JP2015095734A - Data display device, data display method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To perform confirmation work efficiently by displaying the relevance easier to understand, even when the content of a number of data is confirmed individually in detail.SOLUTION: In a state where a plurality of data (image) are arranged in virtual multi-dimension depending on a plurality of types of parameter, a control unit 1 displays the information about the arrangement state of the plurality of data in a display section 5, starting from the arrangement position of data selected as a display object among the plurality of data, as an index for expressing that data feed is possible from the start point, while corresponding to a plurality of directions capable of data feed. When selecting an arbitrary direction among a plurality of directions, and instructing data feed in that direction, the user can instruct data feed while visually confirming the information about the arrangement state of data for each feeding direction.

Description

  The present invention relates to a data display device, a data display method, and a program for controlling display of a plurality of data.

  In general, an auto bracket shooting function provided in an image pickup apparatus such as a digital still camera performs multiple high-speed shooting based on a reference value of a shooting parameter (for example, exposure, white balance, etc.) and a value obtained by changing the reference value. Are performed continuously. The shooting parameters for the auto bracket shooting function are not limited to one type, but, for example, as shown in Patent Document 1, a plurality of types of shooting arbitrarily selected from white balance, exposure, saturation, sharpness, etc. There has been known a technique in which a plurality of images with slightly different image states are acquired by continuously performing a plurality of shootings while changing parameter values.

JP 2006-67464 A

  However, in the technique of the above-mentioned patent document, a plurality of photographed images with slightly different states of auto bracket photographing (hereinafter referred to as bracket photographing) are arranged on the display screen in the same size and displayed as thumbnails. Therefore, the relevance of a plurality of images is easy to see, but when bracket shooting is performed by combining a plurality of types of shooting parameters, the number of shot images increases accordingly. Therefore, displaying such a large number of images as thumbnail images makes it difficult to see because the size of each image is small, and the user should confirm subtle differences in individual images depending on the combination of shooting parameters from the list screen. However, it is difficult to confirm even a subtle difference from a small image, and the meaning of performing bracket photography is diminished.

  An object of the present invention is to display the relevance in an easy-to-understand manner so that the confirmation work can be efficiently performed even when the user individually confirms the details of a lot of data.

In order to solve the above-described problems, the data display device of the present invention
A data array means for arranging a plurality of data in a virtual multi-dimension according to a plurality of types of parameters;
In order to clearly indicate that data can be sent from the starting point to the array direction of each dimension, starting from the array position of the data selected as the display target from the plurality of data arrayed by the data array means As an index, an index display means for displaying in an identifiable manner information relating to the array direction of each dimension of the plurality of data in association with a plurality of directions in which the data can be sent,
When an arbitrary direction is selected from the plurality of data sending directions and data sending in that direction is instructed, an updating unit that sends the data in the designated direction and updates the display target;
A data display device comprising:

In order to solve the above-described problem, the data display method of the present invention includes:
Arranging a plurality of data in a virtual multi-dimension according to a plurality of types of parameters;
As an index for clearly indicating that data can be sent from the starting position to the array direction of each dimension, starting from the array position of the data selected as a display target from among the plurality of arranged data, Associating with a plurality of directions in which the data can be sent, and displaying the information on the arrangement state with respect to the arrangement direction of each dimension of the plurality of data in an identifiable manner;
When an arbitrary direction is selected from the plurality of data sending directions and data sending in that direction is instructed, the data is sent in the designated direction to update the display object;
Is a data display method characterized by comprising:

In order to solve the above-described problems, the program of the present invention
Against the computer,
A function of arranging a plurality of data in a virtual multi-dimension according to a plurality of types of parameters;
As an index for clearly indicating that data can be sent from the starting position to the array direction of each dimension, starting from the array position of the data selected as a display target from among the plurality of arranged data, A function of displaying information relating to an array state with respect to an array direction of each dimension of the plurality of data in an identifiable manner in association with a plurality of directions in which the data can be sent;
When an arbitrary direction is selected from the plurality of data sending directions and data sending in that direction is instructed, a function of sending data in the indicated direction and updating a display target;
It is a program for realizing.

  According to the present invention, even when the user individually confirms the details of a large amount of data, the relevance can be displayed in an easy-to-understand manner so that the confirmation work can be efficiently performed. It will be rich.

The block diagram which showed the basic component of the digital camera applied as a data display apparatus which displays several data separately. The figure which showed the selection screen for selecting the change conditions (an imaging parameter, a reference value, a swing width, the number of imaging | photography) regarding the imaging parameter for bracket imaging functions. The figure which showed the several image (a series of images) obtained by bracket imaging | photography. (1), (2) is the figure which showed the arrangement | sequence state at the time of carrying out the virtual two-dimensional arrangement | sequence of the series of images imaged by bracketing according to two types of imaging parameters. (1), (2) is a figure for demonstrating the feed operation in the case of selecting a desired image and displaying it individually in the reproduction mode of a captured image. The figure which showed the display state at the time of performing image advance in the up-down and left-right direction centering on the image currently displayed among the series of images imaged by bracketing. The figure for demonstrating the bracket A table 3d classified by scene. The figure for demonstrating the bracket B table 3e classified by scene. The flowchart for demonstrating the operation | movement (characteristic operation | movement of this embodiment) of the data display apparatus (digital camera) started execution according to power activation. 10 is a flowchart following the operation of FIG. 11 is a flowchart following the operation of FIG. 12 is a flowchart following the operation of FIG. The figure which illustrated the selection screen (menu screen) for selecting a scene prior to bracket photography. The figure which illustrated the thumbnail list screen which displays a series of images by bracket photography. (1), (2) is the figure which illustrated the case where the number of sending was displayed numerically according to direction as a modification of an embodiment. (1), (2) is a figure for demonstrating the modification when another information is combined with the parameter name indicator display in the modification of the embodiment. (1), (2) is the figure which showed the modification of embodiment and illustrated the case where there are four types of parameters. The figure which illustrated the case where it applied to the picture imaged one sheet. (1), (2) is the figure which showed the case where several data are applied to text data in the modification of embodiment.

Embodiments of the present invention will be described below with reference to FIGS.
The present embodiment shows a case where the present invention is applied to a digital camera (imaging device) as a data display device for individually displaying a plurality of data, and FIG. 1 is a block diagram showing basic components of the digital camera. .
A digital camera is a digital compact camera that can shoot moving images in addition to still images. In addition to basic functions such as the imaging function and timekeeping function, the digital camera has a bracketing function as one of the imaging functions. Yes. This bracket shooting function allows a plurality of images (a series of images) to be shot in a single shutter operation by continuously shooting the same subject a plurality of times while changing the parameter value for each parameter type corresponding to the shooting parameter. This is a function that obtains the image.

  The control unit 1 operates by supplying power from the power source unit (secondary battery) 2 and controls the overall operation of the digital camera in accordance with various programs in the storage unit 3. A CPU (Central Processing Unit) and a memory (not shown) are provided. The storage unit 3 includes, for example, a ROM, a flash memory, and the like, and stores a program and various applications for realizing the present embodiment in accordance with an operation procedure illustrated in FIGS. Program memory 3a, work memory 3b for temporarily storing various information (for example, flags) necessary for the operation of the digital camera, and image memory for storing captured images (for example, flash memory) 3c, and a scene-specific bracket A table 3d and a scene-specific bracket B table 3e, which will be described later. The storage unit 3 may include a removable portable memory (recording medium) such as an SD card or an IC card, and is connected to a network via a communication function (not shown). The state may include a storage area on a predetermined server device side.

  The operation unit 4 includes various push button type keys, a mode change key K1 for switching between a shooting mode and a reproduction mode, and a two-stage push-in type (half press, full press) shutter key K2 for instructing start of shooting. In addition, a cross key K3 having an up / down / left / right key (four-way key), an enter key (SET) K4, and other controls for setting shooting conditions such as an exposure correction dial, zoom ring, and focus ring may be provided. Good. The control unit 1 performs a corresponding process in response to an input operation signal output from the operation unit 4 corresponding to the operation key. The display unit 5 is a high-definition liquid crystal display or an organic EL (Electro Luminescence) display, and serves as a monitor screen (live view screen) for displaying a captured image (live view image) or a playback screen for reproducing a captured image. It becomes. In addition, the display part 5 may comprise the touch screen provided with the touch panel on the display panel.

  Although not shown, the imaging unit 6 includes a lens unit such as a zoom lens, a diaphragm / shutter, a focus lens (focusing lens), an imaging device (CCD or CMOS), various sensors, an analog processing unit, and a digital processing unit. In the configuration, the photoelectrically converted image signal (analog value signal) is subjected to color separation, gain adjustment for each RGB color component, and the like, and then converted to digital value data. The digitally converted image data is subjected to color interpolation processing (demosaic processing) and is displayed in full color on the display unit 5. The imaging unit 6 controls zoom adjustment, focus adjustment, exposure adjustment, shooting start / end by driving a zoom lens, a diaphragm / shutter, and a focus lens in accordance with a control signal from the control unit 1, or optical It performs zoom processing, focus processing, aperture adjustment processing, white balance adjustment processing, and the like.

FIG. 2 is a diagram showing a parameter selection screen for arbitrarily selecting the type of shooting parameter, the reference value, the swing width, and the number of shots as a change condition regarding the shooting parameter for the bracket shooting function.
The illustrated example shows a case where two types of shooting parameters are selected for the bracket shooting function, and two desired shooting parameters are selected by a user operation from a parameter selection screen that displays a list of various shooting parameters. Shows the case. After the user selects a shooting parameter, the user changes the values before and after the reference value (for example, an automatically determined value determined by an autofocus (AF) function or a preset fixed value) for each shooting parameter. The operation of selecting the change width (the swing width) to be performed, or the operation of selecting the number of images to be continuously shot during bracket shooting. Note that three or more types of shooting parameters may be selected as the shooting parameters.

  In the example shown in the figure, “Exposure (EV)”, “Aperture”, “Shutter Speed”, “White Balance”, “Saturation”, and “Contrast” are displayed in a list on the parameter selection screen as shooting parameter selection candidates. However, the present invention is not limited to this. For example, a list including shooting parameters such as sharpness, ISO sensitivity, and flash may be displayed. In the figure, hatched items indicate items selected by user operations (hereinafter the same), and cases where “exposure (EV)” and “saturation” are selected as two types of shooting parameters. Yes.

  The illustrated example shows a screen for selecting an exposure parameter amplitude and a screen for selecting a saturation parameter amplitude as selection screens for selecting a shooting parameter amplitude. The case where “± 2 EV” is selected as an arbitrary swing width from the items “± 1 EV”, “± 2 EV”, and “± 3 EV” displayed in the list is illustrated. When “± 20%” is selected as an arbitrary amplitude from the “± 20%”, “± 50%”, and “± 70%” items listed on the saturation parameter screen. Illustrated. In addition, the selection screen for selecting the number of shots displays a list of items “3”, “5”, and “7” as selection candidates for the number of shots. The case where “3 sheets” is selected is illustrated. When selecting a desired item from the selection candidates, in the illustrated example, the up / down key of the cross key K3 is operated, and when the selection candidate is determined, the determination key (SET) K4 is operated. Yes.

  FIG. 3 is a diagram showing a plurality of images (a series of images) captured by bracketing according to two types of shooting parameters. “Exposure” and “Saturation” are set as the two types of shooting parameters, and the exposures are shown. “± 1 EV” is set as the number of shots, “3” is set as the number of shots, “± 20%” is set as the width of saturation, and “3” is set as the number of shots. It is a series of images obtained by bracket photography. In this case, a series of nine images in total is obtained by continuous shooting of a plurality of (three each) shooting parameter values of “exposure” and “saturation” by one shutter operation. In the figure, P1 to P9 are images sequentially taken at the time of bracket shooting, and a total of nine images (series of exposure parameters AE, + 2EV, -2EV and saturation parameters ± 0, + 20%, -20%). Image).

  The first image P1 shows an image shot under the conditions of “exposure = AE, saturation = ± 0”, and the second image P2 is shot under the conditions of “exposure = + 2 EV, saturation = ± 0”. Is shown. Similarly, the third image P3 is an image captured under the condition “exposure = −2EV, saturation = ± 0”, and the fourth image P4 is an image captured under the condition “exposure = AE, saturation = + 20%”. Is shown. Further, the fifth image P5 is photographed under the conditions of “exposure = + 2 EV, saturation = + 20%”,..., And the ninth image P9 is photographed under the conditions of “exposure = −2 EV, saturation = −20%”. Is shown. In the series of images, as information for identifying each of the images, a group flag “GF” indicating that the series is a series of bracketed pictures, and the series of pictures taken by the bracket belong to the same group. A group ID “Gid” for identifying this and a parameter ID “Pid” for bracket shooting are added. Details of the group flag “GF” and the parameter ID “Pid” will be described later.

  FIG. 4 shows an arrangement state when a series of bracket-captured images are virtually two-dimensionally arranged (biaxial arrangement). FIG. 4A shows two types of imaging parameters “exposure” and “saturation”. "And the number of shots" 3 "is set, and a series of images (9 images) when bracket shooting is performed is shown according to the two types of shooting parameters. ing. In this case, the first image P1 “exposure = AE, saturation = ± 0” shown in FIG. 2B is the center, and the second image P2 “exposure = + 2EV, saturation = ± 0 ”is arranged, the third image P3“ exposure = −2EV, saturation = ± 0 ”is arranged on the left, and the fourth image P4“ exposure = AE, saturation = + 20 ”is arranged on the left. % ”Is arranged, and the fifth image P5“ exposure = AE, saturation = −20% ”,... Is arranged below.

  Here, in the drawing, the parameter “Pid” indicates a parameter ID for bracket shooting, and in the XY coordinate system (two-dimensional coordinate system: two-axis coordinate system), the first shooting parameter is the X-axis direction, the second Assuming that the imaging parameter is the Y-axis direction, the arrangement position of each image is represented by (X, Y), and “Pid = 0, 0” indicates an image arranged at the center position of the arrangement. Then, the arrangement position of the image shifted by one step to the plus side of the image of “Pid = 0, 0” is represented by “+1”, and the arrangement position of the image moved by one step to the minus side is represented by “−1”. ing. Therefore, the arrangement position of the first image P1 shown in FIG. 2B is “Pid = 0, 0”, and the arrangement position of the second image P2 is “Pid = + 1, 0”. The arrangement position of the third image P3 is “Pid = −1, 0”, the arrangement position of the fourth image P4 is “Pid = 0, + 1”, and the arrangement position of the fifth image P5 is “Pid = 0, −1”,...

  FIG. 4 (2) shows a 5 × 5 two-dimensional array of a series of images (25 images) captured by bracketing when “5 images” is set as the number of images to be captured, according to two types of imaging parameters. It is the figure which showed the state which carried out. In this case, the arrangement position of each image is centered on “Pid = 0, 0”, the upper right position of the arrangement is “Pid = + 2, +2”, the lower right position is “Pid = + 2, −2”, and the upper left position. Becomes “Pid = −2, +2”, and the lower left position becomes “Pid = −2, −2”. Such an array position (X, Y) of each image is added together with “shooting date”, “title”, and the like as header information (various information about the image) of the image file.

FIG. 5 is a diagram for explaining a feed operation when a desired image is selected and individually displayed in the captured image reproduction mode.
FIG. 5 (1) shows a case where each image is individually selected and displayed in a state where a normal imaged (single imaged) image and a series of bracketed images are recorded and stored in a mixed order. It is a figure for demonstrating the feed operation to be performed. In the figure, since the group flag “GF” is added to the image file as header information, the control unit 1 is an image taken based on the group flag “GF” or bracketed. It is determined whether it is an image. Note that “GF = NO” indicates that the image is a single image, and “GF = YES” indicates that the image is a bracket image.

  The illustrated example shows a case where the cross key K3 is used as an image advance key and the image is forwarded in the forward direction by operating the right key. In this example, when the right key of the cross key K3 is operated once in a state where a single shot image is displayed, the image is switched to a bracket shot image (initially a representative image described later), Furthermore, when the right key is operated once, the next single-image shooting switching display is shown. As described above, in the present embodiment, in the state where a plurality of bracketed images and a single image are recorded and stored together, the same operation as that for sending a single image 1 is performed. With multiple key operations, a plurality of bracketed images are grouped as a unit.

  The representative image of bracket shooting is a central image whose arrangement position is “Pid = 0, 0”, but the representative image may be arbitrarily selected and set by a user operation. During the display of the representative image, a predetermined mark “SET” is synthesized and displayed on the representative image. That is, the mark “SET” for guiding that the determination key (SET) K4 should be operated is displayed on the representative image in order to be able to switch to another image other than the representative image in the series of images photographed by bracketing. Composite display.

FIG. 5 (2) is a diagram for explaining a parameter-by-parameter feed operation for displaying each image of bracket shooting individually for each shooting parameter.
FIG. 5 (2) shows a series of images taken with brackets in a state where “exposure” and “saturation” are set as two types of shooting parameters and “3” is set as the number of shots. Among the nine images), the representative image “Pid = 0, 0” (exposure = AE, saturation = ± 0) is displayed. Here, when a parameter-by-parameter feed operation (up / down / left / right key operation) is performed using the cross key K3, the arrangement position of the currently displayed image (initially a representative image) is set as the starting point, and the image is moved from that starting point to the parameter-by-parameter feed operation. I am trying to feed. That is, when a parameter-specific operation using the cross key K3 is performed, an image captured with a parameter value of a type corresponding to the operation among two types of shooting parameters when the currently displayed image is captured is displayed. It is specified and switched for display.

  As described above, in this embodiment, the arrangement position of the displayed image (initially representative image) is used as a starting point, and image feed is performed from that starting point. In this case, in order to clearly indicate how many images are arranged in the image feed direction starting from the displayed image, information regarding the arrangement state is displayed in an identifiable manner for each direction. That is, as an index for clearly indicating the number of images that can be fed from the starting position of the arrangement position of the displayed image, it corresponds to a plurality of directions (the arrangement direction of the images). Thus, information relating to the arrangement state of a series of images photographed by bracketing is displayed in an identifiable manner.

  Information related to the arrangement state of a series of images (an index that clearly indicates the number of images that can be fed) is information that is identifiable behind the image being displayed. Is used as an index to display the images that are superimposed and displayed as many images as possible while shifting the display position so that one end (one end) protrudes from the displayed image. The number is the number of images that can be fed. In this way, an index for clearly indicating an image that can be fed in each direction is displayed in an identifiable manner (overlapping display). For example, in the example shown in the figure, the number of images that can be moved in the up / down / left / right directions is “1”. Therefore, behind the image being displayed, one image is displayed on the four sides. Therefore, it is clearly indicated that the number of images that can be fed in that direction is “1”.

  When an image of “Pid = 0, 0” (exposure = AE, saturation = ± 0) is displayed as a representative image of bracket shooting, if any of the up / down / left / right keys of the cross key K3 is operated, The control unit 1 specifies the next image arranged in the direction of the key operation as a display target and performs switching display (individual display). In the figure, “Exposure +” added to the margin indicates that the right key is the forward key for the exposure parameter, and “Exposure-” indicates that the left key is the reverse key for the exposure parameter. “Saturation +” indicates that the up key is a forward key for the saturation parameter, and “saturation−” indicates that the down key is a reverse key for the saturation parameter.

  That is, for example, when the right key is operated once, the image is moved forward in the plus direction of the exposure parameter to switch and display an image that is shaken by one step (an image of “Pid = + 1, 0”), and the left key is When operated once, the image is fed in the negative direction of the exposure parameter to switch and display an image that has been shaken by one step (an image of “Pid = −1, 0”). When the up key is operated once, the image is forwarded in the plus direction of the saturation parameter to switch and display an image that has been shaken by one step (an image of “Pid = 0, + 1”). When the operation is performed twice, the image is fed in the direction of the minus value of the saturation parameter, and the image is switched and displayed in an image shaken by one step (an image of “Pid = 0, −1”). In the display state shown in FIG. 5 (2), when the enter key (SET) K4 is operated again, the display state returns to the state shown in FIG. 5 (1), and a single-captured image can be displayed. .

  Further, as shown in FIG. 5 (2), on the screen on which the display target images are individually displayed, the displayed image (initially representative image) is arranged at any position in the two-dimensional array. An array image MT for guiding whether or not the image is arranged is displayed on a part of the screen (lower right corner in the illustrated example). In the illustrated example, a 3 × 3 grid (matrix) array image MT is shown. The grid at the center position indicates the array position of the displayed image, and the grid at this position is identified. Displayed (hatched). This identification display (hatched display) is changed to a grid corresponding to the arrangement position every time the image being displayed is switched, and an image display that clearly shows the arrangement position of the image being displayed is displayed. Note that the display position of the array image MT is not limited to an individual display image, and is arbitrary. Further, the display presence / absence of the array image MT may be switched.

FIG. 6 is a diagram showing a display state when an image is sent by one step in the vertical and horizontal directions centering on an image (representative image) of “Pid = 0, 0”.
When the image is fed to the right by a single right key operation while the representative image is displayed, the image is switched to the image “Pid = + 1, 0”. An image with “Pid = + 1, +1” exists further upward in the image, an image with “Pid = + 1, −1” exists in the lower direction, and “Pid = −1, 0” exists in the left direction. And an image of “Pid = 0, 0” are present, and an index for clearly indicating the number of images that can be fed in each direction is identified and displayed (overlapping display).

  Similarly, when the representative image is displayed and the image is fed to the left by one left key operation, the image is switched to the image “Pid = −1, 0”. An image of “Pid = −1, +1” in the upper direction of the displayed image, an image of “Pid = −1, −1” in the lower direction, and an image of “Pid = 0, 0” in the right direction In addition, since an image of “Pid = + 1, 0” exists, an index for clearly indicating the number of images that can be fed in each direction is displayed. In addition, the number of images that can be sent in each direction is clearly indicated even when the image is switched to the “Pid = 0, −1” image or the image is switched to the “Pid = 0, +1” image. The indicator for doing is displayed.

FIG. 7 is a diagram for explaining the scene-specific bracket A table 3d, and FIG. 8 is a diagram for explaining the scene-specific bracket B table 3e.
The scene-specific bracket A table 3d and the scene-specific bracket B table 3e are shooting scenes arbitrarily selected by a user operation from various shooting scenes set according to how and what kind of subject is shot. Is a table that is referred to when bracket shooting is performed in accordance with each of the various shooting scenes, and changes related to shooting parameters for the bracket shooting function (type of shooting parameter, reference value, amplitude, shooting Number of sheets) is stored.

  As shown in FIG. 7, the scene-specific bracket A table 3d includes items of “scene”, “parameter”, “parameter reference value (fixed)”, “parameter swing width (fixed)”, and “number of sheets”. The contents of which are fixed tables that cannot be changed by user operations. “Scene” is an item for storing a name indicating a shooting scene. For example, “Shooting petals with attention to focus position (fixed)”, “Shooting food with focus position (fixed)”,. “Shooting with attention to color and brightness indoors (fixed)” is stored. Here, “(Fixed)” in “Scene” means that the contents of “Parameter Reference Value (Fixed)”, “Parameter Width (Fixed)”, and “Number of Sheets” described later cannot be changed. It means that the content is typical.

  “Parameter”, “Parameter reference value (fixed)”, “Parameter amplitude (fixed)”, and “Number of sheets” are items indicating change conditions related to the shooting parameters for the bracket shooting function. “Parameter” stores a parameter name indicating the type of shooting parameter for the bracket shooting function, and a plurality of types of parameter names can be stored in association with one shooting scene. For example, in the “parameter” item corresponding to the shooting scene, one type of shooting parameter “focus” is stored corresponding to “shooting (fixing) the petal with attention to the focus position”, and so on. Two types of shooting parameters “white balance” and “exposure (EV)” are stored corresponding to “shoot with attention to taste (fixed)” and “shoot with attention to color and brightness indoors (fixed)” Has been.

  “Parameter reference value (fixed)” uses an automatically determined value determined by autofocus (AF), auto exposure (AE) function, auto white balance (AWB) function, or the like as a parameter reference value for bracket shooting. Or an information that indicates whether to use a preset fixed value (for example, a value set before product shipment). In the figure, the AF value, AE value, and AWB value are automatically determined. “Middle position”, “Middle value”, “No filter”, “4000K” indicates that a fixed value should be used, and its contents cannot be changed. It is a content. The control unit 1 refers to the scene-specific bracket A table 3d according to the shooting scene selected by the user operation, and acquires the automatically determined value or the fixed value as the reference value of the shooting parameter.

  “Parameter swing width (fixed)” is an item for storing, as a fixed value, a change width (switch width) that changes the reference value of the imaging parameter before and after. For example, when “scene” is “photographed with focus on petal focus (fixed)”, “parameter” is “focus”, and “parameter reference value (fixed)” is “AF value”, “parameter” “± 5 cm” is stored as “the swing width (fixed)”, and indicates that the reference value “AF value” should be changed by 5 cm before and after the reference value “AF value”. In addition, when “Scene” is “photographed indoors with attention to color and brightness (fixed)”, “white balance” and “EV” are stored as two types of “parameters”, and corresponding to them. “Parameter temperature (fixed)” is “4000K”, “AE value”, “Parameter amplitude (fixed)” is stored as “Color temperature = ± 1000K”, “± 1EV”, and the reference value is “4000K”. “1000” before and after that, and 1 EV before and after that, based on the reference value “AE value”. “Number of sheets” is an item for storing the number of shots that are continuously taken a plurality of times while changing the shooting parameters as a change condition for the shooting parameters. For example, “3”, “5”, etc. are stored. ing.

  As shown in FIG. 8, the scene-specific bracket B table 3e includes items of “scene”, “parameter”, “parameter reference value (fixed / variable)”, “parameter swing width (variable)”, and “number of sheets”. It is a variable table whose contents can be arbitrarily changed by a user operation. “Scene” is an item for storing a name indicating a shooting scene, and “(variable)” in this scene means “parameter reference value (fixed / variable)” and “parameter amplitude (variable)” described later. ”And“ number of sheets ”means that the user can arbitrarily change the contents.

  “Parameter”, “Parameter reference value (fixed / variable)”, “Parameter amplitude (variable)”, and “Number of sheets” indicate changing conditions related to the shooting parameters for the bracket shooting function. The “parameter” can store two types of shooting parameters such as “saturation” and “contrast” in association with one shooting scene. “Parameter reference value (fixed / variable)” is an item indicating whether to use an automatically determined value, a preset fixed value, or a specified value that is arbitrarily specified. , AE value, AWB value indicate automatically determined values, intermediate position, intermediate value indicates a fixed value, “3000K / 4000K / 5000K” indicates a plurality of candidate values, and any of them can be arbitrarily selected by a user operation. The specified value becomes a specified value (for example, 4000K).

  “Parameter swing width (variable)” is an item that stores a change width (width) that changes before and after the reference value of the shooting parameter, and is arbitrarily specified by a user operation from a plurality of candidate values. The value is the swing width. For example, if “scene” is “photographed with a focus on petal focus (fixed)” and “parameter” is “focus”, a plurality of candidate values of “parameter swing width (variable)” “ An arbitrary swing width (for example, ± 20 cm) can be selected as a designated value from among “± 5 cm / ± 20 cm / ± 50 cm” by a user operation.

  As described above, the scene-specific bracket A table 3d and the scene-specific bracket B table 3e are used when bracket shooting is performed in accordance with the shooting scene, and an arbitrary scene is selected from various shooting scenes by a user operation. Then, the control unit 1 acquires the change condition regarding the shooting parameter corresponding to the shooting scene by referring to the corresponding table (the scene-specific bracket A table 3d or the scene-specific bracket B table 3e). It is set to perform bracket shooting.

  As described above, in the embodiment, the data display device (digital camera) converts a plurality of data (a series of images captured by bracketing) into a virtual plurality of dimensions according to a plurality of types of shooting parameters (for example, exposure and saturation). Data array means (control unit 1, program memory 3a) for arraying (for example, two-dimensional array) and data selected as a display target from the plurality of data arrayed by the data array means (currently being displayed) As an index for clearly indicating that data can be sent in the arrangement direction of each dimension from the origin as the starting position of the arrangement position of the image), the plurality of directions are associated with the plurality of directions in which the data can be sent. Index display means (control unit 1) that displays information relating to the arrangement state of each dimension of the data in relation to the arrangement direction (an index that clearly indicates the number of images that can be fed). When an arbitrary direction is selected from the program data 3a and the display unit 5) and a plurality of data sending directions and data sending in that direction is instructed, the data is sent in the indicated direction to be displayed. Updating means (control unit 1, program memory 3a).

  Next, the operation concept of the data display device (digital camera) in this embodiment will be described with reference to the flowcharts shown in FIGS. Here, each function described in these flowcharts is stored in the form of a readable program code, and operations according to the program code are sequentially executed. Further, it is possible to sequentially execute the operation according to the above-described program code transmitted via a transmission medium such as a network. In other words, in addition to the recording medium, an operation unique to the present embodiment can be executed using a program / data supplied externally via a transmission medium.

9 to 12 are flowcharts for explaining the operation (characteristic operation of the present embodiment) of the data display device (digital camera) that is started when the power is turned on.
First, the control unit 1 executes an initialization process (step S1 in FIG. 9) for clearing a memory or the like in response to a power-on operation, and then checks whether it is a bracket shooting setting mode (step S2) or is stationary. Whether it is the image shooting mode (step S15 in FIG. 10) or whether it is in the still image reproduction mode is checked (step S28 in FIG. 11). Here, if the operation mode is other motion mode such as the moving image shooting mode (NO in step S28 in FIG. 11), processing according to the other mode, for example, processing for setting shooting conditions other than bracket shooting. Then, a process of shooting a moving image is performed (step S29), and the process proceeds to step S2 in FIG.

  If the mode is switched to the bracket shooting setting mode (YES in step S2 in FIG. 9), it is checked whether the setting for the scene-specific bracket B table 3e is instructed by the user operation as the setting type (step S2). S3) When setting by scene is instructed (YES in step S3), when an arbitrary scene is selected by user operation from a list screen of various shooting scenes (step S4), the selected scene is selected. Correspondingly, the process proceeds to the process of setting the change condition relating to the change of the bracket shooting parameter in the scene-specific bracket B table 3e (steps S5 to A8).

  That is, an operation for selecting up to two types of shooting parameters from a screen for displaying a list of types of shooting parameters is performed (step S5), and thereafter an operation for selecting the reference value and the amplitude for each selection parameter. When the operation is performed (step S6) and an operation for selecting the number of shots is performed (step S7), the control unit 1 changes the change condition (the type of the selected parameter, the reference value, the change) corresponding to each selected scene. A process of setting the width and the number of shots in the scene-specific bracket B table 3e is performed (step S8). Here, in the case of setting to “parameter reference value (fixed / variable)”, an arbitrary item is selected from the automatically determined value / fixed value / specified value. An arbitrary value is selected from among the candidate values by user operation. Further, the number of shots may be set for each shooting parameter or may be set for each scene.

  Then, in order to arbitrarily associate the two types of shooting parameters selected as described above with the image feed direction (image arrangement direction), up to the two types selected in the XY coordinate system (two-dimensional coordinate system). One of the shooting parameters is set as the first parameter, the arrangement position of the first parameter is selected as “X”, the other is set as the second parameter, and the arrangement position of the second parameter is set as the second parameter. After performing the process of selecting “Y” (step S9), the process returns to step S2. When the selected shooting parameter is one type, “X” is set as the first parameter.

  Further, in the bracket shooting setting mode (YES in step S2), if the setting for each scene is not specified (NO in step S3), the process proceeds to a process of sequentially setting change conditions relating to changes in bracket shooting parameters (step S10). To S14). That is, in the state in which the parameter selection screen shown in FIG. 2 is displayed (step S10), after an operation (step S11) for selecting two types of shooting parameters from the screen is performed, the reference for each selected parameter is displayed. When an operation for selecting a value and a swing width is performed (step S12), and an operation for selecting the number of shots is performed (step S13), the selected parameter type, reference value, swing width, and number of shots are selected. A process of setting the photographing condition in the imaging unit 6 or the like is performed (step S14). Note that the number of shots may be set for each shooting parameter. One of the two types of imaging parameters is set as the first parameter, the arrangement position of the first parameter is selected as “X”, the other is set as the second parameter, and the second parameter After performing the process of selecting the array position as “Y” (step S9), the process returns to step S2. Also in this case, when the selected shooting parameter is one type, “X” is set as the first parameter.

  On the other hand, when the mode is switched to the still image shooting mode (YES in step S15 in FIG. 10), it is checked whether the bracket shooting function is turned on (step S16), and the function is turned on. If so (YES in step S16), it is checked whether bracket shooting for each scene is designated by a predetermined operation (step S17). If bracket shooting for each scene is designated (YES in step S17), the process proceeds to processing for displaying a scene selection screen (menu screen) for displaying a list of sample images for each scene for bracket shooting (step S18). .

  FIG. 13 is a diagram illustrating a scene selection screen (menu screen) displayed prior to bracket shooting. This scene selection screen is a screen for the user to select an arbitrary shooting scene from various shooting scenes. This screen displays the parameters for bracket shooting corresponding to the scenes for the various shooting scenes. A list of sample images in the case where the images were taken in is displayed. In the figure, “(fixed)” indicates a sample image generated according to the contents of the scene-specific bracket A table 3d, and “(variable)” indicates the contents of the scene-specific bracket B table 3e. It shows that the sample image is generated. The sample images displayed in the scene selection screen in this way are thumbnail images of the same size and arranged in a matrix. In the example shown in the figure, the contents of the scene-specific bracket A table 3d and the contents of the scene-specific bracket B table 3e are mixedly displayed, but they may be displayed separately as a list. The scene selection screen may display a list of scene names in combination with the sample images.

  When an arbitrary shooting scene is selected from the bracket shooting scene selection screen (step S19), the change condition relating to the shooting parameter corresponding to the selected scene is set as the scene-specific bracket A table 3d or the scene-specific bracket B table 3e. (Step S20) and temporarily stored in the work memory 3b (step S21). In this state, when the shutter key K2 is operated (YES in step S22), bracket shooting is started, and the number of shots is changed while changing the shooting parameter value corresponding to the scene according to the change condition regarding the shooting parameter in the work memory 3b. Minutes of continuous shooting is performed (step S23).

  As a result, a group flag “GF” indicating that a series of images captured by bracket shooting is used as information for identifying bracket shooting in the header information of each image file. "A group ID" Gid "for identifying that a series of bracketed images belong to the same group and a bracket shooting parameter ID" Pid "are respectively added (step S24). In this case, “GF = YES” is added as the group flag, and “Gid =” 1 is added as the group ID, for example. Then, it returns to step S2 of FIG.

  In the still image shooting mode (YES in step S15), when the shutter key K2 is operated (YES in step S25) when the bracket shooting function is turned off (NO in step S16), the setting is made. One image is shot according to the set shooting conditions (step S26). Then, compression processing is performed on the captured image of one image, or a group flag “GF” is added to the header information of the image file as information for identifying single image capturing (step S27). In this case, “GF = NO” is added as a group flag. Then, it returns to step S2 of FIG.

  On the other hand, when the mode is switched to the still image playback mode (YES in step S28 in FIG. 11), when a date, a title, or the like is input by a user operation to specify a playback target, an image corresponding to the input information is displayed. A folder is selected as a playback target (step S30), and the first image file is selected and acquired from the image folder as a playback target (step S31). Then, it is checked whether the group flag GF of the image selected and acquired as the reproduction target is “NO”, that is, whether the image is a single image (step S32). Here, since the first image shown in FIG. 5A is a group flag “GF = NO”, that is, an image of a single image (YES in step S32), the image is normally displayed individually. The process proceeds to (display one sheet) (step S33).

  Then, it is checked whether or not the cross key K3 as the feed key has been operated (step S34), or whether or not the playback end operation for canceling the playback mode has been performed (step S35). If an end operation for canceling the playback mode is performed (YES in step S35), the process returns to step S2 in FIG. 9, but when the cross key K3 is operated to instruct the image advance in the shooting order (step S35). Based on the type of the operation key, the feed direction (for example, the left-right direction) is determined (step S36), and it is checked whether there is an image in the determined direction (step S37).

  If there is no image in the determined direction (NO in step S37), the process returns to the above-described step S34 in order to ignore the current feeding operation, but if there is an image in the determined direction (YES in step S37). The image in the feeding direction is selected and acquired as a reproduction target (step S38). In this case, when the right key of the cross key K3 is operated, the next image in the forward direction with respect to the image being displayed is acquired as a reproduction target, and when the left key is operated, the image being displayed is acquired. The next image in the reverse direction is selected and acquired as a playback target. Then, returning to the above-described step S32, every time it is determined whether the image selected and acquired as a reproduction target is a single-shot image (YES in step S32), The above operation (steps S33 to S38) is repeated.

  Now, assuming that the second image shown in FIG. 5A is selected as the reproduction target, the group flag of the image is “GF = YES”, that is, the bracketed image is designated as the reproduction target. Since this is the case (NO in step S32), the process proceeds to step S39 in FIG. 12, and processing is performed to virtually two-dimensionally arrange (X, Y array) each image (series of images) photographed by the bracket. In this case, by performing a process of virtually two-dimensionally arranging a series of images, for example, each image (a series of images) is arranged in a 3 × 3 matrix arrangement state as shown in FIG. A 5 × 5 matrix arrangement is obtained as shown in FIG.

  Then, an image arranged at the position of “Pid = 0, 0” at the center of the two-dimensional array is acquired as a representative image and individually displayed (step S40). Further, the above-described index display behind the representative image, that is, the number of images to be fed (the number of images that can be fed) is displayed as an index (overlapping display) (step S41). Then, a mark “SET” indicating that the decision key (SET) K4 should be operated is guided and displayed on the representative image (step S42). As a result, the display state as shown in FIG.

  In this state, it is checked whether or not the enter key (SET) K4 is operated (step S43). If the enter key (SET) K4 is not operated (NO in step S43), the process returns to step S34 in FIG. When (SET) K4 is operated (YES in step S43), the guide display mark “SET” is deleted (step S44), and the displayed image (in this case, the representative image) is displayed in the two-dimensional array. An array image MT for guiding the position of the array is arranged and displayed on a part of the screen (for example, the lower right corner) (step S45). As a result, the display state as shown in FIG.

  Here, it is checked whether display switching to a thumbnail list screen for displaying a list of each bracketed image is instructed by a user operation (step S46), or whether the cross key K3 as a feed key is operated (step S46). In step S50), it is checked again whether the enter key (SET) K4 has been operated (step S55). When the thumbnail list screen is instructed (YES in step S46), the screen is switched to a thumbnail list screen that displays a list of each bracketed image (step S47). In FIG. 14, as shown in FIG. 4A, bracket shooting is performed in a state where two types of shooting parameters “exposure” and “saturation” are set and the number of shots “3” is set. It is the figure which illustrated the thumbnail list screen of a series of images (9 images) in the case of the case. When an arbitrary image is selected as a display target by a user operation from the thumbnail list screen (YES in step S48), the process proceeds to step S53, and the selected image is switched to individual display. If NO in step S48, it is checked whether cancellation of the thumbnail list screen is instructed (step S49). If cancellation of the list screen is instructed (YES in step 49), the process returns to step S46 described above.

  On the other hand, when the cross key K3 as the feed key is operated (YES in step S50), the feed direction is determined according to the operation key (step S51). That is, it is checked which direction of up / down / left / right direction is instructed according to which of the up / down / left / right keys is operated. Then, starting from an image being displayed (for example, a representative image) in a series of images that are two-dimensionally arranged as described above, it is checked whether the next image is arranged in the feeding direction (step S52). If the next image does not exist (NO in step S52), the process returns to step S46 described above to invalidate the current feeding operation.

  If there is a next image in the instructed feed direction (YES in step S52), the image is acquired and individually displayed, and at which position in the two-dimensional array the image being displayed is arranged. The array image MT to be guided is arranged and displayed on a part of the screen (step S53). Further, behind the image being displayed, the number of images to be sent (number of images that can be fed) is displayed as an index (overlapping display) for each feeding direction (step S54). Thereafter, the process returns to step S46 described above. Thereafter, every time the cross key K3 as the feed key is operated (YES in step S50), the above-described operation (steps S51 to S54) is repeated.

  Thus, for example, when an image is sent in the vertical and horizontal directions in a state where an image (representative image) of “Pid = 0, 0” is displayed as shown in FIG. The next image is displayed individually. That is, the image is switched from the representative image to the “Pid = + 1, 0” image by the rightward feed operation, and is switched to the “Pid = −1,0” image by the leftward feed operation. Is switched to the image of “Pid = 0, −1” by the forward feed operation, and is switched to the image of “Pid = 0, +1” by the upward feed operation. Note that when a backward feed operation is performed, the display returns to the display of the original representative image at the position of “Pid = 0, 0”.

  Further, for example, in the state where the image of “Pid = + 1, 0” is displayed individually, there are two images in the left direction, so that “Pid = 0, 0” is performed by two image feed operations. ", And an image of" Pid = -1, 0 ". Similarly, in the state in which the images of “Pid = 0, −1” are individually displayed, there are two images in the upward direction, so that “Pid = 0, 0” is performed by two image feed operations. "" And an image of "Pid = 0, +1". Thereafter, the operation of the determination key (SET) K4 again (YES in step S57) returns to step S2 in FIG.

  As described above, in the embodiment, the control unit 1 includes a plurality of data (images) in a plurality of virtual images in a plurality of virtual dimensions (multiple axes) according to a plurality of parameters. As an index for clearly indicating that image feed is possible from the starting position of the arrangement position of the image selected as the display target from the plurality of directions, Since the information related to the arrangement state of images is displayed in an identifiable manner, when selecting an arbitrary direction from among a plurality of feed directions and instructing image feed in that direction, the feed direction for the user In addition, it is possible to instruct the image feed while visually confirming information related to the arrangement state of the images, which is easy to understand visually, and even when the user individually confirms the details of many images in detail. Can be executed efficiently work, it becomes rich in operability and convenience.

  The information on the arrangement state of the plurality of images is the number of images that can be fed in each feeding direction from the displayed image selected as the display target, and is associated with each of the feeding directions. Since the number of images that can be fed is displayed, the user can instruct image feeding while visually confirming the number of images that can be fed for each feeding direction.

  When displaying information related to the arrangement state of multiple images as an indicator, in order to clearly indicate the images that can be fed in each direction, the end of the image that can be fed is displayed behind the currently displayed image. Since the number of images is superimposed and displayed while shifting the display position, it is possible to intuitively visually confirm the number of images that can be fed and the number of images that can be fed for each direction.

  The multiple images are multiple shot images obtained by bracket shooting in which multiple shots are taken continuously while changing multiple types of shooting parameters. It can be confirmed visually whether it changes, and helps to improve photography skills.

  Since shooting parameters for bracket shooting and the number of shots can be set arbitrarily, bracket shooting can be performed according to the user's intention, and various image changes can be confirmed.

  Since an arbitrary number of shots is set for each shooting parameter, the bracket shooting setting can be made more finely.

  In a state where a plurality of shot images taken with bracket shooting and a single shot image are stored together, bracket shooting was performed by one operation similar to the operation of sending a single shot image. Since multiple groups of shot images are sent as a group, the number of bracketed shots can be at most one feed operation, compared to sending bracketed images one by one for each feed operation. Thus, it is possible to smoothly feed the entire image including the single-shot image. Furthermore, for example, it is not necessary to divide the playback mode for single shooting and the playback mode for bracket shooting, and it is possible to easily find an image for bracket shooting.

  Since it is possible to arbitrarily set the correspondence between a plurality of types of shooting parameters for bracket shooting and a plurality of feed directions, it is possible to feed images in consideration of user convenience and the like, which is useful for improving operability.

  Since it is possible to switch between displaying a plurality of images in a list or displaying them individually, it is convenient when, for example, checking each image in detail after checking the overall overview of the images. .

  In the state where the images to be displayed are individually displayed, an array image MT for guiding where the displayed image is arranged in the two-dimensional array is arranged and displayed on a part of the screen. Therefore, the user can intuitively confirm the arrangement position of the displayed image.

  In the above-described embodiment, the display position is shifted so that one end of the image that can be fed is projected behind the image being displayed, and the number of images is superimposed (overlapping display). However, in order to clearly indicate the number of images that can be fed in each direction, the number of images may be displayed as a numerical value. FIGS. 15A and 15B are diagrams exemplifying a case where the number of images that can be fed is numerically displayed. Here, in correspondence with the four directions (up, down, left, and right) of the image being displayed, the number of images that can be fed in each direction is displayed numerically (index display). That is, as shown in the figure, rectangular labels are placed close to the top, bottom, left, and right sides of the image, and the number of images that can be fed in each direction is numerically displayed in the label.

  In FIG. 15A, the number of images that can be sent in the right direction starting from the displayed image is numerically displayed as “10”, and the number of images that can be sent in the left direction is as follows. This is a case in which “2”, the number of images that can be sent in the upward direction is “4”, and the number of images that can be sent in the downward direction is “8”. In this state, for example, when the left key of the cross key K3 is operated once, as shown in FIG. 15B, one image is sent in the left direction, and the left index display is “1”. Sheet "and the index display on the right is" 11 sheets ". In this way, when displaying information about the arrangement state of a plurality of images, if the number of images that can be fed in each direction is displayed numerically, for example, at most all of the images that can be fed Can be specified.

  FIG. 16A is a diagram for explaining a modification example in which a parameter name is displayed as an index display. A plus mark “1” indicating that the image being displayed is displayed in the parameter name as a starting point. FIG. 10 is a diagram illustrating a case where a plus mark “−” indicating that the feed is in the reverse direction is added and displayed. In the figure, “Exposure +” is an index indicating the forward direction of the exposure parameter, “Exposure −” is an index indicating the forward direction of the exposure parameter, and “Saturation +” is the saturation parameter. The forward feed, “saturation −” is an index indicating the feed of the saturation parameter in the reverse direction. FIG. 16B is a diagram showing a case where the parameter name including the feeding direction in FIG. 16A is added to the number of images that can be fed and displayed. In the example shown in the drawing, the image feed number of the exposure parameter is 10 sheets, the image feed number of the white balance parameter is 2 sheets, the image feed number of the saturation parameter is 4 sheets, and the image feed number of the aperture parameter, starting from the displayed image. Indicates 8 sheets.

In the embodiment described above, an example in which two types of shooting parameters are sent and displayed has been shown, but it is also possible to perform a feed operation with more types of shooting parameters.
FIG. 17A is a diagram illustrating a case where four types of shooting parameters are sent and displayed in four directions. That is, when displaying information on the arrangement state of a plurality of images by direction during reproduction, a plurality of feed directions and a plurality of types of parameters are associated with each other in a one-to-one correspondence with a plurality of feed directions. It is the figure which illustrated the case where it was made to display a different parameter name. Here, corresponding to the four directions (up, down, left, and right) of the image being displayed, the shooting parameter names are displayed for each direction. By displaying the parameter name for each direction in this way, for example, an image in which the parameter “exposure” is changed by feeding to the right with respect to the image being displayed is displayed, and the parameter “ An image in which the “WB (white balance)” changes is displayed, an image in which the parameter “saturation” changes by an upward feed, and an image in which the parameter “aperture” changes by a downward feed. Which indicates that.

  In this case, every time the cross key K3 as the feed key is operated, the control unit 1 seamlessly sequentially switches and displays each image corresponding to the number of images in that direction. For example, the next image (exposure = AE) is switched and displayed by the first operation of the right key for the currently displayed image (exposure = -2EV), and the next image (exposure = + 2EV) is displayed by the second operation. ), And the first image (exposure = −2EV) is switched and displayed by the third operation. In this way, when displaying information related to the arrangement state of a plurality of images as an indicator, if the shooting parameters are displayed in association with the feed direction, the parameters can be identified in the feed direction, which improves operability. Useful.

  FIG. 17B is a diagram exemplifying a case where four types of imaging parameters and the feeding direction is eight directions. That is, it is a diagram exemplifying a case where shooting parameter names including a feeding direction are displayed by associating four types of shooting parameters with up, down, left and right, diagonally left, and diagonally right. In this case, in the displayed image, the left and right parameters are “exposure +” and “exposure −”, the right diagonal parameter is “white balance (WB +)” and “(WB−)”, and the vertical parameter is The parameters in the “saturation +”, “saturation −”, and diagonally left directions are “focus +” and “focus −”.

  In this case, the up / down / left / right parameters “exposure +”, “exposure−”, “saturation +”, and “saturation−” are fed by operating the corresponding up / down / left / right keys. The feeding of WB +, WB-, focus +, and focus- is performed by pressing two keys simultaneously. That is, the parameter “WB +” is fed by pressing the right key and the up key simultaneously, the “focus-” feed is pushed by the left key and the up key simultaneously, and “WB−” is fed by the left key and the down key. Simultaneously pressing and “Focus +” feed are performed by simultaneously pressing the right and down keys. In this way, when information regarding the arrangement state of a plurality of images is displayed by index according to direction, if a plurality of types (eight types) of shooting parameter names are displayed in association with eight directions, a variety of shooting parameters can be displayed. The changed bracketing image can be confirmed.

  In the above-described embodiment, when information related to the arrangement state of a plurality of images is displayed as an index by direction, the information is applied to a bracketed image. However, the information may be applied to a single image. FIG. 18 is applied to a single photographed image. When the shooting date and time and name are stored as plural types of parameters in the header information of each image, the four directions (up, down, left, and right) of the displayed image are shown. ), The parameter name and the number of images that can be fed are displayed numerically for each direction. In the figure, “name + 7” indicates that the number of images sent in the forward direction of the name parameter is 7, and “name-5” indicates that the number of images sent in the reverse direction of the name parameter is 5; “Date + 6” is an index indicating that the number of images sent in the forward direction of the date / time parameter is 6, and “Date / time-6” is an index indicating that the number of images sent in the reverse direction of the date / time parameter is 6.

  In the above-described embodiment, the images captured by the bracket are exemplified as the plurality of images. However, the present invention is not limited to the bracket shooting, and the same applies to a plurality of images obtained by changing a plurality of types of shooting parameters by manual operation. It is applicable to.

In the above-described embodiment, the captured image is exemplified as the plurality of data when the information regarding the arrangement state of the plurality of images is displayed by direction. However, the captured image is not limited to the captured image, and may be text data (file). Good.
FIG. 19 shows a case where a plurality of data is applied to text data. When each text data stores a size and a name as a plurality of types of parameters, FIG. FIG. 6 is a diagram illustrating a case where shooting parameter names are displayed according to four directions (up, down, left, and right) of data (number of characters that can be displayed from the top of text). In the figure, “name +” is an index indicating the forward direction of the name parameter, “name−” is an index indicating the backward direction of the name parameter, and “size +” is the forward direction of the file size parameter. "Size-" is an index indicating the reverse transfer of the file size parameter.

  FIG. 19 (2) shows a display example when the parameter name for each direction and the number of data that can be sent (number of files) are numerically displayed. Corresponding to the four directions of the displayed data (data of the number of characters that can be displayed from the beginning of the text), up and down, left and right, the case where the shooting parameter name and the number of files that can be sent data are displayed numerically for each direction FIG. In the figure, “name + 1” indicates that the number of files sent in the forward direction of the name parameter is one data, and “name-11” indicates that the number of files sent in the reverse direction of the name parameter is 11 data, “ “Size + 6” is an index indicating that the number of data sent in the forward direction of the size parameter is 6 files, and “Size-7” is an index showing that the number of data sent in the reverse direction of the size parameter is 7 files.

  In the above-described embodiment, the cross key K3 for instructing the up / down / left / right directions is operated as the feeding operation during reproduction. However, the present invention is not limited to this, and other operating elements may be used. In this case, a dedicated operator used for changing the value of each shooting parameter at the time of shooting may also be used. For example, the exposure parameter may be an exposure correction dial, the zoom parameter may be a zoom ring, and the focus parameter may be a focus ring. Further, it may be a touch operation (flick operation, tap operation, etc.) on the touch panel. In this case, operations in five or more directions are facilitated. In the above-described embodiment, the user arbitrarily selects the shooting scene from the scene selection screen. However, the shooting scene may be automatically determined and selected from the shooting situation.

  In the above-described embodiment, a case where a virtual two-dimensional array is arranged has been shown. However, the array may be three or more dimensions, or may be a one-dimensional array.

  In the above-described embodiments, the case where the present invention is applied to a digital camera (imaging device) as a data display device for individually displaying a plurality of data has been described. However, the present invention is not limited to a digital camera, but a personal computer, PDA (personal portable information) The present invention can be applied to communication devices), tablet terminals, mobile phones such as smartphones, electronic games, music players, and the like.

  Further, the “apparatus” and “unit” shown in the above-described embodiments may be separated into a plurality of cases by function, and are not limited to a single case. In addition, each step described in the above-described flowchart is not limited to time-series processing, and a plurality of steps may be processed in parallel or separately.

The embodiment of the present invention has been described above. However, the present invention is not limited to this, and includes the invention described in the claims and the equivalent scope thereof.
Hereinafter, the invention described in the claims of the present application will be appended.
(Appendix)
(Claim 1)
The invention described in claim 1
A data array means for arranging a plurality of data in a virtual multi-dimension according to a plurality of types of parameters;
In order to clearly indicate that data can be sent from the starting point to the array direction of each dimension, starting from the array position of the data selected as the display target from the plurality of data arrayed by the data array means As an index, an index display means for displaying in an identifiable manner information relating to the array direction of each dimension of the plurality of data in association with a plurality of directions in which the data can be sent,
When an arbitrary direction is selected from the plurality of data sending directions and data sending in that direction is instructed, an updating unit that sends the data in the designated direction and updates the display target;
A data display device comprising:
(Claim 2)
The invention according to claim 2 is the data display device according to claim 1,
The information related to the array state of the plurality of data is the number of data that can be sent in the direction of the array feed in each dimension starting from the data being displayed selected as the display target,
The indicator display means displays the number of data that can be sent in association with each of the plurality of feed directions,
This is a data display device.
(Claim 3)
The invention described in claim 3 is the data display device according to claim 2,
The index display means, as the information related to the arrangement state of the plurality of data, is the data while shifting the display position so that one end portion of the data that can be sent in the data feeding direction is behind the data being displayed. Overlay and display the number of data that can be sent,
This is a data display device.
(Claim 4)
The invention according to claim 4 is the data display device according to claim 2,
The index display means displays the number of data numerically in order to clearly indicate the number of data that can be sent by data feeding direction as information on the arrangement state.
This is a data display device.
(Claim 5)
The invention according to claim 5 is the data display device according to any one of claims 1 to 4,
The information relating to the arrangement state of the plurality of data is correspondence information between the plurality of data feed directions and the plurality of types of parameters. The indicator display means indicates the type of the parameter in association with each data feed direction. Display,
This is a data display device.
(Claim 6)
The invention according to claim 6 is the data display device according to any one of claims 1 to 5,
The plurality of data is a plurality of shot images obtained by bracket shooting in which a plurality of shooting parameters are continuously changed while changing a plurality of types of shooting parameters.
This is a data display device.
(Claim 7)
The invention according to claim 7 is the data display device according to claim 6,
A first setting means for arbitrarily setting a plurality of types of shooting parameters for bracket shooting and the number of shots;
The bracket shooting is performed by continuously shooting the number of shots while changing the plurality of types of shooting parameters.
This is a data display device.
(Claim 8)
The invention according to claim 8 is the data display device according to claim 7,
The first setting means sets an arbitrary number of shots for each shooting parameter.
This is a data display device.
(Claim 9)
The invention according to claim 9 is the data display device according to any one of claims 6 to 8,
The plurality of data is a plurality of shot images obtained by bracket shooting that continuously performs a plurality of shootings while changing a plurality of types of shooting parameters,
In a state where a plurality of captured images captured with the bracket and a single captured image are stored together, the bracket can be used in one operation similar to the operation of sending the captured image. An operation means for group-feeding a plurality of photographed images as a unit;
This is a data display device.
(Claim 10)
The invention according to claim 10 is the data display device according to any one of claims 1 to 9,
A second setting means for arbitrarily setting the correspondence between the plurality of types of shooting parameters for bracket shooting and the plurality of feed directions;
This is a data display device.
(Claim 11)
The invention according to claim 11 is the data display device according to any one of claims 1 to 10,
A switching means for switching whether to display the plurality of data as a list or individually;
This is a data display device.
(Claim 12)
The invention according to claim 12 is the data display device according to any one of claims 1 to 11,
In the state where the data updated as the display object by the updating unit is individually displayed, the display unit further includes a guiding unit that guides and displays in which position in the multi-dimensional array the data being displayed is arranged. ,
This is a data display device.
(Claim 13)
The invention according to claim 13
Arranging a plurality of data in a virtual multi-dimension according to a plurality of types of parameters;
As an index for clearly indicating that data can be sent from the starting position to the array direction of each dimension, starting from the array position of the data selected as a display target from among the plurality of arranged data, Associating with a plurality of directions in which the data can be sent, and displaying the information on the arrangement state with respect to the arrangement direction of each dimension of the plurality of data in an identifiable manner;
When an arbitrary direction is selected from the plurality of data sending directions and data sending in that direction is instructed, the data is sent in the designated direction to update the display object;
Is a data display method characterized by comprising:
(Claim 14)
The invention according to claim 14
Against the computer,
A function of arranging a plurality of data in a virtual multi-dimension according to a plurality of types of parameters;
As an index for clearly indicating that data can be sent from the starting position to the array direction of each dimension, starting from the array position of the data selected as a display target from among the plurality of arranged data, A function of displaying information relating to an array state with respect to an array direction of each dimension of the plurality of data in an identifiable manner in association with a plurality of directions in which the data can be sent;
When an arbitrary direction is selected from the plurality of data sending directions and data sending in that direction is instructed, a function of sending data in the indicated direction and updating a display target;
It is a program for realizing.

DESCRIPTION OF SYMBOLS 1 Control part 3 Memory | storage part 3a Program memory 3d Bracket fixed table according to scene 3e Bracket variable table according to scene 4 Operation part 5 Display part 6 Imaging part K3 Cross key K4 Enter key (SET)

In order to solve the above-described problems, the data display device of the present invention
Data array means for arraying a plurality of data in a plurality of virtual dimensions based on a plurality of criteria ;
In order to clearly indicate that data can be sent from the starting point to the array direction of each dimension, starting from the array position of the data selected as the display target from the plurality of data arrayed by the data array means As an index, an index display means for displaying in an identifiable manner information relating to the array direction of each dimension of the plurality of data in association with a plurality of directions in which the data can be sent,
When the data sent in that direction is instructed arbitrary direction from the plurality of data transmission Ri is possible directions is selected, and updating means for updating the displayed sending data to the indicated direction ,
A data display device comprising:

In order to solve the above-described problem, the data display method of the present invention includes:
A process of arranging a plurality of data in a plurality of virtual dimensions based on a plurality of criteria ;
As an index for clearly indicating that data can be sent from the starting position to the array direction of each dimension, starting from the array position of the data selected as a display target from among the plurality of arranged data, A process of displaying information relating to an array state with respect to an array direction of each dimension of the plurality of data in an identifiable manner in association with a plurality of directions in which the data can be sent.
When the data sent in that direction is instructed arbitrary direction from the plurality of data transmission Ri is possible directions is selected, the process of updating the displayed sending data to the indicated direction,
Is a data display method characterized by comprising:

In order to solve the above-described problems, the program of the present invention
Against the computer,
A function for arranging a plurality of data in a plurality of virtual dimensions based on a plurality of criteria ;
As an index for clearly indicating that data can be sent from the starting position to the array direction of each dimension, starting from the array position of the data selected as a display target from among the plurality of arranged data, A function of displaying information relating to an array state with respect to an array direction of each dimension of the plurality of data in an identifiable manner in association with a plurality of directions in which the data can be sent;
When the data sent in that direction is instructed arbitrary direction from the plurality of data transmission Ri is possible directions is selected, the function of updating the displayed sending data to the indicated direction,
It is a program for realizing.

Claims (14)

A data array means for arranging a plurality of data in a virtual multi-dimension according to a plurality of types of parameters;
In order to clearly indicate that data can be sent from the starting point to the array direction of each dimension, starting from the array position of the data selected as the display target from the plurality of data arrayed by the data array means As an index, an index display means for displaying in an identifiable manner information relating to the array direction of each dimension of the plurality of data in association with a plurality of directions in which the data can be sent,
When an arbitrary direction is selected from the plurality of data sending directions and data sending in that direction is instructed, an updating unit that sends the data in the designated direction and updates the display target;
A data display device comprising: The information on the arrangement state of the plurality of data is the number of data that can be sent in the arrangement direction of each dimension starting from the data being displayed selected as the display target,
The indicator display means displays the number of data that can be sent in association with each of the plurality of feed directions,
The data display device according to claim 1. The index display means, as the information related to the arrangement state of the plurality of data, is the data while shifting the display position so that one end portion of the data that can be sent in the data feeding direction is behind the data being displayed. Overlay and display the number of data that can be sent,
The data display device according to claim 2. The index display means displays the number of data numerically in order to clearly indicate the number of data that can be sent by data feeding direction as information on the arrangement state.
The data display device according to claim 2. The information relating to the arrangement state of the plurality of data is correspondence information between the plurality of data feed directions and the plurality of types of parameters. The indicator display means indicates the type of the parameter in association with each data feed direction. Display,
The data display device according to claim 1, wherein the data display device is a data display device. The plurality of data is a plurality of shot images obtained by bracket shooting in which a plurality of shooting parameters are continuously changed while changing a plurality of types of shooting parameters.
The data display device according to claim 1, wherein the data display device is a data display device. A first setting means for arbitrarily setting a plurality of types of shooting parameters for bracket shooting and the number of shots;
The bracket shooting is performed by continuously shooting the number of shots while changing the plurality of types of shooting parameters.
The data display device according to claim 6. The first setting means sets an arbitrary number of shots for each shooting parameter.
The data display device according to claim 7. The plurality of data is a plurality of shot images obtained by bracket shooting that continuously performs a plurality of shootings while changing a plurality of types of shooting parameters,
In a state where a plurality of captured images captured with the bracket and a single captured image are stored together, the bracket can be used in one operation similar to the operation of sending the captured image. An operation means for group-feeding a plurality of photographed images as a unit;
The data display device according to claim 6, wherein the data display device is a data display device. A second setting means for arbitrarily setting the correspondence between the plurality of types of shooting parameters for bracket shooting and the plurality of feed directions;
The data display device according to claim 1, wherein the data display device is a data display device. A switching means for switching whether to display the plurality of data as a list or individually;
The data display device according to claim 1, wherein the data display device is a data display device. In the state where the data updated as the display object by the updating unit is individually displayed, the display unit further includes a guiding unit that guides and displays in which position in the multi-dimensional array the data being displayed is arranged. ,
The data display device according to claim 1, wherein the data display device is a data display device. Arranging a plurality of data in a virtual multi-dimension according to a plurality of types of parameters;
As an index for clearly indicating that data can be sent from the starting position to the array direction of each dimension, starting from the array position of the data selected as a display target from among the plurality of arranged data, Associating with a plurality of directions in which the data can be sent, and displaying the information on the arrangement state with respect to the arrangement direction of each dimension of the plurality of data in an identifiable manner;
When an arbitrary direction is selected from the plurality of data sending directions and data sending in that direction is instructed, the data is sent in the designated direction to update the display object;
A data display method comprising: Against the computer,
A function of arranging a plurality of data in a virtual multi-dimension according to a plurality of types of parameters;
As an index for clearly indicating that data can be sent from the starting position to the array direction of each dimension, starting from the array position of the data selected as a display target from among the plurality of arranged data, A function of displaying information relating to an array state with respect to an array direction of each dimension of the plurality of data in an identifiable manner in association with a plurality of directions in which the data can be sent;
When an arbitrary direction is selected from the plurality of data sending directions and data sending in that direction is instructed, a function of sending data in the indicated direction and updating a display target;
A program to realize

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