KR101457410B1 - Camera and photographing method - Google Patents

Abstract

A camera according to the present invention comprises an image pickup element for receiving an image of a subject and converting it into an electric signal, light emitting means for emitting light toward the subject, filter for reducing the light amount of the light emitting means, A filter moving means for moving between a first position on the path and a second position deviating from the light emitting path; a filter moving means for preliminarily emitting the light emitting means prior to the actual imaging and determining the shooting environment of the object from the electric signal of the imaging element at the time of preliminary light emission And a controller for driving the filter moving means and causing the light emitting means to emit light.

Description

Camera and photographing method

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a camera and a photographing method, and more particularly, to a camera and a photographing method which can effectively photograph a scene in which a light quantity is insufficient, such as a cafe,

Since a light environment such as a cafe is used in a mild atmosphere, it is preferable to take a picture without emitting the flash when shooting in a cafe-like space. When the flash is emitted, strong light due to flash emission of the flash illuminates the subject to emphasize the subject more than the surroundings. If the subject of the subject is over emphasized by the strong light of the flash, the unique atmosphere of the café space created by the soft lighting can not be put into the picture.

However, there has been a problem that the photograph is shaken when the non-luminescent photographing is performed under the soft lighting without photographing the flash. The space where the soft lighting is installed is totally dark, so there is not enough light to take pictures. Since the shutter speed must be set to a slow speed in order to take a picture in a state in which the light amount is insufficient, a picture shake due to hand shake easily occurs in this state.

An object of the present invention is to provide a camera and a photographing method which can effectively photograph a scene in which a light amount is insufficient by using illumination in a soft atmosphere.

Another object of the present invention is to provide a camera and a photographing method capable of photographing a scene of a soft light which is lacking in light quantity without shaking.

The present invention provides a camera and a photographing method capable of effectively photographing a scene in which a light amount is insufficient by using a light in a mild atmosphere like a cafe.

A camera according to the present invention comprises an image pickup element for receiving an image of a subject and converting it into an electric signal, light emitting means for emitting light toward the subject, filter for reducing the light amount of the light emitting means, A filter moving means for moving between a first position on the path and a second position deviating from the light emitting path; a filter moving means for preliminarily emitting the light emitting means prior to the actual imaging and determining the shooting environment of the object from the electric signal of the imaging element at the time of preliminary light emission And a controller for driving the filter moving means and causing the light emitting means to emit light.

In the present invention, the control unit can 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 includes a brightness computing unit for computing brightness information from the electrical signals of the image sensing element, and a controller for computing brightness values corresponding to the respective colors of red, green, and blue from the electrical signals of the image sensing element And a color information computing section for computing color information of R gain, G gain, and B gain.

In the present invention, when the brightness of the photographing environment of the subject is in the range of 7 to 11 lux based on the brightness information and it is determined that the R gain and the B gain of the color information satisfy the following expression, To the first position.

R gain> B gain × 2

A photographing method according to the present invention is a photographing method including a preliminary light emitting step for emitting light from a light emitting means, a preliminary image pickup step for picking up an image of a subject in a preliminary light emitting step, A light intensity adjusting step of disposing a filter on the light emission path of the light emitting means when it is determined that the light environment is required to be relaxed, and an image pickup step of performing the image pickup with light emission by the light emitting means.

In the present invention, the light intensity adjusting step can be judged as a photographing environment in which 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 adjusting step may include a brightness calculating step of calculating brightness information from an image pickup result of the preliminary image pickup step, a brightness calculating step of calculating brightness information of red, green and blue from the image pickup result of the preliminary picking- And a color information calculating step of calculating color information of R gain, G gain, and B gain corresponding to the respective colors of the image data.

In the present invention, the light intensity adjusting step 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 that the R gain and the B gain of the color information satisfy the following equations It can be judged that the photographing environment is required to reduce the light intensity of the light emitting means.

R gain> B gain × 2

The camera and the photographing method of the present invention as described above, when it is judged that the photographing environment is an environment in which a light of a mild atmosphere such as a cafe is used, the intensity of light emitted by the filter is located on the light- The lighting can be used effectively to shoot scenes with insufficient light, and the scenes of soft lighting can be fully utilized while shooting without shaking.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the configuration and operation of a camera and a photographing method according to the present invention will be described in detail with reference to the accompanying drawings.

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 for receiving an image of a subject and converting it into an electric signal, light emitting means 20 for emitting light toward the subject, and a filter A filter moving means 40 for moving the filter and a control unit 50 for driving the filter moving means 40 and controlling the light emitting means 20. [

The imaging element 10 is a photoelectric conversion element arranged at a position where image light of a subject is imaged into an image, and has a function of converting an image formed into an electrical signal. Therefore, the image pickup element 10 functions as a central feature in photographing the camera. The image pickup device 10 is electrically connected to the control unit 50 and operates to exchange signals with the control unit 50. As the image pickup device 10, a CCD (charge coupled device) image pickup device, a CMOS (complementary MOS) image pickup device, or the like can be used.

The light emitting means 20 emits light toward the subject at a predetermined timing and amount of light in accordance with an instruction from the control unit 50. [ There are two types of light quantities emitted by the light emitting means 20: primary light emission and preliminary light emission. The preliminary light emission emits light with a light amount suppressed more than the present light emission so that the present light emission can be performed within a short time after the light emission operation.

The control unit 50 is electrically connected to the image pickup device 10 and the light emitting means 20 and has a function of exchanging control signals with these components for controlling the operation of the respective components, . The control unit 50 includes an image processing unit 51, a light emission control unit 52, a filter driving unit 53, a brightness computing unit 54, a color information computing unit 55, a mode setting unit 56, An environment determination unit 57, and the like.

The image pickup device 10 receives an image light of a subject and generates an electrical signal. The image processing unit 51 of the control unit 50 converts an electric signal inputted from the image pickup device 10 into image data.

The filter 30 functions to reduce the light amount of the light emitting means 20. [ The filter 30 may be a neutral density filter (ND filter). The ND filter is a lens filter used to adjust the brightness of the scene to a low level, and can reduce the incident light amount of the lens evenly over the propagation field band.

The filter 30 has a first position (a position represented by a solid line in Fig. 1) on a light emitting path, a path through which light emitted by the light emitting means 20 passes, and a second position (I.e., a position represented by a " center ").

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 have an actuator such as a motor. That is, the filter 30 is connected to the rotation axis of the motor, and as the rotation axis rotates, the filter 30 can move between the first position on the light emitting path and the second position off the light emitting path.

In another configuration, the filter moving means 40 may include a sliding structure including an electromagnet. The sliding structure includes 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, the configuration of the filter moving means 40 may be modified in various forms, but the present invention is not limited by the configuration of the filter moving means 40 described above.

The mode setting unit 56 functions to set the operation mode of the control unit 50 based on a signal received through the input unit 60 operated by the user to input setting information. When the user operates the input unit 60, the mode setting unit 56 sets the operation mode of the control unit 50 to the cafe atmosphere shooting mode, and when the control unit 50 is in the cafe atmosphere shooting mode, The filter moving means 40 can be driven.

The control unit 50 preliminarily emits the light emitting means 20 prior to performing the image pickup using the image pickup device 10. [ The filter driving unit 53 drives the filter moving unit 40 in accordance with the result of the determination to determine the photographing environment of the subject from the electrical signal of the imaging element 10 at the time of the preliminary light emission, To the second position. The determination of the shooting environment can be performed by the shooting environment determination unit 57. [

The photographing environment judging unit 57 can judge that the photographing environment is in the cafe atmosphere when the color temperature of the photographing environment of the subject is in the range of 2900 K to 3100 K. [ Among the various characteristics of light, the color temperature refers to the spectral distribution of the light source defined as Kelvin temperature unit. All light has a color temperature, and the higher the color temperature, the cooler the blue wavelength component ratio increases, while the lower the color temperature, the warmer the red wavelength component ratio increases.

Since the color temperature of the space in which the light of the mild atmosphere such as the cafe is used 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 photographing environment having the color temperature in this range It is good. When the filter 30 moves to the first position, the filter 30 can relax the light amount of the light emitting means 20. [ Preferably, the controller 50 moves the filter 30 to the first position when the color temperature of the shooting environment is about 3000K.

Specifically, in this embodiment, the photographing environment determining unit 57 of the control unit 50 determines whether the color temperature of the photographing environment of the subject is in the range of 2900K to 3100K from the calculation results of the brightness computing unit 54 and the color information computing unit 55 .

The brightness computing unit 54 of the control unit 50 performs a function of computing brightness information from the image data of the image processing unit 51. [ The brightness information can be expressed in various units. In the present embodiment, lux (lx) is used as a unit for expressing brightness information (illumination) indicating brightness of illumination. In other words, the image processing unit 51 calculates brightness information related to the photographing environment of the subject in units of lux from the image data. Lux is a light intensity of a surface when a light flux of 1 lm (lumens) is uniformly distributed over an area of 1 m 2. That is, the illuminance of the plane perpendicular to the ray 1 m away from the point source of 1 cd (candela) is 1..

The color information calculation unit 55 of the control unit 50 calculates the R gain corresponding to each color of red, green and blue from the image data of the image processing unit 51, , And B gain of the image data.

The photographing environment judgment unit 57 judges that the brightness which is the calculation result of the brightness calculation unit 54 is in the range of 7 to 11 lux and the R gain and the B gain of the color information which are the calculation result of the color information calculation unit 55 If 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 judging section 57 of the control section 50 judges the photographing environment and the filter driving section 53 drives the filter moving section 40 in accordance with the judgment result, So that the image pickup device 10 performs the image pickup.

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

The photographing method according to the embodiment shown in Fig. 2 corresponds to the photographing method performed when the photographing mode of the camera is set to the cafe atmosphere photographing mode suitable for photographing a scene with a mild atmosphere such as a cafe.

The photographing method according to the embodiment of Fig. 2 includes the steps of preliminary light emission step S100, preliminary photographing step S110, judging the photographing environment (S120) and, if necessary, An adjusting step, and a main imaging step of performing a main imaging (S150) together with the main light emission (S140).

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

A preliminary imaging step (S110) may be performed together with the preliminary light emitting step (S100). In the preliminary imaging step (S110), the imaging element is a preliminary imaging step in which an image of the object is received and changed into an electric signal. Although the image data generated from the electric signal by the image pickup device can be the final result of the image pickup in the image pickup step described below, the electric signal of the image pickup device obtained in the preliminary image pickup step (S110) As shown in FIG.

The light intensity adjusting step includes a step S120 of judging the photographing environment and a step S130 of arranging the filter. The step of determining the shooting environment (S120) is a step of determining the shooting environment of the subject from the shooting result of the preliminary shooting stage. The step S120 of judging the photographing environment is judged to be the photographing environment in which 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 step of determining the shooting environment (S120) may include a brightness computing step and a color information computing step to determine whether the color temperature of the shooting environment is in the range of 2900 K (Kelvin) to 3100 K. In step S120, the brightness of the photographing environment of the subject calculated in the brightness calculating step is in the range of 7 to 11 lux. The R gain of the color information calculated by the color information calculating step and B If it is determined that the gain satisfies the following expression, it is judged that the photographing environment is required to lighten 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 needs to be relaxed in the step of determining the photographing environment (S120), the step of arranging the filter (S130) arranges the filter in the light emitting path (the filter moves to the first position) Thereby relieving the intensity of the light.

If it is determined that the light intensity of the light emitting means does not need to be relaxed in the step S120 for determining the photographing environment, the step of arranging the filter S130 may be arranged such that the filter is moved out of the light emitting path )do.

After the step of arranging the filters (S130), the main imaging step is performed in which the main light emission (S140) in which the light emitting means is caused to emit light and the actual imaging (S150) in which the light of the subject is converted into the electric signal by the imaging element .

Conventionally, when shooting under a light environment such as a café, the amount of light required for camera shooting is insufficient and the flash must be emitted. However, due to the strong light of the flash, the subject is excessively emphasized, I could not put it in the picture. In addition, if the flash is photographed without emitting light in order to avoid such a phenomenon, the photograph may be shaken.

However, in the camera and the photographing method according to the embodiment of the present invention, if it is determined that the photographing environment in which the subject is photographed by the photographing environment judging unit or the light intensity adjusting step is an environment in which a light of a mild atmosphere such as a cafe is used, The intensity of the light emitted by the light emitting means can be mitigated by moving to the first position located on the path. Therefore, it is possible to effectively shoot scenes in which the light amount is insufficient by using the light of the soft atmosphere, and it is possible to shoot without taking the shake of the photographed pictures while fully utilizing the scenes of the soft lighting.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the appended claims.

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

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

DESCRIPTION OF THE REFERENCE NUMERALS

10: Imaging element 53: Filter driving part

20: light emitting means 54:

30: filter 55: color information computing unit

40: filter moving means 56: mode setting unit

50: control unit 57: photographing environment judgment unit

51: image processing unit 60: input unit

52:

Claims (8)

An imaging device that receives an image of a subject and converts the image into an electric signal; Light emitting means for emitting light toward a subject; A filter for reducing the light amount of the light emitting means; The filter moving means being operated by an external signal to move the filter between a first position on the light emitting path and a second position off the light emitting path; And And a control unit for preliminarily emitting the light emitting means prior to the actual image pickup and driving the filter moving means to judge the photographing environment of the subject from the electric signal of the image pickup element at the time of preliminary light emission and to cause the light emitting means to emit light and, Wherein 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. delete The method according to claim 1, Wherein the control unit includes a brightness computing unit for computing brightness information from the electrical signals of the image sensing device and an R gain corresponding to each color of red, green, and blue from the electrical signal of the image sensing device gain, G gain, and B gain of the image data. The method of claim 3, When 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 expression, The color temperature of the camera is in the range of 2900 K (Kelvin) to 3100 K, and the filter is moved to the first position. R gain> B gain × 2 A preliminary light emitting step of emitting light from the light emitting means; A preliminary image pickup step of picking up an image of a subject in the preliminary light emission step; A light intensity adjusting step of determining a shooting environment of a subject from the imaging result of the preliminary imaging step and arranging a filter on the light emitting path of the light emitting unit when it is determined that the light intensity of the light emitting unit needs to be relaxed; And And a main image pick-up step of emitting light as a result of the light-emitting means and performing the main image pick- Wherein the light intensity adjusting step determines that the light-emitting 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. delete 6. The method of claim 5, The light intensity adjusting step may include a brightness calculating step of calculating brightness information from the imaging result of the preliminary imaging step and a brightness calculating step of calculating brightness values of red, And a color information calculation step of calculating color information of an R gain, a G gain, and a B gain corresponding to the color. 8. The method of claim 7, The light intensity adjusting step may be such that when 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 equations, Is judged to be a photographing environment in which it is determined that the color temperature of the photographing environment of the light emitting means is in the range of 2900 K (Kelvin) to 3100 K, R gain> B gain × 2

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