JP5640466B2 - Digital camera - Google Patents

Description

  The present invention relates to a digital camera, and more particularly to a digital camera having a function of setting a composition frame and shooting.

  2. Description of the Related Art Conventionally, there has been known an imaging apparatus that displays a figure representing the outline of a subject on a monitor and automatically takes a picture when an image of a main subject enters the figure (see, for example, Patent Document 1).

JP 2008-236011 A

  However, in the imaging apparatus of Patent Document 1, a photographing operation is automatically performed when the main subject image enters the figure. However, it is rare that the main subject image and the figure completely match each other. There is a problem that the composition is unsatisfactory such that the image is too large or too small than the photographer intended.

Digital camera according to the invention of claim 1 includes an imaging means for generating image data by capturing a subject image incident to via a zoom lens, image and the image represented by the image data generated by said image pickup means Display means for displaying a frame indicating a predetermined position, a relationship between the position of the specific area in the image and the position of the frame in the image, the size of the specific area in the image, and the size of the frame in the image And when the determination unit determines that the relationship between the position of the specific region and the position of the frame is within a predetermined range, the size of the specific region determined by the determination unit and zoom control means for performing zooming operation of the zoom lens on the basis of the relationship between the magnitude of to the frame is, when the zooming operation is being performed, the Characterized in that and an imaging control means for causing a plurality of times an imaging operation on the image means.
A digital camera according to an eighth aspect of the present invention includes a zoom optical system that forms a subject image, an imaging unit that captures the subject image to generate subject image data, and a shooting control unit that controls shooting timing of the imaging unit. A display means for displaying a subject image based on the subject image data, and displaying a composition frame superimposed on the displayed subject image, and comparing the composition frame with a main subject image in the subject image. Comparison determining means for determining a relative positional relationship and a relative size relationship between the composition frame and the main subject image, and a zooming operation of the zoom optical system so as to enlarge or reduce the subject image. Zoom control means for controlling, and the zoom control means determines the relative positional relationship between the composition frame and the main subject image by the comparison determination means. When it is determined that the range, the comparison the zoom optical system based on the relationship that has been the relative size determined by the determination means is controlled to perform the zooming operation, the zoom control means, the comparison When the determining means determines that the main subject image is smaller than the composition frame, the zooming operation of the zoom optical system is controlled in a direction in which the main subject image is enlarged, and the main subject image is moved from the composition frame. Is determined to be larger, the zooming operation of the zoom optical system is controlled in a direction to reduce the main subject image, and the zoom control means is configured to control the zoom of the composition frame during the zooming operation of the zoom optical system. controlling the zooming operation as the size of the size and the main object image matches the photographing control unit, a plurality of times during the zooming operation And controlling the imaging timing of the imaging means to perform a shadow.

  According to the digital camera of the present invention, when the relative positional relationship between the composition frame and the main subject image is within a predetermined range, shooting is performed a plurality of times while performing a zooming operation. It is possible to acquire an image having a composition most suitable for the intention.

1 is a block diagram schematically showing a configuration of a digital camera according to a first embodiment of the present invention. It is a display screen of a display showing an example of creating a composition frame. FIG. 3A is a display screen schematically showing the relationship between the composition frame and the size of the subject image. FIG. 3A is a composition frame> subject image, FIG. 3B is a composition frame = subject image, and FIG. The case of composition frame <subject image is shown. It is a flowchart which shows the flow of operation | movement of the digital camera which concerns on 1st Embodiment. It is a block diagram which shows typically the structure of the digital camera which concerns on the 2nd Embodiment of this invention. FIG. 6 is a display screen schematically showing the layout of the composition frame, and shows that the composition frame has moved to the right in the order of FIG. 6A, FIG. 6B, FIG. 6C, and FIG. Show. It is a block diagram which shows typically the structure of the digital camera which concerns on the 3rd Embodiment of this invention. FIGS. 8A to 8F are display screens schematically showing the arrangement of a plurality of composition frames. FIG. 8G shows a captured subject image, and FIG.

-First embodiment-
Hereinafter, a digital camera according to an embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the digital camera 100 includes a photographing lens 11, a lens driving unit 12, an image sensor 13, a buffer memory 14, an image processing unit 15, and an image recording unit 16. The digital camera 100 also includes a CPU (Central Processing Unit) 17, a ROM (Read Only Memory) 18, a bus 19, a display 31, and an operation member 32. The image processing unit 15, the image recording unit 16, the CPU 17, the ROM 18, the display 31, and the operation member 32 are connected to each other via a bus 19.

  The photographing lens 11 is composed of a plurality of lenses including a zoom lens and a focus lens, and forms a subject image on the image sensor 13 by making subject light L1 incident. In FIG. 1, for the sake of simplicity, the taking lens 11 is shown as a single lens. The lens driving unit 12 drives a zoom lens and a focus lens along the optical axis of the photographing lens 11 for zooming and focus adjustment. The imaging element 13 generates an image signal corresponding to the subject image by photoelectrically converting the formed subject image.

  The image signal output from the image sensor 13 is sent to the image processing unit 15 via the buffer memory 14, and the image processing unit 15 performs interpolation, color temperature correction, gradation correction, binary processing on the image signal. The image data is generated by performing various image processing such as image processing such as conversion, automatic gain correction, and image data synthesis. In the stage before the start of photographing, the image signal from the image sensor 13 is sent to the display 31 via the buffer memory 14 and the image processing unit 15 and displayed as a through image. At the photographing stage, the image signal from the image sensor 13 is recorded in the image recording unit 16 via the buffer memory 14 and the image processing unit 15.

  The image recording unit 16 records the image data in association with attribute information such as shooting conditions and shooting date / time relating to the image in the nonvolatile storage medium 16a. A reproduced image based on these image data is displayed on the display screen 31 a of the display 31.

The CPU 17 functions as a composition frame setting unit 21, face detection unit 22, comparison determination unit 23, zoom control unit 24, shooting control unit 25, and display control unit 26. Further, the CPU 17 controls the lens driving unit 12 and the image sensor 13.
The ROM 18 functions as a composition frame data storage unit 27 and a face data storage unit 28.

  The composition frame setting unit 21 sets a figure input by the photographer by operating the operation member 32 as a composition frame. As shown in FIG. 2, the composition frame 41 is a figure corresponding to the contour line of the main subject in the subject image, and the composition frame 41 is displayed on the display screen 31a of the display 31 displaying the through image. It is displayed superimposed on the through image.

  A touch panel described later is arranged on the display screen 31a. On the touch panel, the photographer selects and copies a predetermined icon, in the example of FIG. 2, a circular icon 42d from a tool palette 42 including a cross icon 42a, a triangle icon 42b, a square icon 42c, and a circular icon 42d. The composition frame 41 can be set. The basic composition frame data is stored in the composition frame data storage unit 27.

  Further, the composition frame setting unit 21 can draw a composition frame of an arbitrary shape using the touch pen 44 instead of selecting the predetermined icons 42 a to 42 d from the tool palette 42. As an example of this, a composition frame 43 drawn with the touch pen 44 is also shown on the display screen 31a of FIG. This composition frame 43 corresponds to the shape of the tree, and is effective when the tree is the main subject.

  When the composition frame 41 is confirmed, the position address of the composition frame 41 on the display screen 31 a is stored in the buffer memory 14. The position address of the composition frame 41 includes position information of the composition frame 41 on the display screen 31a and size information of the composition frame.

The face detection unit 22 detects a human face as a main subject, and compares the through image data of the subject input via the image processing unit 15 with the face data stored in advance in the face data storage unit 28. By doing this, the face of the subject person in the through image is detected as the main subject.
The face data storage unit 28 stores, for example, feature point data relating to the shape of eyebrows, eyes, nose, and lips.
For the face detection, for example, a detection method disclosed in Japanese Patent Laid-Open No. 2001-16573 can be used. In this detection method, feature points are extracted from an input image to detect the face area, face size, etc. of the subject. The feature points include end points of eyebrows, eyes, nose, lips, and face contour points, such as the head vertex and the lower end point of the chin.

When the contour line of the main subject image detected by the face detection unit 22 is determined by the image processing unit 14, the position address of the main subject contour line is also stored in the buffer memory 14.
The position address of the contour line of the main subject also includes position information of the composition frame 41 on the display screen 31a and composition frame size information.

  The comparison determination unit 23 compares the position address of the composition frame 41 on the display screen 31a with the position address of the contour line of the main subject image to determine the relative positional relationship and the relative size relationship between the two. When the main subject image enters the composition frame 41, preferably, the determination signal is output when the center of the main subject image substantially coincides with the center of the composition frame 41. This determination signal indicates the relative position information indicating that the center of the main subject image coincides with the center of the composition frame 41, and the relative size relationship between the size of the main subject image and the size of the composition frame 41. Relative size information.

  The zoom control unit 24 controls a zoom amount in a zooming operation that moves the zoom lens of the photographing lens 11 to the telephoto side or the wide angle side, that is, a variable range of the focal length, according to the determination signal of the comparison determination unit 23. More specifically, the zoom control unit 24 performs a zoom-up operation for driving the zoom lens to the telephoto side when the determination signal indicates that the size of the main subject image is smaller than the size of the composition frame 41. On the contrary, when the size of the main subject image indicates that it is larger than the size of the composition frame 41, a zoom-down operation for driving the zoom lens to the wide angle side is performed. The subject image on the display screen 31a is enlarged by the zoom-up operation, and conversely, the subject image is reduced by the zoom-down operation.

  3A shows the case where the size of the main subject image 51a is smaller than the composition frame 41, FIG. 3B shows the case where the size of the main subject image 51b is almost equal to the composition frame 41, and FIG. The screen display when the size of the main subject image 51c is larger than the composition frame 41 is shown. Since the size of the composition frame 41 is constant on the display screen 31a, the main subject image is enlarged from the state of FIG. 3A to the state of FIG. 3C through FIG. On the other hand, the main subject image can be reduced from the state of FIG. 3C to the state of FIG. 3A through the state of FIG. 3B by the zoom-down operation.

  The shooting control unit 25 drives the focus lens and the image sensor 13 during zooming operation of the zoom lens by the zoom control unit 24 according to the determination signal of the comparison determination unit 23, and continuously performs automatic shooting a plurality of times. . More specifically, while the zoom control unit 24 is performing a zooming operation according to the determination signal from the comparison determination unit 23, the imaging control unit 25 determines that the determination signal from the comparison determination unit 23 indicates the size of the main subject image. When it is shown that the composition frame size has a predetermined relationship, a continuous series of photographing operations are executed.

  For example, the comparison / determination unit 23 sends out a determination signal when the size of the main subject image reaches, for example, 90% or 110% of the size of the composition frame, and the imaging control unit 25 sets the range of about 90% to 110%. In the meantime, continuous multiple automatic shooting is executed. Specifically, in the zoom-up operation, the shooting control unit 25 takes a time from when the size of the main subject image becomes about 90% of the size of the composition frame to about 110% thereafter. During the zoom-down operation, a plurality of automatic photographing operations are performed during the period of time, and the size of the main subject image becomes about 90% after the size of the main subject image becomes about 110% of the size of the composition frame. During this time, multiple automatic shooting operations are performed. The multiple automatic photographing is achieved by repeating automatic photographing at predetermined time intervals according to the zoom driving speed based on the determination signal indicating 90% or 110%.

  The display control unit 26 controls display on the display 31. That is, the display control unit 26 controls the display 31 to display a through image and the reproduction display of the subject image stored in the memory 16 a of the image recording unit 16. In addition, the display control unit 26 causes the display 31 to display the composition frame 41 input by the photographer at a predetermined position and size.

  The display screen 31a of the display 31 has a touch panel that combines a visual display function such as a liquid crystal panel and a position input function such as a touch pad. Accordingly, the display screen 31a can display a position by touching the touch panel with a finger or an electronic pen in addition to the display of images and characters as described above. They can also be displayed together.

  The operation member 32 includes the above-described touch panel, a shutter release button (not shown), a menu button (not shown), a selection / determination button (not shown), etc., and the photographer operates the operation member 32 to input information and shutter release. , An operation signal corresponding to each operation such as mode switching and menu selection / determination is sent to the CPU 17.

The operation of the digital camera configured as described above will be described with reference to FIGS.
When the photographer operates the operation member 32 to set the composition frame automatic photographing mode, a through image of the subject imaged by the image sensor 13 is displayed on the display screen 31 a of the display 31. As shown in FIG. 2, the photographer operates the touch panel which is also the display screen 31a of the display 31 and drags, for example, a circular icon 42d from the tool palette 42 to display a composition frame 41 having a predetermined size. It arrange | positions in the predetermined position of 31a. Thus, the composition frame 41 is displayed on the display screen 31a so as to be superimposed on the through image.

On the other hand, the face detection unit 22 detects the face of the subject person as the main subject by comparing the subject image with the face data in the face data storage unit 28 from the through image.
The outline of the main subject image thus detected is specified as follows. In other words, the contour line is extracted by using a known method in which a differential value for each pixel is obtained and binarized by paying attention to the Gr / Gb pixel output in the main subject image. The binarization process is executed by the image processing unit 15.

  As shown in the flowchart of FIG. 4, in step S11, a differential value for each Gr / Gb pixel in the main subject image is calculated. In step S12, an average value of the calculated differential values of all the pixels is calculated and set as a threshold value. Steps S13 to S17 are a binarized image creation loop. That is, in step S14, the differential value is compared with the threshold value for each Gr / Gb pixel. If the differential value is larger than the threshold value, the pixel value is determined to be “High” (step S15), and the differential value is lower than the threshold value. If it is smaller, the pixel value is determined to be “Low” (step S16). Through the operations from step S13 to step S17, a group of pixels whose pixel value is determined to be “High” is determined as the outline of the main subject image.

Next, the comparison / determination unit 23 compares the position address of the contour line of the main subject image with the position address of the composition frame 41 on the display screen 31a, and determines the relative positional relationship between them.
For example, when the photographer performs a framing operation and the center of the main subject image substantially coincides with the center of the composition frame 41, or the subject person moves and the center of the face that is the main subject substantially coincides with the center of the composition frame 41. 4, the comparison / determination unit 23 determines that the position of the contour line of the main subject image substantially coincides with the position of the composition frame 41, and sends a determination signal.

  In step S19, the comparison / determination unit 23 compares the area A1 surrounded by the outline of the main subject image with the area A2 surrounded by the composition frame, and determines, for example, whether the area ratio A1 / A2 is smaller than 100%. To do. In step S19, if the determination is affirmative, the process proceeds to step S20 to determine whether the area ratio A1 / A2 is 90% or more. Conversely, if the determination is negative, the process proceeds to step S21. It is determined whether A1 / A2 is 110% or less.

  If the determination in step S20 is affirmative, that is, if the area ratio A1 / A2 is 90% to 100%, the process proceeds to step S22, and the zoom control unit 24 performs the zoom-up operation while the shooting control unit 25 performs. Performs a plurality of shooting operations continuously at predetermined time intervals. This photographing operation ends when the area ratio A1 / A2 becomes 110% by the zoom-up operation. At the same time, the zoom control unit 24 also ends the zoom-up operation.

  If a negative determination is made in step S20, that is, if the area ratio A1 / A2 is less than 90%, the process proceeds to step S23, and the zoom control unit 24 performs a zoom-up operation. When the area ratio A1 / A2 reaches 90% by this zoom-up operation, the comparison / determination unit 23 determines this in step S24, and in step S25, the zoom control unit 24 continues the zoom-up operation while photographing. The controller 25 continuously performs a plurality of photographing operations at predetermined time intervals when the area ratio A1 / A2 is between 90% and 110%. At the same time as this series of shooting operations is completed, the zoom control unit 24 also ends the zoom-up operation.

  If the determination in step S21 is affirmative, that is, if the area ratio A1 / A2 is between 100% and 110%, the process proceeds to step S26, and the zoom control unit 24 performs the zoom-down operation while the shooting control unit. 25 performs a plurality of photographing operations continuously at predetermined time intervals. This series of photographing operations ends when the area ratio A1 / A2 reaches 90%. Simultaneously with the end of this series of shooting operations, the zoom control unit 24 ends the zoom-down operation.

  If a negative determination is made in step S21, that is, if the area ratio A1 / A2 exceeds 110%, the process proceeds to step S27, and the zoom control unit 24 performs a zoom-down operation. When the area ratio A1 / A2 reaches 110% by this zoom-down operation, the comparison / determination unit 23 determines this in step S28, and in step S29, the zoom control unit 24 continues the zoom-down operation while photographing. The control unit 25 continuously performs a plurality of photographing operations at predetermined time intervals when the area ratio A1 / A2 is between 110% and 90%. Simultaneously with the end of this shooting operation, the zoom control unit 24 ends the zoom-down operation.

The operation of the digital camera is completed when one of Step S22, Step S25, Step S26, and Step S29 described above is completed.
It should be noted that the number of continuous shootings is suitably 4 times or 5 times when the area ratio is between 90% and 110%. The photographing operation can be performed at regular time intervals, and when the area ratio A1 / A2 becomes a predetermined value, for example, when it becomes 90%, 95%, 100%, 105%, 110%, You may make it photograph.

In the above-described embodiment, in step S22 of FIG. 4, in many cases, the area ratio A1 / A2 takes an intermediate value between 90% and 100%, and the zoom control unit 24 performs the zoom-up operation and the photographing. The controller 25 continuously performs photographing operations at predetermined time intervals. Therefore, it becomes impossible to perform photographing when the area ratio is 90%. Similarly, in step 26, in many cases, it becomes impossible to perform photographing when the area ratio is 110%.
Therefore, in order to prevent such a situation, in step 22, the zoom control unit 24 first performs a zoom-down operation until the area ratio A1 / A2 reaches 90%, and then performs a zoom-up operation and also performs shooting control. The unit 25 may perform a continuous shooting operation within an area ratio of 90% to 110%.
Similarly, in step S26, the zoom control unit 24 first performs a zoom-up operation until the area ratio A1 / A2 reaches 110%, and then performs a zoom-down operation, and the imaging control unit 25 performs the area ratio 110. A continuous shooting operation may be performed between% and 90%.
By performing the operations in steps S22 and S26 as described above, the number of continuous shootings in steps S22 and S26 can be set to the same number and the same interval as the number of continuous shootings in steps S25 and S29.

  When a plurality of continuous shootings are completed, a series of shot subject image data is recorded in the image recording unit 16 with attribute data such as shutter speed, aperture value, focal length, and shooting date / time added.

The digital camera 100 of 1st Embodiment has the following effects.
(1) When it is determined that the relative positional relationship between the composition frame and the main subject image is close, a zooming operation with a predetermined zoom amount is performed, and a plurality of shootings are performed during the zooming operation. A subject image having a composition best suited to the photographer's intention can be reliably acquired.
(2) Since an arbitrary composition frame can be easily input in a short time using the touch panel, a composition frame suitable for the situation of the subject to be photographed can be set on the spot.

Modifications of the first embodiment are as follows.
(1) The shooting control unit 25 performs continuous automatic shooting a plurality of times when the size of the main subject image is approximately 90% to 110% of the size of the composition frame. The relative relationship between the size and the size of the composition frame is not limited to about 90% to 110%, but about 85% to 115%, about 80% to 120%, about 75% to 125%, etc. Various ranges may be set.
(2) The zooming operation may be set to stop at the zoom position where the size of the composition frame and the outline of the main subject image most closely match, or stop at the zoom position beyond the point of best match. You may set to do.
(3) Shooting during the zooming operation may be performed while continuously performing the zooming operation, or may be performed while stopping the zooming operation only at the moment of shooting.
(4) The contour line of the main subject image has a complicated shape, and may be considerably different from the shape of the composition frame. In such a case, in order to determine the relative relationship between the size of the main subject image and the size of the composition frame, the comparison / determination unit 23 determines the position address of the composition frame and the position address of the outline of the main subject image. The coincidence ratio may be detected. The coincidence ratio is expressed by n / N if N measurement points are defined on the composition frame, and the number of outlines of the main subject image that substantially match the measurement points on the composition frame is n. As the size of the main subject image approaches the size of the composition frame, the match ratio increases. By detecting this match ratio, the ratio between the size of the main subject image and the size of the composition frame can be obtained. .

-Second Embodiment-
FIG. 5 is a block diagram showing a configuration of a digital camera 200 according to the second embodiment of the present invention. Since the basic configuration of the digital camera 200 is the same as that of the digital camera 100 of the first embodiment, the corresponding components are denoted by the same reference numerals and description thereof is omitted.

  In the second embodiment, a plurality of composition frames are arranged on the photographing screen, and continuous photographing is automatically performed every time a subject person enters these composition frames. A plurality of images with different positions of people can be taken.

The composition frame setting unit 21 sets a plurality of composition frames one by one in a superimposed manner on the through image displayed on the display 31 while changing the position.
The movement direction instruction unit 33 is composed of a light emitting display element such as an LED disposed on the front surface (subject side surface) of the camera, and instructs the subject person to move in the left-right direction. Such a movement direction instruction | indication part 33 can comprise the right arrow display body and the left arrow display body by the LED element, for example on the front surface of a camera.
Moreover, the moving direction instruction | indication part 33 may instruct | indicate a moving direction with an audio | voice with a sound generator like a small speaker or a buzzer instead of the above visual display elements.

Next, the operation of the digital camera of this embodiment will be described.
The composition frame setting unit 21 sets the composition frame 46a at a predetermined position on the display screen 31a on which the through image of the subject is displayed as shown in FIG. The unit 26 superimposes and displays the through image of the subject and the composition frame 46a. The face detection unit 22 detects the face image 52 of the subject person, that is, the main subject image 52, and the comparison determination unit 23 compares the position of the composition frame 46 a with the position of the face image 52 detected by the face detection unit 22. Then, the positional deviation direction of the subject person image 52 with respect to the composition frame 46a is determined.

The movement direction instructing unit 33 gives a visual display instruction or audio instruction to the subject person to move in the right direction or the left direction based on the positional deviation direction determined by the comparison determination unit 23. In FIG. 6A, the movement direction instruction unit 33 instructs the subject person to move leftward on the display screen 31a.
In accordance with this instruction, the subject person moves to the left on the display screen 31a, and the face image 52 overlaps the composition frame 46a, that is, the center of the face image 52 substantially coincides with the center of the composition frame 46a. The unit 23 determines the coincidence. When the comparison is determined by the comparison determination unit 23, the imaging control unit 25 automatically starts the imaging operation, and the captured image data is stored in the image recording unit 16.

When the first shooting is completed in this way, the composition frame setting unit 21 passes the display control unit 26 to a predetermined position on the display screen 31a on which the through image of the subject is displayed as shown in FIG. 6B. The second composition frame 46b is set, and the display control unit 26 superimposes and displays the through image of the subject and the composition frame 46b.
The face detection unit 22 detects the face image 52 of the subject person, and the comparison determination unit 23 compares the position of the composition frame 46b with the position of the face image 52 detected by the face detection unit 22, and compares the composition frame 46b. The positional deviation direction of the main subject image 52 with respect to is determined. The movement direction instruction unit 33 gives a visual display instruction or audio instruction to the subject person so as to move to the right based on the positional deviation direction determined by the comparison determination unit 23.

In accordance with this instruction, the subject person moves to the left on the display screen 31a, and when the center of the face image 52 substantially matches the center of the composition frame 46b, the comparison / determination unit 23 determines the match. When the comparison is determined by the comparison determination unit 23, the imaging control unit 25 automatically starts the second imaging operation, and the captured image data is stored in the image recording unit 16.
In the same manner, when the photographing operation is completed, the third composition frame 46c and the fourth composition frame 46d are sequentially displayed on the display screen 31a as shown in FIGS. 6C and 6D, respectively. The third shooting and the fourth shooting are automatically performed.

  In the embodiment described above, the composition frame setting unit 21 sets a composition frame having a predetermined shape and size at a predetermined position on the display screen 31a. However, the shape and size of the composition frame to be displayed, the number of composition frames, the position on the display screen, and the like may be appropriately determined by the photographer by operating the operation member 32 before photographing. good.

The digital camera 200 according to the second embodiment has the following operational effects.
(1) Composition frames 46a to 46d are sequentially displayed on the display screen 31a, and photographing is performed when the main subject image 52 has a predetermined degree of coincidence with each of the composition frames 46a to 46d. A subject image with a suitable composition can be reliably acquired.
(2) Since the moving direction instructing unit 33 is provided to instruct the moving direction of the main subject, it is possible to efficiently shoot the composition intended by the photographer. This is particularly convenient when the photographer photographs himself.

Modifications of the second embodiment are as follows.
(1) In the above embodiment, the same composition frames 46a to 46d are used. However, the main subject image 52 may approach or move away from the camera or may take a different pose. In order to cope with this, the composition frames 46a to 46d can be different in size and shape.
(2) If the size of the main subject image is significantly different from the size of the composition frame, as in the first embodiment, the photographic lens 11 is zoomed to set the size of the main subject image to the size of the composition frame. It can also be adapted to.
(3) In the above-described embodiment, the main subject is the face portion of the subject person, but in addition to the face data stored in the face data storage unit 28, for example, dog data, cat data, and the like are stored. Then, every time a main subject image of a dog or cat enters a plurality of composition frames, it is possible to automatically take pictures sequentially.

-Third embodiment-
As shown in FIG. 7, the basic configuration of the digital camera 300 according to the third embodiment of the present invention is the same as that of the digital cameras 100 and 200 according to the first and second embodiments. Are denoted by the same reference numerals and description thereof is omitted.

The image processing unit 15 includes a composite image creation unit 15a. The composite image creation unit 15a extracts images from a plurality of photographed image data, and combines the extracted images into a single image. .
The automatic focus adjustment unit 29 has an extremely large number of focus detection areas over the entire surface of the shooting screen, and can adjust the focus of the shooting lens 11 for each focus detection area.

The composition frame setting unit 21 sets a plurality of composition frames on the shooting screen, that is, the display screen, and the display control unit 26 can display the plurality of composition frames simultaneously. Specifically, when the photographer operates the operation member 32 to select desired graphic icons 42a to 42d from the tool palette 42 in FIG. 2 and drag the selected icon to a predetermined position, the composition frame setting unit 21 Sets the composition frame at the predetermined position, and the display control unit 26 displays the composition frame on the display screen 31a. By repeating this operation, composition frames can be displayed at a plurality of positions on the display screen 31a.
Note that such a composition frame display operation can also be performed by operating the touch panel of the display 31.

Hereinafter, the operation of the digital camera 300 will be described.
A through image of the subject is displayed on the display screen 31 a of the display 31. While observing the through image, the photographer selects a plurality of main subject images from the through image and operates the operation member 32 to set a composition frame for the selected plurality of main subject images.
Specifically, by operating the operation member 32, desired graphic icons 42a to 42d are selected from the tool palette 42 of FIG. 2, and the selected icon is dragged to the position of the selected main subject image. By repeating this operation, the composition frame setting unit 21 sets a composition frame for each of the plurality of selected main subject images, and the display control unit 26 superimposes each of the plurality of main subject images on the display screen 31a. To display the composition frame.
FIG. 8 shows a plurality of composition frames 47a to 47f displayed on the display screen 31a. These composition frames 47a to 47f are displayed superimposed on a plurality of main subject images selected by the photographer as described above.

  The automatic focus adjustment unit 29 performs a focus adjustment operation on the area of the composition frame 47a, and when the focus adjustment operation is completed, the shooting control unit 25 automatically performs the shooting operation. As a result, the first image data focused on the first main subject image superimposed on the composition frame 47a is obtained and recorded in the image storage unit 16. When the automatic focus adjustment unit 29 adjusts the focus for the area of the composition frame 47a, the composition frame 47a has a color different from the others so that the composition frame 47a is distinguished from the other composition frames 47b to 47f. Colored. FIG. 8A shows the coloring of the composition frame 47a with hatching.

  When the focus-adjusted shooting for the first main subject is completed, the automatic focus adjustment unit 29 colors the composition frame 47b as shown in FIG. 8B, and performs the focus adjustment operation for the area of the composition frame 47b. When the focus adjustment operation is completed, the imaging control unit 25 automatically performs the imaging operation. As a result, second image data focused on the second main subject image superimposed on the composition frame 47 b is obtained and recorded in the image storage unit 16.

  The automatic focus adjustment unit 29 and the imaging control unit 25 repeat the above-described operation, and as shown in FIGS. 8C to 8F, the automatic focus adjustment operation and the automatic operation are performed for the remaining composition frames 47c to 47f. The third to sixth image data focused on the remaining third main subject image to sixth main subject image are obtained, and these image data are stored in the image storage unit 16. Is done.

The composite image creating unit 15a cuts out the location of the composition frame 47a, that is, the image of the first main subject from the first image data stored in the image storage unit 16, and similarly stored in the image storage unit 16. From the second image data, the third image data, the fourth image data, the fifth image data, and the sixth image data, the second main subject image, the third main subject image, the fourth image data, respectively. The main subject image, the fifth main subject image, and the sixth main subject image are cut out.
The composite image creation unit 15a pastes the first to sixth main subject images cut out in this way onto, for example, the background image of the first image data, that is, the image from which the main subject image has been removed. FIG. 8G shows the six main subject images synthesized in this way.
In the composite image obtained in this way, all of the first to sixth main subject images are clearly captured.
According to the digital camera 300 according to the present embodiment, for example, there are a plurality of main subjects such as a group photo, and even when the subject distances are different for the plurality of main subjects, all the main subjects are in focus. A clear image can be obtained.
The present invention is not limited to the embodiment described above as long as the characteristics are not impaired.

11: Shooting lens 13: Image sensor 15: Image processing unit 15a: Composite image creation unit 16: Image recording unit 17: CPU
21: Composition frame setting unit 22: Face detection unit 23: Comparison determination unit 24: Zoom control unit 25: Shooting control unit 26: Display control unit 29: Automatic focus adjustment unit 31: Display 31a: Display screen (touch panel) 32: Operation Member 33: Movement direction instruction unit 41, 43: Composition frame 46a to 46d: Composition frame 47a to 47f: Composition frame 51a to 51c, 52: Main subject image 100, 200, 300: Digital camera

Claims (8)

Imaging means for generating image data by capturing a subject image incident to via the zoom lens,
Display means for displaying an image indicated by the image data generated by the imaging means and a frame indicating a predetermined position of the image;
Determination means for determining a relationship between a position of the specific region in the image and a position of the frame in the image, and a relationship between the size of the specific region in the image and the size of the frame in the image;
When the determination means determines that the relationship between the position of the specific area and the position of the frame is within a predetermined range, based on the relationship between the size of the specific area determined by the determination means and the size of the frame Zoom control means for performing zooming operation of the zoom lens;
An imaging control means for causing the imaging means to perform an imaging operation a plurality of times when the zooming operation is being performed;
A digital camera comprising: The digital camera according to claim 1 , wherein
The zoom control unit performs the zooming operation in a direction of enlarging the size of the specific region when the determination unit determines that the size of the specific region is smaller than the size of the frame, and the determination unit If the size of the specific area is determined to be larger than the size of the frame, the zooming operation is performed in a direction to reduce the size of the specific area. The digital camera according to claim 1 or 2 ,
The digital camera according to claim 1, wherein the zoom control unit performs the zooming operation so that a size of the specific area matches a size of the frame. The digital camera according to any one of claims 1 to 3,
A digital camera comprising storage means for storing frame data indicating the frame to be displayed on the display means. The digital camera according to claim 4 , wherein
The digital camera characterized in that the storage means stores a plurality of frame data having different shapes. The digital camera according to any one of claims 1 to 5,
Digital camera and wherein the obtaining Bei frame setting means for drawing the frame to be displayed on the display means. The digital camera according to any one of claims 1 to 6,
The determination unit determines a relationship between a position of a person region in the image and a position of the frame in the image, and a relationship between a size of the person region in the image and a size of the frame in the image. A digital camera. A zoom optical system for forming a subject image;
Imaging means for capturing the subject image and generating subject image data;
Shooting control means for controlling the shooting timing of the imaging means;
Display means for displaying a subject image based on the subject image data, and displaying a composition frame superimposed on the displayed subject image;
A comparison / determination unit that compares the composition frame and a main subject image in the subject image to determine a relative positional relationship and a relative size relationship between the composition frame and the main subject image;
Zoom control means for controlling a zooming operation of the zoom optical system so as to enlarge or reduce the subject image,
The zoom control unit determines the relative magnitude determined by the comparison determination unit when the comparison determination unit determines that the relative positional relationship between the composition frame and the main subject image is within a predetermined range. Based on the relationship, the zoom optical system is controlled to perform the zooming operation,
The zoom control unit controls a zooming operation of the zoom optical system in a direction to enlarge the main subject image when the comparison determination unit determines that the main subject image is smaller than the composition frame, If it is determined that the main subject image is larger than the composition frame, the zooming operation of the zoom optical system is controlled in a direction to reduce the main subject image;
The zoom control means controls the zooming operation so that the size of the composition frame and the size of the main subject image coincide with each other during the zooming operation of the zoom optical system,
The digital camera according to claim 1, wherein the photographing control unit controls a photographing timing of the imaging unit so that photographing is performed a plurality of times during the zooming operation.

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