JP2013020171A - Light emitting device, imaging apparatus including the same, and dimming method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a light emitting device, an imaging apparatus, and a dimming method which are capable of giving rendering effects to a photographed image in accordance with a selected photographic theme.SOLUTION: A light emitting device (20) includes: a light emitting unit (23) which irradiates an object with light and can change the color temperature; and a light emission control unit (21) which performs such control that the color temperature of the light emitting unit (23) is changed in accordance with a photographic theme selected in order to give rendering effects to a photographed image.

Description

  The present invention relates to a light emitting device, an imaging device including the same, and a light control method.

  Conventionally, a small and power-saving light emitting device having a light emitting unit using an LED is known. In such a light emitting device, there is known a light emitting device that irradiates a subject with auxiliary light in which the color temperature of a light emitting unit is changed in accordance with environmental illumination of a shooting scene (for example, sunset) (for example, Patent Documents). 1).

JP 2008-170875 A

On the other hand, there is a case where it is desired to select a shooting theme and give a rendering effect to the shot image according to the selected shooting theme.
However, in the light-emitting device described in Patent Literature 1, only the auxiliary light corresponding to the environmental illumination of the photographic scene is illuminated to the subject, and a rendering effect cannot be imparted to the photographic image.

  An object of the present invention is to provide a light emitting device, an imaging device, and a dimming method capable of giving a rendering effect to a photographed image according to a selected photographing theme.

  The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this.

According to the first aspect of the present invention, a light emitting unit (23) capable of irradiating a subject with light and changing a color temperature, and a shooting theme selected to give a rendering effect to the shot image And a light emission control unit (21) that controls to change the color temperature of the light emission unit (23) according to the light emission device (20).
The invention according to claim 2 is the light emitting device (20) according to claim 1, wherein the operation unit (24) capable of selecting at least one shooting theme from a plurality of shooting themes, and the plurality of shooting themes. A storage unit (25) for storing information on the color temperature of the light emitting unit (23) corresponding to each of the light emitting units (23), and the light emission control unit (21) sets the shooting theme selected by the operation unit (24). Accordingly, control is performed so as to change the color temperature of the light emitting unit (23) based on information on the color temperature of the light emitting unit (23) stored in the storage unit (25). A light emitting device (20).
The invention according to claim 3 is the light emitting device (20) according to claim 1, wherein at least one shooting theme is automatically selected from a plurality of shooting themes based on the analyzed image data of the subject. An analysis selection unit, and a storage unit (25) that stores information on the color temperature of the light emitting unit (23) corresponding to each of the plurality of shooting themes, and the light emission control unit (21) includes the analysis The color temperature of the light emitting unit (23) is changed based on the information on the color temperature of the light emitting unit (23) stored in the storage unit (25) according to the shooting theme selected by the selection unit. The light emitting device (20).
Invention of Claim 4 is the light-emitting device (20) of Claim 2 or 3, Comprising: The information regarding the color temperature of the said light emission part (23) memorize | stored in the said memory | storage part (25) is changeable It is a light-emitting device (20) characterized by including an easy change part (211).
Invention of Claim 5 is a light-emitting device (20) as described in any one of Claims 1-4, Comprising: The said picked-up image is a moving image, The light-emitting device (20) characterized by the above-mentioned. ).
The invention according to claim 6 is the light emitting device (20) according to claim 5, wherein the light emission control unit (21) changes the color temperature of the light emitting unit (23) over time. A light emitting device (20) characterized by controlling.
Invention of Claim 7 is an imaging device (1) provided with the light-emitting device (20) as described in any one of Claims 1-6.
According to the eighth aspect of the present invention, the color temperature of the light emitting unit (23) is changed according to the shooting theme selected to irradiate the subject with light and to give the effect to the captured image. The light control method characterized by the above.
The invention according to claim 9 is the light control method according to claim 8, wherein the operation unit (24) capable of selecting at least one shooting theme from a plurality of shooting themes, and each of the plurality of shooting themes A storage unit (25) for storing information on the color temperature of the corresponding light emitting unit (23), and storing the information in the storage unit (25) according to the shooting theme selected by the operation unit (24). The dimming method is characterized in that the color temperature of the light emitting unit (23) is changed based on the information on the color temperature of the light emitting unit (23).
The invention according to claim 10 is the light control method according to claim 8, wherein at least one shooting theme is automatically selected from a plurality of shooting themes based on the analyzed image data of the subject. A selection unit, and a storage unit (25) for storing information on the color temperature of the light emitting unit (23) corresponding to each of the plurality of shooting themes, and according to the shooting theme selected by the analysis selection unit The light control method is characterized in that the color temperature of the light emitting unit (23) is changed based on the information on the color temperature of the light emitting unit (23) stored in the storage unit (25).
Invention of Claim 11 is the light control method of Claim 9 or 10, Comprising: The change which can change the information regarding the color temperature of the said light emission part (23) memorize | stored in the said memory | storage part (25) It is a light control method characterized by providing a part (211).
A twelfth aspect of the present invention is the light control method according to any one of the eighth to eleventh aspects, wherein the photographed image is a moving image.
A thirteenth aspect of the present invention is the light control method according to the twelfth aspect of the present invention, wherein the color temperature of the light emitting section (23) is changed over time.
Note that the configuration described with reference numerals may be modified as appropriate, and at least a part of the configuration may be replaced with another component.

  According to the present invention, it is possible to provide a light-emitting device, an imaging device, and a dimming method that can provide an effect to a captured image according to a selected shooting theme.

It is a block block diagram of the camera which concerns on one Embodiment of this invention. It is a figure which shows the 1st memory | storage table memorize | stored in the light-emitting device side memory. It is a figure which shows the 2nd memory | storage table recorded on the light-emitting device side memory. It is a flowchart of the light control of a camera in the case of shooting according to a selected shooting theme.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram of a camera 1 according to an embodiment of the present invention. FIG. 2 is a diagram showing a first storage table stored in the light emitting device side memory 25. FIG. 3 is a diagram showing a second storage table recorded in the light emitting device side memory 25.

The camera 1 in the present embodiment can be applied to both the case where the captured image is a still image and the case where the captured image is a moving image.
The camera 1 of this embodiment is provided with the apparatus main body 10 and the light-emitting device 20, as shown in FIG. The apparatus main body 10 is electrically connected to the light emitting device 20 via the interface unit 30.

The apparatus main body 10 includes an imaging optical system 11, an imaging element 12, a main body side operation unit 13, a display unit 14, a camera control unit 15, a main body side memory 16, and a photometry unit 17.
Although not shown in detail, the imaging optical system 11 includes a plurality of lens groups including a focusing lens group. The focusing lens group is driven to move in the optical axis direction by a camera control unit 15 to be described later and performs a focusing action.

  The imaging element 12 is a photoelectric conversion element such as a CCD or a CMOS, for example, and converts an image formed on the imaging surface by the imaging optical system 11 into an electrical signal and outputs the electrical signal.

  Although not shown, the main body side operation unit 13 includes a release button and various switch buttons. When the user operates them, the release operation and selection or release of various functions displayed on the display unit 14 to be described later are performed. Can be done. Input information from the user such as shooting settings and a release button selected by the main body side operation unit 13 is output to a camera control unit 15 described later.

  The display unit 14 is configured by an LCD or the like, and is provided on the back of the camera 1 body. The display unit 14 displays a real-time image (through image) being captured by the image sensor 12 or a captured image. The display unit 14 can display a menu screen or the like on which settings such as playback conditions, shooting conditions, and basic camera settings can be made.

  The camera control unit 15 includes a CPU and the like, and comprehensively controls each element constituting the camera 1. That is, the camera control unit 15 performs focusing (AF) control, exposure (AE) control, reading of image information from the image sensor 12 and image processing, storage of image information in the main body side memory 16, recording media of image information (Not shown) storage, display of captured images and various setting conditions on the display unit 14 and the like are controlled.

  The camera control unit 15 communicates with a light emission control unit 21 described later of the light emitting device 20 via the interface unit 30 to control the light emission control unit 21. The light emission control unit 21 will be described later.

The focus control in the camera control unit 15 calculates the defocus amount from the image captured by the image sensor 12, and moves and controls the focus lens in the imaging optical system so that the defocus amount becomes zero. Further, the camera control unit 15 calculates distance information to the subject based on the focusing information.
The exposure control in the camera control unit 15 determines the exposure value based on photometric information input from the photometric unit 17 described later and the exposure mode, aperture value, shutter speed, ISO sensitivity, and the like set by the user.

The photometry unit 17 calculates an exposure evaluation value from an image captured by the image sensor 12 and outputs the result to the camera control unit 15 as photometry information.
The main body side memory 16 records a series of image data subjected to image processing. The main body side memory 16 stores setting information input by the user through the main body side operation unit 13, as well as programs necessary for the operation and control of the camera 1 and necessary for executing the programs. Setting values and the like are stored.

  Next, the light emitting device 20 will be described. As shown in FIG. 1, the light emitting device 20 includes a light emission control unit 21, a drive circuit 22, a light emitting unit 23, a light emitting device side operation unit 24, and a light emitting device side memory 25.

  Although not shown, the light emitting device side operation unit 24 includes various switch buttons, and when the user operates them, the shooting theme displayed on the display unit 14 is selected or canceled, and stored in the light emitting device side memory 25. In addition, it is possible to change information on the color temperature of the light emitting unit 23. Regarding the selection of the shooting theme, the light emitting device side operation unit 24 allows the user to select at least one shooting theme from a plurality of shooting themes. The shooting theme is selected in order to give an effect to the shot image. Input information from the user such as the setting of the shooting theme selected by the light emitting device side operation unit 24 is output to the light emission control unit 21 described later.

The light emitting unit 23 includes a light emitter such as an LED. Specifically, the light emitting unit 23 is configured by arranging three types of LEDs of red, blue, and green. The light emitting unit 23 can irradiate the subject with light by power supplied from a power source (not shown) via the drive circuit 22. Further, the light emitting unit 23 can change the color temperature in accordance with the electric power supplied via the drive circuit 22. The color temperature of the light emitting unit 23 will be described later.
The drive circuit 22 is a circuit that drives the light emitting unit 23.

The light emission control unit 21 controls (controls light) the drive circuit 22 so as to change the color temperature of the light emitting unit 23. In addition, the light emission control unit 21 controls the drive circuit 22 in accordance with the shooting theme selected by the light emitting device side operation unit 24 in order to give an effect to the shot image.
Specifically, the light emission control unit 21 controls the drive circuit 22 so as to change the duty ratio and current value of the currents of the three colors of LEDs in the light emitting unit 23, and the color temperature of the illumination light from the light emitting unit 23. It is possible to change.

  The light emission control unit 21 determines the color of the light emitting unit 23 based on the information about the color temperature of the light emitting unit 23 stored in the light emitting device side memory 25 described later according to the shooting theme selected by the light emitting device side operation unit 24. Control to change the temperature.

  In addition, the light emission control unit 21 includes a changing unit 211. The changing unit 211 can change information on the color temperature stored in the light emitting device side memory 25 based on the color temperature changing information input by the light emitting device side operation unit 24. Specifically, the changing unit 211 changes the information on the color temperature stored in the light emitting device side memory 25 when the user inputs color temperature change information from the light emitting device side operation unit 24.

  The light emitting device side memory 25 stores information on the color temperature of the light emitting unit 23 corresponding to each of a plurality of shooting themes. Specifically, the light emitting device side memory 25 has a storage table as shown in FIGS. The storage table of the light emitting device side memory 25 includes, for example, a first storage table shown in FIG. 2 and a second storage table shown in FIG.

In the first storage table, as shown in FIG. 2, for each shooting theme selected by the light-emitting device side operation unit 24, an environment is set so that the color temperature of the light-emitting unit 23 changes with time according to the shooting theme. A change value of the color temperature of the light emitting unit 23 with respect to the color temperature is stored as a set value.
In the second storage table, as shown in FIG. 3, for each shooting theme selected by the light-emitting device side operation unit 24, the color temperature of the light-emitting unit 23 becomes a constant color temperature according to the shooting theme. A difference value of the color temperature of the light emitting unit 23 with respect to the color temperature of the ambient temperature is stored as a set value.

Here, the color temperature of the light emitting unit 23 will be described.
The color temperature of the light emitting unit 23 is, for example, more reddish as the temperature is lower, becomes yellowish white as the temperature is increased from a low temperature, and is bluish when the temperature is further increased. That is, the color temperature is higher for colder colors and lower for warm colors. In general, when the environmental illumination is a fluorescent lamp, the color temperature is about 6500K, which is a daylight color close to white.
The user can set the color temperature according to the shooting theme by selecting the shooting theme in consideration of the color temperature of the light emitting unit 23.

Also, the color temperature feels to the user that the change in color is not perceptually uniform. Therefore, when setting the color temperature, “mired (10 ⁻⁶ K ⁻¹ )” which is a scale of the reciprocal of the color temperature (K) is used. For example, when the environmental illumination is a fluorescent lamp, the color temperature is about 6500 K, which is about 160 mired. In the present embodiment, even when “mired (10 ⁻⁶ K ⁻¹ )”, which is a reciprocal scale of the color temperature (K), is used, it is simply referred to as a color temperature.

  In the present embodiment, the color temperature of the light emitting unit 23 is set in advance for each shooting theme by a value given an offset with reference to the value of the color temperature of the ambient illumination. Specifically, in this embodiment, the color temperature corresponding to the shooting theme is stored in the first storage table and the second storage table of the light emitting device side memory 25.

In the first storage table shown in FIG. 2, for example, when the environmental illumination of the shooting scene is a fluorescent lamp (6500K, 160 mired), the color temperature of the illumination light is determined from the color temperature of the fluorescent lamp according to the selected shooting theme. Is stored as a set value that changes with time.
This first storage table is mainly used as the value of the color temperature of the light emitting unit 23 during moving image shooting.

  For example, at the time of moving image shooting, the user wants to give a “Cool” color that is bluish over time to a shot image. Therefore, the user selects “Cool” as shown in the upper part of the first storage table as the shooting theme by operating the light emitting device side operation unit 24 using the first storage table. “Cool” in the shooting theme is, for example, a setting in which the color temperature of the light emitting unit 23 is lowered by 10 mired every second from 160 mirid which is the color temperature of the environmental illumination.

  In addition, the user wants to give a “Pop” color that blinks at a certain time interval to a captured image during moving image shooting. Therefore, the user selects “Pop” as shown in the middle of the first storage table by operating the light emitting device side operation unit 24 using the first storage table. “Pop” in the shooting theme is a setting in which the color temperature of the light emitting unit 23 is repeatedly changed every second, such as 160 to 180 mired, 180 to 160 mired,.

  In addition, the user wants to give a “Nostalgic” color that is reddish over time to a captured image during moving image shooting. Therefore, the user selects “Nostalgic” as shown in the lower part of the first storage table by operating the light emitting device side operation unit 24 using the first storage table. “Nostalgic” in the shooting theme is, for example, a setting in which the color temperature of the light emitting unit 23 is increased by 50 mired every second from 160 mired of the environmental illumination.

In addition, in the second storage table shown in FIG. 3, for example, when the environmental illumination is a fluorescent lamp (6500K, 160mired), an offset is given based on 160mired, which is the color temperature of the fluorescent lamp, according to the shooting theme. Are stored as set values.
This second storage table is mainly used as a color temperature value of the light emitting unit 23 in still image shooting. The second storage table may be used as a color temperature value of the light emitting unit 23 in moving image shooting.

  For example, the user wants to give a bluish “Cool” color to a captured image during still image shooting. Therefore, the user selects “Cool” as shown in the upper part of the second storage table by operating the light emitting device side operation unit 24 using the second storage table. The color temperature of the light emitting unit 23 set by “Cool” in the shooting theme is, for example, 130 mired, which is 30 mired lower than 160 mired, which is the color temperature of the environmental illumination.

  Further, the user wants to give a “Pop” color to the captured image at the time of still image shooting. Therefore, the user selects “Pop” as shown in the middle of the second storage table by operating the light emitting device side operation unit 24 using the second storage table. For example, the color temperature of the light emitting unit 23 set by “Pop” in the shooting theme is the same value as 160 mired of ambient lighting.

  In addition, the user wants to give a reddish “Nostalgic” color to the captured image during still image shooting. Therefore, the user selects “Nostalgic” as shown in the lower part of the second storage table by operating the light emitting device side operation unit 24 using the second storage table. The color temperature of the light emitting unit 23 set by “Nostalgic” in the shooting theme is, for example, 310 mired, which is 150 mired from 160 mired of the environmental illumination.

  In the camera 1 configured as described above, when a release button (not shown) in the main body side operation unit 13 is pressed (release operation), the image sensor 12 converts subject image light imaged on the imaging surface into an electrical signal. Output. Then, the camera control unit 15 generates image data by performing image processing based on the electrical signal, and records (that is, shoots) the image data on a recording medium (not shown).

Next, the control (light emission control) of the light emitting device 20 of the camera 1 described above will be described with reference to the flowchart shown in FIG. FIG. 4 is a flowchart of dimming control of the camera 1 when shooting is performed according to the selected shooting theme.
In the present embodiment, a case where the camera 1 performs moving image shooting will be described.

First, in step S <b> 1, the user selects a shooting theme using the light emitting device side operation unit 24.
The camera control unit 15 displays on the display unit 14 a menu screen (not shown) for selecting the shooting theme of the illumination light at the time of shooting based on the shooting theme information input to the light emission control unit 21. Illumination light shooting themes include, for example, a color temperature that changes with time stored in the first storage table (see FIG. 2), and a constant color temperature based on ambient lighting stored in the second storage table. Is set (see FIG. 3). Further, “Cool”, “Pop”, “Nostalgic”, and the like are prepared as shooting themes for changing the color temperature with time in the first storage table (see FIG. 2).
In the present embodiment, the user operates the light-emitting device side operation unit 24 to thereby select “Cool” in moving image shooting from a shooting theme stored in the first storage table shown in FIG. Select.

  In step S2, shooting is started when the user half-presses the release button. When the release button is pressed halfway by the user, the main body side operation unit 13 outputs a detection signal to the camera control unit 15.

  In step S3, the photometry unit 17 performs photometry. Specifically, the subject brightness is obtained from RGB brightness signals output from the image sensor 12.

  In step S <b> 4, the camera control unit 15 determines whether or not the light emitting unit 23 emits light (flash) as auxiliary illumination based on the subject luminance measured by the photometric unit 17. When the auxiliary illumination is emitted, the process proceeds to step S5. When the auxiliary illumination is not emitted, the process proceeds to step S12.

  When the auxiliary illumination is not emitted in step S4 (NO), in step S12, the shutter speed and the aperture value are determined based on the subject luminance, and based on the RGB luminance signal values and the like. Determine the white balance adjustment value and adjust the gain of each signal. Thereafter, in step S13, when a photographing signal is input by fully pressing the release button, photographing is performed in step S10 described later.

  On the other hand, when the auxiliary illumination is emitted in step S4 (YES), the luminance information is removed from the RGB signal values in step S5 and compared with the assumed environmental illumination such as daylight, fluorescent light, and cloudy. To detect the color temperature of the ambient lighting.

  Thereafter, in step S6, when a photographing signal is input by fully pressing the release button, the camera control unit 15 requests the light emission control unit 21 to emit light at the detected color temperature of the ambient illumination. Send a signal.

  In step S <b> 7, the light emission control unit 21 controls the drive circuit 22 according to the light emission request from the camera control unit 15, thereby causing the light emission unit 23 to pre-emit at the color temperature of the environmental illumination.

  In step S <b> 8, the camera control unit 15 determines the shutter speed and the aperture value so as to obtain an appropriate exposure based on the subject brightness obtained from the image sensor 12 during the pre-flash. Then, the camera control unit 15 determines a white balance adjustment value based on RGB luminance signal values and adjusts the gain of each signal.

  When the adjustment of exposure and white balance is completed, the camera control unit 15 transmits a request for main light emission at the color temperature of the auxiliary illumination corresponding to the selected shooting theme to the light emission control unit 21 in step S9.

In step S10, moving image shooting is executed. During the execution of photographing, the light emitting unit 23 is in a state of performing main light emission at a color temperature corresponding to the selected photographing theme.
In the present embodiment, “Cool” is selected as the shooting theme so as to become bluish with time. Therefore, at the time of moving image shooting, the color temperature of the light emitting unit 23 changes so as to be bluish over time. While the release button is pressed, the moving image shooting is continuously performed in a state where the color temperature of the light emitting unit 23 is changing with time.

In step S <b> 11, the moving image data to which the effect is given is recorded in the main body side memory 16. At that time, shooting theme information is added and recorded in the main body side memory 16 as related information together with the image data.
Thus, a series of processes related to light emission control (light control method) is completed.

By performing such light emission (dimming) control, the light-emitting device 20 can change the color temperature of the light-emitting unit 23 in accordance with the shooting theme selected to give the effect to the shot image. . Therefore, by selecting the shooting theme, it is possible to give the shooting image an effect according to the intention that the user wants to express in the shooting image.
In this embodiment, the case where the user selects “Cool” for moving image shooting as the shooting theme has been described as an example. However, the user selects “Pop” or “Nostalgic” for moving image shooting as the shooting theme. Even in such a case, it is possible to give a rendering effect to the photographed image at a color temperature corresponding to the selected photographing theme.

As described above, this embodiment has the following effects.
(1) The color temperature of the light emitting unit 23 can be changed according to the selected shooting theme. Thereby, by selecting the shooting theme, it is possible to give the shooting image an effect according to the intention that the user wants to express in the shooting image. Accordingly, the expression of the captured image is enriched, and the effect of rendering the video can be enhanced.
(2) Further, the photographing theme can be selected by the light emitting device side operation unit 24. Therefore, by simply selecting a shooting theme using the light-emitting device side operation unit 24, it is possible to impart a production effect to the shot image according to the intention that the user wants to express in the shot image.
(3) Moreover, the color temperature of the light emission part 23 can be changed with progress of time. Thereby, in the moving image at the time of moving image shooting, a more effective presentation effect can be given to the captured image.
(4) Moreover, the change part 211 which can change the information regarding the color temperature of the light emission part 23 memorize | stored in the light-emitting device side memory 25 is provided. Therefore, the setting of the color temperature in the shooting theme can be arbitrarily changed. Thereby, a more effective presentation effect can be imparted to the captured image.

(Deformation)
The present invention is not limited to the above-described embodiment, and various modifications and changes as described below are possible, and these are also within the scope of the present invention.
(1) In the embodiment described above, the operation at the time of moving image shooting has been described. However, the present invention is not limited to this. it can. At the time of still image shooting, for example, based on the color temperature setting value of the light emitting unit 23 stored in the second storage table (see FIG. 3) of the light emitting device side memory 25, the light emitting unit 23 Light can be emitted at a constant color temperature.
(2) In the above-described embodiment, the photographing theme to be selected is configured to be selectable by the light emitting device side operation unit 24, but is not limited thereto, and may be configured to be automatically selected. . In this case, the light emitting device 20 includes an analysis selection unit that automatically selects at least one shooting theme from a plurality of shooting themes based on the analyzed image data of the subject, and the shooting theme selected by the analysis selection unit. The color temperature of the light emitting unit 23 can be changed according to the above.
In addition, although embodiment and a deformation | transformation form can also be used in combination as appropriate, detailed description is abbreviate | omitted. Further, the present invention is not limited to the embodiment described above.

  1: camera, 10: device main body, 20: light emitting device, 21: light emission control unit, 23: light emission unit, 24: light emission device side operation unit, 25: light emission device side memory, 211: change unit

Claims (13)

A light emitting unit capable of irradiating the subject with light and changing the color temperature;
A light emission control unit that performs control so as to change the color temperature of the light emitting unit according to a shooting theme selected to give a production effect to the photographed image,
A light emitting device characterized by the above. The light-emitting device according to claim 1,
An operation unit capable of selecting at least one shooting theme from a plurality of shooting themes;
A storage unit that stores information on the color temperature of the light emitting unit corresponding to each of the plurality of shooting themes,
The light emission control unit is controlled to change the color temperature of the light emitting unit based on information on the color temperature of the light emitting unit stored in the storage unit according to the shooting theme selected by the operation unit. To do,
A light emitting device characterized by the above. The light-emitting device according to claim 1,
An analysis selection unit that automatically selects at least one shooting theme from a plurality of shooting themes based on the analyzed image data of the subject;
A storage unit that stores information on the color temperature of the light emitting unit corresponding to each of the plurality of shooting themes,
The light emission control unit is configured to change the color temperature of the light emitting unit based on information on the color temperature of the light emitting unit stored in the storage unit according to the shooting theme selected by the analysis selection unit. Controlling,
A light emitting device characterized by the above. The light-emitting device according to claim 2 or 3,
Comprising a changing unit capable of changing information on the color temperature of the light emitting unit stored in the storage unit;
A light emitting device characterized by the above. The light-emitting device according to any one of claims 1 to 4,
The captured image is a moving image;
A light emitting device characterized by the above. The light-emitting device according to claim 5,
The light emission control unit controls the color temperature of the light emission unit to change with time;
A light emitting device characterized by the above.   An imaging device provided with the light-emitting device as described in any one of Claims 1-6. While illuminating the subject,
Changing the color temperature of the light-emitting part according to the shooting theme selected to give the effect to the shot image;
A dimming method characterized by the above. It is the light control method of Claim 8, Comprising:
An operation unit capable of selecting at least one shooting theme from a plurality of shooting themes;
A storage unit that stores information on the color temperature of the light emitting unit corresponding to each of the plurality of shooting themes,
Changing the color temperature of the light emitting unit based on the information about the color temperature of the light emitting unit stored in the storage unit according to the shooting theme selected by the operation unit;
A dimming method characterized by the above. It is the light control method of Claim 8, Comprising:
An analysis selection unit that automatically selects at least one shooting theme from a plurality of shooting themes based on the analyzed image data of the subject;
A storage unit that stores information on the color temperature of the light emitting unit corresponding to each of the plurality of shooting themes,
Changing the color temperature of the light emitting unit based on the information about the color temperature of the light emitting unit stored in the storage unit according to the shooting theme selected by the analysis selecting unit;
A dimming method characterized by the above. It is the light control method of Claim 9 or 10, Comprising:
Comprising a changing unit capable of changing information on the color temperature of the light emitting unit stored in the storage unit;
A dimming method characterized by the above. It is the light control method as described in any one of Claims 8-11,
The captured image is a moving image;
A dimming method characterized by the above. It is the light control method of Claim 12, Comprising:
Changing the color temperature of the light emitting portion with time,
A dimming method characterized by the above.

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