JP2004260768A - Image reproducing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image reproducing device for reproducing a photographed image by arranging the image in a form suitable for a utilization form such as presentation. <P>SOLUTION: In a digital still camera apparatus 1, in the case of displaying the image on an LCD 6 by reproducing image data photographed and stored on a recording medium 8 by an image processing part 4, when moving in any arbitrary direction such as vertical and horizontal directions and an oblique direction is instructed with respect to the selected direction of the display image, a system control part 2 analyzes image arrangement setting of the display image displayed in any arbitrary array on the virtual plane of a memory space where the display image to be displayed on the LCD 6 is developed, the image arranged in the selectively instructed direction is reproduced by the image processing part 4 and displayed on the LCD 6. Therefore, the image can be displayed in the arrangement suitable for user's reproduced image utilization form such as presentation, for example, thereby improving availability. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image reproducing apparatus, and more particularly, to an image reproducing apparatus that arranges and reproduces captured images in a form suitable for a use form such as a presentation.
[0002]
[Prior art]
[Patent Document 1]
JP 2000-341636 A
[Patent Document 2]
JP-A-11-308493
[Non-patent document 1]
RDC-i700 (Ricoh Digital Camera) Instruction Manual
Recently, an electronic still camera that records still image data formed on a light receiving element such as a CCD through a lens as electronic information on a storage medium such as a memory card, a so-called digital camera, reproduces a captured image on the spot. It has been used in various fields because of its ability to do so.
[0003]
In addition, digital cameras are small, lightweight, and highly portable, so that not only captured images but also images created by a personal computer are transferred to the camera and used as presentation tools. (See Non-Patent Document 1).
[0004]
Conventionally, in a digital camera, prior to photographing, when a user operates various keys and dials to determine a photographing mode (high image quality mode, low image quality mode, and the like), the operation content of the user is The system control unit determines, generates a guidance graphic according to the operation, and displays the guidance graphic on the display unit to prompt the user to perform the next operation.
[0005]
When the shooting mode is determined, the system control unit sets processing parameters corresponding to the mode in the image processing unit, or the user manually operates the zoom lever to determine the angle of view (composition). At this time, the system control unit determines the content of the user's operation, controls the imaging unit according to the operation, and drives the lens.
[0006]
The imaging unit starts an imaging operation for displaying a preview image on a display unit such as an LCD (Liquid Crystal Display) prior to actual shooting under the control of the image processing unit.
[0007]
The digital camera continuously sends the image data captured by the imaging unit to the image processing unit, and performs image processing such as color space conversion, gamma correction, and white balance adjustment in the image processing unit. Send to display control unit. At this time, the image processing unit simultaneously detects focus and exposure, and controls the imaging unit to perform adjustment.
[0008]
The display control unit performs signal processing on the image data, displays the captured image on the display unit, and presents the imaging state to the user.
[0009]
Next, in the digital camera, when the release button is pressed, the system control unit determines whether the release button is pressed, and the imaging unit captures a predetermined image according to the control of the image processing unit, and sends the image to the image processing unit. send. The image processing unit performs image processing and compression processing on the transmitted image according to the shooting mode.
[0010]
The system control unit reads out the compressed image data, adds the header information, and writes the image data to the recording medium through the recording medium interface unit.
[0011]
At this time, the file name added as the header information is automatically assigned as a predetermined character string (for example, “RIMG”) + serial number. This serial number is the serial number of the file name of the file already recorded on the recording medium + 1, and is assigned, for example, as “RIMG343.jpg, RIMG344.jpg ..”. If the file does not exist in the recording medium, the serial number is set to 1 and becomes “RIMG001.jpg”. The system control unit also updates the file management information in the recording medium at the same time. With the above operation processing, one photographing operation is completed.
[0012]
When the image data is stored in the recording medium after being photographed as described above, the digital camera reproduces the image data in the storage medium in accordance with a user operation. In this reproduction processing, the conventional digital camera performs the reproduction processing as follows.
[0013]
That is, in the digital camera, when the user performs a reproducing operation, the system control unit determines the reproducing operation, reads out the file management information in the recording medium through the recording medium interface unit, and formats the file name (for example, “RIMG”). Frame numbers are assigned to files in accordance with “+” and “sequential numbers” in ascending numerical order, and a frame number management table as shown in FIG. 12 is created. At this time, the system control unit ignores files that do not conform to the format. This frame number is a consecutive number from "1", and the system control unit thereafter specifies a file in the normal reproduction process by referring to the frame number management table shown in FIG. 12 from the frame number. .
[0014]
Then, the system control unit reads the file with the largest frame number from the recording medium via the recording medium interface unit, writes the file on the memory in the system control unit, analyzes the header information from the data on the memory, and performs JPEG decompression. After extracting necessary processing parameters and setting them in the image processing unit, the compressed image data is transferred to the image processing unit.
[0015]
The image processing unit expands the transferred compressed image data by JPEG, and stores the JPEG-expanded image data in a memory in the system control unit. When the JPEG expansion is completed, the system control unit Is set in the display control unit based on the memory address and the image size.
[0016]
The display control unit reads out image data from a predetermined memory in the system control unit, performs signal processing, displays the read out data on the display unit, and presents a reproduced image to a user.
[0017]
That is, a conventional digital camera has the following mode in image reproduction (see Non-Patent Document 1).
[0018]
1) Play and display images sequentially according to predetermined rules and settings
2) Display multiple images at once
3) Enlarge and display the image
Further, conventionally, in a digital camera, a function of classifying images by assigning a category name for classifying the images, or performing grouping and displaying them collectively has been proposed (Patent Document 1 and Patent Document 1). 2).
[0019]
That is, conventionally, when a user selects a category name to be assigned to a predetermined captured image, a digital camera has been proposed in which a program module associates a predetermined captured image with a predetermined category according to the selected category name. (See Patent Document 1).
[0020]
Further, conventionally, based on a display position of any plurality of images displayed on a multi-screen display of a flat display device that collectively displays two or more images of captured images stored in a storage medium, the plurality of images are displayed. When the storage position of the image in the storage medium is specified by the position specifying means, a digital camera that replaces information indicating the storage position of each specified image or the storage position stored corresponding to each image has been proposed. (See Patent Document 2).
[0021]
[Problems to be solved by the invention]
However, in such a conventional image reproducing apparatus such as a digital camera, it has a reproducing function of the above-listed forms, and proposals for classifying or grouping have been made. In the reproduction mode, there is a problem that the usability is poor. In particular, when an image captured by a digital camera is used for a presentation, there is a problem in that the above-described reproduction mode alone is not sufficient and the usability is poor in consideration of the usage mode of the image in the presentation.
[0022]
Accordingly, it is an object of the present invention to provide an image reproducing apparatus with good usability by performing image reproduction in a play form with good usability even when used for presentations.
[0023]
Specifically, when displaying an image on the display unit based on the image data reproduced by the reproduction unit, the invention according to claim 1 is provided in a memory space of a memory where a display image to be displayed on the display unit is expanded. The image setting means constructs a virtual plane and arranges display images in an arbitrary array on the virtual plane to perform image arrangement suitable for a user's use mode of a reproduced image, for example, a presentation use mode. It is an object of the present invention to provide an image reproducing apparatus which displays based on the image arrangement and has good usability.
[0024]
According to a second aspect of the present invention, the image arrangement setting means constructs a virtual space in a depth direction with respect to a virtual plane of the memory space and arranges display images in an arbitrary arrangement also in the depth direction. The object of the present invention is to provide a more suitable image reproducing apparatus that performs image arrangement that is more suitable for a use mode of a reproduced image of a user, for example, a presentation use mode, and displays based on the image arrangement. I have.
[0025]
According to the third aspect of the present invention, when an image is displayed on the display unit based on the image data reproduced by the reproduction unit, an arbitrary image is displayed on a virtual plane in a memory space of a memory where the display image to be displayed on the display unit is expanded. The image arrangement setting of the display images arranged in the array is analyzed by the image arrangement determining unit, and the direction selected by the selection instruction unit for moving the selection direction of the display image in an arbitrary direction such as up, down, left, right, or an oblique direction. The image arranged in the reproduction means is reproduced by the reproduction means and displayed on the display means, so that an image having an image arrangement suitable for the use mode of the reproduced image of the user, for example, the presentation use mode or the like is displayed, and the usability is improved. It is an object of the present invention to provide a simple image reproducing apparatus.
[0026]
According to a fourth aspect of the present invention, the image arrangement determining means also analyzes the image arrangement setting of the display images arranged in an arbitrary arrangement in the virtual space in the depth direction with respect to the virtual plane of the memory space, and selects the instruction Means for moving the selection direction of the display image also in the depth direction, and determining, in the memory space, the image arranged in the depth direction selected and instructed by the selection instructing means in the image arrangement determining means; The reproduced image is reproduced by the reproducing means and displayed on the display means, so that an image having an image arrangement more suitable for the user's use mode of the reproduced image, for example, the presentation use mode, is displayed. It is intended to provide an image reproducing device.
[0027]
According to a fifth aspect of the present invention, based on the image arrangement information of the analysis result of the image arrangement determining unit, guidance information indicating a direction in which the image exists in the memory space and is movable is displayed on the display unit. It is an object of the present invention to provide an image reproducing apparatus which can determine the direction in which it exists and can be moved, and which is more usable.
[0028]
According to the sixth aspect of the present invention, the state of the image arrangement can be easily grasped by displaying the index information indicating the state of the image arrangement on the display means based on the image arrangement information of the analysis result of the image arrangement determining means. It is another object of the present invention to provide an image reproducing apparatus that is more usable.
[0029]
According to the seventh aspect of the present invention, the index information is displayed on the display unit as an index image obtained by converting the index information into an image, so that the state of the image arrangement can be grasped more easily. It is intended to provide.
[0030]
According to the invention described in claim 8, by changing the size of the image displayed on the display means in accordance with the size of the image arrangement, it is possible to easily grasp the entire image of the image arrangement, thereby further improving the usability. It is an object of the present invention to provide a simple image reproducing apparatus.
[0031]
According to the ninth aspect of the present invention, when an image in the memory is deleted, the arrangement of the images is rearranged by the image rearrangement setting means, thereby eliminating the need to manually set the image arrangement each time. It is an object of the present invention to provide an image reproducing apparatus that is more usable.
[0032]
According to the tenth aspect of the present invention, by adding the image arrangement information as meta information of the image file in the memory, the image file can be copied or moved without being aware of the setting of the image arrangement. It is an object of the present invention to provide an image reproducing apparatus which maintains the arrangement and is more usable.
[0033]
[Means for Solving the Problems]
An image reproducing apparatus according to claim 1, comprising: a reproducing unit that reproduces an image data file; and a display unit that displays an image based on the image data reproduced by the reproducing unit. A memory having a memory space where a display image to be displayed on the display means is expanded, and an image arrangement setting means for constructing a virtual plane in the memory space and arranging display images in an arbitrary array on the virtual plane. By having the above, the above object is achieved.
[0034]
According to the above configuration, when displaying an image on the display unit based on the image data reproduced by the reproduction unit, the image setting unit stores the virtual image in the memory space of the memory where the display image to be displayed on the display unit is expanded. Since the planes are constructed and the display images are arranged in an arbitrary array on the virtual plane, it is possible to perform an image arrangement suitable for the use form of the reproduced image of the user, for example, the presentation use form, etc. Based on the display, the usability can be improved.
[0035]
In this case, for example, as described in claim 2, the image arrangement setting means constructs a virtual space in a depth direction with respect to the virtual plane of the memory space and arranges an arbitrary array in the depth direction. May be used to arrange display images.
[0036]
According to the above configuration, the image arrangement setting unit constructs a virtual space in the depth direction with respect to the virtual plane of the memory space and arranges the display images in an arbitrary arrangement also in the depth direction. It is possible to perform an image arrangement more suitable for a use form of an image, for example, a presentation use form, and display based on the image arrangement, thereby further improving usability.
[0037]
An image reproducing apparatus according to a third aspect of the present invention, comprising: a reproducing unit that reproduces an image data file; and a display unit that displays an image based on the image data reproduced by the reproducing unit. A memory having a memory space in which a display image to be displayed on the display means is expanded, and an image arrangement determining means for analyzing image arrangement settings of display images arranged in an arbitrary array on a virtual plane of the memory space; Selection instructing means for moving the selection direction of the display image in an arbitrary direction such as up, down, left, right, and diagonal directions, wherein the image arranged in the direction designated by the selection instructing means in the memory space is The above object is attained by making a judgment by the image arrangement judging means, reproducing the judged image by the reproducing means and displaying the reproduced image on the display means.
[0038]
According to the above configuration, when an image is displayed on the display unit based on the image data reproduced by the reproduction unit, the image is displayed in an arbitrary array on a virtual plane of a memory space of a memory where a display image to be displayed on the display unit is expanded. The image arrangement setting of the arranged display image is analyzed by the image arrangement determining unit, and the display image is arranged in the direction selected and designated by the selection instructing unit that moves the selection direction of the display image in any direction such as up, down, left, right, or diagonal direction. Since the reproduced image is reproduced by the reproducing means and displayed on the display means, it is possible to display an image having an image arrangement suitable for a user's use mode of the reproduced image, for example, a presentation use mode, etc., thereby improving usability. Can be done.
[0039]
In this case, for example, as described in claim 4, in the image reproduction device, the image arrangement determination unit is arranged in an arbitrary arrangement in a virtual space in a depth direction with respect to the virtual plane of the memory space. Analyzing the image arrangement setting of the display image being displayed, the selection instructing means moves the selection direction of the display image also in the depth direction, and moves in the memory space in the depth direction selected and instructed by the selection instruction means. The arranged image may be determined by the image arrangement determining unit, and the determined image may be reproduced by the reproducing unit and displayed on the display unit.
[0040]
According to the above configuration, the image arrangement determination unit also analyzes the image arrangement setting of the display images arranged in an arbitrary arrangement in the virtual space in the depth direction with respect to the virtual plane of the memory space, and the selection instruction unit Moving the display image selection direction also in the depth direction, determining the image arranged in the depth direction selected and instructed by the selection instruction means in the memory space by the image layout determination means, and determining the determined image Is reproduced by the reproduction means and displayed on the display means, so that an image having an image arrangement more suitable for the user's use mode of the reproduced image, for example, the presentation use mode, can be displayed, and the usability is further improved. be able to.
[0041]
In the case of the third and fourth aspects, for example, as described in the fifth aspect, the image reproducing apparatus stores an image in the memory space based on image arrangement information of an analysis result of the image arrangement determining unit. Guidance information indicating an existing and movable direction may be displayed on the display means.
[0042]
According to the above configuration, guidance information indicating a direction in which an image exists in the memory space and can be moved is displayed on the display unit based on the image arrangement information of the analysis result of the image arrangement determination unit. The movable direction can be understood, and the usability can be further improved.
[0043]
In addition, in the case of the above-mentioned claim 1 to claim 4, for example, as described in claim 6, the image reproducing apparatus, based on the image arrangement information of the analysis result of the image arrangement determining means, Index information indicating a state may be displayed on the display means.
[0044]
According to the configuration, the index information indicating the state of the image arrangement is displayed on the display unit based on the image arrangement information of the analysis result of the image arrangement determining unit, so that the state of the image arrangement can be easily grasped. And the usability can be further improved.
[0045]
Further, in the case of the sixth aspect, for example, as described in the seventh aspect, the image reproducing apparatus may display the index information on the display unit as an index image obtained by converting the index information into an image.
[0046]
According to the above configuration, the index information is displayed on the display unit as an index image obtained by imaging, so that the state of the image arrangement can be more easily grasped, and the usability can be further improved. .
[0047]
In each of the above cases, for example, as described in claim 8, the image reproducing device changes the size of an image displayed on the display means according to the size of the image arrangement. Is also good.
[0048]
According to the above configuration, the size of the image displayed on the display means is changed according to the size of the image arrangement, so that the entire image of the image arrangement can be easily grasped, and the usability is further improved. Can be improved.
[0049]
Further, in each of the above cases, for example, as described in claim 9, the image reproducing apparatus includes an image rearrangement setting unit that rearranges the arrangement of the images when the image in the memory is deleted. May be used.
[0050]
According to the above configuration, when the image in the memory is deleted, the arrangement of the images is rearranged by the image rearrangement setting means, so that it is possible to save the trouble of manually setting the image arrangement each time. Properties can be further improved.
[0051]
In each of the above cases, for example, as described in claim 10, the image reproducing apparatus may add the image arrangement information as meta information of an image file in the memory.
[0052]
According to the above configuration, since the image arrangement information is added as the meta information of the image file in the memory, the image arrangement is maintained even if the image file is copied or moved without being aware of the setting of the image arrangement. And the usability can be further improved.
[0053]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments described below are preferred embodiments of the present invention, and therefore, various technically preferred limitations are added. However, the scope of the present invention is not limited to the following description. The embodiments are not limited to these embodiments unless otherwise specified.
[0054]
1 to 11 are diagrams showing an embodiment of an image reproducing apparatus according to the present invention. FIG. 1 is a block diagram of a digital still camera apparatus 1 to which an embodiment of the image reproducing apparatus according to the present invention is applied. FIG.
[0055]
1, a digital still camera device 1 includes a system control unit 2, an imaging unit 3, an image processing unit 4, a display control unit 5, an LCD (Liquid Crystal Display) 6, a recording medium interface unit 7, a recording medium 8, and a hard key. An interface unit 9 and the like are provided.
[0056]
The system control unit (image arrangement setting unit, image arrangement determining unit, image rearrangement setting unit) 2 includes a main CPU (Central Processing Unit), a memory, a timer, and the like, and a digital still camera based on a program in the memory. By controlling each unit of the apparatus 1, the basic processing as the digital still camera apparatus 1 is performed, and the image reproduction processing described later is performed. In particular, the system control unit 2 expands the display image in the memory space of the memory or constructs a plane, arranges the display images in an arbitrary arrangement on the virtual plane, and also displays the display image on the virtual plane of the memory space. The image arrangement setting of the display images arranged in an arbitrary arrangement is analyzed.
[0057]
The imaging unit 3 includes an optical system component (a lens and a lens driving motor), a CCD (Charge Coupled Device), a CCD driving circuit, an A / D converter, and the like, and condenses light from a subject onto the CCD using the optical system component. Then, the image is photoelectrically converted by a CCD driven by a CCD drive circuit, and is converted into a digital image signal by an A / D converter.
[0058]
The image processing unit (reproducing unit) 4 includes an image processing DSP (digital signal processor), a memory, and the like. The image processing unit 4 performs various types of image processing on a digital image signal of an image captured by the imaging unit 3. Focusing, exposure adjustment, and the like are performed by controlling the CCD drive timing and the lens drive motor, and image compression / decompression processing is performed.
[0059]
The display control unit 5 includes a D / A converter and an on-screen display (OSD) controller, and performs signal processing for displaying the digital image signal processed by the image processing unit 4 on the LCD 6. For example, various graphic images are generated and displayed on the LCD 6.
[0060]
An LCD (display means) 6 displays an image and a graphic for a user interface under the control of the display control unit 5.
[0061]
The recording media interface unit 7 includes a media insertion unit into which the recording medium 8 is removably inserted, a memory card controller, and the like, and interfaces with the recording medium 8 inserted into the media insertion unit.
[0062]
The recording medium 8 uses a flash memory or the like, and is detachably inserted into the recording medium interface unit 7 to store compressed image signals and various information related to images.
[0063]
The hard key interface unit 9 includes a sub CPU and the like, detects the state of a user interface such as keys and dials (not shown), and controls the main power of the system control unit 2 to the main CPU.
[0064]
Although not shown, an operation unit (selection instructing means) is connected to the hard key interface unit 9, and the mode (photographing mode, reproduction mode, etc.) of the digital still camera device 1 is set in the operation unit. Mode dial, presentation setting key for setting the playback mode to presentation mode, presentation start key for instructing the start of presentation, up key, down key, left key for instructing the display of the image of interest displayed on LCD 6 up, down, left and right, and back and forth Various keys such as a key, a right key, a previous key, a rear key, an ENTER key for instructing the selection, a delete key, and a setting addition key are provided.
[0065]
Next, the operation of the present embodiment will be described. The digital still camera device 1 according to the present embodiment stores image data of a captured image in the recording medium 8 and then arranges and reproduces the image data in a form suitable for a use form when reproducing the image data.
[0066]
In the photographing operation, the digital still camera device 1 performs the same processing as the above-described conventional one. That is, when the user operates various keys and dials to determine a shooting mode (high image quality mode, low image quality mode, etc.) prior to image capturing, the user's operation contents are transmitted via the hard key interface unit 9. Then, the system control unit 2 determines and generates a guidance graphic according to the operation, and displays the guidance graphic on the LCD 6 via the display control unit 5 to prompt the user to perform the next operation.
[0067]
When the shooting mode is determined, the system control unit 2 sets processing parameters corresponding to the mode in the image processing unit 4 or the user manually operates the zoom lever to determine the angle of view (composition). . At this time, the system control unit 2 determines the content of the user's operation, controls the imaging unit 3 according to the operation, and drives the lens.
[0068]
Under the control of the image processing unit 4, the imaging unit 3 starts an imaging operation for displaying a preview image on the LCD 6 prior to actual shooting.
[0069]
The digital still camera device 1 continuously sends image data captured by the imaging unit 3 to the image processing unit 4, and performs image processing such as color space conversion, gamma correction, and white balance adjustment in the image processing unit 4. Thereafter, the image data is sent to the display control unit 5. At this time, the image processing unit 4 simultaneously detects focus and exposure, and controls the imaging unit 3 to perform adjustment.
[0070]
The display control unit 5 performs signal processing on the image data, displays the captured image on the LCD 6, and presents the imaging state to the user.
[0071]
Next, in the digital still camera device 1, when the release button is pressed, the system control unit 2 determines whether the release button is pressed, and the imaging unit 3 captures a predetermined image under the control of the image processing unit 4. And sends it to the image processing unit 4. The image processing unit 4 performs image processing and compression processing on the transmitted image according to the shooting mode.
[0072]
The system control unit 4 reads out the compressed image data, adds header information thereto, and writes the image data to the recording medium 8 through the recording medium interface unit 7.
[0073]
At this time, the file name added as the header information is automatically allocated as a predetermined character string (for example, “RIMG” or the like) + serial number as in the related art. The serial number is, for example, the serial number of the file name of the file already recorded in the recording medium plus 1, and is assigned, for example, as “RIMG343.jpg, RIMG344.jpg.”. If the file does not exist in the recording medium, the serial number is set to 1 and becomes “RIMG001.jpg”. The system control unit also updates the file management information in the recording medium at the same time. With the above operation processing, one photographing operation is completed.
[0074]
When the image data is stored in the recording medium 8 after being photographed as described above, the digital still camera device 1 reproduces the image data in the storage medium 8 according to a user operation.
[0075]
That is, when the reproduction is instructed by the user's operation, the digital still camera device 1 determines by the system control unit 2 via the hard key interface unit 9 in the same manner as in the case of the photographing operation. The system control unit 2 reads out the file management information in the recording medium 8 via the recording medium interface unit 7, and sorts the files corresponding to the format of the file name (“RIMG” + serial number) in ascending numerical order. A frame number is allocated, and a frame number management table as shown in FIG. 12 is created.
[0076]
When the preparation process for reproduction is completed as described above, the system control unit 2 performs the reproduction process as shown in FIG. That is, as shown in FIG. 2, the system control unit 2 reproduces the maximum frame number, that is, the last frame, from within the recording medium 8 via the recording medium interface unit 7 (step S101). That is, when the system control unit 2 reads the file of the last frame from the recording medium 8, the system control unit 2 writes the file on the memory in the system control unit 2, analyzes the header information from the data on the memory, and processes parameters necessary for JPEG decompression. Is extracted and set in the image processing unit 4, and the compressed image data is transferred to the image processing unit 4. The image processing unit 4 stores the JPEG-decompressed image data in a memory in the system control unit 2, and when the JPEG decompression is completed, the system control unit 2 uses the memory address and image size in the system control unit 2 based on the image size. The conversion magnification is set in the display control unit 5. The display control unit 5 reads out image data from a predetermined memory in the system control unit 2, processes the signal, displays the image data on the LCD 06, and presents a reproduction state to the user.
[0077]
When playing back and displaying the last frame, the system control unit 2 monitors the user's operation input via the hard key interface unit 9 and checks whether the presentation setting key has been pressed (step S102). When the presentation is pressed, the presentation setting process is started (step S103), and it is checked whether the presentation start key is pressed (step S104). The presentation setting process will be described later.
[0078]
When the presentation start key is pressed in step S104, the system control unit 2 activates the presentation processing to perform the presentation processing (step S105), and the right key (frame advance) or the left key (frame return) is pressed. Is checked (step S106). The presentation process will be described later.
[0079]
If the presentation setting key is not pressed and the presentation start key is not pressed in steps S102 and S104, the system control unit 2 proceeds to step S106, where the right key (frame advance) or the left key ( It is checked whether (frame rewind) has been pressed (step S106).
[0080]
In step S106, when the right key (frame advance) or the left key (frame return) is pressed, the system control unit 2 sets the system control unit 2 for the next frame (at the time of frame advance) or the previous frame (at the time of frame return). The image data is read out from a predetermined memory in the device, signal-processed, displayed on the LCD 06, and the reproduction state is presented to the user (step S107). At this time, if there is no next frame, the system control unit 2 makes a round to reproduce and display the first frame, and if there is no previous frame, it loops and reproduces and displays the last frame.
[0081]
In step S107, the next frame or the previous frame is reproduced / displayed, or in step S106, if the right key (frame advance) or the left key (frame return) is not pressed, the system control unit 2 sets the delete key. It is checked whether the key has been pressed (step S108), and when the delete key is pressed, a delete process is performed (step S109). The deletion processing will be described later.
[0082]
In step S109, when the delete process is performed, or when the delete key is not pressed in step S108, the system control unit 2 checks whether the mode dial is set to a mode other than reproduction and the mode change instruction operation is performed (step S110). If there is no mode change instruction operation, the process returns to step S102, and the same processing as above is repeated (steps S102 to S110).
[0083]
If there is a mode change instruction operation in step S110, the reproduction process ends.
[0084]
When the presentation setting key is pressed in step S102, the digital still camera device 1 performs a presentation setting process. The presentation setting process is performed as shown in FIG. 3 and FIG.
[0085]
That is, when the presentation setting key is pressed, the system control unit 2 activates the presentation setting process, and as shown in FIG. 3, is stored in the recording medium 8 via the recording medium interface unit 7 as shown in FIG. It is checked whether or not a presentation setting file already exists (step S201). If there is a presentation setting file, the presentation setting file is read (step S202). If there is no presentation setting file in step S201, the system control unit 2 creates a presentation setting file in an initial state (step S203).
[0086]
When creating the presentation setting file in the initial state, the system control unit 2 registers, as the file in the initial state, the image file displayed on the LCD 6 when the presentation setting process is started, as the starting file.
[0087]
As shown in FIG. 5, the presentation setting file includes file names, attributes, upward file names, downward file names, leftward file names, rightward file names, forward file names, and backward file names. The file name is the file name of the file added to the setting, and the attribute is whether or not the file is the starting file. If the file is not the starting file, from which direction the file was added (starting Direction), and a code that uniquely corresponds to the content on the left is assigned to the actual file. The upward file name to the backward file name indicate the file names of the files connected in the upward, downward, left, right, forward, and backward directions, respectively.
[0088]
Next, the system control unit 2 creates a setting confirmation screen 6a as shown in FIG. 6 based on the presentation setting file, and displays it on the LCD 6 via the display control unit 5 (step S204). When creating the setting confirmation screen 6a, the system control unit 2 reads out each set file, performs reproduction according to the above-described reproduction procedure, and arranges images based on the set arrangement.
[0089]
In FIG. 6, an image 11 surrounded by a focus frame Fa which is a wavy frame indicates a currently focused image, and is set as a starting image in an initial state. If there is an image arranged in the front-back direction or an image that cannot be displayed due to the overlapping arrangement, as shown in an image 12, an overlapping frame (guidance information) Ja superimposed below (rear to) the image. Is displayed, and the user is informed that there is an image that cannot be displayed further. In FIG. 6, the screen display is drawn by a graphic, but actually, a photographed image is displayed on the LCD 6.
[0090]
Next, the system control unit 2 checks whether there is an instruction input operation for moving the focus frame Fa (any one of the up key, the down key, the left key, the right key, the previous key, and the rear key) (step S205). If there is an instruction input operation for moving the focus frame Fa, it is determined from the current display state of the setting confirmation screen 6a whether or not it is possible to move (step S206). In step S206, if it is possible to move, the system control unit 2 moves the focus frame Fa to update the display contents (step S207), and there is a screen movement instruction input operation (enter key input operation). Is checked (step S208).
[0091]
If it is determined in step S206 that the layout image does not exist and the focus frame Fa cannot be moved, the system control unit 2 proceeds to step S208 to check whether there is a screen movement instruction input operation. If there is no operation for inputting an instruction to move the focus frame Fa, the flow shifts to step S208 to check whether there is an operation for inputting an instruction to move the screen (step S208).
[0092]
In step S208, when there is a screen movement instruction input (ENTER key), the system control unit 2 determines whether the screen can be moved from the current display state of the setting confirmation screen 6a (step S209). Here, the screen movement refers to a movement to another screen for displaying the arrangement state that could not be displayed on the LCD 6, and for example, as shown in an image 12 in FIG. This is effective only when the focused image has a focus frame Fa and is focused.
[0093]
In step S209, if the screen can be moved, the system control unit 2 creates a setting confirmation screen 6b as shown in FIG. 7 based on the setting file, and displays it on the LCD 6 via the display control unit 5. In step S210, as shown in FIG. 4, a setting addition instruction input operation (simultaneous pressing of a setting addition key and any one of an up key, a down key, a left key, a right key, a previous key, and a rear key) is performed. It is checked whether there is (Step S211). In FIG. 7, the screen display is drawn by a graphic, but actually, a photographed image is displayed on the LCD 6.
[0094]
When the screen cannot be moved in step S209 in FIG. 3 or when there is no screen movement instruction operation in step S208, the system control unit 2 moves to step S211 in FIG. It is checked whether there is an input operation (step S211).
[0095]
In step S211, when there is a setting input instruction operation, the system control unit 2 creates a setting confirmation screen 6d as shown in FIG. 8 and displays it on the LCD 6 via the display control unit 5 (step S212). ). In FIG. 8, the screen display is drawn by a graphic, but actually, a photographed image is displayed on the LCD 6.
[0096]
The display screens 6c and 6d in FIG. 7 show the transition of the screen display according to the setting addition operation. When the setting addition key and the left key are simultaneously pressed while the display screen 6c is displayed, The display is switched to the display screen 6d. The image 13 in FIG. 7 is an array added to the left side by the operation. When the setting is added, the system control unit 2 first inserts the image of the last frame number and adds the focus. At the same time as moving to the image 13, a conversion magnification is set in the display control unit 5 so that the added array falls within the display area of the LCD 6.
[0097]
When the setting confirmation screen 6d is displayed, the system control unit 2 checks whether the right key (frame advance) or the left key (frame return) is pressed (step S213). When the right key or the left key is pressed, the next The frame (at the time of frame advance) or the previous frame (at the time of frame return) is reproduced and the focused array, for example, the array of the image 13 in FIG. 8 is updated, and the screen display of the LCD 6 is changed to the display of FIG. Update as shown in screen 6e (step S214).
[0098]
In this case, when there is no next frame, the system control unit 2 makes a round to play and display the first frame, and when there is no previous frame, it makes one cycle to play and display the last frame.
[0099]
Next, the system control unit 2 checks whether there is an instruction input (ENTER key) for deciding the image to be added (step S215). It is updated (step S216), and it is checked whether there is a deletion instruction input (deletion key) (step S217).
[0100]
In updating the presentation setting file, the system control unit 2 adds the entry of the added image to the presentation setting file shown in FIG. 5 and also updates the setting contents of the combination source.
[0101]
If there is no frame forward or frame return instruction operation in step S213, the process proceeds to step S215 to check whether there is an instruction input (ENTER key) for determining the image to be added (step S215), and there is no confirmation instruction operation. In some cases, the process returns to step S213 and performs the same processing as above (steps S213 to S215).
[0102]
In addition, in step S211, when there is no addition instruction operation, the system control unit 2 checks whether there is a deletion instruction operation (step S217), and when there is a deletion instruction operation, starts the deletion process (step S218). The deletion processing will be described later.
[0103]
After performing the deletion process, the system control unit 2 creates a setting confirmation screen based on the settings after the deletion, displays the setting confirmation screen on the LCD 6 via the display control unit 5 (step S219), and determines whether the presentation setting key is pressed. That is, it is checked whether a presentation setting end instruction operation has been performed (step S220). If there is no presentation setting end instruction operation, the process returns to step S205 and performs the same processing as above (steps S205 to S220).
[0104]
If there is a presentation setting end instruction operation in step S220, the system control unit 2 ends the presentation setting process.
[0105]
When the presentation start key is pressed in step S104 in FIG. 2, the digital still camera device 1 performs a presentation process. The presentation process is performed as shown in FIG.
[0106]
That is, when the presentation start key is pressed, the system control unit 2 starts the presentation process and determines whether or not a presentation setting file exists in the recording medium 8 via the recording medium interface unit 7 (step S1). S301) If there is no presentation setting file, it is determined that the presentation process cannot be performed, and the process ends.
[0107]
In step S301, if there is a presentation setting file, the system control unit 2 reads the presentation setting file (step S302), reproduces an image file corresponding to the starting frame based on the read presentation setting file, and reads the image file corresponding to the starting frame. (Step S303).
[0108]
At this time, the system control unit 2 determines a movable direction from the presentation setting file, and stores OSD data (index information) indicating that the mobile terminal is movable, for example, data of a hand arrow (index image) shown in FIG. It is created, set in the display control unit 5, and displayed on the LCD 6.
[0109]
In FIG. 10, the screen of the LCD 6 displaying the starting image is shown in the center, and the screen displayed in response to the movement instruction operation indicated by the direction of the hand arrow, which is the OSD data image, is shown in each direction. I have. In FIG. 10, the screen display is drawn by a graphic, but actually, a photographed image is displayed on the LCD 6.
[0110]
Next, the system control unit 2 checks whether there is a frame movement instruction input operation (any of the up key, the down key, the left key, the right key, the previous key, and the rear key) (step S304), and issues a frame movement instruction. If there is an operation, it is determined from the setting file whether or not movement is possible (step S305).
[0111]
If it is possible to move in step S305, the system control unit 2 reproduces the image in the designated direction and reproduces and displays the image on the LCD 6 (step S306). It is checked whether an instruction operation has been performed (step S307).
[0112]
If it is determined in step S305 that the direction is not movable, or if there is no frame movement instruction operation in step S304, the system control unit 2 checks whether there is a presentation end instruction operation (step S305), and there is no presentation end instruction operation. In some cases, the process returns to step S304 and performs the same processing as above (steps S304 to S307).
[0113]
In step S307, if there is a presentation end instruction operation, the system control unit 2 ends the presentation process, but at this time, also deletes the OSD display (hand arrow display) displayed on the LCD 6.
[0114]
Then, the digital still camera device 1 performs a deletion process when there is a deletion instruction operation in step S108 of FIG. 2 or FIG. 217, and performs the deletion process as shown in FIG.
[0115]
That is, when there is a delete instruction operation, the system control unit 2 activates a delete process and determines whether or not a presentation setting file exists in the recording medium 8 via the recording medium interface unit 7 (step S401). If the presentation setting file does not exist, the image file of the designated frame is deleted (step S411), and the process ends.
[0116]
If there is a presentation setting file in step S401, the system control unit 2 reads the presentation setting file (step S402) and determines whether an image file corresponding to the designated frame is registered in the presentation setting file. A determination is made (step S403).
[0117]
If the image file corresponding to the designated frame is not registered in the presentation setting file in step S403, the system control unit 2 deletes the image file of the designated frame (step S411), and ends the processing. If an image file corresponding to the specified frame is registered in the presentation setting file, it is determined whether or not the specified image file is the starting image (step S404).
[0118]
If the specified image file is the starting image in step S404, the system control unit 2 deletes the presentation setting file (step S405) and deletes the image file of the specified frame (step S411). The process ends.
[0119]
If the designated image file is not the starting image in step S404, the system control unit 2 determines whether or not there are three or more links of the deleted frame to the image (step S406). In this case, all the links other than the base axis direction and the registration of the image linked to the link destination image are deleted (step S407).
[0120]
In the attribute data of FIG. 5, the base axis direction means two right and left if the attribute is right or left, two upper and lower if upper or lower, and front if lower or front. And the two subsequent directions, that is, directions connected by straight lines in the direction of the starting point.
[0121]
In step S406, if the number of links to be deleted is less than three or the link other than the base axis direction is deleted, the system control unit 2 changes the setting data of the remaining two or less link destinations. (Step S408). At this time, the system control unit 2 deletes the connection from the connection destination to the specified image when the connection destination is one, and connects the two images when the connection destination is two. replace.
[0122]
Next, the system control unit 2 deletes the registration of the specified image from the presentation setting data (step S409), and saves the changed presentation setting data (step S410).
[0123]
Then, the system control unit 2 deletes the specified image file (step S411), and ends the processing.
[0124]
As described above, when the digital still camera device 1 of the present embodiment displays an image on the LCD 6 based on the image data reproduced by the image processing unit 4, the digital still camera device 1 In the memory space, the system control unit 2 constructs a virtual plane and arranges display images in an arbitrary arrangement on the virtual plane.
[0125]
Therefore, it is possible to perform an image arrangement suitable for a user's use mode of a reproduced image, for example, a presentation use mode, and to display based on the image arrangement, thereby improving usability.
[0126]
Further, in the digital still camera device 1 of the present embodiment, the system control unit 2 constructs a virtual space in the depth direction with respect to the virtual plane of the memory space, and displays the display image in an arbitrary array in the depth direction. Place.
[0127]
Therefore, it is possible to perform an image arrangement that is more suitable for a user's use mode of the reproduced image, for example, a presentation use mode, and to display based on the image arrangement, thereby further improving the usability.
[0128]
Furthermore, when displaying an image on the LCD 6 based on the image data reproduced by the image processing unit 4, the digital still camera device 1 of the present embodiment has a memory space of a memory where a display image to be displayed on the LCD 6 is expanded. The system control unit 2 analyzes the image arrangement setting of the display images arranged in an arbitrary array on the virtual plane, and operates the operation unit to move the display image selection direction in any direction such as up, down, left, right, and diagonal directions. The image arranged in the direction designated by the selection is reproduced by the image processing unit 4 and displayed on the LCD 6.
[0129]
Therefore, it is possible to display an image having an image arrangement suitable for a user's use mode of a reproduced image, for example, a presentation use mode, and to improve usability.
[0130]
Further, in the digital still camera device 1 according to the present embodiment, when the operation unit instructs the selection direction of the display image to move in the depth direction, the system control unit 2 moves the depth direction with respect to the virtual plane in the memory space. The image arrangement setting of the display images arranged in an array in the virtual space is also analyzed, the image arranged in the depth direction selected and instructed by the operation unit is determined, and the determined image is processed by the image processing unit. 4 and is displayed on the LCD 6.
[0131]
Therefore, it is possible to display an image having an image arrangement more suitable for a user's use mode of a reproduced image, for example, a presentation use mode, and to further improve the usability.
[0132]
Further, the digital still camera device 1 according to the present embodiment provides, based on the image arrangement information of the analysis result of the system control unit 2, guidance information indicating a direction in which an image exists in the memory space and can be moved. Ja and the like are displayed on the LCD 6.
[0133]
Therefore, it is possible to recognize the direction in which the image is movable in the presence of the image, and the usability can be further improved.
[0134]
Further, the digital still camera device 1 of the present embodiment displays on the LCD 6 index information indicating a state of image arrangement based on the image arrangement information obtained as a result of analysis by the system control unit 2.
[0135]
Therefore, the state of the image arrangement can be easily grasped, and the usability can be further improved.
[0136]
Further, the digital still camera device 1 of the present embodiment displays the index information on the LCD 6 as an index image (hand arrow) which is an image.
[0137]
Therefore, the state of the image arrangement can be more easily grasped, and the usability can be further improved.
[0138]
In the digital still camera device 1 of the present embodiment, the size of the image displayed on the LCD 6 is changed according to the size of the image arrangement.
[0139]
Therefore, it is possible to easily grasp the whole image of the image arrangement, and it is possible to further improve the usability.
[0140]
Further, in the digital still camera device 1 of the present embodiment, when an image in the memory is deleted, the system control unit 2 rearranges the arrangement of the images.
[0141]
Therefore, it is possible to save the trouble of resetting the image arrangement manually one by one, and it is possible to further improve the usability.
[0142]
The digital still camera device 1 may store the contents of the presentation setting file shown in FIG. 5 as additional information in the meta information in the image file serving as the starting image.
[0143]
That is, header information having a hierarchical structure is added to the digital still camera image file as defined in the image file format standard Ver2.1. Stores the contents of the presentation setting file shown in FIG. 5 as additional information in the header information (specifically, the maker note area of the tag relating to the user information or the user comment area).
[0144]
Then, when storing the contents of the presentation setting file as additional information in the meta information in the image file serving as the starting image, the system control unit 2 executes step S201 in FIG. 3, step S301 in FIG. In step S401, instead of checking whether there is a presentation setting file in the recording medium 8, it is checked whether there is an image file storing the additional information.
[0145]
When the content of the presentation setting file is stored as additional information in the meta information in the image file serving as the starting image, the system control unit 2 executes step S202 in FIG. 3, step S302 in FIG. In step S402, the additional information in the image file of the starting image is read, and in step S203 of FIG. 3, the contents of the presentation setting file in the initial state are set and stored as additional information in the header information of the image file of the starting image. .
[0146]
Further, in step S405 of FIG. 11, the system control unit 2 deletes the presentation setting file, but stores the contents of the presentation setting file as additional information in the meta information in the image file serving as the starting image. Does not perform any operation processing.
[0147]
In this way, the image arrangement can be maintained even if the image file is copied or moved without being aware of the setting of the image arrangement, and the usability can be further improved.
[0148]
In the above description, the case has been described where the contents of the presentation setting file are stored as additional information in the meta information in the image file serving as the starting image. However, the settings of each image are stored in each image file, and the The setting information may be constructed by searching the setting contents.
[0149]
As described above, the invention made by the present inventor has been specifically described based on the preferred embodiments. However, the present invention is not limited to the above, and can be variously modified without departing from the gist thereof. Needless to say.
[0150]
For example, in the above-described embodiment, the case where the arrangement of the images is set in the digital still camera device 1 has been described. A different apparatus may be used. For example, the arrangement of images may be set on a personal computer, and playback may be performed on the digital still camera device 1 based on the setting information. Alternatively, the digital still camera device 1 may be connected to a personal computer, The arrangement of images in the digital still camera device 1 may be set by remote operation from a computer.
[0151]
Further, in the present embodiment, an example in which a three-dimensional natural image is rotated and displayed is shown as a preferred example for the purpose of presentation, but the content of the image is not particularly limited. Alternatively, an image of a document may be used. That is, the present invention is not limited to presentation purposes, but can be used for, for example, image classification.
[0152]
Furthermore, in the present embodiment, various operation keys are assumed, but the operation keys used in the above description are given for ease of explanation, and are limited to these operation keys. For example, if the key is used also as a key (zoom key or the like) used for shooting, a user interface with better operability can be realized.
[0153]
Further, in the present embodiment, when the image specified to be deleted is the origin image or when there are three or more links to the image, the link is deleted. The processing is not limited to the above-described processing. For example, processing such as moving the connection to another image may be performed by another algorithm.
[0154]
【The invention's effect】
According to the image reproducing apparatus of the present invention, when displaying an image on the display unit based on the image data reproduced by the reproducing unit, the memory space of the memory in which the display image to be displayed on the display unit is expanded In addition, since the image setting means constructs a virtual plane and arranges display images in an arbitrary arrangement on the virtual plane, an image arrangement suitable for a user's use of reproduced images, for example, a presentation use is performed. And display is performed based on the image arrangement, thereby improving usability.
[0155]
According to the image reproducing apparatus of the second aspect, the image arrangement setting means constructs a virtual space in the depth direction with respect to the virtual plane of the memory space, and displays the display image in an arbitrary arrangement also in the depth direction. Is arranged, it is possible to perform an image arrangement more suitable for a user's use mode of the reproduced image, for example, a presentation use mode, etc., and display based on the image arrangement to further improve the usability. it can.
[0156]
According to the image reproducing apparatus of the present invention, when displaying an image on the display means based on the image data reproduced by the reproducing means, the memory space of the memory in which the display image to be displayed on the display means is expanded Selection instructing means for analyzing the image arrangement setting of the display images arranged in an arbitrary arrangement on the virtual plane by the image arrangement determining means, and moving the selection direction of the display image in an arbitrary direction such as up, down, left, right, or diagonal direction Since the image arranged in the direction designated by the instruction is reproduced by the reproducing means and displayed on the display means, an image having an image arrangement suitable for the use mode of the reproduced image of the user, for example, the presentation use mode is displayed. And the usability can be improved.
[0157]
According to the image reproducing apparatus of the fourth aspect, the image arrangement determining means sets the image arrangement of the display images arranged in an arbitrary arrangement in the virtual space in the depth direction with respect to the virtual plane of the memory space. The selection instructing means also moves the selection direction of the display image in the depth direction, and the image arranged in the depth direction selected and instructed by the selection instructing means in the memory space is determined by the image arrangement determination means. Since the determined image is reproduced by the reproducing means and displayed on the display means, an image having an image arrangement more suitable for the user's use mode of the reproduced image, for example, the presentation use mode can be displayed. , The usability can be further improved.
[0158]
According to the image reproducing apparatus of the fifth aspect, guidance information indicating a direction in which an image exists in the memory space and can be moved is displayed on the display unit based on the image arrangement information of the analysis result of the image arrangement determining unit. Therefore, it is possible to recognize the direction in which an image exists and can move, and the usability can be further improved.
[0159]
According to the image reproducing apparatus of the present invention, the index information indicating the state of the image arrangement is displayed on the display means based on the image arrangement information of the analysis result of the image arrangement determining means. It can be easily grasped, and the usability can be further improved.
[0160]
According to the image reproducing apparatus of the present invention, since the index information is displayed on the display means as an indexed image, the state of the image arrangement can be more easily grasped. Can be further improved.
[0161]
According to the image reproducing apparatus of the present invention, since the size of the image displayed on the display means is changed according to the size of the image arrangement, the entire image arrangement can be easily grasped. And the usability can be further improved.
[0162]
According to the image reproducing apparatus of the ninth aspect, when an image in the memory is deleted, the image arrangement is rearranged by the image rearrangement setting means, so that the image arrangement is manually reset each time. The labor can be saved, and the usability can be further improved.
[0163]
According to the image reproducing apparatus of the tenth aspect, since the image arrangement information is added as the meta information of the image file in the memory, the copy or movement of the image file can be performed without being aware of the setting of the image arrangement. Even if it is performed, the image arrangement can be maintained, and the usability can be further improved.
[Brief description of the drawings]
FIG. 1 is a block diagram of a digital still camera device to which an embodiment of an image reproducing device according to the present invention is applied.
FIG. 2 is a flowchart showing a reproduction process by the digital still camera device of FIG. 1;
FIG. 3 is a flowchart showing detailed processing of presentation setting processing in FIG. 2;
FIG. 4 is a flowchart showing processing subsequent to the presentation setting processing in FIG. 3;
FIG. 5 is an exemplary view showing an example of a presentation setting file set in a recording medium of the digital still camera device of FIG. 1;
FIG. 6 is a view showing an example of a screen for confirming the setting of a presentation image arrangement by the digital still camera device of FIG. 1;
FIG. 7 is a diagram illustrating an example of an image arrangement setting confirmation screen when screen movement is designated;
FIG. 8 is a view showing an example of a setting confirmation screen when a setting is added on the setting confirmation screen of FIG. 6;
FIG. 9 is a flowchart showing the detailed processing of the presentation processing of FIG. 2;
FIG. 10 is a diagram showing an example of a display screen of the LCD in a state in which a movable direction of the display image is indicated by an OSD data image.
FIG. 11 is a flowchart showing a deletion process by the digital still camera device of FIG. 1;
FIG. 12 is a diagram showing an example of a frame number management table created by the digital still camera device.
[Explanation of symbols]
1 Digital still camera device
2 System control unit
3 Imaging unit
4 Image processing unit
5 Display control unit
6 LCD
6a-6e display screen
7 Recording media interface
8 Recording media
9 Hard key interface
11-13 images
Fa Focus frame
Ja overlay frame

Claims (10)

In an image reproducing apparatus comprising: a reproducing unit for reproducing an image data file; and a display unit for displaying an image based on the image data reproduced by the reproducing unit, a display image to be displayed on the display unit is developed. An image reproducing apparatus comprising: a memory having a memory space; and an image arrangement setting unit configured to construct a virtual plane in the memory space and arrange display images in an arbitrary arrangement on the virtual plane. The image arrangement setting means constructs a virtual space in a depth direction with respect to the virtual plane of the memory space, and arranges display images in an arbitrary arrangement also in the depth direction. The image reproducing device according to any one of the preceding claims. In an image reproducing apparatus comprising: a reproducing unit for reproducing an image data file; and a display unit for displaying an image based on the image data reproduced by the reproducing unit, a display image to be displayed on the display unit is developed. A memory having a memory space, image arrangement determining means for analyzing image arrangement settings of display images arranged in an arbitrary array on a virtual plane of the memory space, and selecting display images in up, down, left, right, and oblique directions Selection instructing means for moving in an arbitrary direction such as the like, and the image arranged in the memory space in the direction selected and instructed by the selection instructing means is determined by the image arrangement determining means, and the determination is performed. An image reproducing apparatus, wherein an image is reproduced by the reproducing means and displayed on the display means. The image reproducing device, wherein the image arrangement determination unit also analyzes an image arrangement setting of a display image arranged in an arbitrary arrangement in a virtual space in a depth direction with respect to the virtual plane of the memory space, The selection instructing means moves the selection direction of the display image also in the depth direction, and the image arrangement determination means determines an image arranged in the memory space in the depth direction selected and instructed by the selection instructing means. The image reproducing apparatus according to claim 3, wherein the determined image is reproduced by the reproducing means and displayed on the display means. The image reproducing device displays guidance information indicating a direction in which an image exists in the memory space and is movable on the display unit based on image arrangement information of an analysis result of the image arrangement determining unit. 5. The image reproducing apparatus according to claim 3, wherein 5. The image reproducing apparatus according to claim 1, wherein the display unit displays index information indicating a state of the image arrangement based on image arrangement information obtained as a result of analysis by the image arrangement determining unit. The image reproducing device according to any one of the above. 7. The image reproducing apparatus according to claim 6, wherein the image reproducing apparatus displays the index information as an index image obtained by converting the index information into an image. 8. The image reproducing apparatus according to claim 1, wherein the image reproducing apparatus changes a size of an image displayed on the display unit according to a size of the image arrangement. 9. The image reproducing apparatus according to claim 1, further comprising an image rearrangement setting unit that rearranges the arrangement of the images when the image in the memory is deleted. The image reproducing device according to any one of the preceding claims. 10. The image reproducing apparatus according to claim 1, wherein the image reproducing apparatus adds the image arrangement information as meta information of an image file in the memory.

Images