JP2010166305A - Imaging apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an imaging apparatus in which a zoom adjustment time is easily shortened. <P>SOLUTION: A digital camera 1 includes an optical system 19, a zoom adjusting portion 111, a storing portion 11, and a system control portion 12. The optical system 19 forms an optical image of an object. The zoom adjusting portion 111 drives a zoom lens 112 of the optical system 19 so as to change a focal distance of the optical system 19. The storing portion 11 stores use frequency information about a use frequency of the focal distance of the optical system 19. The system control portion 12 controls the zoom adjusting portion 111 on the basis of the use frequency information stored in the storing portion 11. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an imaging apparatus capable of changing a focal length.

An imaging device capable of converting an optical image of a subject into an electrical image signal and outputting it is known. Examples of the imaging device include a digital still camera and a digital video camera. A contrast detection method is widely used as an autofocus method in imaging apparatuses.
In the contrast detection method, an evaluation value for determining the in-focus state is calculated from the image signal while moving the focus lens in the optical axis direction. Since the position of the focus lens where the evaluation value reaches the peak is the in-focus position, the focus lens is driven to the position where the evaluation value reaches the peak. Thereby, highly accurate autofocus is possible.
However, in the contrast detection method, the evaluation value is a value related to the contrast of the image. Therefore, when there is a high-luminance subject in the area to be focused or when shooting in a dark place, the time required for focusing Tend to increase.

In view of this, an imaging apparatus having a manual focus function for adjusting the focus by a photographer's operation has been proposed (for example, Patent Document 1). According to the image pickup apparatus described in Patent Document 1, even when it is difficult to focus with autofocus, the focus mode can be instantaneously switched to manual focus to quickly focus, so that it is necessary for focusing of the image pickup apparatus. Time can be shortened.
JP-A-5-14793

On the other hand, in the conventional imaging apparatus, zoom adjustment (focal length adjustment) is left to manual operation by the photographer, and therefore it may take a long time to complete zoom adjustment. Even if the time required for the operation can be shortened, there is a possibility that a photo opportunity will be missed.
An object of the present invention is to provide an imaging apparatus that can easily shorten the zoom adjustment time.

An imaging apparatus according to the present invention is an apparatus for photographing a subject, and includes an optical system, a zoom adjustment unit, a storage unit, and a system control unit. The optical system forms an optical image of the subject. The zoom adjustment unit drives the optical system so that the focal length of the optical system changes. The storage unit stores use frequency information related to the use frequency of the focal length of the optical system. The system control unit controls the zoom adjustment unit based on the usage frequency information stored in the storage unit.
Here, as the imaging device, a device capable of capturing a still image, a device capable of capturing a moving image, and a device capable of capturing both a still image and a moving image are conceivable.
In this imaging apparatus, usage frequency information related to the usage frequency of the focal length of the optical system is stored in the storage unit. The system control unit controls the zoom adjustment unit based on the usage frequency information stored in the storage unit. With these configurations, for example, the focal length of the optical system can be automatically adjusted so as to be a focal length frequently used or a focal length in the vicinity thereof.

  As described above, in the imaging apparatus according to the present invention, it is easy to shorten the time for manually performing zoom adjustment so that the user has a desired focal length, and it is easy to shorten the zoom adjustment time.

<Overall configuration of digital camera>
FIG. 1 is an overall configuration diagram of a digital camera 1 according to the first embodiment.
The digital camera 1 (an example of an imaging device) is a digital still camera mainly for taking still images, and includes an optical system 19, a focus adjustment unit 101, a zoom adjustment unit 111, and a shake correction unit 131. A shake detection unit 18, a shutter unit 15, an image acquisition unit 14, a storage unit 11, a system control unit 12, an operation unit 13, an image display unit 16, and an evaluation value calculation unit 17. Yes.
The optical system 19 has an optical axis X and forms an optical image of the subject. The optical system 19 includes a focus lens 102, a zoom lens 112, a correction lens 132, and a diaphragm 121.

The focus lens 102 is a lens for adjusting the subject distance in focus, and is supported by a lens barrel (not shown) so as to be movable in a direction parallel to the optical axis X (hereinafter also referred to as the optical axis direction). ing. The focus lens 102 is driven in the optical axis direction by a focus motor 103 (described later).
The zoom lens 112 is a lens for adjusting the focal length to the telephoto side and the wide-angle side, and is supported by the lens barrel so as to be movable in the optical axis direction, similarly to the focus lens 102. The zoom lens 112 is driven in the optical axis direction by a zoom motor 113 (described later).
The correction lens 132 is a lens for suppressing the shake of the optical image with respect to the image acquisition unit 14 caused by the movement of the digital camera 1, and is driven by the actuator 134. The aperture 121 is a unit for adjusting the aperture value of the optical system 19 and is driven by an aperture drive unit (not shown).

The focus adjustment unit 101 includes a focus motor 103 and a focus lens control unit 104. The focus motor 103 drives the focus lens 102 in the optical axis direction. The focus lens control unit 104 controls driving of the focus motor 103.
The zoom adjustment unit 111 includes a zoom motor 113 and a zoom lens control unit 114. The zoom motor 113 is a stepping motor, for example, and drives the zoom lens 112 in the optical axis direction. The zoom lens control unit 114 transmits a control signal to the zoom motor 113. The rotational position of the zoom motor 113 can be grasped by counting the number of control pulses. The control pulse is counted by the system control unit 12, for example. That is, the system control unit 12 can grasp the position of the zoom motor 113 (focal length of the optical system 19).

The shake correction unit 131 includes an actuator 134 and a correction lens control unit 133. For example, the actuator 134 drives the correction lens 132 in two directions within a plane orthogonal to the optical axis X of the optical system 19. The correction lens control unit 133 controls driving of the actuator. The shake detection unit 18 is a sensor for detecting the shake amount of a housing (not shown) of the digital camera 1. Control of the actuator 134 is performed by the correction lens control unit 133 based on the shake amount detected by the shake detection unit 18.
The image acquisition unit 14 is an image pickup device such as a charge coupled device (CCD) or a complementary metal oxide semiconductor (CMOS), and receives light transmitted through the optical system 19. The image acquisition unit 14 photoelectrically converts the optical image of the subject formed by the optical system 19 to acquire an image signal (that is, image data) of the optical image.

The shutter unit 15 is a unit for adjusting the exposure state of the image acquisition unit 14 and is disposed on the subject side of the image acquisition unit 14. The shutter unit 15 is controlled by a shutter unit controller (not shown).
The image display unit 16 displays the image data acquired by the image acquisition unit 14 as a visible image. The image display unit 16 also displays various information such as setting values.
The evaluation value calculation unit 17 is a unit for calculating an evaluation value used in the contrast detection method, and is connected to the image acquisition unit 14. The focus lens 102 is driven by the focus motor 103 based on the evaluation value calculated by the evaluation value calculator 17.
<Configuration of operation unit>
The operation unit 13 is a unit for the user to operate the digital camera 1, and includes a power switch 21, a shooting mode selection switch 22, a focal length switching button 23, and a zoom adjustment switch 24.

The power switch 21 is a switch for turning on / off the power of the digital camera 1. The shooting mode selection switch 22 is a switch for selecting one of a person shooting mode, a landscape shooting mode, and a macro shooting mode as a shooting mode.
The zoom adjustment switch 24 is a switch for changing the zoom magnification, and can operate the zoom magnification to the telephoto side and the wide angle side. In response to the operation of the zoom adjustment switch 24, the zoom lens 112 is driven by the zoom motor 113.
The focal length switching button 23 is a switch for switching the focal length during photographing, and operation information for switching the focal length can be input from the outside. For example, when the user presses the focal length switching button 23 in the photographing enabled state, the currently used shooting mode (hereinafter also referred to as a setting shooting mode) is selected from usage frequency information (described later) stored in the storage unit 11. Next to the focal length range (an example of focal length information) at, a focal length range that is frequently used in the photographing mode can be sequentially selected.

The operation unit 13 includes a relay button (not shown), a first switch (not shown) that operates when the relay button is half-pressed, and a second switch (not shown) that operates when the relay button is fully pressed. And have. Focus adjustment is started according to the operation of the first switch, and after focusing, image data of the subject is generated by the image acquisition unit 14 according to the operation of the second switch.
<Configuration of storage unit>
The storage unit 11 is, for example, a nonvolatile memory, and stores a program for controlling the digital camera 1 and shooting conditions. As the shooting conditions, for example, shooting quality preset by the photographer before shooting or changed during shooting, each shooting mode (portrait shooting mode, landscape shooting mode, macro shooting mode), and exposure correction can be considered.
In addition, the storage unit 11 stores usage frequency information indicating the usage frequency of the focal length. An example of usage frequency information stored in the storage unit 11 is shown in FIG.

As illustrated in FIG. 2, the usage frequency information includes six focal length ranges (an example of focal length information) obtained by dividing the movable range of the optical system 19 and the number of uses of each focal length range. ing. Specifically, the six focal length ranges are formed by dividing the focal length from 0 mm to 60 mm (for example, 35 mm equivalent) into 10 mm increments. The maximum focal length range that can be adjusted by the optical system 19 is, for example, a part of 0 mm to 60 mm.
For each focal length range, the number of times of use of the person shooting mode, landscape shooting mode, and macro shooting mode can be counted. Is stored as part of the usage frequency information. That is, the usage frequency information has mode-specific usage frequency information indicating the usage frequency for each photographing mode. For example, as shown in FIG. 2, the focal frequency in the range of 10 mm to 20 mm is used only 113 times in total, 113 times, 108 times in the portrait mode, 3 times in the landscape mode, and 2 times in the macro mode. I know from the information.

Furthermore, since the focal length range has a certain width, the usage frequency information further includes an intermediate value (an example of a representative focal length) corresponding to each focal length range.
The use frequency information described above is used when the digital camera 1 is turned on or when the photographing mode is changed.
<Configuration of system controller>
The system control unit 12 is a unit for controlling the operation of each unit of the digital camera 1 and includes a ROM (Read Only Memory), a RAM (Random Access Memory), and a CPU (Central Processing Unit). By reading the program stored in the ROM into the CPU, the system control unit 12 can realize various functions. For example, after the power is turned on, the system control unit 12 reads a control program stored in advance in the storage unit 11 and performs control such as autofocus according to the operation of the operation unit 13.

The system control unit 12 has a function of detecting operation information input to the operation unit 13 (power switch 21, shooting mode selection switch 22, focal length switching button 23, zoom adjustment switch 24, release button).
Further, the system control unit 12 has a function of updating and using the above-described usage frequency information. Specifically, the system control unit 12 counts the focal length used when the image acquisition unit 14 generates image data for each shooting mode, and the frequency of use every time the image acquisition unit 14 generates image data. Update information. For example, when image data is generated in a state where the focal length is 35 mm in the person shooting mode, the system control unit 12 adds 1 to the number of times the person shooting mode is used in the focal length range of 30 mm to 40 mm.
As described above, the function of learning the use frequency of the focal length range is realized by the system control unit 12.

Furthermore, the system control unit 12 includes a first selection unit 12a (an example of a selection unit), a second selection unit 12c (an example of a selection unit), and an adjustment control unit 12b. When the power is turned on, the first selection unit 12a compares the total number of times the focal length ranges are used, and selects a focal length range in which the usage frequency ranks in a predetermined order regardless of the shooting mode from the usage frequency information. Here, since the predetermined order is first, the first selection unit 12a selects the focal length range with the highest use frequency from the use frequency information. Furthermore, when there are focal length ranges having the same total number of times of use, the first selection unit 12a compares the focal length ranges and selects a predetermined focal length range on the telephoto side or the wide angle side. .
The second selection unit 12c compares the number of times each focal length range is used when the photographing mode is changed or when the focal length switching button 23 is operated, and the focal length range in which the order of use frequency is a predetermined order in the set photographing mode. Is selected from the usage frequency information. Specifically, the second selection unit 12c selects the mth most frequently used focal length range (more specifically, an intermediate value of the focal length range) from the usage frequency information. The parameter m is stored in the storage unit 11. The second selection unit 12c compares the focal length ranges when the same number of focal length ranges are used in one shooting mode, and selects a predetermined focal length range on the telephoto side or the wide angle side. select.

In the adjustment control unit 12b, the focal length of the optical system 19 is set to an intermediate value (an example of representative focal length) of the focal length range (an example of selected focal length information) selected by the first selection unit 12a or the second selection unit 12c. A control signal is transmitted to the zoom lens control unit 114 so as to be set. The zoom lens control unit 114 controls the zoom motor 113 based on this control signal. As a result, the zoom lens 112 is driven in the optical axis direction, and the focal length of the optical system 19 can be set to the intermediate value of the focal length range that is the mth most frequently used.
<Operation of digital camera>
A specific operation of the digital camera 1 will be described with reference to FIGS. 3 and 4.
As shown in FIG. 3, when the photographer presses the power switch 21, power is supplied to each part of the digital camera 1, and the system control unit 12 can select a shooting mode from among a person shooting mode, a landscape shooting mode, and a macro mode. The state of the digital camera 1 is set to the shooting mode selected by the selection switch 22 (ST10). Specifically, the system control unit 12 reads each setting value of the selected shooting mode from the storage unit 11, and sets each unit of the digital camera 1 based on the read setting value. Hereinafter, the shooting mode selected and set by the shooting mode selection switch 22 is referred to as a setting shooting mode.

Next, the system control unit 12 sets the parameter m to 1 (ST11). This parameter m indicates the order of use frequency of the focal length range to be selected, and is used when the focal length range is selected in the focal length setting process described later. After the parameter m is set, the first focal length setting process shown in FIG. 4 is executed by the system control unit 12 (ST12).
Specifically, as illustrated in FIG. 4, the first selection unit 12 a of the system control unit 12 selects the focal length range with the highest use frequency based on the use frequency information stored in the storage unit 11. More specifically, the first selection unit 12a compares the total number of uses of each focal length range (ST30), and selects the focal length range having the largest total number of uses (ST31). When there are a plurality of focal length ranges with a large total number of times of use, the first selection unit 12a selects a predetermined focal length range on the telephoto side or the wide angle side. The adjustment control unit 12b of the system control unit 12 sets an intermediate value of the focal length range (an example of the selected focal length range) selected by the first selection unit 12a as a target value (ST32).

In the usage frequency information shown in FIG. 2, the focal length range with the largest total number of times of use is 10 mm to 20 mm. Therefore, an intermediate value of 15 mm is set as the target value.
When the first focal length setting process is completed, the zoom motor 113 drives the zoom lens 112 so that the focal length of the optical system 19 becomes the target value (ST13). Specifically, the zoom lens control unit 114 controls the zoom motor 113 so that the zoom lens 112 moves to a position corresponding to the target value.
After driving the zoom lens 112, the system control unit 12 determines whether or not the shooting mode has been changed by the shooting mode selection switch 22 (ST14). When the shooting mode selection switch 22 is operated (ST14), the system control unit 12 newly sets the shooting mode selected by the shooting mode selection switch 22 as the set shooting mode, and changes the shooting mode (ST20). After changing the shooting mode, the system control unit 12 sets the parameter m to 1 (ST21), and executes the second focal length setting process shown in FIG. 5 (ST22).

Specifically, as shown in FIG. 5, the second selection unit 12c of the system control unit 12 compares the number of times of use of each focal length range in the set shooting mode (ST40), and uses the mth parameter using the parameter m. A focal length range with a large number of times is selected from use frequency information (ST41). In this case, since m = 1, the system control unit 12 selects the focal length range that is most frequently used in the setting shooting mode. When there are a plurality of mth most frequently used focal length ranges in one shooting mode, the second selection unit 12c selects a predetermined focal length range on the telephoto side or the wide angle side. The system control unit 12 sets the intermediate value of the selected focal length range as a target value (ST42).
When the second focal length setting process ends, the zoom motor 113 drives the zoom lens 112 so that the focal length of the optical system 19 becomes the target value (ST23). Specifically, the zoom lens control unit 114 controls the zoom motor 113 so that the zoom lens 112 moves to a position corresponding to the target value.

After driving the zoom lens in step ST23 or if the shooting mode is not changed in step ST14, the system control unit 12 determines whether or not the relay button has been half-pressed (first switch ON) (ST15). When the first switch is turned on, the system control unit 12 moves the optical system 19 to the in-focus position by the contrast detection method (ST16), and determines whether or not the relay button is fully pressed (second switch is turned on). (ST17).
If the release button is not fully pressed in step ST17, the system control unit 12 determines whether the half-press of the release button has been released (ST17A). If the half-press is released, the process returns to step ST14. If the half-press is not released, the system control unit 12 monitors the presence or absence of the full-press (ST17).

When the release button is fully pressed in step ST17, a shooting operation is performed. Specifically, when the release button is fully pressed, the shutter unit 15 operates at the set shutter speed (or calculated from each set value), and the image acquisition unit 14 generates image data of the subject ( ST18). The storage unit 11 stores the image data generated by the image acquisition unit 14, and the acquisition of the image data is completed.
After acquiring the image data, the system control unit 12 executes a use frequency information update process (ST19). Specifically, the system control unit 12 selects a focal length range including the focal length used when the image acquisition unit 14 generates image data from the usage frequency information. The system control unit 12 counts the number of times the selected focal length range is used. At this time, the system control unit 12 counts the number of times of use and the total number of times of use in the shooting mode when generating the image data, and updates the use frequency information stored in the storage unit 11. That is, the number of uses of the focal length range in a certain shooting mode can be obtained from the use frequency information stored in the storage unit 11. When the update process ends, the process returns to step ST14.

On the other hand, if the release button is not pressed for a predetermined time and half in step ST15, the system control unit 12 determines whether or not the focal length switching button 23 has been pressed by the photographer (ST24). When the focal length switching button 23 is pressed, the system control unit 12 adds 1 to the parameter m (ST25) and executes the second focal length setting process (ST26).
In the second focal length setting process, in the currently selected setting shooting mode, the system control unit sets a focal length range that is most frequently used next to a focal length range (selected focal length range) including the currently set focal length. 12 selects and sets. Specifically, as shown in FIG. 4, the second selection unit 12c of the system control unit 12 compares the number of times of use of each focal length range in the set shooting mode (ST40), and uses the mth parameter using the parameter m. A focal length range with a large number of times is selected (ST41). In this case, since m = 2, the system control unit 12 selects the focal length range that is the second most frequently used in the setting shooting mode. The adjustment control unit 12b of the system control unit 12 sets the intermediate value of the selected focal length range as a target value (ST42). When there are a plurality of focal length ranges having the second highest number of uses, the second selection unit 12c selects a predetermined focal length range on the telephoto side or the wide angle side.

In this way, by pressing the focal length switching button 23, the selected focal length range can be switched in order from the most frequently used one to the lowest one. As a result, even if the selected focal length range is significantly different from the focal length to be used for shooting, the focal length switching button 23 can be operated to easily switch to the focal length range close to the desired focal length. This makes it easy to shorten the zoom adjustment time in various shooting situations.
As shown in FIG. 3, when the second focal length setting process is completed in step ST27, the zoom motor 113 drives the zoom lens 112 so that the focal length of the optical system 19 becomes a target value (ST27). Specifically, the zoom lens control unit 114 controls the zoom motor 113 so that the zoom lens 112 moves to a position corresponding to the target value.
If the focal length switching button 23 is not turned ON for a predetermined time in step ST24, the system control unit 12 determines whether or not the manual zoom operation has been performed by the photographer (ST28), and determines that the manual zoom operation has been performed. Then, based on the operation, the zoom motor 113 drives the zoom lens 112 (ST29). Thereafter, the system control unit 12 confirms again whether or not the shooting mode selection switch is turned on (ST14).

<Features of digital camera>
The characteristics of the digital camera 1 described above are summarized below.
(1)
In the digital camera 1, usage frequency information related to the usage frequency of the focal length of the optical system 19 is stored in the storage unit 11. The system control unit 12 adjusts the zoom based on the usage frequency information so as to adjust the optical system 19 to an intermediate value of the focal length range with the highest usage frequency (that is, at or near the focal length with the highest usage frequency). The unit 111 is controlled. With these configurations, it is easy to shorten the time for the user to manually perform zoom adjustment.
In particular, when the power switch 21 is operated and the power is turned on, the focal length of the optical system 19 is automatically adjusted to the intermediate value of the focal length range with the highest usage frequency based on the usage frequency information. It becomes easy to shorten the time from the start of activation of the camera 1 to photographing, and it is difficult to miss a photo opportunity.

(2)
The usage frequency of the focal length of the optical system 19 used when the image acquisition unit 14 generates image data is stored in the storage unit 11 as usage frequency information. More specifically, the usage frequency information includes a plurality of focal length ranges obtained by dividing the maximum focal length range of the optical system 19 and a focal length range used when the image acquisition unit 14 generates image data. And the number of uses. For this reason, the digital camera 1 can be made to learn the usage frequency of the focal length actually used.
In addition, since a plurality of focal length ranges each have an intermediate value, which is a representative focal length, even if the focal length range has a specific width, it is located at or near a frequently used focal length. The optical system 19 can be adjusted.

(3)
When the focal length switching button 23 is operated, the second selection unit 12c of the system control unit 12 newly selects a focal length range that is most frequently used next to the selected focal length range as a selected focal length range. For this reason, by operating the focal length switching button 23, the selected focal length range can be switched in order from the most frequently used one to the lowest one. In other words, even if the selected focal length range is significantly different from the focal length desired to be used for shooting, the focal length switching button 23 can be operated to easily switch to the focal length range close to the desired focal length. It makes it easier to shorten the zoom adjustment time in shooting situations.
(4)
Since the system control unit 12 controls the zoom adjustment unit 111 based on the number of times each focal length range is used in the set shooting mode, the optical system 19 can be adjusted to a frequently used focal length according to the set shooting mode. This makes it easier to shorten the zoom adjustment time.

(5)
Since the system control unit 12 updates the usage frequency information every time the image acquisition unit 14 generates image data, the accuracy of the usage frequency information can be improved, and the zoom adjustment time is easily shortened as the image acquisition unit 14 is used.
<Other embodiments>
The specific configuration of the present invention is not limited to the above-described embodiment, and various changes and modifications can be made without departing from the spirit of the present invention.
In the following description, components having substantially the same functions as those of the above-described embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.
(A)
In the above-described embodiment, in step ST12, the system control unit 12 selects the focal length range having the largest total number of times of use regardless of the set shooting mode. The focal length range to be compared and selected may be determined.

For example, as shown in FIG. 6, the second focal length setting process shown in FIG. 5 may be executed in step ST112 corresponding to step ST12. In this case, since the parameter m is set to 1 in step ST11, in step ST112, the focal length range that is used most frequently in the set shooting mode (the shooting mode selected by the shooting mode selection switch 22) is controlled by the system. Selected by part 12. Even in this case, it is easy to shorten the zoom adjustment time.
(B)
The usage frequency information is not limited to the configuration shown in FIG. For example, the focal length range dividing method may be different from the dividing method shown in FIG. 2, and the focal length range width may be the same as the maximum focal length resolution that can be realized by the digital camera 1. In this case, since the focal length range is the same as the intermediate value, the intermediate value is unnecessary.

Moreover, although the intermediate value of each focal length range is adopted as the representative focal length of each focal length range, other values may be used. Further, the shooting mode is not limited to the above three shooting modes.
(C)
In the above-described embodiment, as a method for shortening the time from power-on to photographing, the state of the optical system 19 is automatically adjusted to a frequently used focal length, but the same method is used for focus adjustment. Alternatively, a method for shortening the time from power-on to photographing may be used by using the same method for focal length adjustment and focal point adjustment.
(D)
In the above-described embodiment, the digital still camera has been described as an example, but a digital video camera is also conceivable as the imaging device. That is, as the imaging device, a device capable of capturing a still image, a device capable of capturing a moving image, and a device capable of capturing both a still image and a moving image are conceivable.

  The imaging apparatus according to the present invention is useful as an imaging apparatus because the zoom adjustment time can be easily shortened.

Overall configuration of digital camera Example of usage frequency information Flow chart when shooting with a digital camera Flow chart of first focal length setting process Flow chart of second focal length setting process Flowchart when photographing with digital camera (another embodiment)

1 Digital camera (an example of an imaging device)
11 storage unit 12 system control unit 12a first selection unit (an example of a selection unit)
12b Adjustment control unit 12c Second selection unit (an example of a selection unit)
DESCRIPTION OF SYMBOLS 13 Operation part 14 Image acquisition part 19 Optical system 111 Zoom adjustment part 113 Zoom motor

Claims (10)

An imaging device for photographing a subject,
An optical system for forming an optical image of the subject;
A zoom adjustment unit that drives the optical system such that the focal length of the optical system changes;
A storage unit that stores use frequency information related to the use frequency of the focal length of the optical system;
A system control unit for controlling the zoom adjustment unit based on the use frequency information stored in the storage unit;
An imaging apparatus comprising: An image acquisition unit that converts the optical image into an image signal and generates image data of the subject;
The storage unit stores the use frequency of the focal length of the optical system used when the image acquisition unit generates the image data as the use frequency information.
The imaging device according to claim 1. It further includes an operation unit that can input operation information from the outside.
The system control unit, based on the use frequency information and the operation information input to the operation unit, adjusts the focal length of the optical system to or near the focal length with the highest use frequency. Control the zoom adjuster,
The imaging device according to claim 1 or 2. The usage frequency information includes a plurality of focal length information obtained by dividing the maximum focal length range of the optical system, and the number of times the focal length information is used when the image acquisition unit generates the image data. And having
The imaging device according to claim 1. The system control unit selects, based on the use frequency information, the focal length information in which the rank of the number of uses is a predetermined rank as the selected focal length information, and the focal length indicated by the selected focal length information. An adjustment control unit that controls the zoom adjustment unit so that a focal length of the optical system is adjusted,
The imaging device according to claim 4. Each of the plurality of focal length information has a representative focal length,
The adjustment control unit controls the zoom adjustment unit so that a focal length of the optical system is adjusted to the representative focal length;
The imaging device according to claim 5. The representative focal length is an intermediate value of a focal length range indicated by the focal length information.
The imaging device according to claim 6. The selection unit newly selects, as the selected focal length information, the focal length information having the highest use frequency next to the selected focal length information, based on the operation information input to the operation unit.
The imaging device according to claim 3. The operation unit has a mode selection unit for selecting a shooting mode,
The usage frequency information has usage frequency information by mode indicating the usage frequency of the focal length for each shooting mode,
The system control unit controls the zoom adjustment unit based on the mode-specific use frequency information corresponding to the shooting mode selected by the mode selection unit;
The imaging device according to claim 1. The system control unit updates the usage frequency information each time the image acquisition unit generates the image data.
The imaging device according to claim 1.

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