JP5423300B2 - Electronic camera - Google Patents

Description

  The present invention relates to an electronic camera.

  2. Description of the Related Art Conventionally, there has been known a camera that trims and reproduces and displays a partial area of a captured whole image (for example, Patent Document 1).

JP 2005-176136 A

  However, since the position of the partial region to be trimmed on the entire image is fixed, there is a problem that a trimmed image desired by the user cannot be obtained.

An electronic camera according to a first aspect of the present invention is an image sensor that captures an image of a subject and outputs an image signal, in which a plurality of pixels are arranged in a matrix, and inputs the image signal to a recording medium. Display means for displaying an image without recording on the display screen, and setting means for setting an arbitrary partial area on the display screen as the first area when the image is displayed by the display means And when the image is displayed by the display unit , the second color other than the first region on the display screen set by the setting unit is displayed in a color other than black. Means for determining the setting of the first area by the setting means after coloring the second area by the first coloring means, and the display means after determining the first area by the determining means By A second coloring means for the second region to black display when the serial image is displayed, after the black display by the second coloring means, from said pixels arranged in a position corresponding to the first region and a reading means for reading the image signal to be recorded on said recording medium, said setting means is characterized in that it comprises a touch panel.
According to a fifth aspect of the present invention, there is provided an electronic camera in which a plurality of pixels are arranged in a matrix, an image pickup device that picks up an image of a subject and outputs an image signal in a row unit by a rolling shutter method, and the image signal A display means for inputting and displaying an image without recording on a recording medium on a display screen, and when the image is displayed by the display means, an arbitrary partial area on the display screen is Setting means for setting as one area, and when the image is displayed by the display means, the second area other than the first area on the display screen set by the setting means is set to a color other than black. A first coloring means for color display; a determining means for confirming the setting of the first area by the setting means after the coloring of the second area by the first coloring means; and the first by the determining means. Corresponding to the first area after black display by the second coloring means and second coloring means for displaying the second area in black when the image is displayed by the display means after the area is determined Based on the rolling shutter system based on the image signal from the pixel corresponding to the first area, the reading means for reading the image signal for recording on the recording medium from the pixel arranged at a position Determination means for determining the presence or absence of distortion occurring in the subject in the first area, and the display means superimposes a third area for displaying the determination result of the determination means on the second area. It is characterized by being displayed.

  According to the present invention, when an image is displayed on the display unit, an image signal can be read from pixels arranged at a position corresponding to an arbitrary partial region on the image.

The block diagram explaining the principal part structure of the digital camera in embodiment by this invention The figure which shows an example of the menu screen for clip area setting Diagram explaining the area specification operation when the aspect ratio is fixed Diagram explaining area specification operation when aspect ratio is free The figure which shows an example at the time of displaying the image corresponding to a clipping area on a liquid crystal display The flowchart explaining the process in the live view display of the digital camera by embodiment The flowchart explaining the process in the live view display of the digital camera by embodiment

  A camera according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a main configuration of the digital camera 1. The digital camera 1 includes a photographing lens L1, an image sensor 101, a control circuit 102, an LCD drive circuit 103, a liquid crystal display 104, a touch panel 105, an operation unit 106, and a memory card interface 107.

  The imaging element 101 is an XY address type photoelectric conversion element having a large number of pixels arranged in a matrix. The image sensor 101 is driven in accordance with the control of the control circuit 102 described later to capture a subject image input through the photographing lens L1, and outputs an image signal obtained by the imaging to the control circuit 102. In the present embodiment, the image sensor 101 is driven by a method of sequentially releasing the shutter for each scanning line (so-called rolling shutter method). Further, the image sensor 101 is controlled by the control circuit 102 as will be described later, and is configured to be able to output a pixel signal from pixels included in an arbitrary partial region (cutout region) according to a user operation among all the pixels. Has been.

  The control circuit 102 includes a CPU, a ROM, a RAM, and the like (not shown), and is an arithmetic circuit that controls each component of the digital camera 1 and executes various data processes based on a control program. The control program is stored in a nonvolatile memory (not shown) in the control circuit 102. The control circuit 102 functionally includes an image processing unit 102a and an image compression unit 102b. The image processing unit 102a converts the image signal input from the image sensor 101 into a digital image signal, and performs various image processing on the digital image signal to generate image data. Further, the image processing unit 102a generates display image data to be displayed on the liquid crystal display 104 described later, based on the image data recorded on the memory card 108. The image compression unit 102b performs compression processing on the image data generated by the image processing unit 102a by a predetermined method such as JPEG, and records it in the memory card 108 in a format such as EXIF. Further, the control circuit 102 measures the subject brightness based on the image signal obtained from the image sensor 101 and determines an aperture value, an exposure time, and the like.

  The LCD drive circuit 103 is a circuit that drives the liquid crystal display 104 based on a command from the control circuit 102. The liquid crystal display 104 is a liquid crystal display panel having an aspect ratio of, for example, vertical 3: horizontal 4. The liquid crystal display 104 corresponds to the display image data created by the image processing unit 102a based on the image data recorded on the memory card 108 together with the live view display that displays the image captured by the image sensor 101 in real time. Displays an image. The liquid crystal display 104 displays various information related to the image file (shutter speed, aperture value, ISO sensitivity, file name, etc.). The liquid crystal display 104 displays a menu screen for various settings of the digital camera 1 based on the operation of the touch panel 105 or the operation unit 106. The contents that can be set from the menu screen include an image during live view display, which will be described later, that is, a cutout region setting during image display without recording on a recording medium.

  The liquid crystal display 104 is provided with a touch panel 105. When the user presses the surface of the liquid crystal display 104 with a finger, the touch panel 105 outputs an operation signal for operating the digital camera 1. The touch panel 105 has a fine input area divided in a grid pattern on the display range. When the user presses the touch panel 105 with a finger or a touch pen, the input area at the pressed position is turned on. The touch panel 105 outputs information for identifying the position of the input area on the touch panel 105, for example, coordinate values, to the control circuit 102 as an operation signal of the touch panel 105. In the present embodiment, touch panel 105 accepts an operation for designating a clip region to be described later by the user, and sends the coordinate values of positions (for example, two vertices) that define the clip region (for example, a rectangular region) to control circuit 102. Output.

  The operation unit 106 includes various switches provided corresponding to various operation members operated by the user, and outputs an operation signal corresponding to the operation of the operation member to the control circuit 102. The operation member is, for example, a release button, a menu button for displaying the above menu screen, a cross key operated when selecting and operating various settings, and a setting selected by the cross key. A determination button, a mode switching button for switching the operation of the digital camera 1 between the shooting mode and the playback mode, and the like are included. In addition, the operation unit 106 can set a still image shooting mode, a moving image shooting mode, and a live view mode for performing the live view display as the imaging mode.

  The memory card interface 107 is an interface to which the memory card 108 can be attached and detached. The memory card interface 107 is an interface circuit that writes an image file to the memory card 108 and reads an image file recorded on the memory card 108 based on the control of the control circuit 102. The memory card 108 is a semiconductor memory card such as a compact flash (registered trademark) or an SD card.

  The operation of the digital camera 1 in the present embodiment will be described. Hereinafter, an operation for specifying a cutout area in the live view mode (area specifying operation) and a reading area setting process for the image sensor 101 according to the area specifying operation will be mainly described.

When the user operates the menu button on the operation unit 106 during live view display, the control circuit 102 causes the liquid crystal display 104 to display a menu screen via the LCD drive circuit 103. When the clipping region setting included in the menu screen is selected, the control circuit 102 causes the liquid crystal display 104 to display a “view angle clipping setting” screen shown in FIG. As shown in FIG. 2A, in the present embodiment, the user can designate a cutout region by the following two methods.
1. Fixed aspect ratio Aspect ratio free

Hereinafter, an operation for designating a cutout region (region designation operation) will be described by dividing it into the above two methods of “fixed aspect ratio” and “aspect ratio free”.
-Fixed aspect ratio-
When the user selects a desired aspect ratio from among preset aspect ratios, the control circuit 102 sets a cutout region based on the selected aspect ratio. As shown in FIG. 2B, in the digital camera 1 of the present embodiment, the aspect ratio is, for example, “4: 3”, “3: 2”, “1: 1”, and “16: 9”. One of them is configured to be selectable. The “aspect ratio selection” screen in FIG. 2B is displayed on the liquid crystal display 104 when the user selects “fixed aspect ratio” in the “view angle cutout setting” screen in FIG. This selection is performed by the user operating the cross key and the enter button of the operation unit 106 or operating the touch panel 105.

  When the aspect ratio is selected, the control circuit 102 causes the liquid crystal display 104 to display the “cutout portion center position” screen shown in FIG. As described later, “center fixed” is selected by the user when the center position of the cutout area specified by the user by the area specifying operation is made to coincide with the center position of the image being displayed on the live view on the liquid crystal display 104. . “Free” is selected by the user when it is not necessary to make the center position of the clip region specified by the user by the region specifying operation coincide with the center position of the image currently displayed on the liquid crystal display 104. This selection is performed by the user operating the cross key and the enter button of the operation unit 106 or operating the touch panel 105.

  When the center position of the cutout area is selected, the control circuit 102 causes the liquid crystal display 104 to perform live view display. The user performs an area designating operation on the live view display image (live view image). When the aspect ratio is fixed, the user presses the touch panel 105 with two points, for example, the short side on the left side of the rectangular area desired to be cut out. As a result, the user can specify a cutout area. On the live view image shown in FIG. 3A, when the user presses the position P1 (FIG. 3B) which is the upper left corner of the cutout area, the touch panel 105 displays the coordinate value (x1) of the pressed position P1. , Y1) is output to the control circuit 102.

  Next, as shown in FIG. 3B, when the user presses the position P2 that is the lower left corner of the cutout region, the touch panel 105 generates an operation signal indicating the coordinate value (x2, y2) of the pressed position P2. Output to the control circuit 102. When the operation signal is input, the control circuit 102 calculates the distance between the two points, that is, the length of the short side of the cut-out area, using the coordinate values (x1, y1) and (x2, y2) of the two points. To do.

  Then, the control circuit 102 determines the coordinates of the position P3 shown in FIG. 3B based on the calculated short side length of the cut-out image and the aspect ratio selected on the “aspect ratio selection” screen described above. The value (x3, y3) is calculated. When the calculated length of the short side, that is, the distance between the coordinate values (x1, y1) and (x2, y2) of the two points is m and the selected aspect ratio is “4: 3”, the control circuit 102 calculates the length of the long side as (m × 4/3). The control circuit 102 calculates the value x3 (= x1 + m × 4/3) of the x coordinate of the position P3 using the calculated length of the long side.

  When “Free” is selected on the “Cutout portion center position” screen shown in FIG. 2C, the control circuit 102 determines the coordinate values of the above-described positions P2 and P3, that is, the diagonal of the cutout region 2. The coordinate value of the point is stored in a memory (not shown) as cutout area information. In addition, when “fixed center” is selected on the “cutout portion center position” screen, the control circuit 102 causes the liquid crystal display 104 to match the center position of the cutout region with the center position of the live view image. In this case, the control circuit 102 calculates the midpoint C1 of the coordinate values of the positions P2 and P3, and the coordinate value (xc1, yc1) (xc1 = (x2 + x3) / 2, yc1 = (y2 + y3) / 2 of the midpoint C1. ) And the center position C0 (x0, y0) of the live view image. Then, the control circuit 102 adds the calculated difference to the coordinate values of the positions P2 and P3 to correct the coordinate values of the positions P2 and P3. The control circuit 102 stores the coordinate values of the corrected positions P2 and P3 in a memory (not shown) as cutout area information.

  When the positions P1 and P2 are designated by the pressing operation of the touch panel 105 by the user, the control circuit 102 displays the image in the live view display via the LCD driving circuit 103 as shown in FIG. Of all the regions, the region not including the cutout region is displayed in color by superimposing, for example, gray. Further, the control circuit 102 causes the information display area Y to be superimposed and displayed on the color-displayed area. In the information display area Y, information related to photographing described later is displayed.

-Aspect ratio free-
When the user designates two points (upper left corner and lower right corner, or lower left corner and upper right corner) that are diagonal to the cutout area by pressing the touch panel 105 while confirming the live view image on the liquid crystal display 104, the control circuit Reference numeral 102 sets a cutout region corresponding to the pressing operation. Details will be described below.

  When “Aspect ratio free” is selected by the user in the “view angle cutout setting” screen shown in FIG. 2A, the control circuit 102 displays the “cutout portion center position” screen shown in FIG. It is displayed on the display unit 104. The “fixed center” and “free” on the “cutout portion center position” screen are the same as those in the above-described aspect ratio fixed. When the center position of the cutout area is selected, the control circuit 102 causes the liquid crystal display 104 to perform live view display. The user performs an area designation operation from the live view image. When the aspect ratio is free, as described above, the user operates the touch panel 105 at two points that are diagonal to the cutout region. As a result, the user can specify a cutout area. As shown in FIG. 4A, when the user presses a position P4 that is the upper left corner of the cutout area, the touch panel 105 sends an operation signal indicating the coordinate value (x4, y4) of the pressed position P4 to the control circuit. To 102.

  Next, when the user presses the position P5 that is the lower right corner of the cutout area, the touch panel 105 outputs an operation signal indicating the coordinate value (x5, y5) of the pressed position P5 to the control circuit 102. When “free” is selected on the “cutout portion center position” screen described above, the control circuit 102 stores two coordinate values (x4, y4) and (x5, y5) as cutout area information (not shown). To store.

  In addition, when “fixed center” is selected on the “cutout portion center position” screen, the control circuit 102 displays the position at the center of the cutout area on the liquid crystal display 104 in the same manner as when the aspect ratio is fixed. Match the center position of the view image. In this case, the control circuit 102 calculates the middle point C2 of the coordinate values of the positions P4 and P5, and the coordinate value (xc2, yc2) (xc2 = (x4 + x5) / 2, yc2 = (y4 + y5) / 2 of the middle point C2. ) And the center position C0 (x0, y0) of the live view image. Then, the control circuit 102 adds the calculated difference to the coordinate values of the positions P4 and P5 to correct the coordinate values of the positions P4 and P5. The control circuit 102 stores the coordinate values of the corrected positions P4 and P5 in a memory (not shown) as cutout area information.

  When the positions P4 and P5 are designated by the pressing operation of the touch panel 105 by the user, the control circuit 102 displays the image in the live view display via the LCD driving circuit 103 as shown in FIG. Of all the regions, the region not including the cutout region is displayed in color by superimposing, for example, gray. Further, the control circuit 102 causes the information display area Y to be superimposed and displayed on the color-displayed area. In the information display area Y, information related to photographing, which will be described later, is superimposed and displayed.

In the case where the aspect ratio is fixed or the aspect ratio is free, when the user performs an area specifying operation for the cutout area as described above, the control circuit 102 calculates information related to shooting based on the specified cutout area. Then, the control circuit 102 superimposes and displays the calculated information related to photographing in the above-described color-displayed area of the image being displayed on the liquid crystal display 104. In the present embodiment, the following information is provided as information related to shooting.
1. 1. Number of pixels included in the angle of view corresponding to the designated area 2. Frame rate when reading out an image signal from a pixel corresponding to a designated area to generate a still image, or frame rate when generating a moving image Focal length when 35mm converted image included in specified area

  In the case where the aspect ratio is fixed or the aspect ratio is free, when the user performs an area designation operation for the cutout area as described above and the user operates, for example, the determination button of the operation unit 106, the operation unit 106 indicates area determination. The determination signal is output to the control circuit 102. When the determination signal is input, the control circuit 102 performs the read area setting process by setting the area specified by the area specifying operation as the cutout area. That is, the control circuit 102 sets a pixel from which an image signal is read out of all the pixels constituting the image sensor 101 based on cutout area information stored in a memory (not shown). In this case, the control circuit 102 converts the coordinate value stored in the memory as the cutout area information into the pixel position on the image sensor 101. Then, the control circuit 102 controls the image sensor 101 to output an image signal from a pixel included in a region defined by the converted pixel position.

  The image processing unit 102a performs the above-described image processing on the image signal output from the pixel corresponding to the cutout region, and generates image data. Then, the control circuit 102 outputs the generated image data to the LCD driving circuit 103 and causes the liquid crystal display 104 to display it as a live view image. Further, as shown in FIG. 4C, when the determination signal is input, the control circuit 102 changes the gray-colored region on the liquid crystal display 104 to black display.

  When the user operates the determination button of the operation unit 106 while the live view image corresponding to the cutout area is displayed on the liquid crystal display 104, the control circuit 102 displays the live view image corresponding to the cutout area. And the center position of the liquid crystal display 104 is made to coincide with the center position. That is, the center position of the live view image corresponding to the clip region set in a state where “free” is selected on the “cut portion central position” screen described above is displayed at the center of the liquid crystal display 104. As a result, the live view image displayed as shown in FIG. 4C is displayed on the liquid crystal display 104 as shown in FIG.

  In addition, when a live view image corresponding to the cutout area is displayed on the liquid crystal display 104, when a full display signal instructing full area display is output from the operation unit 106 in response to a user operation, The control circuit 102 displays the live view image being displayed on the entire area of the liquid crystal display 104. That is, the control circuit 104 generates display data converted into the size of the liquid crystal display 104 based on the image data generated by the image processing unit 102a. Then, the control circuit 102 outputs the generated display data to the LCD drive circuit 103 and causes the liquid crystal display 104 to display a live view image corresponding to the display image data. In this case, as shown in FIG. 5B, the control circuit 102 displays the above-described information related to photographing in a predetermined area X of the lower end portion of the liquid crystal display 104, for example.

  In the case where the aspect ratio is fixed or the aspect ratio is free, when the user performs, for example, the area specifying operation of the cutout area as described above, when the user operates the menu button of the operation unit 106, the operation unit 106 is specified. A cancel signal for canceling the cutout area is output to the control circuit 102. When the cancel signal is input, the control circuit 102 deletes the cutout area information stored in the memory and causes the liquid crystal display 104 to perform live view display so that the area designation operation can be performed again. That is, the liquid crystal display 104 displays an image corresponding to the image signal output from all the pixels of the image sensor 101.

  The operation of the digital camera 1 in the live view mode will be described with reference to the flowcharts of FIGS. 6 and 7 is stored in a memory (not shown) in the control circuit 102. When a signal indicating that the live view mode is set by the operation unit 106 is input, the program is started by the control circuit 102. Executed.

  In step S101, the image data generated based on the image signal input from the image sensor 101 is output to the LCD drive circuit 103, the live view image corresponding to the image data is displayed on the liquid crystal display 104, and the process proceeds to step S102. In the live view mode, the live view image is updated at 30 fps, for example. In step S102, it is determined whether or not “view angle cutout setting” is selected from the menu screen displayed on the liquid crystal display 104 by operating the operation unit 106. When “view angle cutout setting” is selected by the operation of the operation unit 106 or the touch panel 105 by the user, an affirmative determination is made in step S102 and the process proceeds to step S103. If “view angle cutout setting” is not selected, a negative determination is made in step S102 and the process returns to step S101.

  In step S103, the “view angle cutout setting” screen shown in FIG. 2A is displayed on the liquid crystal display 104, and the process proceeds to step S104. In step S104, it is determined whether or not “fixed aspect ratio” has been selected. When “fixed aspect ratio” is selected by the operation of the operation unit 106 or the touch panel 105 by the user, an affirmative determination is made in step S104 and the process proceeds to step S105. If “fixed aspect ratio” is not selected, a negative determination is made in step S104, and the process proceeds to step S112 described later.

  In step S105, the “select aspect ratio” screen shown in FIG. 2B is displayed on the liquid crystal display 104, and the process proceeds to step S106. In step S106, it is determined whether an aspect ratio has been selected. When the aspect ratio is selected by the user operating the operation unit 106 or the touch panel 105, an affirmative determination is made in step S106 and the process proceeds to step S107. If the aspect ratio is not selected, a negative determination is made in step S106, and the determination process is repeated.

  In step S107, the “cutout center position” screen shown in FIG. 2C is displayed on the liquid crystal display 104, and the process proceeds to step S108. In step S108, it is determined whether or not the center position of the cutout region has been selected. If either “free” or “fixed center” is selected by the operation of the operation unit 106 or the touch panel 105 by the user, an affirmative determination is made in step S108 and the process proceeds to step S109. If neither “free” nor “fixed at the center” is selected, a negative determination is made in step S108 and the determination process is repeated.

  In step S109, the live view image is displayed on the liquid crystal display 104 as in step S101, and the process proceeds to step S110. In step S110, it is determined whether or not the upper left position of the cutout area has been designated by the area designation operation. When an operation signal is input from the touch panel 105, an affirmative determination is made in step S110 and the process proceeds to step S111. If no operation signal is input from the touch panel 105, a negative determination is made in step S110 and the determination process is repeated.

  In step S111, it is determined whether or not the left lower end position of the cutout region has been designated by the region designation operation. When an operation signal is input from the touch panel 105, an affirmative determination is made in step S111 and the process proceeds to step S118. When an operation signal is not input from the touch panel 105, a negative determination is made in step S111 and the determination process is repeated.

  If a negative determination is made in step S104 described above, the process proceeds to step S112, and it is determined whether or not “aspect ratio free” is selected. When “aspect ratio free” is selected by the operation of the operation unit 106 or the touch panel 105 by the user, an affirmative determination is made in step S112 and the process proceeds to step S113. If “aspect ratio free” is not selected, a negative determination is made in step S104, and the process returns to step S103. Each processing from step S113 (“cutting part center position” screen display) to step S115 (live view image display) is performed in steps S107 (“cutting part center position” screen display) to step S109 (live view image display). It is the same as the processing.

  In step S116, it is determined whether or not the upper left position of the cutout area has been designated by the area designation operation. When an operation signal is input from the touch panel 105, an affirmative determination is made in step S116 and the process proceeds to step S117. If no operation signal is input from the touch panel 105, a negative determination is made in step S116, and the determination process is repeated.

  In step S117, it is determined whether or not the lower right position of the cutout region has been designated by the region designation operation. When an operation signal is input from the touch panel 105, an affirmative determination is made in step S117 and the process proceeds to step S118. If no operation signal is input from the touch panel 105, a negative determination is made in step S117 and the determination process is repeated.

  In step S118, the cut-out area information is stored in a memory (not shown), and the process proceeds to step S119. In step S119, using the various information based on the cutout area specified by the area specifying operation, the above-described information related to shooting is calculated, and the process proceeds to step S120. In step S120, a region other than the region designated by the region designation operation on the liquid crystal display 104 is displayed in a predetermined color such as gray. Then, the information related to photographing calculated in step S119 is superimposed on the color-displayed area (that is, on the area other than the cutout area), and the process proceeds to step S121 shown in FIG.

  In step S121, it is determined whether or not a determination operation for determining a cutout region specified by the region specifying operation has been performed. When the determination signal is input from the operation unit 106, an affirmative determination is made in step S121 and the process proceeds to step S122. If the determination signal is not input, a negative determination is made in step S121, and the process proceeds to step S131 described later.

  In step S122, the image sensor 101 is controlled to output an image signal from the pixels included in the region corresponding to the cutout region among all the pixels based on the cutout region information, and the process proceeds to step S123. In step S123, display image data is generated based on the image signal output in step S122, and is output to the LCD drive circuit 103. That is, the live view image corresponding to the cutout area is displayed on the liquid crystal display 104. Further, the area where the live view image is not displayed on the liquid crystal display 104 is displayed in a predetermined color such as black, and the process proceeds to step S124.

  In step S124, it is determined whether or not a release half-press operation has been performed. If a half-press operation signal is input from the operation unit 106, an affirmative determination is made in step S124 and the process proceeds to step S125. If the half-press operation signal is not input, a negative determination is made in step S124, and the process proceeds to step S132 described later. In step S125, known focus detection calculation and exposure calculation are performed based on the image signal output in step S122, and the process proceeds to step S126.

  In step S126, it is determined whether or not a release full pressing operation has been performed. When a full-press operation signal is input from the operation unit 106, an affirmative determination is made in step S126 and the process proceeds to step S127. If the full-press operation signal is not input, a negative determination is made in step S126 and the process proceeds to step S130. In step S127, the image sensor 101 is exposed based on the result of the exposure calculation calculated in step S125, and the process proceeds to step S128.

  In step S128, the image sensor 101 is controlled in the same manner as in step S122, and an image signal is output from the pixels included in the region corresponding to the cutout region among all the pixels based on the cutout region information. Then, the image processing unit 102a generates image data using the input image signal, and proceeds to step S129. In step S129, the compression unit 102b performs a predetermined compression process (for example, JPEG compression) on the image data generated in step S128. Then, the control circuit 102 records the compressed image data on the memory card 108 via the memory card interface 107 and ends the processing.

  If a negative determination is made in step S126, the process proceeds to step S130, and it is determined whether or not the release half-press operation is released. When the half-press operation is released, that is, when a half-press operation signal is not input from the operation unit 106, an affirmative determination is made in step S130 and the process returns to step S124. If the half-press operation is not released, that is, if a half-press operation signal is input from the operation unit 106, a negative determination is made in step S120 and the process returns to step S126.

  If a negative determination is made in step S121, the process proceeds to step S131, and it is determined whether or not an operation for canceling the area specified by the area specifying operation has been performed. When a cancel signal is input from the operation unit 106, an affirmative determination is made in step S131 and the process returns to step S101. If the cancel signal is not input, a negative determination is made in step S131 and the process returns to step S121.

  If a negative determination is made in step S <b> 124, it is determined whether or not an operation for displaying the live view image in the entire area of the liquid crystal display 104 has been performed. When all the display signals are input from the operation unit 106, an affirmative determination is made in step S132 and the process proceeds to step S133. If all display signals are not input, a negative determination is made in step S132 and the process returns to step S124. In step S133, the live view image being displayed is displayed in the entire area of the liquid crystal display 104. Further, as shown in FIG. 5, the above-described information relating to photographing is displayed on the predetermined area X of the liquid crystal display 104, for example, and the process returns to step S124.

According to the digital camera according to the embodiment described above, the following operational effects can be obtained.
(1) The image pickup device 101 has a plurality of pixels arranged in a matrix, picks up an image of a subject and outputs an image signal, and the liquid crystal display 104 uses the memory card 108 based on the input image signal. An image that is not accompanied by recording is displayed as a live view image. When the live view image is displayed, the touch panel 105 accepts an operation for setting an arbitrary partial region on the live view image as a cutout region. Then, the control circuit 102 reads an image signal to be recorded on the memory card 108 from the pixel arranged at the position corresponding to the cutout area received by the touch panel 105. Therefore, the user can set a desired cutout area while confirming the live view image, so that convenience is improved. In addition, since the image signal is output from the pixels included in the region corresponding to the cutout region among all the pixels of the image sensor 101 and the live view image and the image to be recorded on the memory card 108 are generated, The processing time can be shortened compared to the case of outputting an image signal.

(2) The liquid crystal display 104 displays an aspect different from the live view image, for example, a predetermined color (for example, gray or black) in an area different from the area where the live view image corresponding to the cutout area is displayed. I made it. Therefore, it is possible to improve the visibility when confirming an area designated or set by the user as a cutout area.

(3) The liquid crystal display 104 superimposes and displays information related to photographing in the area where the predetermined color is displayed. Therefore, the user can easily determine whether or not to reset the cutout area by confirming various types of information related to the cutout area, thereby improving convenience. In addition, since various types of information related to the cutout area are displayed at positions that do not overlap the cutout area, the live view image of the cutout area and various types of information related to the cutout area can be displayed without impairing visibility.

The digital camera according to the embodiment described above can be modified as follows.
(1) Information related to photographing may include the presence or absence of occurrence of rolling distortion. Rolling distortion is distortion that occurs in the subject when the image sensor 101 performs imaging using the rolling shutter method. Rolling distortion is caused by the difference between the charge accumulation start time of the pixel corresponding to the upper part of the image and the charge accumulation start time of the pixel corresponding to the lower part of the image. That is, since positions where exposure start times are different occur in the same subject, the subject is distorted on the acquired image. Such rolling distortion is particularly noticeable when a subject having an edge in the vertical direction (vertical direction) is a moving subject that moves in the horizontal direction at high speed.

  The image processing unit 102a detects the size of the moving subject in the cutout area, that is, the area occupied by the moving subject based on the image signal output from the pixels in the area corresponding to the cutout area. Then, the image processing unit 102a detects a motion vector of the moving subject using a known technique, and calculates a moving speed of the moving subject based on the detected motion vector of the moving subject. The control circuit 102 determines that rolling distortion occurs when the moving speed of the moving subject calculated by the image processing unit 102a, the frame rate in the live view mode or the moving image mode, and the like satisfy a predetermined condition. The predetermined condition is determined in advance based on an experiment or the like and recorded in a memory (not shown) or the like. In general, when the frame rate exceeds 60 fps, the influence of the rolling distortion on the subject is small. Then, the control circuit 102 may display the determination result on the liquid crystal display 104 via the LCD driving circuit 103. Note that the control circuit 102 may display marks such as “◯” and “x” as the presence / absence of occurrence of rolling distortion.

(2) Instead of performing the region designating operation of the cutout region using the touch panel 105, the region designating operation may be performed using the operation unit 106, for example. In this case, the control circuit 102 displays a cursor on the liquid crystal display 104. Then, the user may move the cursor to a desired position on the liquid crystal display 104 by operating, for example, a cross key included in the operation unit 106, and perform a region designation operation by operating the enter button. At this time, the control circuit 102 calculates the movement direction and the movement amount of the cursor on the liquid crystal display 104 according to the operation direction and the operation amount of the cross key by the user, and the movement direction and the movement amount are calculated. Convert to the coordinate value at. Then, the control circuit 102 causes the liquid crystal display 104 to display a cursor at a position corresponding to the calculated coordinate value via the LCD driving circuit 103. When the determination button is operated by the user, the operation unit 106 outputs an operation signal to the control circuit 102. The control circuit 102 may determine the coordinate value calculated when the operation signal is input from the operation unit 106 as a point that defines the cutout region.

  In addition, the present invention is not limited to the above-described embodiment as long as the characteristics of the present invention are not impaired, and other forms conceivable within the scope of the technical idea of the present invention are also within the scope of the present invention. included. The embodiments and modifications used in the description may be configured by appropriately combining them.

1 digital camera, 101 image sensor,
102 control circuit, 102a image processing unit,
104 liquid crystal display, 105 touch panel,
106 Operation unit

Claims (6)

An image sensor that captures an image of a subject and outputs an image signal in which a plurality of pixels are arranged in a matrix; and
Display means for inputting the image signal and displaying an image without recording on a recording medium on a display screen;
Setting means for setting an arbitrary partial area on the display screen as the first area when the image is displayed by the display means;
First coloring means for displaying a second area other than the first area on the display screen set by the setting means in a color other than black when the image is displayed by the display means; ,
Determining means for confirming the setting of the first area by the setting means after the coloring of the second area by the first coloring means;
Second coloring means for displaying the second area in black when the image is displayed by the display means after the determination of the first area by the determining means;
Read-out means for reading out the image signal for recording on the recording medium from the pixels arranged at a position corresponding to the first area after black display by the second coloring means ,
The setting means electronic camera which comprises a touch panel. The electronic camera according to claim 1,
When the setting means sets the first area at a position deviated from the center of the display screen, the display means is configured to display the second area after black display by the second coloring means. An electronic camera , wherein an image is moved to the center of the display screen . The electronic camera according to claim 1 or 2,
The display means superimposes and displays a third area for displaying information related to photographing relating to the first area on the second area ,
The display means displays the image in the first area on the entire display screen after the black display by the second coloring means, and shoots the first area displayed in the third area. The electronic camera is characterized in that information on the display screen is displayed in an area different from the third area on the display screen . The electronic camera according to claim 3.
The image sensor outputs the image signal in units of rows by a rolling shutter method,
A determination unit configured to determine presence or absence of distortion generated in a subject in the first region due to the rolling shutter method based on an image signal from the pixel corresponding to the first region ;
The display means displays the result of determination by the determination means in the third area. An image sensor in which a plurality of pixels are arranged in a matrix, picks up an image of a subject, and outputs an image signal in units of rows by a rolling shutter method;
Display means for inputting the image signal and displaying an image without recording on a recording medium on a display screen;
Setting means for setting an arbitrary partial area on the display screen as the first area when the image is displayed by the display means;
First coloring means for displaying a second area other than the first area on the display screen set by the setting means in a color other than black when the image is displayed by the display means; ,
Determining means for confirming the setting of the first area by the setting means after the coloring of the second area by the first coloring means;
Second coloring means for displaying the second area in black when the image is displayed by the display means after the determination of the first area by the determining means;
Reading means for reading out the image signal for recording on the recording medium from the pixels arranged at a position corresponding to the first area after black display by the second coloring means;
Determination means for determining the presence or absence of distortion generated in a subject in the first area due to the rolling shutter method based on an image signal from the pixel corresponding to the first area;
The electronic camera is characterized in that the display means displays a third area for displaying the determination result of the determination means so as to be superimposed on the second area . In the electronic camera as described in any one of Claims 1-5,
  The electronic camera is characterized in that the reading means reads the image signal only from the pixels arranged at a position corresponding to the first region.

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