JP2011066752A - Imaging apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an imaging apparatus which visualizes processing results corresponding to setting items such as a white balance mode. <P>SOLUTION: The imaging apparatus includes an image processing unit which performs image processing to an image signal obtained by imaging by an image sensor. The imaging apparatus includes a display unit 15 which displays through images to which the image processing is performed. When one or more setting items (for example, the white balance mode) which are relevant to the imaging or the image processing and whose images visually change by changing the setting items are selected from among a plurality of setting items, the display unit 15 displays a plurality of through images corresponding to the plurality of setting items on one screen. For the plurality of through images, the whole of images obtained by imaging is displayed, respectively. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an imaging apparatus that displays a plurality of through images corresponding to setting items such as white balance.

  Conventionally, when the white balance mode is selected, only one through image that has undergone image processing in the selected white balance mode is displayed. In this case, an image when the image processing is performed in the unselected white balance mode is not displayed. On the other hand, Patent Document 1 divides an image into two, displays a digital camera that displays an image before selecting the white balance mode on one side of the divided area and displays an image after selection on the other side. Disclose.

JP 2002-158903 A

  However, since it is impossible to compare images of the same area in the subject, it may be difficult to select an optimal white balance mode, such as in the case of a subject that is not symmetrical.

  Accordingly, an object of the present invention is to provide an imaging apparatus that visualizes a processing result corresponding to a setting item such as a white balance mode.

  An imaging apparatus according to the present invention includes an image processing unit that performs image processing on an image signal obtained by imaging with an imaging element, and a display unit that displays a through image that has been subjected to image processing. When selecting one or more setting items related to imaging or image processing, in which an image is visually changed by changing the setting item, a plurality of through items corresponding to the plurality of setting items are selected. An image is displayed on one screen, and a plurality of through images each display the entire image obtained by imaging.

  Accordingly, the user can simultaneously view a through image (processing result) in which imaging corresponding to each of the plurality of setting items has been performed or image processing has been performed. That is, it becomes possible to select a setting item while confirming the visualized processing result (through image) when each setting item is selected. At this time, since each of the plurality of through images displays the entire image, not a part of the image, it is possible to check the entire atmosphere of the image when each setting item is selected. For this reason, the processing results corresponding to the setting items can be compared with images of the same region in the subject, and the optimum setting item can be easily selected.

  Preferably, when selecting a setting item related to imaging, for each frame, the imaging device performs imaging under imaging conditions corresponding to different setting items, and the image processing unit obtains an image obtained by imaging under the imaging conditions. When the signal is subjected to image processing, the display unit updates the through image corresponding to the imaging condition, and the setting item related to the image processing is selected, the image processing unit corresponds to a different setting item for each frame. The image processing is performed under the image processing conditions, and the display unit updates the through image corresponding to the image processing conditions.

  Thereby, since each through image is sequentially updated, it is possible to display a plurality of through images obtained by imaging at almost the same time side by side on one screen.

  Preferably, the selection item is related to image processing. When two or more selection items are selected from a plurality of setting items, the image processing unit is obtained by imaging after the release operation. Image processing corresponding to each of two or more setting items is performed on the image signal.

  Thereby, two or more images subjected to image processing corresponding to setting items related to image processing such as different white balance processing are obtained.

  Preferably, the selection item relates to imaging. When two or more selection items are selected from a plurality of setting items, imaging corresponding to the selected setting item is performed after the release operation, and the image processing unit Performs image processing on two or more image signals obtained by imaging performed corresponding to different setting items.

  Thereby, two or more images based on imaging corresponding to setting items related to imaging such as different degrees of exposure correction are obtained.

  More preferably, one or more selection items are determined from the plurality of selection items by selecting one or more through images from the plurality of through images displayed on the display unit.

  Preferably, the selection of setting items related to imaging is selection of the degree of exposure correction.

  Preferably, the selection of the setting item related to the image processing is selection of a white balance mode or a decoration to be applied to the image in the image processing.

  As described above, according to the present invention, it is possible to provide an imaging device that visualizes the result of processing corresponding to a setting item such as a white balance mode.

It is a block diagram of the imaging device in this embodiment. It is a figure which shows the display part which displays six through images which performed image processing in six white balance modes.

  Hereinafter, the present embodiment will be described with reference to the drawings. The imaging device 10 in this embodiment is a digital camera including an imaging element 11, a focusing lens 12, an image processing unit 13, a release button 14, a display unit 15, a recording medium 16, a camera control unit 17, and an operation unit 18 ( (See FIG. 1).

  Reflected light from the subject enters through the lens including the focusing lens 12 and is imaged by the image sensor 11. The image processing unit 13 performs predetermined image processing on the image signal obtained by imaging to generate image data, and displays an image corresponding to the image data on the display unit 15. By performing such an operation for each frame, a through image is displayed on the display unit 15 (live view display). The camera control unit 17 controls each unit of the imaging apparatus 10 such as the image processing unit 13.

  When the release button 14 is half-pressed, the image processing unit 13 calculates exposure conditions (aperture value, exposure time, etc.) and focus control based on a luminance signal obtained from an image signal obtained by imaging. Do. In the focus control, the image processing unit 13 sequentially generates contrast data based on the luminance signal while moving the focusing lens 12 in the optical axis direction of the lens, and determines that the focus is achieved when the contrast data shows the maximum value. Then, the focusing lens 12 is stopped at the position determined to be in focus (focus position).

  When the release button 14 is fully pressed, the image processing unit 13 captures an image under exposure conditions such as an aperture value determined when the shutter release button is half-pressed or a focusing position of the focusing lens 12, and applies a predetermined value to an image signal obtained by the imaging. The image processing is performed to generate image data, a still image based on the image data is displayed on the display unit 15, and an image file including the image data is recorded on the recording medium 16.

  The display unit 15 shows an image recorded on the recording medium 16 in addition to the live view display based on the control of the camera control unit 17.

  The display unit 15 displays a plurality of through images subjected to white balance processing for each of a plurality of white balance modes when white balance is set (when a white balance mode is selected). FIG. 2 shows a state where six display areas (first to sixth areas 15 a to 15 f) for displaying six through images are provided on the display area of the display unit 15. Specifically, in the first region 15a, a through image display corresponding to an auto white balance mode in which white balance parameters are set by automatic control is performed, and in the second region 15b, it is optimal when shooting in the sun. Through image display corresponding to the sunlight mode for setting the white balance parameter is performed, and in the third region 15c, the through image display corresponding to the shade mode for setting the optimum white balance parameter when shooting in the shade is performed. In the fourth area 15d, a through image display corresponding to an incandescent lamp mode for setting an optimal white balance parameter when photographing an object illuminated with an incandescent lamp is performed, and in the fifth area 15e, illumination with a fluorescent lamp Fluorescent lamp mode that sets the optimal white balance parameter when shooting Lou image display is performed, the sixth region 15f, through image display which corresponds to a strobe mode for setting the optimum white balance parameters is performed when photographing by using the built in flash. Note that each of the plurality of through images displays the entire image obtained by imaging.

  In the state of FIG. 2, by moving the cursor using the operation unit 18 and operating an OK key (not shown), etc., from a plurality of (here, six) through images displayed on the display unit 15, 1 One through image is selected, and one white balance mode is determined from the plurality of white balance modes.

  It should be noted that two or more white balance modes may be selected from a plurality of white balance modes. When two or more white balance modes are selected, the imaging device 10 is set to the white balance bracket mode, and imaging is performed after the release button 14 is fully pressed (release operation) once. The image processing unit 13 performs image processing corresponding to each of two or more white balance modes on an image signal obtained by imaging. As a result, two or more images subjected to different white balance processes are obtained.

  In order to display a plurality of through images at the time of setting the white balance, the image processing unit 13 performs image processing in a different white balance mode for each frame and updates a corresponding through image in the white balance mode. For this reason, the interval at which each through image is updated is determined based on the frame rate of the image sensor 11 and the number of through images to be displayed on one screen.

  For example, the image signal obtained by imaging a certain frame is subjected to image processing in the auto white balance mode, and the through image display in the first region 15a is updated. The image signal obtained by imaging the next frame is subjected to image processing in the sunlight mode, and the through image display in the second region 15b is updated. Image processing is performed in the shade mode on the image signal obtained by imaging the next frame, and the through image display in the third region 15c is updated. The image signal obtained by imaging the next frame is subjected to image processing in the incandescent lamp mode, and the through image display in the fourth region 15d is updated. The image signal obtained by imaging the next frame is subjected to image processing in the fluorescent lamp mode, and the through image display in the fifth region 15e is updated. The image signal obtained by imaging the next frame is subjected to image processing in the strobe mode, and the through image display in the sixth region 15f is updated. The image signal obtained by imaging the next frame is subjected to image processing in the auto white balance mode, and the through image display in the first region 15a is updated. Accordingly, the through images displayed in the first to sixth regions 15a to 15f are updated every six frames.

  Thereby, since each through image is sequentially updated, it is possible to display a plurality of through images obtained by imaging at almost the same time side by side on one screen.

  If a plurality (six in this case) of image processing units 13 are provided, image processing for performing a plurality of white balance processes on image signals obtained by imaging the same frame is performed at the same time, and one frame Each through image can be updated every time.

  The user can simultaneously view a through image (image processing result) that has been subjected to white balance processing with each white balance parameter. That is, while confirming the image processing result (through image) when each visualized white balance mode is selected, the operation unit 18 is used to move the cursor position onto the through image corresponding to the white balance mode to be selected. For example, the white balance mode can be selected.

  At this time, since each of the plurality of through images displays the entire image instead of a part of the image, it is possible to check the entire atmosphere of the image when each white balance mode is selected. Therefore, the processing results corresponding to the respective white balance modes can be compared with images of the same area in the subject, and the optimum white balance mode can be easily selected.

  In the present embodiment, the mode of displaying a through image corresponding to each white balance mode on one screen when the white balance mode is selected has been described. However, the mode of displaying a plurality of through images on one screen is as follows. It is not limited to when white balance mode is selected.

  For example, when selecting one or more setting items related to imaging or image processing, in which an image is visually changed by changing the setting item, a plurality of selection items corresponding to the plurality of selection items are selected. The through image may be displayed on one screen.

  As the selection of setting items related to imaging, it is conceivable to select the degree of exposure correction. In this case, for each frame, the image sensor 11 performs imaging under imaging conditions (exposure correction level) corresponding to different setting items. The image processing unit 13 performs image processing on an image signal obtained by imaging under the imaging condition, and the display unit 15 updates a through image corresponding to the imaging condition.

  When two or more exposure correction degrees are selected from a plurality of exposure correction degrees, the imaging apparatus 10 is set to the auto bracket mode, and after the release button 14 is pressed once (release operation), Imaging corresponding to the selected exposure correction degree is performed. The image processing unit 13 performs image processing on each of two or more image signals obtained by imaging performed with different degrees of exposure correction. Thereby, two or more images based on imaging with different degrees of exposure correction are obtained.

  As selection of setting items related to image processing, selection of decoration (decoration frame etc.) to be applied to an image in image processing can be considered. In this case, for each frame, the image processing unit 13 captures an image obtained by imaging. The signal is subjected to image processing under image processing conditions (decoration contents) corresponding to different setting items, and the display unit 15 updates the through image corresponding to the image processing conditions.

  Accordingly, the user can simultaneously view a through image (processing result) in which imaging corresponding to each of the plurality of setting items has been performed or image processing has been performed. That is, while confirming the processing result (through image) when each setting item is visualized, the operation unit 18 is used to move the cursor position onto the through image corresponding to the setting item to be selected. The setting item can be selected.

DESCRIPTION OF SYMBOLS 10 Image pick-up device 11 Image pick-up element 12 Focusing lens 13 Image processing part 14 Release button 15 Display part 15a-15f 1st-6th area | region 16 Recording medium 17 Camera control part 18 Operation part

Claims (7)

An image processing unit that performs image processing on an image signal obtained by imaging with an imaging element;
A display unit that displays a through image subjected to image processing,
When the display unit selects one or more setting items related to the imaging or the image processing and in which an image is visually changed by changing the setting item, the plurality of setting items are selected. A plurality of through images corresponding to the setting items are displayed on one screen, and each of the plurality of through images displays an entire image obtained by the imaging. When selecting a setting item related to the imaging, the imaging element performs imaging under imaging conditions corresponding to different setting items for each frame, and the image processing unit is obtained by imaging under the imaging conditions. The image processing is performed on the image signal, and the display unit updates a through image corresponding to the imaging condition,
When selecting setting items related to the image processing, the image processing unit performs the image processing under image processing conditions corresponding to different setting items for each frame, and the display unit satisfies the image processing conditions. The imaging apparatus according to claim 1, wherein the corresponding through image is updated. The selection item is related to the image processing,
When two or more selection items are selected from the plurality of setting items, the image processing unit corresponds to each of the two or more setting items with respect to an image signal obtained by imaging after the release operation. The imaging apparatus according to claim 1, wherein image processing is performed. The selection item is related to the imaging,
When two or more of the plurality of setting items are selected, imaging corresponding to the selected setting item is performed after the release operation, and the image processing unit is obtained by imaging performed corresponding to different setting items. The imaging apparatus according to claim 1, wherein image processing is performed on each of the two or more image signals.   The one or more selection items are determined from the plurality of selection items by selecting one or more through images from the plurality of through images displayed on the display unit. The imaging device described.   The imaging apparatus according to claim 1, wherein the selection of the setting item related to imaging is selection of an exposure correction degree. 2. The imaging apparatus according to claim 1, wherein the selection of the setting item related to the image processing is selection of a white balance mode or selection of decoration applied to an image in the image processing.

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