JP2008256826A - Camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a camera in which depth of field can be arbitrarily and easily set. <P>SOLUTION: The camera 1 is provided with: a selection section 20 which can select an arbitrary area including a plurality of measurement positions 15 or the arbitrary measurement positions 15, in a photographing field of view; a distance information detecting section 6 which detects information on the distance of an object existing in the area or the plurality of measurement positions 15, selected by the selection section 20, in each measurement position 15; and a depth-of-field calculating section 7 which determines such a depth of field that both of the object at the closest distance and the object at the farthest distance in the area or the measurement positions 15, selected by the selection section 20 are regarded as being in a focused state, based on the information on a plurality of distances, detected by the distance information detecting section 6. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a camera having a function capable of adjusting the depth of field.

Conventionally, there has been proposed a camera capable of adjusting the depth of field within a shooting field of view (see, for example, Patent Document 1).
Japanese Patent Laid-Open No. 11-38313

  However, in the above-described prior art, when the depth of field is arbitrarily set according to the photographer's preference, the selection method is complicated and cannot be easily set.

  The subject of this invention is providing the camera which can set the depth of field arbitrarily and easily.

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

The invention according to claim 1 is a selection unit (20) capable of selecting an arbitrary region (22) including a plurality of measurement positions (15) or an arbitrary measurement position (15) within the photographing field of view, and A distance information detection unit (6) that detects, for each measurement position (15), information related to a distance about a subject existing in the region selected by the selection unit (20) or a plurality of measurement positions (15); Based on information on the plurality of distances detected by the distance information detection unit (6), the subject closest to the distance and the subject farthest from the measurement position (15) selected by the selection unit (20) The camera (1) includes a depth-of-field calculating unit (7) that determines a depth of field that can be regarded as in-focus.
The camera according to claim 2 is the camera (1) according to claim 1, wherein the depth-of-field calculating unit (7) is configured to select either the closest subject or the farthest subject. The camera (1) is characterized in that it calculates the position of the lens (2) and the aperture value of the aperture that can be regarded as in-focus.
The camera according to claim 3 is the camera (1) according to claim 1 or 2, wherein the region (22) or the plurality of measurement positions (15) selected by the selection unit (20) is displayed. The camera (1) further comprises display means (11) for displaying in a display form that overlaps with the subject image in the field of view and can be identified on the subject image. .
The camera according to claim 4 is the camera (1) according to any one of claims 1 to 3, wherein the distance information detection unit (6) detects a defocus amount. Camera (1).
The camera according to claim 5 is the camera (1) according to any one of claims 1 to 4, wherein the selection unit (20) includes a plurality of preset points in the photographing field of view. By designating an area (22) including an arbitrary plurality of measurement positions (15) or an arbitrary plurality of measurement positions (15) themselves from the measurement positions (15), the arbitrary area or the arbitrary plural It is a camera (1) characterized by selecting the measurement position (15).
The camera according to claim 6 is the camera (1) according to any one of claims 1 to 4, wherein the selection unit (20) includes a plurality of preset points in the photographing field of view. By designating the region including the measurement position (15) to be excluded or the measurement position (15) itself to be excluded from the measurement positions (15), the arbitrary region or the plurality of arbitrary measurement positions (15) is obtained. The camera (1) is characterized by being selected.
The camera according to claim 7 is the camera (1) according to any one of claims 1 to 6, wherein an imaging unit (4) for imaging a subject image in the imaging field of view, and the imaging unit Subject classification means (7) for analyzing the subject image captured in (4) and classifying the subject within the field of view, and the selection unit (20) includes the subject classification means ( The camera (1) is characterized in that the arbitrary region or the plurality of measurement positions (15) are selected based on the classification result according to 7).
The camera according to claim 8 is the camera (1) according to claim 7, wherein the subject classifying means (7) classifies the subject in the shooting field of view and extracts a person subject, and the selection The unit (20) is a camera (1) that selects an area where the person subject exists or a plurality of measurement positions (15) based on the extraction result by the subject classification means (7).
Note that the configuration described with reference numerals may be modified as appropriate, and at least a part of the configuration may be replaced with another component.

  According to the present invention, the depth of field can be set arbitrarily and easily.

(First embodiment)
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings and the like. In the first embodiment, a single-lens reflex digital camera will be described as an example.

  FIG. 1 is a block diagram illustrating a configuration of a single-lens reflex camera 1 according to the first embodiment. The camera 1 according to the first embodiment includes a photographic lens 2, a mirror unit 3, and an image sensor (for example, CCD) 4 along the optical axis A. Further, of the light incident on the photographing lens 2, the finder portion 5 where the light directed upward in the figure by the mirror portion 3 enters, and the distance measurement where the light directed downward in the drawing by the mirror portion 3 enters. Part 6. The camera 1 further includes a control unit 7 to which information from the image sensor 4 and the distance measuring unit 6 is input. The control unit 7 includes a release button 9, an operation unit 10, a liquid crystal display unit (LCD) 11, The focus control unit 13 is connected.

  Each will be described in detail below. The photographic lens 2 is an optical system that forms an image of subject image light on the imaging surface of the imaging device 4 and includes a plurality of lens groups including a focus lens for adjusting the focal position of the optical system.

  The mirror unit 3 is disposed on the exit side of the photographing lens 2 and includes a main mirror 3a and a sub mirror 3b. The main mirror 3 a is a mirror that reflects the light that has passed through the photographing lens 2 toward the viewfinder unit 5. A part of the main mirror 3a is a so-called half mirror, which transmits a part of the light. Further, when the release button 9 is pressed at the time of shooting, the main mirror 3a rotates around an unillustrated axis provided at the end thereof, and the reflection surface is at a position substantially parallel to the optical axis A. This is a so-called quick return mirror. The sub mirror 3b is a mirror that bends the path of the light transmitted through the half mirror portion of the main mirror 3a, for example, at 90 ° in the direction opposite to the main mirror 3a and reflects it to the distance measuring unit 6 described later.

The imaging element 4 is an imaging element that is provided at a position where light along the optical axis A reaches when the main mirror 3a is retracted, and converts an image formed by the photographing lens 2 into an electrical signal. Note that as the image sensor 4, an image sensor such as a complementary metal-oxide semiconductor (CMOS) may be used instead of the CCD.
A shutter unit 12 for controlling the exposure time is provided between the mirror unit 3 and the CCD 4. The shutter unit 12 includes a front curtain and a rear curtain.

  The viewfinder unit 5 receives light directed upward in the figure by the main mirror 3a, and includes a pentaprism 5a and a focusing screen 5b.

The pentaprism 5a is an optical element that guides the path of light reflected by the main mirror 3a to the eyepiece (eyepiece lens 5c) by bending it. For example, the pentaprism 5a is provided above the mirror unit 3 when the camera 1 is in the normal photographing position. In the present specification, the normal shooting position of the camera refers to the position of the camera when shooting a horizontally long image with the optical axis of the camera body horizontal. The focusing screen 5b is a portion that forms an image of the light reflected by the main mirror 3a, and is disposed between the main mirror 3a and the pentaprism 5a.
Further, the finder unit 5 is provided with a photometric unit including a photometric element 5e and a photometric lens 5d that collects light on the photometric element 5e. Further, in the finder unit 5, the focus point 15 and an area setting frame 22 (to be described later) are superimposed on the focusing screen 5 b in order to display the focus point by overlapping the optical image of the subject in the finder. An in-viewfinder display unit 5f including an LCD for causing the display is provided. With this display unit 5f, an arbitrary focus point 15 can be turned on, turned off, or lightly turned on, and the area setting frame 22 can be changed and displayed.

  The distance measuring unit 6 divides the light bent by the sub-mirror 3b into two to generate two images with parallax, and a pair of photoelectric conversion element arrays that respectively convert these two images into electric signals (Line sensor) is included.

  The control unit 7 is an information processing unit that controls each element constituting the camera in an integrated manner, and includes a CPU. The control unit 7 determines the relative defocus amount of the two images from the output of the line sensor provided in the distance measuring unit 6 (the distance from the position equivalent to the imaging surface to the actual imaging surface position), that is, Calculate the defocus amount. Then, the focus control unit 13 performs a known phase difference detection type autofocus (AF) control, and drives the focus lens so that the defocus amount becomes zero.

  The control unit 7 displays the imaging information converted into an electrical signal by the imaging element 4 on the LCD 11 that is a liquid crystal display unit. The LCD 11 is provided on the back of the body of the camera 1 and can display a captured image, a through image, a menu screen that can be set under shooting conditions, and the like. Further, a focus point described later is also displayed.

  The release button 9 is a push button switch provided on the body surface of the camera 1, and can be half-pressed or fully pressed depending on the application.

  The operation unit 10 includes, for example, a function selection switch that is provided on the back of the body of the camera 1 and that can be set under shooting conditions, and is displayed on the menu screen when the menu screen is displayed on the LCD 11. The cursor can be operated. The operation unit 10 further includes a selector 20 that selects a focus point, which will be described later. Note that these function selection switch and selector 20 may be provided separately, or may be used as the same switch.

  FIG. 2 is a diagram showing the focus point 15 displayed on the LCD 11 when the depth-of-field priority mode is selected. In the present embodiment, 11 focus points 15 are provided. These focus points 15 are arranged at equal intervals on the left and right at the center in the vertical direction (y-plus direction in the figure) in the finder at the normal shooting position of the camera. Further, one focus point 15 is provided above and below each of the three central points, and the eleven focus points 15 are arranged in a generally rhombus shape as a whole.

  In the present specification, the focus point 15 means a position where the focus adjustment state of the optical system is detected. In the present embodiment, the phase difference detection type AF control using the distance measuring unit 6 and the contrast detection type AF control using the image obtained by the image sensor 4 can be selectively performed.

  FIG. 3 is a diagram illustrating a part of the operation unit 10 illustrated in FIG. 1. The operation unit 10 includes a selector 20 that selects the focus point 15, a move button 21 a, an enlarge button 21 b, and a reduce button 21 c described later. And an exclusion button 21d. A focus point selection end button (FP selection end button) 20a is provided at the center of the selector 20, and an upper button 20b, a lower button 20c, a left button 20d, and a right button 20e are provided around the selector.

  FIG. 4 is a through image of the field of view displayed on the LCD 11 at the normal shooting position of the camera 1. When a depth-of-field priority shooting mode (a mode in which shooting can be performed in a state in which all of the subjects existing at a plurality of shooting distances can be regarded as in-focus) is selected at the time of shooting, the image is displayed on the through image on the LCD 11. 2 is displayed in a state where the focus points 15 shown in FIG. When it is desired to shoot in a state with a deep depth of field that can be regarded as in-focus for all the areas of the focus point 15, in this state, the FP selection end button 20a in FIG. 3 is pressed. When the release button 9 is pressed, the farthest focus point 15a that overlaps the “mountain” portion of the focus point 15, the intermediate focus point 15b that overlaps the “house” portion, 1 is measured by the distance measuring unit 6 in FIG. 1 for all of the closest focus points 15c that overlap with the portion “,” and the depth of field is calculated so that any of these can be regarded as in-focus. When the lens position and the aperture value are determined, a photograph with a deep depth of field in which all the areas of the focus point 15 are focused can be taken.

  When it is desired to focus only a part of the focus points 15, when the selector 20 is operated, an area setting frame 22 indicating the outer frame of the focus point 15 within the range to be focused is displayed on the LCD 11. FIG. 5A is a diagram showing a state in which the area setting frame 22 is displayed on the LCD 11 (displayed by a dotted line in FIG. 5).

  Next, in FIG. 5A, when it is desired to shoot at the depth of field excluding the farthest “mountain” from the focusing range, first, the upper button 20b of the selector 20 is pressed to reduce the reduction in FIG. Press the button 21c. As a result, the line above the area setting frame 22 is lowered and the area is reduced. Next, when the left button 20d of the selector 20 is pressed and the reduction button 21c is pressed, the left line of the area setting frame 22 moves to the right. FIG. 5B is a diagram showing a state in which the area setting frame 22 is reduced to the lower right in this way, and two focus points 15 a where “mountains” exist are excluded from the range of the area setting frame 22. . When the FP selection end button 20a is pressed in this state, the selection of the range of the focus point 15 is ended. When the release button 9 is pressed, a focus point 15b at an intermediate distance overlapping the “house” portion other than the farthest focus point 15a overlapping the “mountain” portion of the focus point 15, and “ The depth of field is calculated so that both the focus point 15c and the closest focus point 15c overlapping the “person” portion can be regarded as in-focus, the lens position and the aperture value are determined, and the “home” and “person” are combined. You can take a photo that can be regarded as scorching.

In FIG. 5B, when “house” having a further intermediate distance is excluded from the focusing range, the area setting frame 22 is reduced to the lower right in FIG. The button 20e is pressed, the reduction button 21c in FIG. 3 is pressed, and the right line of the area setting frame 22 is moved to the left. As a result, “house” is also excluded from the region setting frame 22 as shown in FIG. In this state, the FP selection end button 20a is pressed to end the focus point selection. When the release button 9 is pressed, the focus points 15 other than the two farthest focus points 15a that overlap the “mountain” portion and the focus point 15b that is an intermediate distance that overlaps the “house” portion are displayed. The depth of field is calculated so that only the closest focus point 15c that overlaps the “person” portion can be regarded as in-focus, the lens position and the aperture value are determined, and only the “person” is focused. Can be taken.
In the above description, by setting the position and size of the area setting frame 22, the range for photographing as if it is in focus is designated (set). However, the present invention is not limited to this. It may be specified by 15 itself. In that case, a focus point to be focused among a plurality of focus points 15 is specified using the operation unit 10 so that the display of the specified focus point can be distinguished from the unspecified focus point ( For example, the highlighting may be performed by changing the display color, the display density, or the display brightness. For example, in the state shown in FIG. 5B, the display of the focus points 15b and 15c is displayed more conspicuously than the display of the focus point 15a (for example, brighter or made a conspicuous color such as red). In the state of c), the focus point 15c is displayed more conspicuously than the other focus points 15a and 15b.
Next, the display in the viewfinder will be described.
In the above description, the selection of the focus point 15 and the selection of the area setting frame have been described with reference to FIG. 5 showing the display state of the LCD 11 on the back of the camera. However, in the finder unit 5, the display unit 5 f in the finder is used. It is possible to perform a selection operation similar to the above while displaying. FIG. 11 is a diagram illustrating a state observed in the finder unit 5. As shown in FIG. 11 (a), the in-finder display unit 5f has a plurality of focus point display patterns 15 that can be displayed superimposed on the subject image, and the shape and size of the area setting frame 22. Has a superimpose display LCD provided with a display pattern 22 ′ for display in a changeable manner in a plurality of states. Then, by operating the operation unit 10 (selector 20 and buttons 21a to 21c) in the same manner as described above, the position and size of the area setting frame 22 are changed from the initial state of FIG. 11B to the state of FIG. As shown in the state or the state of FIG. 11 (d), it can be displayed by changing it to a desired position and size.
Note that the display in the viewfinder is not limited to specifying the range for shooting with the focus set 15 as the focus, but may be specified using the focus point 15 itself. The method is the same as described above.
In the present embodiment, the focus point 15 pattern is formed on the superimpose display LCD to display the focus point 15 in the viewfinder display. Only a pattern for displaying the frame 22 may be configured, and the focus point 15 may be displayed using a conventionally known LED.
As described above, the finder unit 5 can also set an area or position to be photographed as if it is in focus while confirming it with the subject image.

  Hereinafter, processing performed by the control unit 7 in selecting the range of the focus point 15 described above will be described with reference to flowcharts. FIG. 6 is a diagram showing a main routine of the camera 1 when the depth-of-field priority shooting mode is selected. FIG. 7 is a diagram showing a subroutine continued from (1) of the main routine of FIG. Hereinafter, each step will be described.

<Main routine>
(Step 1)
The photographer turns on the power of the camera 1 to start photographing. Then, a depth-of-field priority shooting mode is selected using a shooting mode dial (not shown), and the process proceeds to Step 2.

(Step 2)
In step 2, the operation differs depending on whether the photographer performs framing using the through image or framing using the finder 5. First, the operation in step S2 when framing is performed with a through image will be described.
When a through image display operation (for example, an ON operation of a through image display button (not shown)) is performed, the main mirror 3a in FIG. 1 is set in a retracted state and a through image is displayed on the LCD 11.
The photographer appropriately performs framing while observing the subject with the through image displayed on the LCD 11, and determines the photographing field of view as shown in FIG. Then, it progresses to step 3.
On the other hand, when the photographer performs framing while looking through the viewfinder, and when the above-described through image display button is not turned ON, in this step S2, the in-finder display unit 5f for displaying in the viewfinder is displayed. Will start. In this case, the main mirror 3a is in a mirror-down state.

(Step 3)
It is determined whether the FP selection end button 20a has been pressed. If the FP selection end button 20a has not been pressed (NO), it is determined that selection is in progress and the process proceeds to subroutine (1). If the FP selection end button 20a has been pressed (YES), it is determined that the preparation for photographing has been completed, and the process proceeds to step 4.

(Step 4)
It is confirmed whether or not the release button 9 has been pressed. If the release button 9 is not pressed (NO), the process proceeds to S11. If the release button 9 is pressed (YES), the process proceeds to S5.

(Step 11)
It is monitored whether the selector 20 has been operated. Here, the reason why the selector 20 is monitored is that, even if the selection of the area of the focus point 15 is once completed, it may be selected again immediately before the release. When the selector 20 is operated, it is determined that the setting is reset, and the process proceeds to the subroutine (1).

(Step 5)
When mirror up is performed in the above-described step S2 (through image display is performed), the main mirror 3a in the retracted state (mirror up state) is moved to the original position (state in FIG. 1 / mirror down state). ), And if not (when the through image display is not performed), the mirror remains as it is (while the mirror is down), and the photometric measurement of the light from the subject passing through the taking lens 2 is performed by the measuring unit 5d. , 5e. Then go to step 6.

(Step 6)
The distance measuring unit 6 measures the distance for all the focus points 15 in the selected area, and detects the defocus amount. Then, the driving amount of the photographic lens 2 is calculated so as to focus on a substantially intermediate distance in the selected region, and is output to the focus control unit 13 via the control unit 7. The focus control unit 13 drives the focus lens in the photographing lens 2 according to the output of the control unit 7. Then, it progresses to step 7.

(Step 7)
Based on the defocus amount, the optimal aperture value is calculated so that all of the selected area, that is, the closest part and the farthest part of the subject that overlaps the selected area, can be regarded as in-focus. Is done. Then, it progresses to step 8.

(Step 8)
The shutter time corresponding to the photometric value measured in step 5 and the aperture value calculated in step 7 is calculated. Then, it progresses to step 9.

(Step 9)
Wait for a predetermined time. The predetermined time is a shutter time lag, and an actuator that drives the main mirror 3a is operated by the control unit 7 to perform mirror-up of the main mirror 3a and retreat from the optical path of the sub-mirror 3b. Say time to start. That is, at this time, the mirror-up operation (retraction operation of the mirrors 3a and 3b) is performed. If the predetermined time has not elapsed (NO), step 9 is repeated again. If the predetermined time has elapsed (YES), the process proceeds to step 10.

(Step 10)
The front curtain of the shutter unit 12 disposed between the mirror unit 3 and the image sensor 4 is driven to the open position, and when the exposure is performed for the calculated shutter time, the rear curtain is driven to close the shutter. As a result, the shutter is opened, and the subject image is exposed to the image sensor 4 to perform shooting.

  Next, a flowchart of a subroutine continuing from (1) of FIG. 6 will be described. FIG. 7 is a diagram showing the subroutine. In this subroutine, the selector 20 selects the area of the focus point 15.

(Step 20)
It is monitored whether or not the selector 20 has been operated. If not (NO), the process proceeds to step 24. If the selector 20 has been operated (YES), the process proceeds to step 21.

(Step 24)
It is determined whether or not the FP selection end button 20a has been pressed. If not (NO), the process returns to step 20 again. If the FP selection end button 20a has been pressed (YES), it is determined that shooting preparation is complete, and the process proceeds to (2) of the main routine to determine whether or not the release button 9 in FIG. 6 has been pressed. Go to step 4.

(Step 21)
It is determined which of the upper button 20b, the lower button 20c, the left button 20d, or the right button 20e of the selector 20 has been pressed. Thereafter, the process proceeds to step 22.

(Step 22)
It is determined whether any of the move button 21a, the enlarge button 21b, or the reduce button 21c has been pressed. If no button is pressed (NO), the process proceeds to step 24. If any button is pressed (YES), the process proceeds to step 22.

(Step 23)
When the move button 21a is pressed in step 22, the entire area setting frame 22 moves in the direction of any button of the selector 20 pressed in step 21. When the enlarge button is pressed, the line specified by any of the up / down / left / right buttons of the selector 20 pressed in step 21 moves (any one of the up / down / left / right lines of the setting frame 22) to move the area setting frame. 22 expands. When the reduction button is pressed, any line of the selector 20 pressed in step 21 moves, and the area setting frame 22 is reduced. Thereby, it is determined which range of the region including the plurality of focus points 15 is to be regarded as in-focus. When the operation ends, the process returns to S20, and it is determined again whether or not the selector is operated.
In the above-described embodiment, when the focus setting point 15 itself is specified (set) instead of specifying (setting) the area setting frame 22, the operations of steps S22 and S23 are not performed and the process of step S21 is performed. The flow proceeds to step S24 later. Specifically, it is changed as follows.
First, the operation in step S21 will be described.
In accordance with the operation of the selector in step S21, the focus point 15 at the position corresponding to the operation position is highlighted as described above, and the process proceeds to step S24.
Next, in step S24, if the FP selection end button 20a has been turned ON, the process proceeds to step S4 in FIG. 6; otherwise, the process returns to step S20. The ON operation for the FP selection end button 20a at this time is determined as an operation for determining use of the focus point selected in steps S20 and S21. If there is a further designated focus point, the flow of the flow from step S4 to step S11 → step S20 → step S21 → step S24 is performed by performing the selector operation, and a desired focus point can be set. it can.

As described above, the present embodiment has the following effects.
(1) The depth of field can be set so that only an arbitrary region can be regarded as in-focus according to the photographer's preference.
(2) Further, setting of the depth of field according to the photographer's preference as in (1) can be easily performed by each button of the selector 20.
(3) Since the focus point 15 and the area setting frame 22 are displayed overlapping each other on the LCD 11 in the case of a through image and on the focusing screen 5b in the case of a finder image (optical image), the image is being observed. The in-focus position can be selected, and the selection is easy.

(Second Embodiment)
In the second embodiment, since the configuration of the camera and the main routine are the same as those in the first embodiment, description thereof is omitted. Unlike the first embodiment, the selection of the focus point 15 ′ is not performed by area designation but by a method of selecting the focus point 15 ′ to be excluded.

  FIG. 8A shows a through image of the field of view displayed on the LCD 11 when the depth-of-field priority shooting mode is selected. In the through image, the focus point 15 'is displayed in an overlapping manner. If it is desired to shoot all the focus points 15 ′ with a deep depth of field that can be regarded as in-focus, the FP selection end button 20 a in FIG. 3 is pressed. When the release button 9 is pressed, the farthest focus point 15 ′ a that overlaps the “mountain” portion of the focus point 15 ′ and the intermediate focus point 15 ′ that overlaps the “house” portion. Distance measurement is performed by the distance measuring unit 6 in FIG. 1 for all of b and the closest focus point 15′c that overlaps the “person” portion, and any of these can be regarded as in-focus. The depth of field is calculated, the lens position and the aperture value are determined, and it is possible to take a photograph with a deep depth of field that can be regarded as in-focus for all the areas of the focus point 15 ′.

  When it is desired to focus only a part of the focus points 15′b and 15′c among the focus points 15 ′, the up / down / left / right buttons 20b, 20c, 20d, and 20e of the selector 20 are operated to change to “mountain”. One of the two existing focus points 15'a is selected. Then, the selected focus point 15'a blinks. The same operation is repeated to select the other of the focus points 15 ′ a existing in “mountain”. Then, the selected focus point 15'a blinks. When the exclusion button 21d is pressed in this state, the two blinking focus points 15'a are displayed in a light color. FIG. 8B shows the state. When the release button 9 is pressed in this state, the focus point 15 ′ b at an intermediate distance overlapping the “house” portion other than the two focus points 15 ′ a overlapping the “mountain” portion, and the “person” The depth of field is calculated so that both the closest focus point 15′c that overlaps the portion can be regarded as in-focus. Then, the lens position and the aperture value are determined, and a photograph focusing on “house” and “person” can be taken. “People” and “House” are in focus, and the “mountain” is not in focus.

In addition, when it is desired to focus only on the focus point 15′c that overlaps the “person” of the focus points 15 ′, the up / down / left / right buttons 20b, 20c, 20d, 20e and the exclusion button 21d of the selector 20 The focus point 15′a existing in the “mountain” and the focus point 15′b existing in the “house” are excluded. Also in this case, the excluded focus points 15′a and 15′b are displayed with light colors. FIG. 8C shows the state. When the release button 9 is pressed in this state, the farthest focus point 15′a that overlaps the “mountain” and “house” portions of the focus point 15 ′ and the intermediate point that overlaps the “house” portion. The depth of field is calculated so that only the closest focus point 15′c that overlaps the “person” portion other than the distance focus point 15′b can be regarded as in-focus, and the lens position and aperture value are determined. , You can take a focused photo of only “Home”.
Next, the display in the viewfinder will be described.
In the above description, the selection of the focus point 15 to be excluded has been described with reference to FIG. 8 showing the display state of the LCD 11 on the back of the camera. However, in the finder unit 5, the same display as in FIG. While performing, a selection operation similar to the above can be performed. FIG. 11D is a diagram illustrating a state observed in the finder unit 5. When an exclusion operation similar to that described above (operation by the selector 20 and the exclusion button 21d described above) is performed, the in-finder display unit 5f displays the color of the selected exclusion focus point 15′a lightly (indicated by a dotted line in the figure). )indicate. In this way, the finder unit 5 can also select and set the focus point to be deleted while confirming the image with the subject image.

  Hereinafter, the flowchart of the second embodiment of the subroutine continued from (1) in the flowchart of FIG. 8 will be described with reference to FIG. In this embodiment, the focus point 15 'to be excluded is selected by this subroutine.

(Step 30)
If the selector 20 has not been operated (NO), the process proceeds to step 35. If the selector 20 is operated (YES), the process proceeds to step 31.

(Step 35)
It is monitored whether the FP selection end button 20a has been pressed. If the FP selection end button 20a has not been pressed, the process returns to S30. If the FP selection end button 20a has been pressed, it is determined that the preparation for photographing has been completed and the routine proceeds to (2) of the main routine, and the routine proceeds to step 4 where it is determined whether or not the release button 9 in FIG. 8 has been pressed.

(Step 31)
It is determined which of the upper button 20b, the lower button 20c, the left button 20d, or the right button 20e of the selector 20 has been pressed. Thereafter, the process proceeds to step 22.

(Step 32)
The focus point 15 'corresponding to the direction of the upper button 20b, the lower button 20c, the left button 20d, or the right button 20e pressed in step 32 flashes to indicate which focus point 15' has been selected.

(Step 33)
It is determined whether or not the exclude button 21d has been pressed. If the exclude button 21d is pressed (YES), the process proceeds to S34. When the exclude button 21d is not pressed (NO), the process proceeds to S36.

(Step 34)
The excluded focus point 15 is displayed lightly to indicate that it has been excluded. Then, the process returns to step 30.

(Step 36)
It is determined whether the selector 20 has been operated. If not operated (YES), the process returns to S33. If operated, it is determined that the photographer tried to select a different focus point 15, and the process returns to S31.

As mentioned above, according to 2nd Embodiment, in addition to the effect of 1st Embodiment, it has the following effects.
(1) Since focus points are selected and excluded one by one without being surrounded by a square area setting frame, a complicated range that cannot be enclosed by a square frame can be set.
(2) Since the excluded focus point becomes thin, it is easy to determine whether or not it has been excluded.

(Third embodiment)
In 3rd Embodiment, since the structure of the camera 1 is the same as that of 1st Embodiment, the description is abbreviate | omitted.

  In the third embodiment, an image captured by the image sensor 4 is displayed on the LCD 11 as a through image, and the control unit 7 analyzes the image and classifies the image by subject type. For example, a human subject is specified using a known face recognition processing technique. Then, as shown in FIG. 10, the character display such as “person priority” and “person + background” is displayed on the LCD 11 so as to overlap the subject or only the character display. Here, when the upper button 20b of the selector 20 is pressed, “person priority” is selected. When the FP selection end button 20a is pressed in this state, the “person priority” mode is selected. When the release button 9 is pressed, the distance is measured only for the person (only for the area identified as the face area by the face recognition processing technology), and the depth of field is calculated so that only the "person" can be regarded as in focus. , You can take pictures with shallow depth of field.

  Further, after the display of “person priority” and “person + background” shown in FIG. 10 is displayed on the LCD 11, when the lower button 20c of the selector 20 is pressed, “person + background” is selected. When the FP selection end button 20a is pressed in this state and the release button 9 is pressed, the depth of field that can be regarded as in-focus is calculated for “person” and “background (mountain)”, and a photo with a deep depth of field is calculated. Can be taken. In this case, for example, when the background portion is highlighted, it is determined as empty and the portion is excluded.

As mentioned above, according to 3rd Embodiment, in addition to the effect of 1st Embodiment, it has the following effects.
(1) Since the depth of field is automatically determined simply by selecting the type of subject, setting is easy.

(Deformation)
As described above, various modifications and changes are possible without being limited to the above-described embodiment, and these are also within the scope of the present invention.
(1) In the first embodiment, a region where focusing is desired for a plurality of focus points 15 is surrounded by the region setting frame 22. However, the present invention is not limited to this, and an excluded region where focusing is not desired may be surrounded by a frame. .
(2) In the second embodiment, focus points that are not desired to be focused are individually selected for the plurality of focus points 15. However, the present invention is not limited to this, and an off-focus point that is desired to be focused may be selected. Good.
(3) Although the focus point 15 is displayed on the LCD 4 in the first to third embodiments, the present invention is not limited to this. For example, a focus point display unit is provided in the finder unit 5 and overlaps an optical image on the optical finder. May be displayed.
(4) In the second embodiment, the focus points that are not focused are displayed lightly. However, the present invention is not limited to this, and the display of the focus points that are not focused may be erased.
(5) In the above-described embodiment, a single-lens reflex digital camera has been described. However, the present invention is not limited to this, and a so-called compact camera that does not include a mirror unit that guides light from a photographing optical system to an optical viewfinder may be used. It may also be a film camera. Furthermore, a video camera may be used as long as the aperture can be set.
(6) In the first and second embodiments, the focus point is 11 points. However, the focus point is not limited to this, and it may be less or more. Moreover, although it arrange | positioned at the rhombus shape as a whole, it is not limited to this, A rectangle, circular, and an ellipse may be sufficient.
(7) Although the area setting frame 22 surrounding the focus point is rectangular in the first embodiment, the present invention is not limited to this, and it may be circular or elliptical.
Note that the first embodiment to the third embodiment and the modified embodiments may be configured so that any one of them can be selected in the same camera, but detailed description thereof is omitted. Further, the present invention is not limited by the embodiments described above.

It is a block diagram which shows the structure of the camera of embodiment of this invention. It is the figure which showed the several focus point displayed on LCD when the depth-of-field priority mode is selected. It is the figure which showed the operation part. It is a through image displayed on the LCD in the first embodiment, and the focus points are displayed in an overlapping manner. FIG. 5 is a diagram showing a state where an area setting frame is displayed in the state of FIG. 4. It is the figure which showed the main routine of the camera when the depth-of-field priority photographing mode is selected in the first embodiment. It is the figure which showed the subroutine in 1st Embodiment which continues from (1) of FIG. It is a through image displayed on the LCD in the second embodiment, and the focus points are displayed in an overlapping manner. It is the figure which showed the subroutine in 2nd Embodiment which continues from (1) of FIG. It is the figure which showed the LCD display in 3rd Embodiment. It is the figure which showed the observation state (display state) in a finder.

Explanation of symbols

  1: camera, 4: image sensor, 6: distance measuring unit, 7: control unit, 15: focus point, 20: selector

Claims (8)

A selection unit capable of selecting an arbitrary region including a plurality of measurement positions or an arbitrary measurement position in the imaging field of view,
A distance information detection unit that detects information about a distance about a subject existing in an area or a plurality of measurement positions selected by the selection unit, for each measurement position;
Based on the information on the plurality of distances detected by the distance information detection unit, both the subject closest to the distance and the subject farthest in the region or measurement position selected by the selection unit can be regarded as in-focus. A depth-of-field calculator that determines such a depth of field,
A camera comprising: The camera according to claim 1,
The depth-of-field calculating unit calculates a lens position and an aperture value of an aperture so that both the closest subject and the farthest subject can be regarded as in-focus. . The camera according to claim 1 or 2,
Display means for displaying the area selected by the selection unit or the plurality of measurement positions in a display form that overlaps with the subject image in the photographing field of view and is identifiable on the subject image. Furthermore, the camera characterized by having.   The camera according to claim 1, wherein the distance information detection unit detects a defocus amount. The camera according to any one of claims 1 to 4,
The selection unit is configured to designate the arbitrary area by designating an area including an arbitrary plurality of measurement positions or an arbitrary plurality of measurement positions themselves from a plurality of measurement positions set in advance in the imaging field of view. Alternatively, a camera that selects any one of the plurality of measurement positions. The camera according to any one of claims 1 to 4,
The selection unit specifies the region including the measurement position to be excluded or the measurement position itself to be excluded from a plurality of measurement positions set in advance in the photographing field of view, thereby specifying the arbitrary region or the arbitrary region. A camera characterized by selecting a plurality of measurement positions. The camera according to any one of claims 1 to 6,
Imaging means for imaging a subject image within the field of view;
Subject classification means for analyzing the subject image captured by the imaging means and classifying the subject within the photographing field;
The camera, wherein the selection unit selects the arbitrary region or the plurality of measurement positions based on a classification result by the subject classification unit. The camera according to claim 7,
The subject classifying means classifies subjects in the shooting field of view and extracts a human subject,
The camera is characterized in that the selection unit selects an area where the human subject is present or a plurality of measurement positions based on an extraction result by the subject classification means.

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