degree of illumination. That is, the image processing unit 51 calculates, from the image data, brightness information related to the shooting environment of the subject in units of lux. Lux is the illumination degree of the surface when the luminous flux of 1 lm (lumen) is distributed uniformly in the area of 1m <2>. In other words, the illuminance of the surface perpendicular to the ray 1 m away from the point light source of 1 cd (candela) is 1 ㏓.

The color information calculating unit 55 of the control unit 50 uses the R gain and the G gain corresponding to each color of red, green, and blue from the image data of the image processing unit 51. Calculates color information of, and B gain.

The photographing environment judging section 57 has a brightness of 7 to 11 lux, which is the result of the calculation of the brightness calculating section 54, and the R gain and the B gain of the color information which is the result of the calculation of the color information calculating section 55. When the following expression is satisfied, it is determined that the color temperature of the photographing environment of the subject is in the range of 2900K to 3100K.

R gain> B gain × 2

After the photographing environment determiner 57 of the controller 50 performs the determination of the photographing environment and the filter driver 53 drives the filter moving means 40 according to the determination result, the light emission controller 52 emits light. The main image is light-emitted by the image pickup device 10 by carrying out the main emission of the reference numeral 20.

2 is a flowchart illustrating a photographing method according to an embodiment of the present invention.

The photographing method according to the embodiment shown in FIG. 2 corresponds to a photographing method performed when the photographing mode of the camera is set to a cafe mood photographing mode suitable for photographing a subtle mood scene such as a cafe.

In the photographing method according to the embodiment of FIG. 2, the light intensity of preliminary light emitting step S100, preliminary imaging step S110, and the photographing environment is determined S120, and a filter is disposed on a light emitting path if necessary (S130). And an adjusting step and a main imaging step of performing the main imaging (S150) together with the main light emission (S140).

The preliminary light emission step S100 is a step of preliminarily emitting the light emitting means, and emits light with the amount of light suppressed before performing the main light emission.

The preliminary imaging step S110 may be performed together with the preliminary light emission step S100. In the preliminary imaging step (S110), the imaging device is a preliminary imaging step in which an image of an object is received and changed into an electrical signal. In this imaging step, which will be described below, image data generated from an electrical signal by the imaging device may be the final result of shooting, but the electrical signal of the imaging device obtained in the preliminary imaging step S110 may be used to determine the shooting environment. It can be used as data for.

The light intensity adjusting step includes determining a photographing environment (S120) and disposing a filter (S130). The determining of the shooting environment (S120) is a step of determining the shooting environment of the subject from the imaging result of the preliminary imaging step. In the determining of the photographing environment (S120), when the color temperature of the photographing environment of the subject is in the range of 2900 K (Kelvin) to 3100 K, it is determined that the photographing environment requires the light intensity of the light emitting means to be relaxed.

The determining of the shooting environment (S120) may include a brightness calculation step and a color information calculation step to determine whether the color temperature of the shooting environment is in a range of 2900 K (Kelvin) to 3100 K. In the determining of the shooting environment (S120), the brightness of the shooting environment of the subject calculated in the brightness calculating step is in a range of 7 to 11 lux, and the R gain and B of the color information calculated by the color information calculating step. If it is determined that the gain satisfies the following equation, it is determined that the imaging environment is required to reduce the light intensity of the light emitting means.

R gain> B gain × 2

If it is determined that the light intensity of the light emitting means is required in the step S120 of determining the photographing environment, the step of disposing the filter may include disposing the filter in the light emitting path (the filter moves to the first position). This reduces the intensity of light.

If it is determined that the light intensity of the light emitting means is not necessary in the step S120 of determining the shooting environment, the step of disposing the filter may include disposing the filter so as to deviate from the light emission path (the filter moves to the second position). )do.

After arranging the filter (S130), a main imaging step (S140) is performed in which main light emission (S140) which mainly emits light emitting means and main imaging (S150) in which light of a subject is converted into an electric signal by an imaging device are performed. .

Conventionally, when shooting under a soft atmosphere such as a cafe, the amount of light required for camera shooting was insufficient, and the flash had to be fired. I couldn't put it in the picture. Also, in order to avoid this phenomenon, if the picture was taken without emitting the flash, blurring may occur in the picture.

However, in the camera and the photographing method according to an embodiment of the present invention, the filter emits light when it is determined that the photographing environment in which the subject is photographed by the photographing environment determining unit or the light intensity adjusting step is an environment where a soft atmosphere is used, such as a cafe. The intensity of the light emitted by the light emitting means by moving to the first position located on the path can be alleviated. Therefore, the light of the subtle atmosphere can be used to effectively capture a scene lacking light, and can take a picture without being shaken while keeping the scene of the subtle lighting sufficiently.

Although the present invention has been described with reference to the above-described embodiments, these are merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the appended claims.

1 is a block diagram of a camera according to an embodiment of the present invention.

2 is a flowchart illustrating a photographing method according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: imaging device 53: filter drive section

20: light emitting means 54: brightness calculator

30: filter 55: color information calculation unit

40: filter moving means 56: mode setting unit

50: control unit 57: shooting environment determination unit

51: image processing unit 60: input unit

52: light emission control unit

Claims (8)

An imaging device which receives an image of a subject and converts the image into an electrical signal; Light emitting means for emitting light toward a subject; A filter for reducing the amount of light of the light emitting means; Filter moving means, actuated by an external signal, to move the filter between a first position on the light emitting path and a second position away from the light emitting path; And And a control unit which preliminarily emits the light emitting means, determines the photographing environment of the subject from the electric signal of the imaging element at the time of preliminary light emission, drives the filter moving means, and performs the main light emission of the light emitting means. , Camera. The method of claim 1, And the control unit moves the filter to the first position when the color temperature of the photographing environment of the subject is in the range of 2900 K (Kelvin) to 3100 K. The method of claim 1, The controller may include a brightness calculator that calculates brightness information from an electrical signal of the imaging device, and an R gain corresponding to each color of red, green, and blue from the electrical signal of the imaging device. gain), a G gain, and a color information calculating section for calculating the color information of the B gain. The method of claim 3, The controller may determine that the brightness of the photographing environment of the subject is in the range of 7 to 11 lux from the brightness information, and the R gain and the B gain of the color information satisfy the following equation. A camera for moving a filter to said first position: R gain> B gain × 2 A preliminary light emitting step of emitting light emitting means; A preliminary imaging step of imaging an image of a subject in the preliminary light emitting step; A light intensity adjusting step of determining a photographing environment of the subject from the photographing result of the preliminary imaging step, and arranging a filter on a light emitting path of the light emitting means when it is determined that the photographing environment needs to be alleviated by the light intensity of the light emitting means; And And a main imaging step of performing main imaging of the light emitting means and performing main imaging. The method of claim 5, And the light intensity adjusting step determines whether the light intensity of the light emitting means needs to be relaxed when the color temperature of the photographing environment of the subject is in the range of 2900 K (Kelvin) to 3100 K. The method of claim 5, The light intensity adjustment step includes a brightness calculation step of calculating brightness information from the imaging result of the preliminary imaging step, and an angle of red, green, and blue from the imaging result of the preliminary imaging step. And a color information calculating step of calculating color information of the R gain, the G gain, and the B gain corresponding to the color. The method of claim 7, wherein In the step of adjusting the light intensity, it is determined that the brightness of the photographing environment of the subject is in the range of 7 to 11 lux from the brightness information, and the R gain and the B gain of the color information satisfy the following equation. If so, it is determined that the shooting environment in which the light intensity of the light emitting means needs to be relaxed. R gain> B gain × 2

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