JP5003281B2 - Focus state display device and focus state display method - Google Patents

Description

  The present invention relates to a focus state display apparatus and method.

    In the camera that detects the contrast of the image captured by the image sensor and calculates the focus value of the focusing lens, and adjusts the focus of the focusing lens, the focus state (focus evaluation value) of the focusing lens is determined from the subject image. A focus state display device that displays a bar graph outside the frame is known (see, for example, Patent Document 1).

Prior art documents related to the invention of this application include the following.
JP 2001-042207 A

  By the way, the focus position at which the focus evaluation value is maximized varies depending on the shooting conditions. For example, the maximum focus evaluation value is low for a low-contrast subject, and the maximum focus evaluation value is high for a high-contrast subject. . Therefore, as in the conventional focus state display device described above, it is difficult to easily and accurately grasp the in-focus position where the focus evaluation value is maximized simply by displaying the focus evaluation value as a bar graph. In addition, since the focus detection area to be focused in the subject image is separated from the bar graph display, there is a problem that it is difficult to see because it is necessary to check while moving the line of sight.

The focus state display device according to claim 1, wherein the focus state calculation device calculates a focus state value of a focus detection area provided in a shooting screen of the shooting optical system based on a shot image obtained via the shooting optical system. A state calculating unit; and a display unit capable of displaying an area display unit corresponding to the focus detection area on the captured image, the display unit being in the vicinity of the region display unit, A state display unit indicating a degree of the focus state value of the focus detection region corresponding to the region display unit is displayed, and the state display unit is arranged so as to be superimposed on the region display unit. It is a frame-shaped display unit, and the state display unit is disposed on at least one of the inside and the outside of the frame of the frame shape display unit, and the band shape whose thickness varies according to the variation of the focus state value The frame of the region display unit The line-shaped display unit is formed with a first line width, and the line width of the band-shaped display unit of the state display unit depends on the focus state value and the first line width and the first line width. The thickness varies between a second line width wider than one line width, and the focus state value includes a focus evaluation value calculated based on a contrast of the captured image, and the display means Further displays an absolute value display unit for displaying an index representing the absolute value of the focus evaluation value, and the absolute value display unit includes a plurality of divided regions obtained by dividing the display region of the absolute value display unit into a plurality of regions. The state display unit is a partial section of the plurality of divided regions included in the absolute value display unit, and functions as an enlarged display unit that enlarges and displays the divided region corresponding to the focus evaluation value The absolute value display unit displays each of the plurality of divided areas different from each other. The enlarged display part is displayed in the same display form as the divided area to be enlarged, and the enlarged display part is displayed as an inner frame band inside the frame of the frame shape display part. A display unit, and an outer frame band display unit displayed on the outside of the frame, each of the inner frame band display unit and the outer frame band display unit being divided into two continuous regions of the absolute value display unit It is characterized by being associated with the enlarged display.
The focus state display method according to claim 4 calculates a focus state value of a focus detection area provided in a photographing screen of the photographing optical system based on a photographed image obtained through the photographing optical system, The focus state of the focus detection region corresponding to the region display unit in the vicinity of the region display unit on a display unit capable of displaying a region display unit corresponding to the focus detection region superimposed on the captured image A state display unit indicating the degree of the value is displayed, the state display unit is arranged so as to be superimposed on the region display unit, the region display unit is a frame-shaped display unit, and the state display unit is A frame-shaped display unit that is disposed on at least one of the inner side and the outer side of the frame of the frame-shaped display unit and whose thickness varies according to the variation of the focus state value, and the frame shape of the region display unit The display portion is formed with a first line width. Accordingly, the line width of the band-shaped display portion of the state display portion is determined according to the focus state value between the first line width and the second line width wider than the first line width. The focus state value includes a focus evaluation value calculated based on the contrast of the photographed image, and an indicator representing the absolute value of the focus evaluation value is displayed on the display means. The absolute value display unit further includes a plurality of divided regions obtained by dividing the absolute value display unit into a plurality of display regions, and the state display unit is included in the absolute value display unit. A plurality of divided areas, and functions as an enlarged display unit that enlarges and displays a divided area corresponding to the focus evaluation value, and the absolute value display unit includes the plurality of divided areas. Are displayed in different display forms, and the enlarged display section The enlarged display part is displayed in the same display form as the divided area to be enlarged, and the enlarged display part has an inner frame band display part displayed on the inner side of the frame of the frame shape display part, and a band on the outer side of the frame. An outer frame band display unit to be displayed, and the inner frame band display unit and the outer frame band display unit are associated with each other so as to enlarge and display two consecutive divided areas of the absolute value display unit. It is characterized by being.

  According to the present invention, the photographer can easily and accurately grasp the in-focus position and focus on the subject correctly.

An embodiment in which the focus information display device of the present invention is applied to a digital still camera will be described. FIG. 1 shows a configuration of a digital still camera equipped with an in-focus state display device according to an embodiment. Note that illustrations and descriptions of camera devices and circuits that are not directly related to the focus information display device of the present embodiment are omitted.

  The taking lens (shooting optical system) 1 has a focusing lens (not shown), and forms a subject image on the light receiving surface of the image sensor 2 arranged on the planned image forming surface. In this embodiment, an example in which a CCD is used for the image sensor 2 is shown, but the present invention is not limited to a CCD, and a CMOS or the like can be used. The digital camera of this embodiment detects the contrast of the image captured by the image sensor 2 to calculate a focus evaluation value indicating the focusing state of the focusing lens, and the position where the focus evaluation value is maximized, that is, the in-focus state. A contrast AF mode for driving the focusing lens to a position, and a manual focus (MF) mode for adjusting the focus by turning the focus ring (not shown) of the photographing lens 1 while the photographer sees the focus state display described later. Yes.

  The shutter 3 prevents light from entering the image sensor 2 when not photographing. The A / D converter 4 performs A / D conversion on the image signal output from the image sensor 2 and outputs the signal to the image processing circuit 6 via the bus 5. The image processing circuit 6 performs image processing such as white balance adjustment, sharpness adjustment, gamma correction, and gradation adjustment on the subject image data, and detects the contrast in a predetermined area of the subject image to adjust the focus adjustment state of the focusing lens. Is calculated. The timing generator 7 controls the charge accumulation and transfer timing of the image sensor 2 and the conversion timing of the A / D converter 4. The memory 8 stores various types of information related to photographing such as a focus evaluation value. The monitor 9 is an LCD that displays a captured image of the image sensor 2 and various types of information related to shooting. Although details will be described later, the focus evaluation value indicating the focus state of the focusing lens is displayed in two types of display modes during manual focus. The captured image of the image sensor 2 is recorded on the memory card 11 via the interface 10.

  The microcomputer 12 performs various calculations and sequence control in the digital camera, and executes a control program described later to display the focus state of the taking lens 1 on the monitor 9 during manual focus. Here, the focus state is a focus evaluation value calculated by the image processing circuit 6 based on the contrast of the captured image.

  FIG. 2 shows the focus state display displayed on the monitor 9 during manual focus, that is, the display of the focus evaluation value. In this embodiment, the focus state of the photographing lens 1 calculated based on the contrast of the captured image, that is, the focus evaluation value, is represented by an absolute value display 20 represented by one bar graph, and an enlarged display represented by a rectangular frame. 21 is displayed. The absolute value display 20 displays the absolute value of the focus evaluation value as a bar graph in the vertical direction at the right end of the monitor screen 9a. In this embodiment, the entire range of the focus evaluation value from 0 to the maximum value (max) is divided into three display areas 20a, 20b, and 20c and displayed in different colors such as red, yellow, and blue. At the same time, an indicator 20d is displayed at a position corresponding to the current focus evaluation value, for example, with a black band.

  On the other hand, the enlarged display 21 enlarges the display area (the display area 20c in the example shown in FIG. 2) where the index 20d is located on the absolute value display 20, and the focus is displayed in a rectangular frame having a thickness inversely proportional to the focus evaluation value. Display the evaluation value. The outer frame of the enlarged display 21 is a focus detection area frame 22 representing the position of the focus detection area in the monitor screen 9a. In the example shown in FIG. 2, the focus detection area frame 22 at the center of the monitor screen 9a is shown. Note that the size of the focus detection area frame 22 is fixed at a predetermined size and does not change according to the focus evaluation value.

  The rectangular band display of the enlarged display 21 is displayed in the same color as the display area (the display area 20c in the example shown in FIG. 2) in which the index 20d of the absolute value display 20 is located in a translucent manner. Changes in inverse proportion to the focus evaluation value inside the focus detection area frame 22, and becomes thinner as the focus evaluation value becomes higher as shown in FIG. Therefore, the more focused the photographic lens 1 is in the focus detection area frame 22 to be focused, the easier it is to visually recognize the image in the area frame.

  FIG. 4 is a flowchart showing a focus state display program according to an embodiment. The microcomputer 12 repeatedly executes this program when the manual focus mode is set by a photographing mode setting device (not shown). In step 1, a captured image of the image sensor 2 is captured, and the focus evaluation value Q is calculated by integrating the contrast of the images in the focus detection area. The area where focus detection is performed is a focus detection area selected by the photographer using an area selection operation member (not shown) or a focus detection area automatically selected by the camera.

  In subsequent step 2, it is determined which display area of the display areas 20a, 20b, and 20c of the absolute value display 20 the current focus evaluation value Q falls into. In step 3, the captured image of the image sensor 2 is captured again, the contrast of the image in the focus detection area is integrated to calculate the focus evaluation value Q, and in step 4, the new focus evaluation value Q is displayed in the display area of the absolute value display 20. It is determined which display area 20a to 20c is to be entered.

  In step 5, it is determined whether or not the display area of the newly calculated focus evaluation value Q has shifted to a display area higher than the previous area (for example, the display area 20b in FIG. 3). If so, go to Step 6. In step 6, the display area of the absolute value display 20 is shifted to the upper display area (for example, the display area 20a in FIG. 3) to display the index 20d, and the enlarged display 21 is set to the widest width of the rectangular band display. The display is updated, and the display form (color, etc.) is changed to a form corresponding to the “upper” display area.

  If the display area of the new focus evaluation value Q has not shifted to a display area higher than the previous display area, it is determined in step 7 whether or not the current display area has shifted to a lower position than the previous display area. Determine. When the display area is shifted to the lower display area, the process proceeds to step 8 where the display area of the absolute value display 20 is shifted to the lower display area (for example, the display area 20c in FIG. 3) to display the index 20d and the enlarged display. The display of the rectangular band 21 is returned to the thinnest width, and the display form (color or the like) is updated to a form corresponding to the “lower” display area.

  On the other hand, if the display area of the new focus evaluation value Q has not shifted from the previous display area to the upper or lower position, the process proceeds to step 9 and the display area of the absolute value display 20 is not changed, and the rectangle of the enlarged display 21 is displayed. The display is updated by setting the band display to a width corresponding to the new focus evaluation value Q.

  While the manual focus mode is set, the microcomputer 12 repeatedly executes the operations in steps 3 to 9, draws the absolute value display 20 and the enlarged display 21 on the monitor screen 9a, and evaluates the focus of the photographing lens 1. Continue to display the value.

  As described above, according to the embodiment, the focus evaluation value of the photographing lens 1 in the focus detection area in the photographing screen of the photographing lens 1 is calculated based on the contrast of the photographed image by the photographing lens 1, and the picked-up image is obtained. An absolute value display 20 that displays the absolute value of the focus evaluation value by dividing the entire display area into a plurality of display areas on the monitor 9 to be displayed, and an absolute value display in the vicinity of the focus detection area on the monitor 9 Since the magnifying display 21 displays the focus evaluation value in the display area corresponding to the 20 focus evaluation values, the photographer can easily and accurately grasp the in-focus position and focus on the subject correctly. it can.

  According to one embodiment, the focus detection area is surrounded by the frame 22 and displayed on the captured image. The enlarged display 21 has a thickness band that is inversely proportional to the focus evaluation value inside the focus detection area frame 22. Since the focus evaluation value is displayed in the display, the higher the focus evaluation value, the narrower the band display, and the more the focus of the photographic lens 1 is focused in the focus detection area frame 22 to be focused, Since it becomes easier to visually recognize the image, the photographer can easily and reliably grasp the focus state.

<< Modification of Embodiment of Invention >>
FIG. 5 is a diagram showing a focus state display of a modified example. The configuration and operation other than the focus state display are the same as the configuration and operation of the above-described embodiment, and the description thereof is omitted.

  In the embodiment described above, as shown in FIGS. 2 and 3, the focus detection area frame 22 is set as the maximum frame, and the display example in which the rectangular band display becomes thicker as the focus evaluation value becomes lower is shown. As shown in FIG. 5, the focus detection area frame 22 is drawn approximately at the center in the width direction of the rectangular band display indicating the focus evaluation value, and the rectangular band display thick is inversely proportional to the focus evaluation value inside and outside the area frame 22. You may make it change. In this way, even when the focus evaluation value is low and the rectangular band display becomes thick, the subject image displayed in the rectangular band display has a certain area, and the subject image at the position to be focused can be viewed visually. It becomes easy to do.

  The display color of the rectangular band display of the enlarged display 21 of this modification is set to the same color as the display area at the position of the index 20d of the absolute value display 20. Thereby, the relationship between the absolute value display of the focus evaluation value and the enlarged display can be easily grasped. Of course, the display color may be changed inside and outside the focus detection area frame 22.

<< Other Modifications of One Embodiment of the Invention >>
In the above-described embodiment and its modification, an example of the focus detection area frame 22 and the enlarged display 21 in the center of the monitor screen 9a has been shown. However, the positions of the focus detection area frame 22 and the enlarged display 21 in the screen Is not limited to the center position, and the focus state at an arbitrary position in the screen can be displayed. Further, the size of the focus detection area frame 22 can be set to an arbitrary size. However, if it is too small, it is difficult to visually recognize the subject image in the area frame. Therefore, it is desirable to secure a size that does not hinder the visibility of the subject image in the area frame. Furthermore, the focus detection area frame 22 and the enlarged display 21 are not limited to a rectangle, and may be, for example, a circle or an ellipse.

Although the embodiment described above and its modification show examples of displaying the enlarged display unit 21 and the focus detection area frame 22 set, to set the focus detection area into a plurality of positions within the photographing screen, the focus detection You may make it display the focus state in an area. FIG. 6 shows an example of displaying the focus states at a plurality of positions in the screen. In this example, the focus detection area frame 22 and the enlarged display 21 are displayed for the subject in the center of the screen 9a, and the focus detection area frame 22 'and the enlarged display 21' are displayed for the subject in the upper left corner. The focus states of a plurality of subjects existing in the photographing field of view are displayed.

  When displaying focus states in a plurality of focus detection areas on the screen, rectangular bands representing focus evaluation values of the focus detection areas may be displayed in different colors, or focus evaluation values in the focus detection areas. May be displayed in a color corresponding to the absolute value of the image, that is, any one of the display areas 20a to 20c to which the focus evaluation value belongs, or only the focus detection area indicating the maximum focus evaluation value is displayed in a different color, Other focus detection areas may be displayed in a common color. Further, the maximum focus evaluation value of the plurality of focus detection areas may be displayed by the index 20d of the absolute value display 20, or the focus for each focus detection area is the same color as the rectangular band display of each focus detection area. The evaluation value (absolute value) may be displayed in the absolute value display 20.

  By displaying the focus states in a plurality of focus detection areas in the screen, it is possible to easily visually recognize in which focus detection area the photographer is focused.

<< Modification of Embodiment of Invention >>
FIG. 7 is a diagram showing a focus state display of a modified example. In this modified example, the absolute value display 30 is divided into eight display areas 30a to 30h, and the display area (in the example shown in FIG. 7, the display area in which the index 30i is located). 30f) and two consecutive display areas (30e) are enlarged and displayed by the enlarged displays 31 and 32, and the focus state is displayed by a rectangular frame display having a thickness inversely proportional to the focus evaluation value.

  In the display example shown in FIG. 7, the lower display area 30 f is displayed on the enlarged display 32 of the rectangular band outside the focus detection area frame 22, and the upper display area 30 e is displayed on the rectangular band inside the focus detection area frame 22. Displayed on the enlarged display 31. Now, as the focus evaluation value increases with focus adjustment, the position of the index 30i in the display area 30f of the absolute value display 30 increases, and the thickness of the rectangular band of the enlarged display 32 corresponding to the display area 30f is narrow. Become. When the focus evaluation value further increases and the index 30i enters the range of the display area 30e of the absolute value display 30, the thickness of the rectangular band of the enlarged display 32 corresponding to the display area 30e increases as the focus evaluation value increases. Narrow.

  In the above-described embodiment and its modification, the focus evaluation value of the photographing optical system in the focus detection region in the photographing screen of the photographing optical system is calculated based on the contrast of the photographed image obtained by the photographing optical system, and is displayed on the display. Although an example in which focus state display based on the degree of the focus evaluation value is performed in the vicinity of the focus detection area is shown, the focus state display displayed in the vicinity of the focus detection area is focus evaluation calculated based on the contrast of the captured image The parameter is not limited to any value, and any parameter may be used as long as it represents the focus adjustment state of the photographing optical system. For example, when the defocus amount obtained by phase difference detection method focus detection is displayed as a parameter indicating the focus adjustment state, the defocus amount and the width of the rectangular band are in a proportional relationship, and the defocus amount becomes smaller and the focus is reduced. The width of the rectangular band becomes narrower as the values match.

  In the above-described embodiment and its modification, an example is shown in which an enlarged display is displayed in the vicinity of the focus detection area. However, the absolute value display or both of the enlarged display and the absolute value display are subjected to focus detection. You may display in the vicinity of an area | region.

  In the above-described embodiment and its modification, an example in which focus state display is performed with a rectangular band representing a focus evaluation value inside or inside and outside the focus detection area frame has been described. The focus state display may be performed with a bar graph or the like representing the focus evaluation value in the vicinity of the focus detection area frame.

  In the above-described embodiment and its modification, an example is shown in which the rectangular band representing the focus evaluation value of the enlarged display and the bar graph of the absolute value display are displayed in color. However, as a method of changing the display form, color display is used. It is not limited, You may change and display a pattern or gradation.

The figure which shows the structure of the digital camera provided with the focus state display apparatus of one embodiment. The figure which shows the example of the focus state display displayed on the monitor at the time of manual focus The figure which shows the focus state display which changes according to a focus evaluation value The flowchart which shows the focus state display operation | movement of one Embodiment The figure which shows the example of a focus state display of a modification The figure which shows the example of a focus state display of another modification The figure which shows the example of a focus state display of another modification

Explanation of symbols

1 Shooting lens (shooting optical system)
9 Monitor 12 Microcomputer 20, 20 ', 30 Absolute value display 22 Focus detection area frame 21, 21', 31, 32 Enlarged display

Claims (4)

A focus state calculation means for calculating a focus state value of a focus detection region provided in a shooting screen of the shooting optical system based on a shot image obtained through the shooting optical system;
Display means capable of superimposing and displaying an area display unit corresponding to the focus detection area on the captured image;
The display means displays a state display unit indicating a degree of the focus state value of the focus detection region corresponding to the region display unit in the vicinity of the region display unit ,
The state display unit is arranged so as to be superimposed on the region display unit,
The region display unit is a frame-shaped display unit,
The state display unit includes a band-shaped display unit that is disposed on at least one of an inner side and an outer side of the frame of the frame shape display unit, and whose thickness varies according to the variation of the focus state value,
The frame-shaped display part of the region display part is formed with a first line width,
The line width of the band-shaped display portion of the state display portion is between the first line width and the second line width wider than the first line width, depending on the focus state value. Its thickness fluctuates,
The focus state value includes a focus evaluation value calculated based on the contrast of the captured image,
The display means further displays an absolute value display unit for displaying an index representing the absolute value of the focus evaluation value,
The absolute value display section includes a plurality of divided areas obtained by dividing the display area of the absolute value display section into a plurality of areas,
The state display unit functions as an enlarged display unit that is a partial division of a plurality of divided regions included in the absolute value display unit and that displays an enlarged divided region corresponding to the focus evaluation value. ,
The absolute value display unit is displayed in a display form in which each of the plurality of divided regions is different from each other,
The enlarged display portion is displayed in the same display form as the divided area to be enlarged,
The enlarged display unit includes an inner frame band display unit displayed as a band inside the frame of the frame shape display unit, and an outer frame band display unit displayed as a band outside the frame,
Each said inner frame strip display portion the outer frame strip display unit, the absolute value display portion of two consecutive divided regions to expand have corresponding associated to display focus state display apparatus according to claim Rukoto . The focus state display device according to claim 1,
The width of the band-shaped display part is displayed with a thickness inversely proportional to the focus evaluation value.
A focus state display device. In the focus state display device according to claim 1 or 2,
The focus state calculation means calculates a focus state value in a plurality of focus detection areas arranged in the shooting screen,
The state display section is provided for each of the plurality of focus detection areas.
A focus state display device. Based on the photographed image obtained through the photographing optical system, the focus state value of the focus detection area provided in the photographing screen of the photographing optical system is calculated,
The focus state of the focus detection region corresponding to the region display unit in the vicinity of the region display unit on a display unit capable of displaying a region display unit corresponding to the focus detection region superimposed on the captured image Display the status display that shows the degree of the value,
The state display unit is arranged so as to be superimposed on the region display unit,
The region display unit is a frame-shaped display unit,
The state display unit includes a band-shaped display unit that is disposed on at least one of an inner side and an outer side of the frame of the frame shape display unit, and whose thickness varies according to the variation of the focus state value,
The frame-shaped display part of the region display part is formed with a first line width,
The line width of the band-shaped display portion of the state display portion is between the first line width and the second line width wider than the first line width, depending on the focus state value. Its thickness fluctuates,
The focus state value includes a focus evaluation value calculated based on the contrast of the captured image,
On the display means, further displaying an absolute value display unit for displaying an index representing the absolute value of the focus evaluation value,
The absolute value display section includes a plurality of divided areas obtained by dividing the display area of the absolute value display section into a plurality of areas,
The state display unit functions as an enlarged display unit that is a partial division of a plurality of divided regions included in the absolute value display unit and that displays an enlarged divided region corresponding to the focus evaluation value. ,
The absolute value display unit is displayed in a display form in which each of the plurality of divided regions is different from each other,
The enlarged display portion is displayed in the same display form as the divided area to be enlarged,
The enlarged display unit includes an inner frame band display unit displayed as a band inside the frame of the frame shape display unit, and an outer frame band display unit displayed as a band outside the frame,
Each of the inner frame band display unit and the outer frame band display unit is associated with each other so as to enlarge and display two consecutive divided areas of the absolute value display unit.
A focus state display method characterized by the above.

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