JP2014197162A - Imaging device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an imaging device capable of automatically controlling dimming and color matching of indoor lighting during photographing.SOLUTION: A control unit 11 sets a camera condition set on the part of an imaging device 10 during photographing, and sends, to an external illumination instrument 20 (indoor illumination instrument) whose illumination state can be remotely controlled by a given control signal transmitted from a given control device, a control signal corresponding an illumination condition to be set on the part of the external illumination instrument 20 (indoor illumination instrument) by using a control signal of the same type, so as to change the illumination state into an illumination state for photographing.

Description

  The present invention relates to an imaging apparatus that performs imaging by setting imaging conditions including illumination conditions.

  2. Description of the Related Art Conventionally, for example, in a digital camera, various shooting conditions such as shutter speed and aperture value are automatically set, or can be set manually according to a photographer's preference. Also, for example, in Patent Document 1, a plurality of shooting modes for automatically setting shooting conditions suitable for a subject type such as portrait, landscape, and night scene are prepared in advance, and such a shooting mode is selected by a photographer in advance. Thus, a camera device is disclosed in which a more appropriate shooting condition can be set even by a beginner who does not have specialized knowledge such as shutter speed and aperture value. Although the illuminating lamp and the ambient light at the time of photographing have a great influence on this photographing condition, the camera device of Patent Document 1 cannot control the illuminating lamp and the environmental light at the time of photographing.

  Further, for example, Patent Document 2 discloses a photographic illumination device that can easily shoot a photograph with good hue by adjusting the illumination state of a dedicated illumination lamp installed in a photo studio at the time of shooting. Yes.

JP 2002-10134 A JP 2006-227154 A

  By the way, in recent years, general-purpose indoor lighting such as LEDs (Light Emitted Diodes) capable of toning and dimming without using a dedicated lighting device as in Patent Document 2 has become widespread, and wireless LAN (Local Area) Network) lighting systems have also emerged. Therefore, if there is an operation terminal such as a PC or a smartphone, it becomes possible to monitor the indoor illumination light, or to control the light adjustment and color adjustment. However, even when such general-purpose indoor lighting is in widespread use, it has not been possible to easily set shooting conditions including lighting conditions during shooting.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide an imaging apparatus capable of easily setting shooting conditions including illumination conditions during shooting.

  In order to solve the above-described problems, an invention according to a first aspect of the present invention is an imaging apparatus including an imaging unit, and a setting unit that sets a shooting condition when shooting by the imaging unit, and an arbitrary It is possible to constantly illuminate a room with a lighting state set to, and for the indoor lighting device capable of remotely operating the lighting state by a predetermined control signal transmitted from a predetermined control device Transmitting means for transmitting a control signal of the same type as the predetermined control signal transmitted from the control device, and the setting means is configured to perform the predetermined control by the transmission means before performing imaging by the imaging means. By transmitting a signal, the imaging apparatus is characterized in that the indoor lighting state of the indoor lighting device set before that is changed to a lighting state for photographing.

  The invention according to a second aspect of the present invention is a shooting condition setting method in an imaging apparatus including an imaging unit, and is arbitrarily set with a setting process for setting shooting conditions when shooting by the imaging unit. The predetermined control device for indoor lighting equipment that can illuminate the room in a steady lighting state and can remotely control the lighting state by a predetermined control signal transmitted from the predetermined control device A transmission process for transmitting the same type of control signal as the predetermined control signal transmitted from the transmission unit, wherein the setting process transmits the predetermined control signal by the transmission process before photographing by the imaging unit. By doing so, the indoor lighting state of the indoor lighting device set before that is changed to the lighting state for photographing.

  According to a third aspect of the present invention, there is provided a computer of an image pickup apparatus including an image pickup means, a setting means for setting shooting conditions when shooting by the image pickup means, and a room in an arbitrarily set lighting state. Is transmitted from the predetermined control device to an interior lighting device capable of remotely operating the lighting state by a predetermined control signal transmitted from the predetermined control device. It functions as a transmission unit that transmits the same type of control signal as the predetermined control signal, and the setting unit transmits the predetermined control signal by the transmission unit before photographing by the imaging unit. The program for changing the indoor lighting state of the indoor lighting device set before that to a lighting state for photographing.

  According to the present invention, it is possible to provide an imaging apparatus capable of easily setting shooting conditions including illumination conditions during shooting.

It is a figure which shows the relationship between the imaging device by 1st Embodiment of this invention, and illumination light. 1 is a block diagram illustrating a configuration of an imaging apparatus according to a first embodiment of the present invention. It is a figure which shows an example of the data structure of the imaging | photography scene-imaging condition correspondence table used with the imaging device by 1st Embodiment of this invention. 3 is a flowchart illustrating an operation of the imaging apparatus according to the first embodiment of the present invention. It is a flowchart which shows operation | movement of the imaging device by the modification of this invention.

  DESCRIPTION OF EMBODIMENTS Hereinafter, a mode for carrying out the present invention (hereinafter referred to as this embodiment) will be described in detail with reference to the accompanying drawings. Note that the same numbers are assigned to the same elements throughout the description of the present embodiment.

A. First Embodiment (Configuration of First Embodiment)
As shown in FIG. 1, the imaging apparatus 10 according to the present embodiment has an infrared (IR), electromagnetic wave (RF), Blue-Tooth (registered trademark), wireless LAN, or Wi-Fi (Wi-Fi Alliance interconnectivity). An adapter (short-range wireless communication unit 16 to be described later) for short-range wireless communication is incorporated. Similarly, the external lighting device 20 (indoor lighting device) also has a short-range wireless communication function, and performs two-way communication with the imaging device 10 by the short-range wireless communication 30. The external lighting device 20 (indoor lighting device) is an indoor lighting device that is attached to a ceiling of a house and can illuminate the room constantly, and is usually close to a remote control device for dimming. The lighting state can be remotely controlled by a predetermined control signal transmitted by the wireless communication 30. The external lighting device 20 (indoor lighting device) maintains the lighting state arbitrarily set by the control signal transmitted from the remote control device until the control signal is transmitted again from the remote control device. In the first embodiment, since it is assumed that bidirectional communication is performed between the imaging device 10 and the external illumination device 20 (indoor illumination device), the external illumination device 20 (indoor illumination device) is bidirectional communication. It is assumed that a short-range wireless communication function such as Blue-Tooth (registered trademark), wireless LAN, or Wi-Fi is available.

  The imaging device 10 is, for example, a digital camera that selects one of a plurality of shooting scenes, sets shooting conditions corresponding to the selected shooting scene, and performs shooting according to the set shooting conditions. Here, the imaging conditions include camera conditions set on the imaging apparatus 10 side and illumination conditions set on the external illumination device 20 side. The imaging device 10 performs control to reflect the illumination condition set on the external illumination device 20 side acquired by communication with the external illumination device 20 on the imaging condition on the device (imaging device 10) side. Details will be described later. Note that the details of the imaging apparatus 10 that sets shooting conditions corresponding to the selected shooting scene by selecting one of a plurality of shooting scenes and performs shooting according to the set shooting conditions have already been determined by the applicant. For example, Japanese Patent Application Laid-Open No. 2002-10134 is well-known.

  FIG. 2 is a block diagram illustrating an internal configuration of the imaging apparatus 10 according to the present embodiment. The imaging apparatus 10 according to the present embodiment includes a control unit 11, a storage unit 12, an imaging unit 13, a display unit 14, an operation unit 15, a short-range wireless communication unit 16, an illuminance sensor 17, and a power supply unit 18. Are commonly connected to a bus 19 composed of a plurality of signal lines for address, data, and control. The imaging device 10 is, for example, a digital camera that can capture moving images in addition to still images, and operates with the control unit 11 as a core.

  The control unit 11 operates by supplying power from the power supply unit 18 composed of a secondary battery, and controls the overall operation of the imaging apparatus 10 according to various programs recorded in the storage unit 12. A CPU (Central Processing Unit) and a built-in memory (not shown) are provided. The control unit 11 controls the imaging unit 13 to be described later, for example, exposure adjustment processing (AE processing), or white balance adjustment, color interpolation processing, etc. as various image processing for the image data from the imaging unit 13. In addition, aberration correction processing as image processing, compression processing for compressing an image into a size such as a JPEG (Joint Photographic Experts Group) format, restoration processing for decompressing and restoring the compressed data, and the like are executed.

  The control unit 11 selects one of a plurality of shooting scenes, sets shooting conditions corresponding to the selected shooting scene, and arbitrarily sets the lighting state of the external lighting device 20 to the external lighting device 20. A control signal for setting is transmitted. The shooting conditions include camera conditions set on the imaging device 10 side and lighting conditions set on the external lighting device 20 side, and the control unit 11 selects one of a plurality of shooting scenes. The camera condition included in the shooting condition corresponding to the selected shooting scene is set on the imaging apparatus 10 side, and a control signal corresponding to the lighting condition included in the shooting condition is transmitted to the external lighting device 20.

  Here, “imaging conditions” refer to “camera conditions” and “illumination conditions” when illumination control of the external illumination device 20 is possible and impossible. “Camera conditions” are setting data indicating the shooting conditions of the imaging apparatus 10 according to the present embodiment. As shown as an example in the shooting scene-shooting condition correspondence table 12a of FIG. 3, exposure (brightness adjustment), white In addition to balance (hue adjustment), it is configured by parameters indicating control contents of control items that can be controlled by the imaging apparatus 10, such as focus control, shutter speed, sensitivity, and the like. The “illumination condition” is setting data indicating a shooting condition by the external illumination device 20, and is a parameter indicating the control content of a control item that can be controlled by the external illumination device 20. is there.

  For this reason, the control unit 11 selects one of a plurality of shooting scenes to set the shooting conditions corresponding to the selected shooting scene, and the external lighting device 20 with respect to the external lighting device 20. It functions as an external illumination control means for transmitting a control signal for arbitrarily setting the illumination state. The control unit 11 stores a plurality of shooting conditions including a camera condition and an illumination condition in advance in association with each of a plurality of shooting scenes, and selects one of the stored shooting scenes. Camera conditions and illumination conditions included in the shooting conditions stored corresponding to the selected shooting scene are set. Specifically, the control unit 11 can be selected on the display unit 14 according to the shooting scene-shooting condition correspondence table 12a stored in a predetermined area of the storage unit 12 to be described later and showing an example of the data structure in FIG. Are set as shooting conditions according to the selection operation of the photographer with respect to a plurality of sample images or explanations displayed in a list.

  When setting the shooting condition corresponding to the selected shooting scene, the control unit 11 sets the lighting condition set on the external lighting device 20 side or the lighting condition predicted to be set on the imaging device 20 side. It also functions as a control means for reflecting the camera conditions. When the control unit 11 sets the shooting condition corresponding to the selected shooting scene, the lighting condition set on the external lighting device 20 side or the lighting condition predicted to be set is selected as the selected shooting scene. The camera condition included in the shooting condition corresponding to the selected shooting scene is adjusted according to whether or not the illumination condition included in the shooting condition corresponding to is matched.

  The control unit 11 performs control to change the shooting condition and the illumination condition simultaneously by selecting the shooting scene once. At this time, the control unit 11 performs control to reflect the dimming state, the toning state, or both of the external lighting device 20 in the shooting conditions. Here, the photographing conditions include at least exposure adjustment (brightness adjustment) and white balance adjustment (hue adjustment).

  The control unit 11 determines whether or not the external lighting device 20 is in a state in which the lighting condition can be changed when a shooting scene is selected for the shooting condition and the lighting condition that have the same effect on the result of the shooting. Accordingly, control is performed to select which of the shooting condition and the illumination condition is changed. That is, for example, when the illumination condition cannot be changed on the external illumination device 20 side, it is necessary to compensate on the imaging apparatus 10 side, and thus control is performed to change the illumination condition accordingly. Specifically, when the control unit 11 fails to change the desired illumination state even though the control signal is transmitted to the external illumination device 20, the shooting condition is set instead of changing the illumination condition. Control to change. Note that the imaging apparatus 10 further includes detection means for detecting an illumination state, such as an illuminance sensor 17, and the control unit 11 compares the illumination state detected by the illuminance sensor 17 and the illumination condition with illumination. It may be determined whether or not the state change has failed.

  The control unit 11 illuminates depending on whether or not a signal indicating successful control transmitted from the external lighting device is received in response to transmission of a control signal for setting the lighting state of the external lighting device 20 as a lighting condition. It may be determined whether or not the change has failed. In addition, for a shooting scene that preferably reproduces the reflection state of the external light source in accordance with the shape of the subject, the control unit 11 changes the illumination condition preferentially over the other shooting scenes to change the shooting condition to a desired one. You may control to a state.

  The storage unit 12 includes, for example, a ROM, a flash memory, and the like. For example, the storage unit 12 includes a program according to the present embodiment including the flowchart (processing procedure) illustrated in FIG. It is allocated and stored in the program area. In addition to the image storage area for storing the captured image, the storage unit 12 has a structure having a work area for temporarily storing a flag and the like described later. The storage unit 3 may include a removable portable memory (recording medium) such as an SD card or an IC card.

  An example of the data structure of the shooting scene / shooting condition correspondence table 12a is shown in FIG. The photographic scene / photographing condition correspondence table 12a has a sample image or description for each photographic scene (food, text (paper), text (whiteboard), person (pupil detection), person (sleeping face detection), candlelight, sepia). It includes sentences and data on shooting conditions. Here, the “sample image or description” is an image serving as a sample of a subject suitable for each shooting scene and its additional data.

  The imaging unit 13 constitutes a camera unit capable of photographing a subject with high definition. The imaging unit 13 includes an optical lens, a diaphragm, and an imaging element, and images a subject that is imaged on the imaging element from the optical lens through the diaphragm. The diaphragm is arranged between the optical lens and the imaging device on the imaging surface, and has a configuration in which a plurality of plates (diaphragm blades) are overlapped to have a nearly circular opening. The image sensor is an image sensor such as a CCD or CMOS. Although not shown, the imaging unit 13 includes an optical lens, a diaphragm, an imaging device, an optical system drive unit, an illumination strobe (light emitting means dedicated to photographing), an analog processing circuit, a signal processing circuit, and the like. ing. The diaphragm and the image sensor are movable in parallel to the direction perpendicular to the optical axis, and are connected to a drive mechanism (not shown) that translates the diaphragm and the image sensor.

  The display unit 14 uses, for example, any one of a high-definition LCD (Liquid Crystal Device) display, an organic EL (Electro Luminescence) display, and an electrophoretic display (electronic paper) to display an image with high definition. Thus, it functions as a finder screen (monitor screen) for displaying a captured image (through image: live view image) or as a playback screen for displaying a saved image. For example, a capacitive touch screen (touch screen) may be configured by stacking a transparent touch panel that detects finger contact on the surface of the display unit 14.

  Although not shown, the operation unit 15 includes various push button-type keys for performing a shutter operation, an operation for setting shooting conditions such as exposure and shutter speed, and a playback operation for instructing playback of a captured image. The control unit 11 executes, for example, photographing processing, photographing condition setting, reproduction processing, data input processing, and the like as processing according to the input operation signal from the operation unit 15.

  The short-range wireless communication unit 16 is a communication adapter that transmits and receives data using wireless communication, and uses the same type of communication medium and communication protocol as the short-range wireless communication function of the external lighting device 20 (indoor lighting device). Communication is possible. Here, both the external lighting device 20 (indoor lighting device) and the short-range wireless communication unit 16 perform wireless data communication using a protocol that complies with the IEEE 802.11 standard. Specifically, a wireless LAN, a Wi- Fi, BlueTooth (registered trademark) or the like is used. Also, the external lighting device 20 (indoor lighting device) changes the lighting state by a control signal from a dimming remote control device having a short-range wireless communication function based on the communication medium or communication protocol. This control signal includes transmission data for turning on / off the illumination, transmission data for adjusting the intensity of the illumination, transmission data for adjusting the color of the illumination, and illumination characteristics of the external lighting device 20 (indoor lighting device). The specifications and system of various transmission / reception data such as reception data (response signal) for acquiring the reception data and reception data (response signal) for acquiring the illumination state of the external lighting device 20 (indoor lighting device) are determined in advance. Is. The imaging device 10 uses a control signal of the same type as the type of control signal (specification and system of transmission / reception data) determined between the dimming remote control device and the external lighting device 20 (indoor lighting device), A control signal (transmission data) corresponding to the illumination condition is transmitted to the external lighting device 20 side, and a response signal (received data) is received from the external lighting device 20.

  The illuminance sensor 17 is an illuminometer that senses ambient brightness, and is composed of, for example, a photodiode. Here, when the change of the illumination condition fails even though the control signal is transmitted to the external illumination device 20 via the short-range wireless communication unit 16, the detected illumination state (illuminance) of the external illumination device 20 is detected. This is used for determining whether or not the change of the illumination state has failed by comparison with the designated illumination condition.

  The power supply unit 18 is a secondary battery, and is connected to the control unit 11, the storage unit 12, the imaging unit 13, the display unit 14, the operation unit 15, the short-range wireless communication unit 16, and the illuminance sensor 17 connected to the bus 19. Supply drive power.

(Operation of the first embodiment)
Hereinafter, the imaging processing operation of the imaging apparatus 10 according to the present embodiment shown in FIGS. 1 to 3 will be described in detail with reference to the operation flowchart of FIG. 4.

  First, the control unit 11 displays a list of sample images or explanations corresponding to a plurality of shooting scenes on the display unit 14, and prompts the photographer to select and input a desired shooting scene (step S101). When the photographer operates the operation unit 15 to select a desired shooting scene (Step S102 “Yes”), the control unit 11 refers to the storage unit 12 and is selected from the shooting scene-selection condition correspondence table 12a. Shooting conditions corresponding to the shooting scene are acquired (step S103).

  Subsequently, the control unit 11 sets an exposure value, a white balance value, and the like according to the camera conditions included in the acquired shooting conditions (step S104). If the acquired photographing condition includes an illumination condition (step S105 “Yes”), the control unit 11 generates an illumination control signal for setting the illumination state of the external illumination device 20 in accordance with the illumination condition. Then, it transmits to the external lighting device 20 via the short-range wireless communication unit 16 (step S106).

  Here, the control unit 11 waits for a predetermined time (step SS107 “Yes”), and receives a response signal (a signal indicating the success of the illumination state change control) from the external lighting device 20 via the short-range wireless communication unit 16. When receiving (step S108 “Yes”) or when the shooting condition acquired in step S105 does not include an illumination condition (step S105 “No”), the control unit 11 determines whether or not there is a shooting instruction (step S111). ), If there is a photographing instruction by the photographer operating the operation unit 15 (step S111 “Yes”), a subject image acquired by photographing under the set photographing condition is recorded in the image storage area of the storage unit 12. Then, the photographing process is finished (step S112).

  On the other hand, when the response signal (a signal indicating failure in changing the illumination state) is received from the external lighting device 20 via the short-range wireless communication unit 16 in step S108 (step S108 “No”), the control unit 11 Then, camera conditions when illumination control is impossible (when illumination control fails) are acquired from the imaging scene-imaging condition correspondence table 12a stored in a predetermined area of the storage unit 12 (step S109), and the camera conditions acquired here are acquired. Accordingly, the exposure value, the white balance adjustment value, and the like are reset on the imaging device 10 side (step S110). That is, when the control unit 11 fails to change the desired lighting state of the external lighting device 20 even though the lighting control signal is transmitted to the external lighting device 20, the control unit 11 itself (instead of changing the lighting condition) Control is performed to change the imaging conditions of the imaging device 10).

  Then, the presence / absence of a photographing instruction by the photographer is determined (step S111). If the photographer operates the operation unit 15 and there is a photographing instruction (step S111 “Yes”), the photographing is acquired under the set photographing condition. The subject image to be recorded is recorded in the image storage area of the storage unit 12, and the photographing process is terminated (step S112).

(Effect of 1st Embodiment)
As described above, according to the imaging device 10 according to the first embodiment, it is an indoor lighting device that is attached to the ceiling of a house and can illuminate the room constantly, and is usually controlled by a remote control device for dimming. Since the illumination state of the indoor lighting device set for indoor use can be automatically changed to the illumination state for photographing when photographing by the imaging device 10, the user can adjust the remote control device for dimming at the time of photographing. It is possible to save the trouble of operation and set the illumination state at the time of photographing more reliably.
Further, according to the imaging apparatus 10 according to the first embodiment, when one of a plurality of shooting scenes is selected, not only camera conditions but also lighting conditions are set. Can be set easily. In addition, the control unit 11 performs control to reflect the illumination condition set on the external illumination device 20 side acquired by communication with the external illumination device 20 in the imaging condition on the device side (imaging device 10). Thus, for example, the light control and color adjustment of the indoor lighting can be automatically controlled according to the subject. That is, when the brightness is insufficient in indoor shooting, the illumination state by the external lighting device 20 is automatically controlled to compensate for the brightness, or conversely, the brightness can be reduced when the brightness is unnecessary. In addition, the illumination color can be selected according to the image and preference in the room, and toning can be performed with colors suitable for the subject (for example, daylight color, daylight white color, light bulb color).

  Moreover, according to the imaging device 10 by 1st Embodiment, the control part 11 (control means) performs control which reflects the illumination conditions set by the external lighting apparatus 20 side in the imaging conditions corresponding to the selected imaging scene. In doing so, a control signal for setting the illumination state of the external illumination device 20 to the illumination condition is transmitted to the external illumination device 20. In addition, the control for changing the shooting condition and the illumination condition at the same time is performed by selecting the shooting scene once. As described above, the imaging apparatus 10 according to the present embodiment simply communicates with the external lighting device 20 and reflects the dimming state, the toning state, or both of the external lighting device 20 in the shooting conditions of the imaging device 10. Appropriate shooting conditions including the lighting conditions for obtaining the shooting result can be easily set according to the photographer's preference. Note that the light control state is realized by, for example, exposure adjustment, and the color adjustment state is realized by, for example, white balance adjustment.

  Further, according to the imaging apparatus 10 according to the first embodiment, the control unit 11 (control unit), when a shooting scene is selected for a shooting condition and an illumination condition that give the same effect to a shooting result, The lighting device 20 performs control to select which of the photographing condition and the lighting condition is changed according to whether or not the lighting condition is changeable. Therefore, when the imaging device 10 (the control unit 11) fails to change the desired illumination state despite transmitting a control signal for changing the illumination state to the external illumination device 20, instead of changing the illumination condition It is possible to perform alternative control when the illumination control is impossible, by changing the shooting conditions. Whether or not the change of the illumination state of the external illumination device 20 has failed is transmitted from the external illumination device 20 in response to the transmission of a control signal for setting the illumination state of the external illumination device 20 to the illumination condition. The determination is made based on whether a signal indicating the success of the control is received or by comparing the illumination state detected by the illuminance sensor 17 (detection means) that detects the illumination state of the external illumination device 20 with the illumination condition. Is possible.

  In addition, according to the imaging device 10 according to the first embodiment, the control unit 11 (control unit) may select another shooting scene for a shooting scene that preferably reproduces the reflection state of the external light source according to the shape of the subject. The photographing condition is controlled to a desired state by changing the illumination condition preferentially. For this reason, for example, when “food” is selected as the shooting scene, the subject appears to be tasty according to the camera conditions and lighting conditions included in the set shooting conditions, for example, an apple or other glossy feeling. Increase.

  Note that when “character (paper surface)” is selected as the shooting scene, the outline becomes clear and easy to see, and when the character (whiteboard) is selected, reflection of light is reduced. Also, when a person (face detection) is selected, the eyes are shining with a church light or the like, and the person is alive, and when “person (sleeping face detection)” is selected, the person who is sleeping is not woken up. It is possible to shoot. In addition, when “candlelight” is selected, an indoor atmosphere can be given at night, and when “sepia” is selected, shooting with an atmosphere like an old photograph is possible. In the above embodiment, the photographer manually selects one of a plurality of shooting scenes. For example, if a person is captured by analyzing a live view image captured during live view display, the person is captured. The photographing scene may be automatically selected by a method such as recognizing the scene.

Further, in the first embodiment, the process is terminated after shooting and recording is performed in step S112 of FIG. 4, but after the shooting and recording is performed, the illumination state of the external illumination device is changed to the illumination state for shooting. You may make it return to the illumination state for the former original indoor.
That is, before transmitting the illumination control signal in step S106, the illumination state information is acquired from the external illumination device, the acquired illumination state information is stored in the memory, and after shooting and recording is performed in step S112. The information on the original illumination state stored in the memory is read, and an illumination control signal for changing to the original illumination state is transmitted again to the external illumination device.
In this way, it is possible to reduce the period during which the indoor lighting state originally set for shooting changes, and no user operation is required to return to the indoor lighting state. .

In determining the illumination conditions, the illumination conditions may be determined so that the color temperature is the same as the color temperature emitted by the illumination strobe (lighting means dedicated to photographing).
In this case, even when the subject is illuminated simultaneously by both the strobe for illumination (light emitting means dedicated to photographing) and the external lighting device 20 (indoor lighting device), the color temperature of the subject is partially different. The feeling of incongruity such as can be eliminated.

B. Modified Example Next, a modified example of the present invention will be described.
In the first embodiment, the external lighting device 20 (indoor lighting device) has a short-range wireless communication function such as Blue-Tooth (registered trademark), wireless LAN, or Wi-Fi capable of bidirectional communication. However, the external lighting device 20 (indoor lighting device) is not necessarily capable of bidirectional communication.
In the modification of the present invention, an external lighting device 20 (indoor lighting device) having a unidirectional communication function using infrared (IR) or electromagnetic waves (RF), which is more common when controlling home appliances with a remote control device. It is made possible to deal with various types of external lighting devices 20 (indoor lighting devices).

(Configuration of modification)
Only the components different from the first embodiment will be described below.
In the modification of the present invention, the short-range wireless communication unit 16 includes a plurality of types of communication media, a plurality of types of communication protocols, and a plurality of types of control signals (specifications) used by a plurality of different external lighting devices 20 (indoor lighting devices) for communication. For light control by selecting the communication medium, communication protocol, and control signal type (specification or system) according to the communication specifications of the external lighting device 20 (indoor lighting device) to be controlled. The control signal (transmission / reception data) is transmitted / received. This selectable communication medium or communication protocol includes a remote control method using unidirectional communication using infrared (IR) or electromagnetic waves (RF), similar to those used in general home appliances.

  The control unit 11 attempts to communicate with an external lighting device 20 (indoor lighting device) that exists in the surroundings while changing the communication medium, the communication protocol, and the type of control signal, so that the lighting state can be controlled. The presence / absence and number of indoor lighting devices), the communication medium used for controlling the lighting state, the communication protocol, and the type of control signal are specified.

  The control unit 11 controls the short-range wireless communication unit 16 to transmit and receive control signals (transmission / reception data) based on the specified communication medium, communication protocol, and type of control signal.

  The control unit 11 receives the control signal (reception data) including the characteristic information regarding the characteristics of the illumination from the external illumination device 20 (indoor illumination device) capable of controlling the illumination state, and thereby the external illumination device 20 (indoor illumination device). Identify the lighting characteristics. The illumination characteristics include characteristics such as whether or not illumination intensity and hue can be adjusted, fixed illumination intensity and hue, and adjustable illumination intensity and hue adjustment range.

  Based on the characteristic information received from each of a plurality of external lighting devices 20 (indoor lighting devices), the control unit 11 selects an external lighting device 20 (indoor lighting device) to be controlled and illumination included in the shooting conditions. Set the conditions.

(Operation of modification)
Hereinafter, the imaging processing operation of the imaging apparatus 10 according to the modification will be described with reference to the operation flowcharts of FIGS. 4 and 5.
Since the modification also includes processing that is common to the first embodiment, the operation flowchart of FIG. 5 only describes a portion that performs processing different from that of the first embodiment (flowchart of FIG. 4).
First, the control unit 11 executes the processing from step S101 to step S105 in the flowchart of FIG. 4 as in the first embodiment.

  Next, moving to the flowchart of FIG. 5, the control unit 11 attempts communication with the external lighting device 20 (indoor lighting device) while changing the type of communication medium and communication protocol (step S <b> 201). It is determined whether or not there is an external lighting device (indoor lighting device) that responds to the protocol (step S202).

  If the control unit 11 determines that no external lighting device responds (step S202 “No”), the control unit 11 proceeds to step S206 and determines that there is a responding external lighting device (step S202). "Yes"), a control signal for acquiring the characteristic information is transmitted to the external lighting device 20 (indoor lighting device) that has responded (step S203), and the control signal (transmission data) is transmitted. Accordingly, the characteristic information included in the control signal (received data) transmitted from the external lighting device 20 (indoor lighting device) is acquired (step S204).

  And the control part 11 is based on the success or failure of communication with the external lighting apparatus 20 (indoor lighting apparatus), and the external lighting apparatus 20 (indoor lighting apparatus) which can control an illumination state with a bidirectional | two-way communication function. The presence / absence and number of) and their illumination characteristics are specified (step S205).

Moreover, the control part 11 performs the following processes in order to identify the presence / absence and number of external lighting devices 20 (indoor lighting devices) that do not have a bidirectional communication function, and their lighting characteristics.
That is, the control unit 11 changes the control signal for turning on / off the illumination of the external lighting device 20 (indoor lighting device), and the brightness and color of the illumination from end to end within the adjustment range while changing the type of the control signal. Such a control signal is transmitted (step S206), and in response to the transmission of the control signal, the presence / absence and degree of change in brightness and hue of the captured image captured by the imaging unit 13 are confirmed (step S207).

  If the control unit 11 determines that the brightness or hue of the captured image has not changed (“No” in step S207), the control unit 11 proceeds to step S209 and determines that the brightness or hue of the captured image has changed. If it is (step S207 “Yes”), the presence or absence and number of external lighting devices 20 (indoor lighting devices) that can control the lighting state by a single-direction communication function according to the confirmation result, and those Are specified (step S208).

  Next, based on the illumination characteristics of each identified external lighting device 20 (indoor lighting device), the control unit 11 is one or more external lighting devices 20 (the most suitable for obtaining the lighting state indicated by the lighting conditions). The room lighting device) is selected (step S209).

  Then, the control unit 11 selects the one or a plurality of selected lighting conditions so that the lighting state including the lighting from the selected one or more external lighting devices 20 (indoor lighting devices) becomes the lighting state indicated by the lighting conditions. Control signals for setting the respective lighting states are transmitted to the external lighting devices 20 (indoor lighting devices) using the corresponding types of communication media, communication protocols, and control signals (step S210). ).

  Thereafter, the process proceeds to the flowchart of FIG. 4 again, and the control unit 11 executes the processes of steps S111 and S112 in the flowchart of FIG. 4 as in the first embodiment.

  In this modification, unlike the first embodiment, one or a plurality of external lighting devices 20 (indoor lighting devices) that can be in the lighting state indicated by the lighting conditions are selected in advance. It is not necessary to execute the processing from step S107 to step S110 in the flowchart of FIG. However, if it is impossible to obtain the illumination state indicated by the illumination condition even when all the external illumination devices 20 (indoor illumination devices) that can control the illumination state are combined, step S109 in the flowchart of FIG. Alternatively, the camera conditions may be changed in the same manner as in step S110.

(Effect of modification)
As described above, according to the imaging device 10 according to the modification, it is possible to cope with a plurality of external lighting devices 20 (indoor lighting devices) having different types of communication media, communication protocols, and control signals, so that the lighting state at the time of shooting is more flexible It becomes possible to set to.

  Moreover, in the said modification, in order to identify the illumination characteristic of each external lighting apparatus 20 (indoor lighting apparatus) which can control an illumination state, and to obtain the illumination state which illumination conditions show according to this identified illumination specification Since the most suitable one or a plurality of external lighting devices 20 (indoor lighting devices) are selected, the lighting state at the time of shooting can be set more flexibly and reliably.

  Further, in the above modification, the control signal for turning on / off the illumination of the external lighting device 20 (indoor lighting device) while changing the type of the control signal, and the brightness and color of the illumination change from end to end within the adjustment range. The control signal is transmitted, and the presence or degree of change in brightness or hue of the captured image captured by the imaging unit 13 is confirmed in response to the transmission of the control signal. Since the presence / absence and number of 20 (indoor lighting equipment) and their lighting characteristics are specified, not only the external lighting equipment 20 (indoor lighting equipment) having a bidirectional communication function but also a unidirectional communication function. Including the external lighting device 20 (indoor lighting device), the lighting state at the time of shooting can be set more flexibly and reliably.

When determining the illumination condition in the above modification, the intensity of light emitted by the strobe for illumination (light emitting means dedicated to photographing) is reduced as the intensity of illumination that can be adjusted by the external illumination device 20 (indoor illumination device) is higher. You may do it.
In this way, it is possible to reduce the uncomfortable feeling that the brightness of the subject is partially different due to the intensity of illumination by the strobe for illumination (light emitting means dedicated to photographing).

  As mentioned above, although preferred embodiment of this invention was explained in full detail, it cannot be overemphasized that the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiments. Further, it is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

The claims appended at the time of filing this application will be appended below.
[Claim 1]
An imaging apparatus provided with imaging means,
Setting means for setting shooting conditions when shooting by the imaging means;
It is possible to illuminate a room constantly in an arbitrarily set lighting state, and for the indoor lighting device capable of remotely operating the lighting state by a predetermined control signal transmitted from a predetermined control device, Transmitting means for transmitting a control signal of the same type as the predetermined control signal transmitted from a predetermined control device;
With
The setting unit transmits the predetermined control signal by the transmission unit before performing imaging by the imaging unit, so that the indoor lighting state of the indoor lighting device that has been set before is set for imaging. An imaging apparatus characterized by changing to an illumination state.
[Claim 2]
It further comprises a light emission control means for controlling the light emission of the light emission means dedicated to photographing,
The setting means includes a lighting condition of the indoor lighting device controlled by the transmission means and light emission of the photographing dedicated light emitting means controlled by the light emission control means as photographing conditions when photographing by the imaging means. The imaging apparatus according to claim 1, wherein the presence or absence of the camera is set.
[Claim 3]
The setting unit temporarily changes the indoor lighting state of the room lighting device set at the time of non-photographing to a lighting state for photographing at the time of photographing by the imaging unit, and then changes to the indoor lighting state again. The imaging apparatus according to claim 1, wherein the imaging apparatus is returned.
[Claim 4]
First determination means for determining the presence or absence of an indoor lighting device whose lighting state can be controlled by the transmission means;
The imaging apparatus according to claim 1, wherein the setting unit sets a shooting condition according to a determination result of the first determination unit.
[Claim 5]
Second determination means for determining whether or not the lighting state of the indoor lighting device has changed in response to the control signal transmitted by the transmission means;
The imaging apparatus according to claim 1, wherein the setting unit sets an imaging condition according to a determination result of the second determination unit.
[Claim 6]
Lighting state specifying means for specifying the lighting state of the indoor lighting device changed in response to the control signal transmitted by the transmitting means;
The imaging apparatus according to claim 1, wherein the setting unit sets an imaging condition according to the illumination state specified by the illumination state specifying unit.
[Claim 7]
The transmission means can transmit a plurality of types of control signals corresponding to a plurality of indoor lighting devices having different types of control signals for controlling the lighting state. An imaging apparatus according to claim 1.
[Claim 8]
It further comprises a type specifying means for specifying the type of control signal corresponding to the indoor lighting equipment existing around,
The imaging apparatus according to claim 7, wherein the transmission unit transmits a control signal of a type specified by the type specifying unit.
[Claim 9]
And further comprising third determination means for determining whether or not the transmission signal can be transmitted by the transmission means of the type specified by the type identification means,
The imaging apparatus according to claim 8, wherein the setting unit transmits the imaging condition according to a determination result of the third determination unit.
[Claim 10]
A characteristic specifying means for specifying the lighting characteristics of the indoor lighting device;
The imaging apparatus according to claim 1, wherein the setting unit sets an imaging condition according to the illumination characteristic specified by the characteristic specifying unit.
[Claim 11]
The characteristic specifying means specifies an adjustment range of an illumination state that can be adjusted by an indoor lighting device as the lighting characteristic,
The imaging apparatus according to claim 10, wherein the setting unit sets shooting conditions according to the adjustment range specified by the characteristic specifying unit.
[Claim 12]
12. The imaging apparatus according to claim 11, wherein the characteristic specifying unit specifies an adjustment range of illumination intensity and an adjustment range of illumination color.
[Claim 13]
3. The imaging apparatus according to claim 2, wherein the setting unit sets the color of illumination of the room lighting device so as to obtain a color corresponding to the color of light emitted by the light emitting unit.
[Claim 14]
The imaging apparatus according to claim 2, wherein the setting unit sets the intensity of light emission of the light emitting unit according to the intensity of illumination of the room lighting device.
[Claim 15]
Illumination state acquisition means for acquiring the indoor lighting state of the indoor lighting device set before the transmission means transmits the control signal,
The said setting means returns the indoor lighting state acquired by the said lighting state acquisition means, after changing the lighting state of the said indoor lighting apparatus to the said lighting state for imaging | photography, The 1-14 characterized by the above-mentioned. The imaging device according to any one of the above.
[Claim 16]
The shooting conditions include camera conditions set on the imaging device side and lighting conditions set on the indoor lighting device side,
The setting means selects one of a plurality of shooting scenes to set the camera conditions included in the shooting conditions corresponding to the selected shooting scene on the imaging device side, and the illumination conditions included in the shooting conditions 16. The imaging apparatus according to claim 1, wherein a control signal corresponding to is transmitted to an indoor lighting device by the transmitting unit.
[Claim 17]
The setting means stores a plurality of shooting conditions including a camera condition and an illumination condition in advance corresponding to each of the plurality of shooting scenes, and selects one of the stored shooting scenes. 17. The imaging apparatus according to claim 16, wherein camera conditions and illumination conditions included in the shooting conditions stored in correspondence with the selected shooting scene are set.
[Claim 18]
When setting the shooting conditions corresponding to the shooting scene selected by the setting unit, the transmission unit is predicted to be able to set or set the lighting conditions set on the indoor lighting device side by transmitting a control signal. 18. The image pickup apparatus according to claim 16, further comprising control means for performing control for reflecting the illumination condition to be reflected in the camera condition set on the image pickup apparatus side.
[Claim 19]
When the control unit sets the shooting condition corresponding to the shooting scene selected by the setting unit, the transmission unit transmits a control signal so that the lighting condition set on the indoor lighting device side can be set. The camera condition included in the shooting condition corresponding to the selected shooting scene according to whether or not the lighting condition predicted to be the same as the lighting condition included in the shooting condition corresponding to the selected shooting scene The image pickup apparatus according to claim 18, wherein the image pickup apparatus is adjusted.
[Claim 20]
The setting means has a first camera condition when the lighting control of the room lighting device is possible by transmitting a control signal as the shooting condition corresponding to a predetermined shooting scene, and the transmission means controls Storing in advance the second camera condition when the illumination control of the indoor lighting device is impossible by transmitting a signal;
When the control unit sets the shooting condition corresponding to the shooting scene selected by the setting unit, the transmission unit transmits a control signal so that the lighting condition set on the indoor lighting device side can be set. The first camera condition is selected when the illumination condition predicted to be the same as the illumination condition included in the shooting condition corresponding to the selected shooting scene, and the second camera condition is selected when they do not match The image pickup apparatus according to claim 19, wherein the camera condition is adjusted.
[Claim 21]
The setting means includes
21. The imaging apparatus according to claim 16, wherein the camera condition and the illumination condition are simultaneously set by one selection of the shooting scene.
[Claim 22]
The setting means includes
The imaging device according to any one of claims 16 to 21, wherein the lighting condition is set to a dimming state, a toning state, or both of the room lighting device.
[Claim 23]
The camera condition is
The imaging apparatus according to claim 16, comprising at least exposure adjustment and white balance adjustment.
[Claim 24]
The control means includes
For the camera condition and the lighting condition that give the same effect to the result of shooting, when the shooting scene is selected, the indoor lighting device is in a state where the lighting condition can be changed. The imaging apparatus according to any one of claims 16 to 23, wherein control for selecting which of the camera condition and the illumination condition is changed is performed.
[Claim 25]
The control means includes
The control for changing the camera condition instead of changing the illumination condition is performed when a change in a desired illumination state fails even though a control signal is transmitted to the room lighting device. The imaging device described.
[Claim 26]
It further comprises detection means for detecting the illumination state,
The control means includes
26. The imaging apparatus according to claim 25, wherein the illumination state detected by the detection unit is compared with the illumination condition to determine whether or not the change of the illumination state has failed.
[Claim 27]
The control means includes
Depending on whether a signal indicating success of the control transmitted from the external lighting device is received in response to transmission of a control signal for setting the lighting state of the room lighting device to the lighting condition, 26. The imaging apparatus according to claim 25, wherein it is determined whether or not the change has failed.
[Claim 28]
The control means includes
For a shooting scene that preferably reproduces the reflection state of an external light source in accordance with the shape of the subject, the lighting condition is preferentially changed over other shooting scenes, and the shooting condition is controlled to a desired state. The imaging device according to any one of claims 16 to 27.
[Claim 29]
An imaging condition setting method in an imaging apparatus provided with imaging means,
A setting process for setting shooting conditions when shooting by the imaging means;
It is possible to illuminate a room constantly in an arbitrarily set lighting state, and for the indoor lighting device capable of remotely operating the lighting state by a predetermined control signal transmitted from a predetermined control device, A transmission process for transmitting a control signal of the same type as the predetermined control signal transmitted from a predetermined control device;
With
The setting process transmits the predetermined control signal by the transmission process before shooting by the imaging unit, so that the indoor lighting state of the indoor lighting device set before that is set for shooting. An imaging condition setting method characterized by changing to an illumination state.
[Claim 30]
A computer of an imaging apparatus provided with imaging means,
Setting means for setting shooting conditions when shooting by the imaging means;
It is possible to illuminate a room constantly in an arbitrarily set lighting state, and for the indoor lighting device capable of remotely operating the lighting state by a predetermined control signal transmitted from a predetermined control device, Transmitting means for transmitting a control signal of the same type as the predetermined control signal transmitted from a predetermined control device;
To function,
The setting unit transmits the predetermined control signal by the transmission unit before performing imaging by the imaging unit, so that the indoor lighting state of the indoor lighting device that has been set before is set for imaging. A program characterized by changing to an illumination state.

  DESCRIPTION OF SYMBOLS 10 ... Imaging device, 11 ... Control part, 12 ... Memory | storage part, 12a ... Shooting scene-shooting condition corresponding | compatible table, 13 ... Imaging part, 14 ... Display part, 15 ... Operation part, 16 ... Short-distance wireless communication part, 17 ... Illuminance sensor, 18 ... power supply, 19 ... bus, 20 ... external lighting device, 30 ... short-range wireless communication

Claims (30)

An imaging apparatus provided with imaging means,
Setting means for setting shooting conditions when shooting by the imaging means;
It is possible to illuminate a room constantly in an arbitrarily set lighting state, and for the indoor lighting device capable of remotely operating the lighting state by a predetermined control signal transmitted from a predetermined control device, Transmitting means for transmitting a control signal of the same type as the predetermined control signal transmitted from a predetermined control device;
With
The setting unit transmits the predetermined control signal by the transmission unit before performing imaging by the imaging unit, so that the indoor lighting state of the indoor lighting device that has been set before is set for imaging. An imaging apparatus characterized by changing to an illumination state. It further comprises a light emission control means for controlling the light emission of the light emission means dedicated to photographing,
The setting means includes a lighting condition of the indoor lighting device controlled by the transmission means and light emission of the photographing dedicated light emitting means controlled by the light emission control means as photographing conditions when photographing by the imaging means. The imaging apparatus according to claim 1, wherein the presence or absence of the camera is set.   The setting unit temporarily changes the indoor lighting state of the room lighting device set at the time of non-photographing to a lighting state for photographing at the time of photographing by the imaging unit, and then changes to the indoor lighting state again. The imaging apparatus according to claim 1, wherein the imaging apparatus is returned. First determination means for determining the presence or absence of an indoor lighting device whose lighting state can be controlled by the transmission means;
The imaging apparatus according to claim 1, wherein the setting unit sets a shooting condition according to a determination result of the first determination unit. Second determination means for determining whether or not the lighting state of the indoor lighting device has changed in response to the control signal transmitted by the transmission means;
The imaging apparatus according to claim 1, wherein the setting unit sets an imaging condition according to a determination result of the second determination unit. Lighting state specifying means for specifying the lighting state of the indoor lighting device changed in response to the control signal transmitted by the transmitting means;
The imaging apparatus according to claim 1, wherein the setting unit sets an imaging condition according to the illumination state specified by the illumination state specifying unit.   The transmission means can transmit a plurality of types of control signals corresponding to a plurality of indoor lighting devices having different types of control signals for controlling the lighting state. An imaging apparatus according to claim 1. It further comprises a type specifying means for specifying the type of control signal corresponding to the indoor lighting equipment existing around,
The imaging apparatus according to claim 7, wherein the transmission unit transmits a control signal of a type specified by the type specifying unit. And further comprising third determination means for determining whether or not the transmission signal can be transmitted by the transmission means of the type specified by the type identification means,
The imaging apparatus according to claim 8, wherein the setting unit transmits the imaging condition according to a determination result of the third determination unit. A characteristic specifying means for specifying the lighting characteristics of the indoor lighting device;
The imaging apparatus according to claim 1, wherein the setting unit sets an imaging condition according to the illumination characteristic specified by the characteristic specifying unit. The characteristic specifying means specifies an adjustment range of an illumination state that can be adjusted by an indoor lighting device as the lighting characteristic,
The imaging apparatus according to claim 10, wherein the setting unit sets shooting conditions according to the adjustment range specified by the characteristic specifying unit.   12. The imaging apparatus according to claim 11, wherein the characteristic specifying unit specifies an adjustment range of illumination intensity and an adjustment range of illumination color.   3. The imaging apparatus according to claim 2, wherein the setting unit sets the color of illumination of the room lighting device so as to obtain a color corresponding to the color of light emitted by the light emitting unit.   The imaging apparatus according to claim 2, wherein the setting unit sets the intensity of light emission of the light emitting unit according to the intensity of illumination of the room lighting device. Illumination state acquisition means for acquiring the indoor lighting state of the indoor lighting device set before the transmission means transmits the control signal,
The said setting means returns the indoor lighting state acquired by the said lighting state acquisition means, after changing the lighting state of the said indoor lighting apparatus to the said lighting state for imaging | photography, The 1-14 characterized by the above-mentioned. The imaging device according to any one of the above. The shooting conditions include camera conditions set on the imaging device side and lighting conditions set on the indoor lighting device side,
The setting means selects one of a plurality of shooting scenes to set the camera conditions included in the shooting conditions corresponding to the selected shooting scene on the imaging device side, and the illumination conditions included in the shooting conditions 16. The imaging apparatus according to claim 1, wherein a control signal corresponding to is transmitted to an indoor lighting device by the transmitting unit.   The setting means stores a plurality of shooting conditions including a camera condition and an illumination condition in advance corresponding to each of the plurality of shooting scenes, and selects one of the stored shooting scenes. 17. The imaging apparatus according to claim 16, wherein camera conditions and illumination conditions included in the shooting conditions stored in correspondence with the selected shooting scene are set.   When setting the shooting conditions corresponding to the shooting scene selected by the setting unit, the transmission unit is predicted to be able to set or set the lighting conditions set on the indoor lighting device side by transmitting a control signal. 18. The image pickup apparatus according to claim 16, further comprising control means for performing control for reflecting the illumination condition to be reflected in the camera condition set on the image pickup apparatus side.   When the control unit sets the shooting condition corresponding to the shooting scene selected by the setting unit, the transmission unit transmits a control signal so that the lighting condition set on the indoor lighting device side can be set. The camera condition included in the shooting condition corresponding to the selected shooting scene according to whether or not the lighting condition predicted to be the same as the lighting condition included in the shooting condition corresponding to the selected shooting scene The image pickup apparatus according to claim 18, wherein the image pickup apparatus is adjusted. The setting means has a first camera condition when the lighting control of the room lighting device is possible by transmitting a control signal as the shooting condition corresponding to a predetermined shooting scene, and the transmission means controls Storing in advance the second camera condition when the illumination control of the indoor lighting device is impossible by transmitting a signal;
When the control unit sets the shooting condition corresponding to the shooting scene selected by the setting unit, the transmission unit transmits a control signal so that the lighting condition set on the indoor lighting device side can be set. The first camera condition is selected when the illumination condition predicted to be the same as the illumination condition included in the shooting condition corresponding to the selected shooting scene, and the second camera condition is selected when they do not match The image pickup apparatus according to claim 19, wherein the camera condition is adjusted. The setting means includes
21. The imaging apparatus according to claim 16, wherein the camera condition and the illumination condition are simultaneously set by one selection of the shooting scene. The setting means includes
The imaging device according to any one of claims 16 to 21, wherein the lighting condition is set to a dimming state, a toning state, or both of the room lighting device. The camera condition is
The imaging apparatus according to claim 16, comprising at least exposure adjustment and white balance adjustment. The control means includes
For the camera condition and the lighting condition that give the same effect to the result of shooting, when the shooting scene is selected, the indoor lighting device is in a state where the lighting condition can be changed. The imaging apparatus according to any one of claims 16 to 23, wherein control for selecting which of the camera condition and the illumination condition is changed is performed. The control means includes
The control for changing the camera condition instead of changing the illumination condition is performed when a change in a desired illumination state fails even though a control signal is transmitted to the room lighting device. The imaging device described. It further comprises detection means for detecting the illumination state,
The control means includes
26. The imaging apparatus according to claim 25, wherein the illumination state detected by the detection unit is compared with the illumination condition to determine whether or not the change of the illumination state has failed. The control means includes
Depending on whether a signal indicating success of the control transmitted from the external lighting device is received in response to transmission of a control signal for setting the lighting state of the room lighting device to the lighting condition, 26. The imaging apparatus according to claim 25, wherein it is determined whether or not the change has failed. The control means includes
For a shooting scene that preferably reproduces the reflection state of an external light source in accordance with the shape of the subject, the lighting condition is preferentially changed over other shooting scenes, and the shooting condition is controlled to a desired state. The imaging device according to any one of claims 16 to 27. An imaging condition setting method in an imaging apparatus provided with imaging means,
A setting process for setting shooting conditions when shooting by the imaging means;
It is possible to illuminate a room constantly in an arbitrarily set lighting state, and for the indoor lighting device capable of remotely operating the lighting state by a predetermined control signal transmitted from a predetermined control device, A transmission process for transmitting a control signal of the same type as the predetermined control signal transmitted from a predetermined control device;
With
The setting process transmits the predetermined control signal by the transmission process before shooting by the imaging unit, so that the indoor lighting state of the indoor lighting device set before that is set for shooting. An imaging condition setting method characterized by changing to an illumination state. A computer of an imaging apparatus provided with imaging means,
Setting means for setting shooting conditions when shooting by the imaging means;
It is possible to illuminate a room constantly in an arbitrarily set lighting state, and for the indoor lighting device capable of remotely operating the lighting state by a predetermined control signal transmitted from a predetermined control device, Transmitting means for transmitting a control signal of the same type as the predetermined control signal transmitted from a predetermined control device;
To function,
The setting unit transmits the predetermined control signal by the transmission unit before performing imaging by the imaging unit, so that the indoor lighting state of the indoor lighting device that has been set before is set for imaging. A program characterized by changing to an illumination state.

Images