JP2020013050A - Photographing parameter adjustment device, lens unit including the same, photographing parameter adjustment system, and photographing parameter adjustment method - Google Patents

Abstract

To provide a photographing parameter adjustment device that can readily set a photographing parameter in line with an intention of a photographer.SOLUTION: The present invention relates to a photographing parameter adjustment device (20) that adjusts a photographing parameter for controlling an imaging device. The photographing parameter adjustment device has: a photographing parameter setting unit (20a) that sets a plurality of photographing parameters for adjusting an amount of drive of an optical element; a photographing control unit (20b) that controls the imaging device on the basis of the plurality of set photographing parameters; an image selection unit (20c) that selects a selection image from a plurality of images taken by the imaging device on the basis of each of the plurality of set photographing parameters; a photographing parameter identification unit (20d) that identifies the photographing parameter adjusting the amount of drive used in taking the selection image selected by the image selection unit; and a photographing parameter recording unit (20e) that records a value of the photographing parameter identified by the photographing parameter identification unit in a storage unit.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an imaging parameter adjustment device, a lens unit including the same, an imaging parameter adjustment system, and an imaging parameter adjustment method.

  2. Description of the Related Art At present, photographing apparatuses that automatically perform focus adjustment, exposure adjustment, and the like of a photographed image are widely used. However, the focus position, exposure, and the like adjusted by the automatic adjustment function provided in the image capturing apparatus may not always match the intention of the photographer. There are known interchangeable lens units and cameras having a function of allowing a user to change settings such as an in-focus position and exposure by such an automatic adjustment function. If the in-focus position, exposure, and the like adjusted by the automatic adjustment function are not as intended, the interchangeable lens unit or camera can be brought to a manufacturer's service center to change the settings.

  Japanese Patent Application Laid-Open No. 2015-118295 (Patent Document 1) describes a camera. The camera includes a focus detection unit that detects a focus adjustment state for each of a plurality of focus detection areas in a screen, and a focus detection unit that is substantially in focus among the plurality of focus detection areas based on a detection result by the focus detection unit. When the display unit for displaying the area and the first focus adjustment for moving the focus optical system in response to the manual operation are completed, detection by the focus detection unit starts from the position of the focus optical system after the manual operation. A control unit for starting a second focus adjustment for automatically moving the focus optical system based on the result. Thus, the user can perform the focus adjustment according to his / her intention.

JP-A-2015-118295

  However, in the camera described in Patent Literature 1, the first focus adjustment is manually performed for each photographing operation, and the second focus adjustment is automatically performed starting from the position of the focus optical system after the manual operation. Since it is necessary to perform focus adjustment, there is a problem that photographing is troublesome. Further, when the focus position by the second focus adjustment which is automatically performed is not in line with the photographer's intention due to individual differences of the camera or the like, after all, the focus position is in line with the photographer's intention. There is a problem that focus cannot be adjusted automatically.

  On the other hand, when adjusting the focus position in an interchangeable lens unit or the like having a function of allowing the user to change the focus position by the automatic adjustment function, the photographer sets a certain shooting parameter after setting a certain shooting parameter. The photographed image is taken, and the photographed image is taken into a computer or the like to check the image. Next, when the in-focus position of the image is not as intended, the photographer removes the interchangeable lens unit from the camera body, attaches the interchangeable lens unit to a dedicated parameter setting device, and sets the photographing parameters relating to the in-focus position. change. Further, the interchangeable lens with the changed photographing parameters is attached to the camera body and photographing is performed again under the same conditions, and the photographed image is taken into a computer or the like to check the image.

  It is necessary for the photographer to repeatedly change the photographing parameters and check the photographed image until a satisfactory in-focus position is obtained, and there is a problem that adjusting the photographing parameters is extremely troublesome. Further, in such adjustment of the photographing parameters, it is necessary to attach and detach the interchangeable lens unit to and from the camera body, take in an image, and the like for each photographing operation. Is difficult to set. For this reason, there is a problem that it is difficult to ensure reproducibility of fine adjustment of the photographing parameters, and it is difficult to obtain a satisfactory adjustment result.

  Accordingly, the present invention provides a photographing parameter adjustment device capable of easily setting a photographing parameter according to a photographer's intention, a lens unit including the same, a photographing parameter adjustment system, and a photographing parameter adjustment method. The purpose is.

  In order to solve the above-described problem, the present invention is directed to an imaging parameter adjustment apparatus that adjusts imaging parameters for controlling an imaging apparatus that performs imaging by driving an optical element that corrects an image to be captured, A photographing parameter setting unit that sets a plurality of photographing parameters for adjusting the driving amount of the photographing unit, a photographing control unit that controls the photographing device based on the plurality of set photographing parameters, and based on each of the plurality of set photographing parameters. An image selection unit that selects a selected image from a plurality of images captured by the imaging device; and a shooting parameter specification unit that specifies a shooting parameter adjusted for a driving amount used for shooting the selected image selected by the image selection unit. A photographing parameter recording unit that records the value of the photographing parameter specified by the photographing parameter specifying unit in the storage unit; It is characterized by having.

  In the present invention configured as above, the control signal is transmitted to the photographing device by the photographing control unit, and a plurality of images are photographed based on the plurality of photographing parameters set by the photographing parameter setting unit. The image selection unit selects the selected image from the plurality of images captured in this manner. The photographing parameter specifying unit specifies a photographing parameter obtained by adjusting a driving amount used for photographing the selected image selected by the image selecting unit, and the photographing parameter recording unit records the specified photographing parameter value in the storage unit. I do.

  According to the present invention configured as described above, since a plurality of images in which the shooting parameters are changed are shot at one time, a plurality of images having different shooting parameters can be easily acquired in a short time. The photographing parameters can be easily adjusted. Further, since a plurality of images having different shooting parameters are shot in a short time, the shooting conditions of each image can be almost completely matched, and the shooting parameters can be adjusted with high reliability.

  Further, a lens unit according to the present invention includes a lens barrel, an optical element housed inside the lens barrel, and a photographing parameter adjusting device according to the present invention.

  Further, the present invention is a photographing parameter adjustment system, which is connected to a lens unit incorporating the photographing parameter adjusting device of the present invention via an electrical connection or wirelessly to the lens unit, and information on a selected image. And an information input device for inputting the information to the image selection unit.

  Furthermore, the present invention is a photographing parameter adjustment system, wherein the photographing device incorporating the photographing parameter adjusting device of the present invention is connected to the photographing device via an electrical connection or wirelessly, and includes a photographing control unit. An information input / output device that captures data of a plurality of images captured based on the control signal, and inputs information about a selected image selected from the captured data of the plurality of images to an image selection unit. Features.

  The present invention is also a method for adjusting a shooting parameter, comprising: setting a shooting device to a shooting parameter adjustment mode; and changing the shooting parameter of the same subject by a predetermined value within a predetermined range by using the shooting device. A photographing step of automatically performing photographing a plurality of times, a step of selecting a most preferable image from a plurality of images photographed in the photographing step, and a photographing parameter value used for photographing the selected image, Storing in a memory of the photographing apparatus.

  ADVANTAGE OF THE INVENTION According to the imaging | photography parameter adjustment apparatus of this invention, the lens unit provided with the same, the imaging | photography parameter adjustment system, and the imaging | photography parameter adjustment method, the imaging | photography parameter according to a photographer's intention can be set easily.

FIG. 1 is a diagram illustrating an entire photographing parameter adjustment system according to a first embodiment of the present invention. FIG. 2 is a block diagram illustrating a state in which a lens unit including a photographing parameter adjustment device according to the first embodiment of the present invention is mounted on a camera body. 5 is a flowchart illustrating a method for adjusting a shooting parameter according to the first embodiment of the present invention. FIG. 4 is a diagram illustrating a method for adjusting a shooting parameter according to the first embodiment of the present invention. FIG. 11 is a diagram illustrating a method for adjusting a shooting parameter according to a second embodiment of the present invention.

<First embodiment>
First, an imaging parameter adjustment system according to a first embodiment of the present invention will be described with reference to FIGS.

<Configuration of shooting parameter adjustment system>
FIG. 1 is a diagram illustrating an entire photographing parameter adjustment system according to a first embodiment of the present invention. FIG. 2 is a block diagram showing a state in which a lens unit incorporating a photographing parameter adjusting device according to an embodiment of the present invention is mounted on a camera body.

  As shown in FIG. 1, an imaging parameter adjustment system 1 according to an embodiment of the present invention includes a lens unit 2 and an information input device 4 for inputting information to the lens unit 2. Further, the information input device 4 includes a mounting tap 4a mounted on the lens unit 2 and a controller 4b for controlling the mounting tap 4a. In the present embodiment, the controller 4b is configured by installing dedicated application software on a personal computer.

  The controller 4b can be connected to the mounting tap 4a by a USB (Universal Serial Bus) cable or the like. Further, by attaching the mounting tap 4a to the lens unit 2, the electrical contacts (not shown) provided on the mounting tap 4a and the electrical contacts (not shown) provided on the lens unit 2 are connected to each other. An electric signal can be input and output to and from the device. As a modified example, the connection between the mounting tap 4a and the controller 4b or the connection between the mounting tap 4a and the lens unit 2 can be wirelessly established by Wi-Fi or the like. Furthermore, the mounting tap 4a and the controller 4b can be configured as an integrated device.

<Structure of lens unit>
Next, the configuration of the lens unit 2 will be described with reference to FIG. The lens unit 2 is configured to mount the lens unit 2 on a camera body 6 which is a photographing device and perform photographing. The present invention can also be applied to a photographing apparatus in which a lens unit and a camera body are integrally formed.

  When shooting is performed by the lens unit 2 attached to the camera body 6 using the autofocus (AF) function, the camera body 6 detects the in-focus position based on the object light incident on the lens unit 2, and the in-focus position Is output to the lens unit 2. The lens unit 2 drives a focusing lens, which is a built-in optical element, based on a signal input from the camera body 6, and then opens the shutter, and the focused image is displayed on the camera body 6. Is formed on the solid-state imaging device. In the present embodiment, an imaging parameter adjustment device that forms part of the imaging parameter adjustment system 1 is built in the lens unit 2. The photographing parameter adjustment device finely adjusts the driving amount of the focusing lens based on the signal indicating the focus position input from the camera body 6 and performs adjustment so that the focus position according to the photographer's intention is obtained. belongs to. It should be noted that the photographing parameter adjusting device may be built in the camera body, or may be built separately in both the lens unit and the camera body. Alternatively, the photographing parameter adjusting device can be provided outside the photographing device including the lens unit and the camera body.

  As shown in FIG. 2, the lens unit 2 includes a lens barrel 8, an imaging lens 10, a zooming lens 12, a focusing lens 14, a diaphragm 16, and a lens control unit 18. Further, the lens unit 2 has a built-in photographing parameter adjusting device 20 that forms a part of the photographing parameter adjusting system 1. Further, the lens control unit 18 includes a storage unit 18a for storing the AF basic data and the focus correction value, and a lens drive control circuit 18b for driving the focusing lens 14.

  The lens barrel 8 is a cylindrical member that holds an imaging lens 10, a zooming lens 12, and a focusing lens 14 inside. When the user operates a focus ring (not shown) at the time of manual focusing, the focusing lens 14 is moved in the optical axis direction, so that the focus position can be manually adjusted and a zoom ring (not shown) can be obtained. The zoom lens 12 is moved in the direction of the optical axis by manipulating the zoom lens, and the angle of view can be adjusted.

  The AF basic data and the focus correction value are stored in a storage unit 18a built in the lens control unit 18. The lens drive control circuit 18b is based on the lens drive signal transmitted from the camera body 6 via the electrical contact 2a of the mount unit of the lens unit 2, the AF basic data and the focus correction value stored in the storage unit 18a. To calculate the automatic focusing position, and based on the calculation result, move the focusing lens 14 to the focal point. The electric contact 2a also functions as a contact for electrically connecting the mounting tap 4a to the lens unit 2 when the mounting tap 4a is mounted on the lens unit 2.

  The lens control unit 18 and the photographing parameter adjustment device 20 can be configured by, for example, a microprocessor, a memory, and software for operating them. Further, the lens drive control circuit 18b can be constituted by an actuator that drives the focusing lens 14 based on a control signal from the microprocessor and a drive circuit thereof.

  The camera body 6 includes a lens mount 24, a mirror 26, a shutter 28, a solid-state imaging device 30, a phase difference detection unit 32, a body control unit 34, a display unit 36, an image information memory 38, an operation unit 40.

  The lens mount 24 is configured so that the lens unit 2 can be attached to and detached from the camera body 6 by a simple operation. The lens mount 24 contacts an electrical contact 2 a provided on the lens unit 2 to input and output an electrical signal. An electrical contact 24a is provided.

  The solid-state imaging device 30 is arranged on an image forming surface on which a light beam from a subject incident via the lens unit 2 forms an image, and is configured to perform photoelectric conversion for outputting an electric signal according to the amount of light of the formed image. ing. In the present embodiment, the present invention is applied to a digital camera including the solid-state imaging device 30, but the present invention can also be applied to a film camera.

  The phase difference detection unit 32 is configured to reflect a light beam from a subject incident via the lens unit 2 by the mirror 26 and output a pair of image outputs obtained by pupil division to the body control unit 34.

  Further, the body control unit 34 includes an image data generation unit 34a and an AF control unit 34b.

  The body control unit 34 is configured to control the entire imaging device including the lens unit 2 and the camera body 6. The AF control unit 34b built in the body control unit 34 calculates the focus adjustment state (defocus amount) of the lens unit 2 based on the signal input from the phase difference detection unit 32, and responds to the defocus amount. A lens drive signal is sent to the lens controller 18 via the electrical contact 24a of the lens mount 24. The lens drive signal includes information indicating a drive amount for moving the focusing lens to the focal point. In the lens unit 2, as described above, the auto focus control is performed based on the lens drive signal. By moving the focusing lens 14 to the focal point, a light beam from a subject incident via the lens unit 2 forms an image on the solid-state imaging device 30.

  The image data generation unit 34a incorporated in the body control unit 34 outputs image data based on a signal read from an imaging sensor provided in the solid-state imaging device 30 to the display unit 36, and stores the image data in the image information memory 38. It is configured to be stored.

  The operation unit 40 is an interface for inputting a user's intention to the body control unit 34. By operating the operation unit 40, operations such as display switching to the display unit 36 and enlargement and reduction of a displayed image are performed. It can be carried out.

  On the other hand, the shooting parameter adjustment device 20 built in the lens unit 2 includes a shooting parameter setting unit 20a, a shooting control unit 20b, an image selection unit 20c, a shooting parameter specifying unit 20d, and a shooting parameter recording unit 20e. Have.

The shooting parameter setting unit 20a is configured to set a plurality of shooting parameters in which the focus position is changed by a predetermined value within a predetermined range when the shooting parameter setting mode is activated.
The photographing control unit 20b is configured to transmit a control signal to the lens control unit 18 of the photographing apparatus so that a plurality of images are automatically photographed based on the photographing parameters set by the photographing parameter setting unit 20a. Have been. That is, by detaching the lens unit 2 from the camera body 6 and sending a signal from the controller 4b with the attachment tap 4a attached to the lens unit 2 as shown in FIG. 1, the shooting parameter setting mode can be activated. The operation in the shooting parameter setting mode will be described later. The present invention can also be configured such that a switch (not shown) provided on the lens unit 2 can be operated to activate the shooting parameter setting mode without removing the lens unit 2 from the camera body 6.

The image selection unit 20c is configured to input information on one selected image selected from a plurality of images captured based on a control signal of the imaging control unit 20b.
Further, the shooting parameter specifying unit 20d specifies the value (moving amount) of the shooting parameter (focus position) used for shooting the selected image based on the information on the selected image input to the image selecting unit 20c. Is configured.

The shooting parameter recording unit 20e is configured to output the value of the focus position specified by the shooting parameter specifying unit 20d and store the value in the storage unit 18a of the lens control unit 18.
The operations of the image selecting unit 20c, the photographing parameter specifying unit 20d, and the photographing parameter recording unit 20e will also be described later.

<How to adjust shooting parameters>
Next, with reference to FIGS. 3 and 4, a method of adjusting a shooting parameter according to an embodiment of the present invention will be described.
FIG. 3 is a flowchart illustrating a method for adjusting a shooting parameter according to an embodiment of the present invention. FIG. 4 is a diagram illustrating a method for adjusting a shooting parameter according to the embodiment of the present invention.

  First, in step S1 in FIG. 3, the photographing device including the lens unit 2 and the camera body 6 is set to the photographing parameter adjustment mode. Specifically, as described above, a signal is sent from the controller 4b in a state where the mounting tap 4a is mounted on the lens unit 2, thereby activating the shooting parameter setting mode. In a personal computer used as the controller 4b, dedicated application software is activated, and in this state, a photographing parameter setting mode is activated by clicking an operation button on the screen. That is, a control signal is transmitted from the controller 4b to the lens unit 2 via the mounting tap 4a by operating the application software, and the shooting parameter adjustment mode is set.

  At this time, a range in which the shooting parameter is changed and a value in which the shooting parameter is changed within this range can be designated on the application software. In the present embodiment, since the focus position at the time of automatic focus adjustment is adjusted as a shooting parameter, a range in which the imaging position is moved and a pitch at which the imaging position is moved within this range are specified. For example, the range for moving the imaging position is specified to be ± 100 μm, and the pitch for moving is set to 10 μm. As a result of this designation, as a photographing parameter setting step, an imaging position set by default and 10 imaging positions on both sides of the imaging position at 10 μm intervals are specified. These pieces of information are transferred to and stored in the shooting parameter setting unit 20a of the shooting parameter adjustment device 20 built in the lens unit 2. The photographing parameter setting unit 20a sets a plurality of photographing parameters (a driving amount of the focusing lens 14) corresponding to each image forming position.

  Next, in step S2, as a photographing control step, the same subject is automatically photographed by using a photographing apparatus including the lens unit 2 and the camera body 6 with respect to a plurality of photographing parameters changed by a predetermined value within a predetermined range. Will be taken multiple times. That is, after activating the shooting parameter setting mode in step S1, the mounting tap 4a is removed from the lens unit 2, and the lens unit 2 is mounted on the camera body 6. Further, the camera body 6 is fixed with a tripod (not shown) with the lens unit 2 facing the subject, and a release button (not shown) of the camera body 6 is operated. When the release button is operated in a state where the shooting parameter setting mode is activated, shooting is automatically performed at each image forming position (shooting parameter) specified in step S1.

  Specifically, when the release button is operated in a state where the photographing parameter setting mode is activated, the photographing control unit 20 b of the photographing parameter adjustment device 20 built in the lens unit 2 transmits the signal to the body control unit 34 of the camera body 6. A control signal is sent to the camera to automatically and repeatedly perform imaging while changing the imaging position. That is, as shown in FIG. 4, 10 times on the front focus side and 10 times on the rear focus side, including the default imaging position, are automatically and continuously taken 21 times. , 21 images are bracketed. Here, since these bracket shootings are performed continuously in a short time, the shooting conditions of the subject can be almost completely matched. As a result, by comparing the 21 captured images, it is possible to purely compare changes in images due to differences in image formation positions. In the present embodiment, the data of the captured image is stored in the image information memory 38 of the camera body 6.

  Further, in step S3, the most preferable image is selected as an image selection step from the plurality of images photographed in step S2. That is, in step S2, data of 21 images shot while changing the image forming position is read out from the image information memory 38 of the camera body 6 to the computer, and each image is displayed on the display. The computer used as the controller 4b may be used as a computer that reads out image data. The photographer compares the images displayed on the display of the computer and determines the image whose focus position is most in line with his or her intention as the selected image.

  The selection of the selected image may be performed by comparing the image data read out by the computer and printed out by the printer. Alternatively, the selected image may be determined by displaying the image data stored in the image information memory 38 on the display unit 36 of the camera body 6 and comparing the image data without reading it out to the computer. The selection of the selected image may not be performed by the photographer artificially, but may be performed by performing image analysis using application software on a computer and determining the selected image. In this case, the process from reading out the captured image data to determining the selected image can be performed automatically. Alternatively, the present invention can be configured such that software for image analysis is incorporated in the body control unit 34 of the camera body 6 and the selected image is automatically determined without reading the image data from the camera body 6. .

  Next, in step S4, the photographer inputs information on the selected most preferable image to the photographing parameter adjustment device 20 of the lens unit 2. That is, the lens unit 2 is detached from the camera body 6, and the mounting tap 4a is mounted on the lens unit 2 again. On the other hand, a serial number for identifying the image is attached to the end of each image captured while changing the image forming position, and the photographer sets the number assigned to the selected image on the controller 4b. The data is input to the photographing parameter adjustment device 20 via the activated application software. For example, among the 21 captured images, No. When the focus position of the image 7 is in line with the photographer's intention, the photographer inputs “7” as the number of the selected image via the controller 4b.

  Further, in step S5, the value of the shooting parameter used for shooting the selected image is specified as a shooting parameter specifying step. Finally, as a shooting parameter recording step, the values of the specified shooting parameters are stored in the storage unit 18a of the lens control unit 18 built in the lens unit 2. That is, when the photographer inputs the number "7" of the selected image to the controller 4b, the information on the selected image is transmitted to the image selecting section 20c of the photographing parameter adjusting device 20 built in the lens unit 2 via the mounting tap 4a. Is entered. Therefore, the mounting tap 4a and the controller 4b function as an information input device that inputs information regarding the selected image to the image selection unit 20c.

  Further, in the present embodiment, the input of the information regarding the selected image is performed by the mounting tap 4a and the controller 4b. The present invention can also be configured so that the reading of the image data is performed by a single device. For example, the present invention is configured such that a personal computer on which dedicated application software is installed is connected to the lens unit 2 or the camera body 6 by wire or wirelessly, and a plurality of image data are read out and information about a selected image is input. You can also. In this case, a personal computer on which dedicated application software is installed functions as an information input / output device.

  When the information regarding the selected image is input to the image selection unit 20c, the shooting parameter specifying unit 20d specifies the value of the shooting parameter used for shooting the selected image based on this information. Specifically, the value of the imaging position used when capturing the image of the number “7” selected by the photographer is specified as the value of the capturing parameter.

  When the value of the shooting parameter is specified by the shooting parameter specifying unit 20d, the shooting parameter recording unit 20e outputs the specified value of the shooting parameter and causes the storage unit 18a of the lens control unit 18 to store the value. By storing the values of the shooting parameters in the storage unit 18a in this manner, when shooting is performed using the lens unit 2, the default settings are corrected according to the stored shooting parameters. You. That is, in the present embodiment, the focusing position set by default is corrected in the subsequent photographing, and the focusing position is adjusted so that the focusing position corresponding to the image of the number “7” selected by the photographer is obtained. The lens 14 is positioned and photographing is performed.

<Effect of First Embodiment of the Present Invention>
According to the photographing parameter adjusting device 20 of the embodiment of the present invention, a plurality of images in which the photographing parameters are changed are automatically photographed at one time (step S2 in FIG. 3, FIG. 4), so that the photographing parameters differ. A plurality of images can be easily acquired in a short time, and the photographing parameters can be easily adjusted. Further, since a plurality of images having different shooting parameters are shot in a short time, the shooting conditions of each image can be almost completely matched, and the shooting parameters can be adjusted with high reliability.

  Further, according to the photographing parameter adjusting device 20 of the present embodiment, the photographing control unit 20b transmits a control signal to the camera body 6 so that a plurality of images having different focus positions are photographed by automatic focus adjustment. Therefore, it is possible to easily set the focus position according to the intention of the photographer.

  According to the shooting parameter adjustment device 20 of the present embodiment, the shooting control unit 20b shoots a plurality of images having different focus positions based on each of the focus positions set by the shooting parameter setting unit 20a. The photographing device can be controlled as follows. Then, the user can easily set the shooting parameters related to the focus position by selecting an image shot at the focus position that he / she likes from a plurality of images at different focus positions.

<Second embodiment>
Next, a shooting parameter adjustment system and a shooting parameter adjustment method according to a second embodiment of the present invention will be described with reference to FIG.
In the above-described first embodiment of the present invention, the focus position of the focusing lens is adjusted as a shooting parameter. On the other hand, the present embodiment is different from the above-described first embodiment in that the aperture amount (aperture value) set by the automatic exposure adjustment function is adjusted as a shooting parameter. Therefore, here, only the points of the present embodiment different from the first embodiment will be described, and description of the same configuration, operation, and effect will be omitted.

  In the photographing parameter adjustment method of the present embodiment, when the photographing device is set to the photographing parameter adjustment mode in step S1 of FIG. 3, the range in which the photographing parameter is changed and the value for changing the photographing parameter are set on the application software. specify. In the present embodiment, since the aperture amount at the time of automatic exposure adjustment is adjusted as a shooting parameter, a range for adjusting the aperture amount and a pitch for changing the aperture amount within this range are specified. For example, a range for adjusting the narrowing amount is specified to ± 3 eV (Exposure Value), and a pitch to be changed is specified to 0.3 eV. By specifying in this way, the photographing parameter setting unit 20a determines the aperture amount set by default and the aperture amount by 10 locations at 0.3 eV intervals on both sides of the aperture amount (the position of the aperture blade of the aperture 16). Set. These shooting parameters are stored in the shooting parameter adjustment device 20.

  Next, in step S2, the same subject is automatically photographed a plurality of times using a photographing apparatus including the lens unit 2 and the camera body 6 with respect to a plurality of photographing parameters that are changed by a predetermined value within a predetermined range. You. That is, after activating the shooting parameter setting mode in step S1, the mounting tap 4a is removed from the lens unit 2, and the lens unit 2 is mounted on the camera body 6. Further, the camera body 6 is fixed with a tripod (not shown) with the lens unit 2 facing the subject, and a release button (not shown) of the camera body 6 is operated. When the release button is operated in a state in which the shooting parameter setting mode is activated, shooting is automatically performed at each of the aperture amounts (shooting parameters) specified in step S1.

  Specifically, when the release button is operated in a state where the photographing parameter setting mode is activated, the photographing control unit 20 b of the photographing parameter adjustment device 20 built in the lens unit 2 transmits the signal to the body control unit 34 of the camera body 6. A control signal is sent to the camera to automatically and repeatedly shoot while changing the aperture. That is, as shown in FIG. 5, a total of 21 shots are automatically and continuously performed, including the default aperture setting, 10 times on the underexposed side and 10 times on the overexposed side, Twenty-one images are bracketed. The data of the captured image is stored in the image information memory 38 of the camera body 6.

  Further, in step S3, the most preferable image is selected from the plurality of images photographed in step S2 which is the photographing step. That is, in step S2, data of 21 images shot while changing the aperture value are read out from the image information memory 38 of the camera body 6 to the computer, and each image is displayed on the display. The photographer compares the images displayed on the display of the computer, and determines the image having the most intended exposure as the selected image.

  Next, in step S4, the photographer inputs information on the selected most preferable image to the photographing parameter adjustment device 20 of the lens unit 2. That is, the photographer inputs the number assigned to the selected image to the photographing parameter adjustment device 20 via the application software running on the controller 4b. For example, among the 21 captured images, No. When the exposure of the image No. 4 is in line with the photographer's intention, the photographer inputs “4” as the number of the selected image via the controller 4b.

  Finally, in step S5, the value of the photographing parameter (amount of driving the diaphragm blade) used for photographing the selected image is stored in the storage unit 18a of the lens control unit 18 built in the lens unit 2. That is, when the photographer inputs the number "4" of the selected image to the controller 4b, the information regarding the selected image is transmitted to the image selecting section 20c of the photographing parameter adjusting device 20 built in the lens unit 2 via the mounting tap 4a. Is entered.

  When the information regarding the selected image is input to the image selection unit 20c, the shooting parameter specifying unit 20d specifies the value of the shooting parameter used for shooting the selected image based on this information. Specifically, the narrowing-down amount used when the image of the number “4” selected by the photographer is photographed is specified as the value of the photographing parameter.

  When the value of the shooting parameter is specified by the shooting parameter specifying unit 20d, the shooting parameter recording unit 20e outputs the specified value of the shooting parameter and causes the storage unit 18a of the lens control unit 18 to store the value. As described above, by storing the values of the shooting parameters in the storage unit 18a, when shooting is performed using the lens unit 2 thereafter, the aperture value set by default is not larger than the default aperture. The blades of the aperture 16 are positioned and photographing is performed so that the exposure is corrected and an exposure corresponding to the image of the number “4” selected by the photographer is obtained.

  According to the photographing parameter adjustment device 20 of the present embodiment, the photographing control unit 20b performs photographing so as to photograph a plurality of images having different aperture amounts based on each of the aperture amounts set by the imaging parameter setting unit 20a. The device can be controlled. Then, the user can easily set the shooting parameters related to the stop-down amount by selecting an image shot at the stop-down amount that he / she likes from a plurality of images having different stop-down amounts.

  The preferred embodiment of the present invention has been described above, but various changes can be made to the above-described embodiment. In particular, in the shooting parameter adjustment apparatus according to the above-described embodiment of the present invention, the imaging position (focus position) and exposure during shooting using the AF function are adjusted as shooting parameters. The present invention can be applied to adjustment of shooting parameters. For example, the present invention can be applied to adjustment of an angle of view and the like.

REFERENCE SIGNS LIST 1 shooting parameter adjustment system 2 lens unit 2a electrical contact 4 information input device 4a mounting tap 4b controller 6 camera body 8 lens barrel 10 imaging lens 12 zooming lens 14 focusing lens (optical element)
16 aperture 18 lens control unit 18a storage unit 18b lens drive control circuit 20 shooting parameter adjustment device 20a shooting parameter setting unit 20b shooting control unit 20c image selection unit 20d shooting parameter specifying unit 20e shooting parameter recording unit 24 lens mount 24a electric contact 26 mirror 28 Shutter 30 Solid-state imaging device 32 Phase difference detection unit 34 Body control unit 34a Image data generation unit 34b AF control unit 36 Display unit 38 Image information memory 40 Operation unit

Claims (11)

A photographing parameter adjusting device that adjusts a photographing parameter for controlling a photographing device that performs photographing by driving an optical element that corrects an image to be photographed,
A photographing parameter setting unit that sets a plurality of the photographing parameters for adjusting the drive amount of the optical element;
A photographing control unit that controls the photographing device based on each of a plurality of set photographing parameters;
An image selection unit that selects a selected image from a plurality of images captured by the imaging device based on each of the plurality of set imaging parameters;
A photographing parameter specifying unit that specifies the photographing parameters used for photographing the selected image selected by the image selecting unit,
A shooting parameter recording unit that records the value of the shooting parameter specified by the shooting parameter specifying unit in a storage unit,
A photographing parameter adjusting device, comprising:   The photographing parameter adjustment device according to claim 1, wherein the image selection unit outputs the plurality of images to an external display device, and selects an image selected by a user among the plurality of images as the selected image. The photographing parameter setting unit sets the photographing parameters so as to change by a predetermined value within a predetermined range,
The photographing control unit transmits a control signal to the photographing device so that a plurality of images are automatically photographed while changing the photographing parameters within a predetermined range set by the photographing parameter setting unit by predetermined values. The photographing parameter adjusting device according to claim 1. The optical element is a focusing lens,
4. The photographing parameter adjusting device according to claim 1, wherein the photographing parameter setting unit sets a plurality of focusing positions of the focusing lens as the photographing parameters. 5. The optical element is an aperture,
4. The photographing parameter adjustment device according to claim 1, wherein the photographing parameter setting unit sets a plurality of aperture values by the diaphragm as the photographing parameters. 5. A lens barrel,
An optical element housed inside the lens barrel;
A lens unit comprising: the photographing parameter adjustment device according to claim 1. A shooting parameter adjustment system,
A lens unit incorporating the photographing parameter adjusting device according to claim 1,
Via an electrical connection or wirelessly connected to the lens unit, an information input device that inputs information about the selected image to the image selection unit,
A photographing parameter adjustment system, comprising: A shooting parameter adjustment system,
An imaging device incorporating the imaging parameter adjustment device according to any one of claims 1 to 5,
Connected to the image capturing device via an electrical connection or wirelessly, captures data of a plurality of images captured based on a control signal of the capturing control unit, and selects from data of the captured plurality of images. Information input and output device for inputting information about the selected image to the image selecting unit,
A photographing parameter adjustment system, comprising: A photographing parameter adjusting method for adjusting a photographing parameter for controlling a photographing device that performs photographing by driving an optical element that corrects an image to be photographed,
A shooting parameter setting step of setting a plurality of the shooting parameters for adjusting the drive amount of the optical element,
A photographing control step of controlling the photographing device based on each of the plurality of set photographing parameters,
An image selecting step of selecting a selected image from a plurality of images photographed by the photographing device based on each of the plurality of photographing parameters set;
A photographing parameter specifying step of specifying the photographing parameters used for photographing the selected image selected in the image selecting step,
A photographing parameter recording step of recording the value of the photographing parameter specified in the photographing parameter specifying step in the storage unit,
A photographing parameter adjustment method comprising: The optical element is a focusing lens,
The method according to claim 9, wherein a plurality of in-focus positions of the focusing lens are set as the shooting parameters in the shooting parameter setting step. The optical element is an aperture,
The method according to claim 9, wherein a plurality of aperture values by the aperture are set as the shooting parameters in the shooting parameter setting step.