JP4121771B2 - Imaging apparatus, luminance distribution diagram display method, and control program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an imaging apparatus, a luminance distribution diagram display method, and a control program that electronically capture a subject image and check information on the subject image on a display screen.
[0002]
[Prior art]
Conventionally, a digital camera has been known as one of imaging devices that electrically capture an image of a subject and record the captured image as digital data on a recording medium such as a compact flash (registered trademark) or smart media (registered trademark). ing. A digital camera is controlled to electrically capture an image of a subject using an image sensor such as a CCD, convert the image into digital data, and display the digitized image on a display unit such as a liquid crystal display. This control is performed not only when the shutter is operated during shooting but also when the shooting mode is in the shooting standby state. In this shooting standby state, the subject images are sequentially captured and The thinned image is displayed on the display unit as a through image. Now, even when shooting a subject using such a digital camera, like a silver halide camera, you can set various settings, such as determining the angle of view, focusing, and determining the exposure conditions by adjusting the aperture and shutter speed. It is necessary to do. The angle of view of the silver halide camera is determined by changing the orientation of the silver halide camera so that the subject is within the viewfinder except for the viewfinder. However, the actual captured image is usually in a wider range than the range that can be seen from the viewfinder, and it is unfamiliar to accurately determine the angle of view by looking into the viewfinder with a small viewing window. Some photographers. On the other hand, a digital camera can use a display unit with a large display screen, and the angle of view of the subject image displayed on this display screen becomes the angle of view of the subject image captured by actual shooting. However, the angle of view of the subject can be easily determined.
[0003]
When determining the exposure condition using this display screen, the photometry unit of the digital camera normally performs photometry in a specific range within the angle of view, and the aperture and shutter speed are adjusted based on the photometry results. Taking the case of shooting as an example, the photometry unit performs a process of calculating the luminance value of the subject based on a specific range of shooting signals captured from the CCD before shooting and setting this value as a photometric value. Furthermore, based on the program diagram showing the relationship between the photometric value, aperture, shutter speed, etc., the aperture and shutter speed conditions for the photometric value in a specific range measured by the photometry unit are calculated, and the conditions are met. The aperture and shutter speed of the digital camera are adjusted automatically. The specific range can be changed, and spot photometry is performed in which the specific range is narrowed to measure light in a point manner. By having such a function, the digital camera is adjusted so that a proper exposure of the subject image is always obtained at the time of shooting.
[0004]
However, on the other hand, it is difficult to obtain an appropriate exposure due to an unexpected shooting environment, or it is difficult to obtain an appropriate exposure according to the preferences of all photographers. In general, it also has an adjustable function. As a guideline for adjusting the exposure condition, luminance information of the subject image is displayed on the subject image displayed on the display screen, as described in a published patent publication (Japanese Patent Laid-Open No. 2001-245204). A known technique is one in which luminance distribution diagrams that are color-coded according to adjustment values of exposure conditions are displayed in an overlapping manner. That is, in this published patent publication, the luminance value of each pixel of the subject image displayed in the display screen is calculated, and the statistics (count number) of the number of pixels is calculated for each calculated luminance value. The resulting luminance distribution map is displayed overlaid on the subject image on the display screen, and this luminance distribution map is displayed by color according to the luminance value, or when the exposure condition adjustment by the photographer has reached its limit. A display example of the luminance distribution chart, such as coloring the luminance distribution chart, is shown. By using this luminance distribution diagram, it is possible to adjust to appropriate exposure conditions at a glance even when the subject image is too bright or too dark as a whole.
[0005]
[Problems to be solved by the invention]
By the way, the subject image captured with a digital camera has a narrower latitude (also called dynamic range) of the captured image than a silver halide camera. Depending on the shooting environment, overexposure and blackout may occur in the range. A digital camera is normally set so that photometry is performed with the center of the subject as the center, and exposure conditions are set so that the range is appropriate exposure. Therefore, for example, in a shooting scene under backlighting, only the center is dark and the surroundings are bright. It looks like an overexposed state. As described above, since the positioning of the photometric range such as the automatic exposure function (AE) is different from the positioning of the luminance distribution reflected in the luminance distribution diagram, there is a difference between the appropriate exposure calculated by the AE and the impression received from the luminance distribution diagram. There is a problem that occurs in the conventional luminance distribution diagram. Also, the portion of the subject image that you want to capture clearly is not limited to the center, but may extend to other portions. Even if you try to check the luminance value of that portion from the luminance distribution diagram, it is not possible with the conventional luminance distribution diagram. Is possible.
[0006]
Therefore, the present invention clarifies the relationship of the luminance distribution between the entire subject image and the predetermined range of the subject image, and can more reliably assist the adjustment of the exposure condition, the luminance distribution diagram display method, and the control program. The purpose is to provide.
[0007]
[Means for Solving the Problems]
  In order to solve the above problems, the present invention is configured as follows.
  That is, according to one aspect of the present invention, an imaging unit that outputs an electronic subject image, a display unit that displays the subject image, and an overall luminance distribution diagram that is a luminance distribution for the entire range of the subject image are created. And a partial diagram creating unit for creating a partial luminance distribution diagram that is a luminance distribution for a partial range of the subject image; and the entire luminance distribution diagram and the partial luminance distribution diagram in the display unit. Control means for controlling to display simultaneously.Then, the control unit overlaps the partial luminance distribution map with the corresponding position of the overall luminance distribution map, and further is in or near the partial luminance distribution map, and is the object of creating the partial luminance distribution map. A predetermined display is made at a position corresponding to the average luminance value in a partial range of the subject image;Configure as follows.
[0008]
  With this configuration, both the entire luminance distribution diagram and the partial luminance distribution diagram are displayed on the display means, so that the relationship between the two luminance distributions becomes clear.
  Also, with this configuration, the correspondence between the two luminance distribution diagrams can be efficiently expressed in a small space.
  Further, with this configuration, the average luminance value can be easily discriminated even with a distributed partial luminance distribution diagram.
[0009]
  In addition,The partial view creation means may be configured to create a partial luminance distribution map based on a photometric range for determining exposure conditions specified for the subject image displayed on the display means.
[0010]
With this configuration, the luminance distribution in the photometric range becomes the target of the partial luminance distribution diagram.
Further, it may further comprise a changing means for changing the photometric range, and the partial diagram creating means creates a partial luminance distribution map according to the changed photometric range.
[0011]
With this configuration, the luminance distribution of the changed photometric range becomes the target of the partial luminance distribution diagram in accordance with the change of the photometric range.
The partial diagram creating means may be configured to create a partial luminance distribution map based on a focus detection focus range.
[0012]
With this configuration, the luminance distribution in the focus range becomes the target of the partial luminance distribution diagram.
Moreover, you may comprise so that it may further have the partial range setting means which sets the said partial range which is the preparation range of the said partial luminance distribution map.
[0013]
  With this configuration, the partial range can be set by a dedicated partial range setting means.
  Further, the control means displays the entire luminance distribution diagram and the partial luminance distribution diagram on the same scale with respect to the axis of the luminance value which is one axis of the luminance distribution diagrams (the entire luminance distribution diagram and the partial luminance distribution diagram), Regarding the axis of occurrence frequency, which is the other axis, the scale of the partial luminance distribution diagram may be enlarged and displayed rather than the entire luminance distribution diagram.
With this configuration, the partial luminance distribution diagram can be clearly discriminated without being buried in the overall luminance distribution diagram.
  In another aspect of the present invention, an imaging means for outputting an electronic subject image, a display means for displaying the subject image, and an overall luminance distribution diagram which is a luminance distribution for the entire range of the subject image. An overall view creation means for creating a partial brightness distribution map that is a brightness distribution for a partial range of the subject image, and the display of the overall brightness distribution chart and the partial brightness distribution chart Control means for controlling to display simultaneously on the means,The partial view creation meansAs the partial range of the subject image, the portion is divided into a plurality of ranges divided from the entire range of the subject imageA luminance distribution map is created, and the control meansportionLuminance distributionFigureMutually distinguishabledo it,Overlapping the corresponding position in the overall luminance distribution diagramDisplaying on the display means;Configure as follows.
[0014]
  With this configuration, the correspondence between a plurality of partial luminance distribution diagrams with respect to the entire luminance distribution diagram becomes clear..
[0016]
  MaAnother aspect of the present invention is an overall luminance distribution diagram that is a luminance distribution for the entire range of an electronically captured subject image and a portion that is a luminance distribution for a partial range of the subject image. A luminance distribution diagram is created, and the two luminance distribution diagrams are displayed on the display unit by overlapping the partial luminance distribution diagrams at the corresponding positions of the overall luminance distribution diagram.Set,A predetermined display is made at a position corresponding to an average luminance value in a partial range of the subject image, which is the creation target of the partial luminance distribution diagram, in or near the partial luminance distribution diagram;Take the way.
[0017]
  By adopting such a method, since both the entire luminance distribution diagram and the partial luminance distribution diagram are displayed on the display unit, the relationship between the two luminance distributions becomes clear.
  In another aspect of the present invention, there is provided an overall diagram creation step for creating an overall brightness distribution diagram that is a brightness distribution for the entire range of an electronically captured subject image, and a part of the subject image. A partial diagram creating step for creating a partial luminance distribution map, which is a luminance distribution for the range of, and displaying the two luminance distribution diagrams on the display unit by overlapping the partial luminance distribution diagram at the corresponding position of the overall luminance distribution diagram Control steps to causeA predetermined display at a position corresponding to an average luminance value in a partial range of a subject image, which is an object of creation of the partial luminance distribution map, in or near the partial luminance distribution map;There is a control program that causes a computer to execute.
[0018]
With this control program, since both the entire luminance distribution diagram and the partial luminance distribution diagram are displayed on the display unit, the relationship between the two luminance distributions becomes clear.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a digital camera as an example of an embodiment of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a diagram illustrating an example of a block configuration of the digital camera. Reference numeral 100 in the figure denotes a lens composed of an optical lens. A CCD 102 is formed on the optical axis, and the exposure time of the CCD 102 is adjusted based on the setting of the exposure time setting unit 104. When the subject image input through Lens 100 is converted into an electrical signal by the CCD 102, the subject image is subjected to gain adjustment and noise removal processing by the CDS / ADC unit 106, and converted to digital image data. The digital image data is output to the AE / AF unit 108, and the AE / AF unit 108 performs exposure setting and focus detection based on the digital image data. For exposure (AE), data in a photometric area is extracted from digital image data, subject luminance is measured based on the luminance of the extracted image data, and exposure is set according to the photometric value. Focusing (AF) detects the position where the luminance data in the in-focus area is extracted from the digital image data and the contrast of the luminance data is maximized. Digital image data output from the CDS / ADC unit 106 is subjected to color signal processing, resizing processing, γ conversion processing, and the like in the image processing circuit 110, and display image data output as a result is stored in the display memory 112. And displayed on the display unit 114, for example, a display unit such as an LCD monitor. Reference numeral 116 denotes a CPU (Central Processing Unit) that controls the exposure time setting unit 104 according to the exposure set by the AE / AF unit 108 described above, controls the display unit 114, and the image processing circuit 110. A luminance distribution map is created based on the luminance data of each pixel of the generated display image data, and the histogram processing unit 118 that calculates an average luminance value is controlled as necessary. When there is an exposure correction operation from the operation unit 120, the CPU 116 causes the exposure time setting unit 104 to correct and set the exposure time set by the AE / AF unit 108. In addition, when the CPU 116 receives an operation instruction from the operation unit 120 to display the luminance distribution map on the display unit 114, the luminance distribution map is displayed on the histogram processing unit 118 in, for example, a region set by default or in the display unit 114. The specified area is processed by color-coding it with other areas, and set processing such as displaying the display image data displayed on the display unit 114 in a superimposed manner is performed. When there is an operation, for example, predetermined information is displayed on the display unit 114, or a target mark or various cursors displayed on the display unit 114 are moved. The CPU 116 has a control program for realizing the above processing contents, and performs the above processing by reading and executing the control program.
[0020]
FIG. 2 is an example of an operation flow when the digital camera having the above-described block configuration is in a shooting standby state.
In the shooting standby state in which the through image of the subject is displayed on the display unit 114 of the digital camera (S200), the exposure set by the AE / AF unit 108 and the exposure correction operation are corrected. Depending on the exposure, the CCD 102 performs exposure according to the exposure time set by the exposure time setting unit 104 (S202). After the exposure is completed, the image signal is thinned out and read from the CCD 102 (S204). The thinning-out reading is performed in a shorter time than reading out the signals of all the images of the CCD 102, so that a smooth through-motion image can be displayed, and the display unit 114 can display all the pixels of the CCD 102. This is because even the thinned image does not affect the display image quality because it is smaller than the number. The image signal read out is subjected to predetermined gain adjustment and noise removal processing in the CDS / ADC unit 106, and further subjected to color signal processing, γ conversion processing, resize processing for display, and the like in the image processing circuit 110. The image data output from the image processing circuit 110 is stored in the display memory 112 as display image data (S206). The display image data output from the image processing circuit 110 is also input to the histogram processing unit 118, and the histogram processing unit 118 creates a luminance distribution diagram based on the luminance data of the display image data (S208). ). The luminance distribution diagram is displayed on the display unit 114 together with the display image data (S210). The photographer compares the display image data displayed on the display unit 114 with the luminance distribution diagram, and issues a shooting instruction included in the operation unit 120 if a desired exposure is obtained. The presence / absence of a shooting instruction is determined (S212), and if there is a shooting instruction, shooting is performed (S214). If there is no shooting instruction, the process returns to step S202, exposure is performed again, and a series of display processing is repeated.
[0021]
Note that the value set in the exposure time setting unit 104 in step S202 can be reset by an operation from the operation unit 120 or the like.
Next, the display unit 114 shows a method of specifying a predetermined luminance distribution that is a luminance distribution of a predetermined area of the display image data and a display example of the predetermined luminance distribution with respect to the entire luminance distribution that is the entire luminance distribution of the display image data. Several cases of display will be described below.
[0022]
FIG. 3 is an example in which the luminance distribution of the display image data surrounded by the target mark displayed at the center of the display unit 114 is displayed in the display unit 114. As shown in the figure, a subject is composed of a mountain B, a sky C, and a sun D with a person A as the center, and a subject image captured from the CCD 102 is displayed on the display unit 114 as display image data. In the display unit 114, the target mark 300 is displayed at the center, the luminance distribution diagram 302 having a predetermined size is adjacent to the left, and the current exposure condition setting value 304 is displayed above, that is, the exposure is performed from the left. Mode (P, P means program mode), aperture (F1.8), shutter speed (1/250), exposure compensation (+0.0), and the number of images that can be shot (25) at the bottom left Has been. In this luminance distribution diagram 302, the horizontal axis indicates the luminance value (for example, 0 to 255 level if it is 8 bits), and the vertical axis indicates the luminance distribution indicated by the count value of the luminance value of the pixel in the designated area. Is displayed. In this example, the entire luminance distribution 306 is represented by a hatched area in the figure, and a predetermined luminance distribution 308 based on the area surrounded by the target mark 300 is displayed in a color-filled manner. In the example of the figure, the predetermined luminance distribution 308 appears from the left with respect to the overall luminance distribution 306, that is, the luminance value is low. When the exposure correction level of the display image data is increased by one level from the operation unit 120, the luminance distribution diagram 302 of the display unit 114 becomes as shown in FIG. That is, by increasing the exposure correction level by one level, the luminance of the entire display image data is increased, and the predetermined luminance distribution 308 is also increased and moves to the center of the luminance value. Note that the exposure correction setting value displayed above the display unit 114 is +1.0. As described above, since both the overall luminance distribution 306 and the predetermined luminance distribution 308 are displayed on the display unit as the luminance distribution diagram, accurate exposure setting can be made by comparing both distribution diagrams. Further, since the display modes are displayed so as to overlap with each other, it is possible to display two distribution maps in a small space.
[0023]
FIGS. 5 to 8 are examples in which the designated area of the predetermined luminance distribution described in FIG. 3 is a photometric area instead of a target mark. FIG. 5 shows an example in which the designated photometric area is a photometric area of average photometry, in which the luminance distribution of the entire display image data is evaluated and the focal length and brightness are taken into account. As described above, since the photometric area is the entire display image data, the predetermined luminance distribution 308 of the luminance distribution diagram 302 displays the entire range of the entire luminance distribution 306 as shown in the figure. In this example, an icon indicating that the photometry method is average photometry is displayed on the upper right of the display unit 114. The same applies to the following examples. However, since the photometry conditions change and the shutter speed also changes by changing the position and size of the photometry area, the shutter speed displayed on the display unit 114 is also the value in FIG. Has changed since.
[0024]
FIG. 6 shows an example in which the photometric area is an area surrounded by a rectangle having a width of about 1/4 of the display image data from the center of the display image data, and the photometric area is the designated area. As shown in the figure, the photometric area is indicated by a dotted line, and in the luminance distribution diagram 302, a predetermined luminance distribution 308 of the photometric area is filled with the overall luminance distribution 306 indicated by the oblique lines. Since the target area of the predetermined luminance distribution is wider than in the case of FIG. 3, the area of the predetermined luminance distribution is also larger than that in FIG. In this example as well, an icon indicating that the photometry method is the photometry method, that is, center-weighted photometry, is displayed on the upper right of the display unit 114.
[0025]
FIG. 7 shows an example in which the photometric area is an area surrounded by a rectangle having a spread of about 1/25 of the display image data from the center of the display image data, and the photometric area is the designated area. As shown in the figure, the photometric area is indicated by a dotted line (in the following example, the designated area or the area that can be designated is indicated by a dotted line in the figure), and the entire luminance distribution diagram 302 is indicated by a diagonal line. A predetermined luminance distribution 308 in the photometric area is filled with the luminance distribution 306 and displayed. In this example as well, an icon 310 indicating that the photometry method is the photometry method, that is, spot photometry, is displayed on the upper right of the display unit 114.
[0026]
FIG. 8 shows an example in which a photometric area surrounded by a movable rectangular cursor is set as a designated area. The photometric area is the same size as in FIG. (8-1) in the figure is an example in which the center of the photometric cursor is coincident with the center of the display image data, and the luminance distribution diagram 302 is rectangular with respect to the overall luminance distribution 306 indicated by hatching. A predetermined luminance distribution 308 in the enclosed area is displayed in black. This photometric cursor can be freely moved in the display unit 114 by operating the cross key button as shown in FIG. This example shows a case where the upper button 312 is pressed from the state of (8-1) in the figure, as shown in (8-2) of the figure, and this result is shown in (8- The photometric cursor moves up as shown in 3). At this time, since the designated area is in the photometry cursor, the brightness distribution of the area designated in the photometry cursor (part of the sky C in this example) is displayed in the brightness distribution diagram 302 in a state shifted to the high brightness side. The In this example, since spot metering is performed, an icon 310 indicating spot metering is displayed on the upper right of the display unit 114. As described above, since the predetermined luminance distribution corresponds to the luminance in the photometric area, the correspondence with AE can be achieved.
[0027]
FIG. 9 shows an example in which the designated area of the predetermined luminance distribution is an autofocus (AF) area. In the illustrated example, five AF areas are already set in a cross arrangement. A desired AF area is selected from these AF areas by pressing the cross key button of the operation unit 120 as shown in FIG. 8B, and a predetermined luminance distribution of the AF area is displayed on the display unit 114. Display. In the example of the figure, the center right AF area is selected, and the predetermined luminance distribution of this AF area is displayed on the display unit 114 as described above. In this example, the luminance distribution diagram 302 is displayed at the lower right of the display unit 114 so as not to overlap the AF area. As described above, since the predetermined luminance distribution corresponds to the luminance within the focusing range, it is possible to easily set the exposure on the focusing target.
[0028]
FIG. 10 shows an example in which the designated area of the predetermined luminance distribution is an area surrounded by a dedicated cursor dedicated to luminance distribution measurement. In the example shown in the figure, a rectangular dedicated cursor is arranged above the AF area, and the area surrounded by the dedicated cursor is displayed in the luminance distribution diagram 302 as described above. This dedicated cursor can be moved freely within the display unit 114 by operating the cross key button of the operation unit 120 as shown in (8-2) of FIG. The brightness distribution diagram 302 is displayed as described above.
[0029]
(11-1) in FIG. 11 shows an example in which the screen is divided into a plurality of areas, and the luminance distribution of each area is displayed in different colors in the luminance distribution diagram 302. In this example, the screen is divided into nine parts (E1 to E9) on the display unit 114 as indicated by broken lines, and the predetermined luminance distributions of the divided predetermined areas are displayed in the luminance distribution diagram 302 in different colors. (11-2) in the figure is an enlarged view of the luminance distribution diagram 302. FIG. The areas for different colors indicated by E1 to E9 in (11-2) in the figure show the luminance distributions corresponding to the luminances in the areas E1 to E9 in (11-1) in the figure. In the luminance distribution diagram 302, as shown in (11-3) of the figure, the average luminance value for each predetermined area may be displayed in a color-coded manner with respect to the overall luminance distribution. Also, in this example, the entire divided area is not displayed as a predetermined area on the luminance distribution diagram 302, but is specified by operating the cross key button from the operation unit 120 as shown in (8-2) of the figure. The divided area may be displayed as a predetermined area in the luminance distribution diagram 302 as described above. The predetermined luminance distributions may be displayed in different colors. As described above, it is possible to collectively determine the luminance for each region of the entire screen by displaying the predetermined luminance distribution.
[0030]
FIG. 12 is an example showing an enlarged display method of the luminance distribution diagram 302. The predetermined area described above, particularly the predetermined area specified by spot photometry, has a small number of pixels, so that the area displayed with respect to the overall luminance distribution is small and has poor visibility. Therefore, in this example, an example is shown in which the predetermined luminance distribution is enlarged and displayed with respect to the entire luminance distribution. As shown in the figure, with respect to the luminance distribution diagram 302 of which the predetermined luminance distribution 308 is small (12-1), a new luminance distribution diagram in which the predetermined luminance distribution 308 is enlarged and displayed without changing the overall luminance distribution 306 ( 12-2) is shown. This new luminance distribution diagram may be set from the beginning, or may be replaced with (12-1) by a selection switching button from the operation unit 120, and there are various switching methods.
[0031]
FIG. 13 is an example of a method for displaying the predetermined luminance distribution displayed in the luminance distribution diagram 302. This is particularly effective when the luminance distribution of a predetermined area is dispersed. In this example, the average luminance of the predetermined luminance distribution is obtained, and the average luminance value is, for example, Δ in the vicinity of the luminance distribution diagram 302 (just below the luminance distribution diagram 302 in the example of the drawing) as shown in (13-1) of the figure. An instruction mark 314, such as As another example, as shown in FIG. 13B, a vertical line 316 extending across the count direction is displayed at the position of the average luminance value in the luminance distribution diagram 302. As shown in -3), there are various ways of instruction such as displaying another instruction mark 318 such as ▽ above the position of the average luminance value in the luminance distribution diagram 302.
[0032]
As for the display layout of the luminance distribution diagram described above, the size, shape, and arrangement may be set as appropriate, and the size, shape, and arrangement may be such that display image data that is displayed together is not so hidden. desirable.
In addition, the luminance distribution map may be made translucent and displayed over the display image data, or the display method may be set as appropriate, such as displaying or hiding the luminance distribution map by switching instructed from the operation unit 120. You can do it.
[0033]
Further, since it is only necessary to distinguish between the overall luminance distribution and the predetermined luminance distribution at a glance, it may be set as appropriate as long as it is a visually recognizable method such as dividing by a pattern in addition to color coding.
Further, in the present embodiment, the histogram display in which the luminance distribution diagram is configured by the luminance value and the count number is taken as an example, but other graph displays such as a pie chart may be used according to the situation. .
[0034]
The various cursors for designating the predetermined area may not be rectangular and can be set as appropriate.
The luminance distribution diagram and the display image data may be displayed independently, or a dedicated display unit that displays only the luminance distribution diagram may be provided.
[0035]
In the present embodiment, an example is shown in which various luminance distributions are displayed for display image data acquired in the shooting standby state. For example, shot image data recorded from a recording unit (not shown). Can be applied to other scenes, such as displaying the above-described various luminance distributions on the read image data.
[0036]
Further, in the present embodiment, the above-described various luminance distribution map displays are applied to the digital camera. For example, when a video camera is in a standby state for shooting a still image or a moving image or when the captured image data is displayed on the display unit. It can also be applied when reading.
In a digital camera configured in this way, the relationship between the luminance distribution of the entire captured subject image and a predetermined region of the subject image is clarified. For example, the luminance value of the overall luminance distribution at the time of shooting is biased. The exposure conditions are adjusted so that the photographer does not easily adjust the exposure conditions so that the bias is eliminated. It can be used as a guideline for setting the exposure condition in consideration of the balance between the whole and the predetermined area.
[0037]
In addition, by specifying the predetermined area as a photometric area, the luminance distribution of the photometric area becomes clear.
In addition, by setting the predetermined area as the in-focus area, the luminance distribution in the in-focus area becomes clear, and any area that can move within the subject image by moving the in-focus area can be used. The brightness distribution can be confirmed.
[0038]
In addition, by specifying the predetermined area with a dedicated cursor, the luminance distribution in the dedicated cursor becomes clear, and by moving the dedicated cursor, any area can be moved within the subject image. The luminance distribution can be confirmed even in the area of.
[0039]
Further, by simultaneously displaying the luminance distributions of a plurality of predetermined areas of the subject image, the relationship between the luminance distributions of the designated areas becomes clear.
In addition, by displaying the luminance distribution of the designated area in an enlarged manner, the luminance distribution is particularly clear in the designated area having a narrow area.
[0040]
Further, by adding an indication mark indicating the average of the luminance distribution of the designated area to the luminance distribution diagram, the correspondence between the distributed luminance distribution of the designated area and the overall luminance distribution becomes clearer.
As described above, the present invention is realized by the CPU reading and executing the control program data relating to the contents of the processing from the memory. Therefore, this control program, a storage medium storing this control program, or a program product is also included in the present invention. In addition, the control program data can be stored in the nonvolatile built-in memory of the digital camera from a portable memory card such as SmartMedia (registered trademark) instead of being recorded in advance in the digital camera built-in memory, or via network communication. The digital camera may be configured to be stored in the nonvolatile built-in memory of the digital camera via the, to constitute a digital camera equivalent to the present invention.
[0041]
【The invention's effect】
As described above, according to the present invention, the relationship of the luminance distribution between the entire subject image and the predetermined range of the subject image can be clarified, and the adjustment of exposure conditions can be more reliably performed. The exposure conditions can be set.
[Brief description of the drawings]
FIG. 1 is an example of a block configuration of a digital camera.
FIG. 2 is an example of an operation flow when the digital camera is in a shooting standby state.
FIG. 3 is an example in which a luminance distribution surrounded by target marks is displayed in the display unit 114;
4 is an example in which the exposure correction level is increased by one level from the state shown in FIG.
FIG. 5 is an example in which the metering area of average metering is set as a designated area.
FIG. 6 shows an example in which the center-weighted photometry area is set as a designated area.
FIG. 7 shows an example in which the photometry area of spot photometry is a designated area.
FIG. 8 shows an example in which a movable photometric area is a designated area.
FIG. 9 shows an example in which an AF area is a designated area.
FIG. 10 shows an example in which an area enclosed by a dedicated cursor is a designated area.
FIG. 11 shows an example in which a plurality of designated areas are displayed in different colors.
FIG. 12 is an enlarged display example of a predetermined luminance distribution.
FIG. 13 is an example when an indication mark of average luminance of a predetermined luminance distribution is displayed.
[Explanation of symbols]
100 Lens
102 CCD
104 Exposure time setting section
106 CDS / ADC section
108 AE / AF section
110 Image processing circuit
112 Display memory
114 display
116 CPU
118 Histogram processing unit
120 Operation unit

Claims (9)

Imaging means for outputting an electronic subject image;
Display means for displaying the subject image;
An overall diagram creating means for creating an overall brightness distribution diagram that is a brightness distribution for the entire range of the subject image;
A partial diagram creating means for creating a partial luminance distribution map which is a luminance distribution for a partial range of the subject image;
Control means for controlling the display means to simultaneously display the entire luminance distribution map and the partial luminance distribution map;
I have a,
The control unit overlaps the partial luminance distribution map with a corresponding position of the overall luminance distribution map, and further, an object image that is inside or in the vicinity of the partial luminance distribution map and for which the partial luminance distribution map is to be created. A predetermined display at a position corresponding to the average luminance value in a part of the range,
An imaging apparatus characterized by that. 2. The imaging according to claim 1, wherein the partial diagram creating unit creates a partial luminance distribution map based on a photometric range for determining an exposure condition specified for the subject image displayed on the display unit. apparatus. Further comprising changing means for changing the photometric range,
The imaging apparatus according to claim 2, wherein the partial diagram creation unit creates a partial luminance distribution map according to the changed photometric range. The partial view creation unit creates a partial brightness distribution chart based on the focusing range for focus detection, imaging apparatus according to claim 1, wherein a. Further comprising, that the imaging apparatus according to claim 1, wherein a part range setting means for setting the partial range is created range of the partial luminance distribution chart. The control means includes
For the luminance value axis, which is one axis of the luminance distribution diagram, the entire luminance distribution diagram and the partial luminance distribution diagram are displayed on the same scale,
Regarding the axis of occurrence frequency that is the other axis, the scale of the partial luminance distribution diagram is enlarged and displayed rather than the entire luminance distribution diagram.
The imaging apparatus according to claim 1 , wherein the imaging apparatus is an imaging apparatus. Imaging means for outputting an electronic subject image;
Display means for displaying the subject image;
An overall diagram creating means for creating an overall brightness distribution diagram that is a brightness distribution for the entire range of the subject image;
A partial diagram creating means for creating a partial luminance distribution map which is a luminance distribution for a partial range of the subject image;
Control means for controlling the display means to simultaneously display the entire luminance distribution map and the partial luminance distribution map;
Have
The partial diagram creating means creates the partial luminance distribution diagram for each range divided into a plurality of ranges from the entire range of the subject image as a partial range of the subject image ,
It said control means enables identifying the plurality of partial brightness distribution chart of one another, is displayed on the display means with overlapping to the corresponding position of the entire luminance distribution chart,
Imaging device you wherein a. Creating an overall luminance distribution diagram that is a luminance distribution for the entire range of the subject image electronically imaged and a partial luminance distribution diagram that is a luminance distribution for a partial range of the subject image;
With overlapping partial brightness distribution diagram corresponding positions of the overall luminance distribution chart is displayed on the display unit the two luminance distribution chart wherein,
A predetermined display is made at a position corresponding to an average luminance value in a partial range of the subject image, which is the creation target of the partial luminance distribution diagram, in or near the partial luminance distribution diagram ;
A luminance distribution map display method characterized by the above. An overall diagram creation step for creating an overall brightness distribution diagram that is a brightness distribution for the entire range of the subject image captured electronically;
A partial diagram creating step of creating a partial luminance distribution diagram which is a luminance distribution for a partial range of the subject image;
A control step of overlapping the partial luminance distribution diagram at a corresponding position of the overall luminance distribution diagram and displaying the two luminance distribution diagrams on a display unit;
A predetermined display at a position corresponding to an average luminance value in a partial range of a subject image, which is an object of creation of the partial luminance distribution map, in or near the partial luminance distribution map;
A control program that causes a computer to execute.

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