JP2004120007A - Imaging apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an imaging apparatus which shifts any image display mode to a magnification display mode wherein magnification display processing is implemented to magnify and display part of reduced image data for ordinary display. <P>SOLUTION: The imaging apparatus shifts to the magnification display mode from any of the plurality of image display modes (single image display mode, 4-image display mode, 9-image display mode, and information display mode) by having only to depress a magnification display button 115. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an imaging device capable of enlarging and displaying reduced image data for normal display.
[0002]
[Prior art]
Some conventional digital cameras are capable of enlarging and displaying reduced image data for normal display. In addition, some conventional digital cameras have a plurality of image display modes (one image display mode, four image display mode, nine image display mode, information display mode, etc.).
[0003]
[Problems to be solved by the invention]
However, there is no conventional digital camera capable of shifting from any image display mode to an enlarged display mode for performing an enlarged display process for enlarging and displaying a part of reduced image data for normal display.
[0004]
The present invention has been made in order to solve such a problem. From any image display mode, an enlarged display mode for performing an enlarged display process of enlarging and displaying a part of reduced image data for normal display is provided. The purpose is to be able to migrate.
[0005]
[Means for Solving the Problems]
The imaging apparatus according to the present invention is an imaging apparatus having a plurality of image display modes, and is configured to perform an enlargement display mode for performing an enlargement display process for enlarging and displaying a part of reduced image data from any of the plurality of image display modes. The feature is that it can be migrated.
[0006]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described below with reference to FIGS.
FIG. 1 is a diagram illustrating a main configuration of an imaging device 10 according to the present embodiment. Note that the imaging device 10 may be a digital camera or a device having a function of capturing an image of a subject using an image sensor (for example, a portable information terminal with a digital camera).
[0007]
In FIG. 1, an imaging unit 101 is a unit that captures an image of a subject using an image sensor and generates original image data that is image data of the subject. The imaging control unit 102 is a unit that controls the operation of the imaging unit 101 according to an instruction from the main control unit 110. The imaging control unit 102 provides information on the image data generated by the imaging unit 101 to the main control unit 110. The image processing unit 103 is a unit that adjusts the image quality of the image data obtained from the imaging unit 101 according to a plurality of preset image adjustment parameters, and compresses the adjusted image data according to a predetermined image compression method. The memory 104 stores various data.
[0008]
The memory interface unit 105 is a unit that writes an image file specified by the main control unit 110 to the removable memory 106 and reads an image file specified by the main control unit 110 from the removable memory 106. The removable memory 106 can store a plurality of image files.
[0009]
The network interface unit 107 is a unit that transmits the image file specified by the main control unit 110 to the external device 108. The external device 108 is a device in which an application program for remotely controlling the imaging device 10, an application program for adjusting the image quality of image data according to a plurality of image adjustment parameters, and the like are installed.
[0010]
The display unit 109 is a unit that displays reduced image data of an image captured by the imaging unit 101, reduced image data of an image file read from the removable memory 106, and the like.
[0011]
The main control unit 110 is a unit that controls various functions of the imaging device 10. The memory 111 is a memory for storing the block number of the image block selected in the previous enlarged display processing.
[0012]
The user interface unit 117 is a unit that notifies the main control unit 110 of a user's instruction. The user interface unit 117 has, for example, a power switch 112, a shutter button 113, a display button 114, an enlarged display button 115, and a select button 116. The power switch 112 is a switch for turning on or off the power of the imaging device 10. The shutter button 113 is a button for instructing start of imaging. The display button 114 is a button for switching the image display mode to one image display mode, four image display mode, nine image display mode, or information display mode. The enlarged display button 115 is a button for turning on or off the enlarged display mode. Note that the imaging device according to the present embodiment can shift to the enlarged display mode from any of the one-image display mode, the four-image display mode, the nine-image display mode, and the information display mode. The select button 116 is a button for switching the processing mode of the enlarged display processing to mode A or mode B. The processing mode of the enlarged display processing can be switched by the select button 116 or can be switched according to an instruction from the external device 108.
[0013]
FIG. 2 is a flowchart illustrating a procedure of the imaging process according to the present embodiment.
Step S201: The imaging unit 101 captures an image of a subject using an image sensor, and generates image data of the subject (hereinafter, original image data).
[0014]
Step S202: The image processing unit 103 adjusts the image quality and the like of the original image data generated by the imaging unit 101 according to a plurality of preset image adjustment parameters, and three types of reduced image data ( Thumbnail data, reduced image data (small) and reduced image data (large)) are generated. Further, the image processing unit 103 converts the three types of reduced image data (thumbnail data, reduced image data (small), and reduced image data (large)) into the same image compression method (for example, ISO / IEC 10918-) as the original image data. 1 in accordance with the JPEG standard).
[0015]
FIG. 3 is a diagram illustrating an example of the relationship between original image data and three types of reduced image data (thumbnail data, reduced image data (small), and reduced image data (large)). The thumbnail data is the smallest reduced image data, which is used in a device such as a personal computer. The reduced image data (small) is reduced image data for normal display, and is reduced image data having a size larger than the thumbnail data. The imaging apparatus 10 uses reduced image data (small) when the image display mode is one image display mode, four image display mode, nine image display mode, or information display mode. The reduced image data (large) is reduced image data for enlarged display, and is the largest reduced image data. When the image display mode is the enlarged display mode, the imaging device 10 uses the reduced image data (large).
[0016]
FIG. 4 is a diagram illustrating an example of the relationship between reduced image data (small) and reduced image data (large). The reduced image data (small) and the reduced image data (large) are composed of a plurality of image blocks as shown in FIG. The image block n (n = 0 to 8) of the reduced image data (large) corresponds to the image block n of the reduced image data (small). That is, the image block n of the reduced image data (large) is an enlarged image of the image block n of the reduced image data (small). Therefore, when displaying an enlarged image of the image block n of the reduced image data (small), the imaging device 10 displays the image block n of the reduced image data (large). It is assumed that the size of the image block of the reduced image data (large) is equal to the size of the reduced image data (small).
[0017]
Step S203: The main control unit 110 includes the original image data, the thumbnail data, the reduced image data (small), the reduced image data (large), and the additional data (including various information related to the original image data) generated by the image processing unit 103. ) Is generated, and the generated image file is stored in the memory 104. FIG. 5 shows a schematic configuration of this image file.
[0018]
Step S204: The memory interface unit 105 reads the image file from the memory 104, and stores the read image file in the removable memory 106.
[0019]
As described above, according to the imaging apparatus 10 of the present embodiment, reduced image data for enlarged display can be generated from original image data obtained when an image of a subject is captured. Can be performed at high speed.
[0020]
Further, according to the imaging device 10 of the present embodiment, the reduced image data for enlarged display can be generated from the original image data instead of being generated from the thumbnail data or the reduced image data for normal display. High-resolution reduced image data for enlarged display can be displayed.
[0021]
FIG. 9 is a diagram illustrating a plurality of image display modes of the imaging device 10 according to the present embodiment. The imaging device 10 according to the present embodiment has a one-image display mode, a four-image display mode, a nine-image display mode, and an information display mode, as shown in FIG. The one-image display mode is an image display mode in which reduced image data (small) obtained from one image file is displayed on the display unit 109. The four-image display mode is an image display mode in which reduced image data (small) obtained from four image files is arranged in a matrix and displayed on the display unit 109. The nine-image display mode is an image display mode in which reduced image data (small) obtained from nine image files is arranged in a matrix and displayed on the display unit 109. The information display mode is an image display mode in which reduced image data (small) obtained from one image file and various information related to original image data obtained from the image data are displayed on the display unit 109.
[0022]
The imaging device 10 according to the present embodiment further has an enlarged display mode. The enlarged display mode is an image display mode in which an enlarged image of the reduced image data (small) selected by the user is displayed on the display unit 109 in accordance with an enlarged display process described later. The enlarged display mode can be switched from any one of the one-image display mode, the four-image display mode, the nine-image display mode, and the information display mode only by pressing the enlarged display button 115.
[0023]
As described above, the imaging apparatus 10 according to the present embodiment presses the enlarged display button 115 in any of a plurality of image display modes (one image display mode, four image display mode, nine image display mode, and information display mode). By simply switching to the enlarged display mode, a simple and easy-to-use user interface can be provided to the user.
[0024]
FIGS. 6 to 8 are flowcharts showing the processing procedure of the enlarged display processing for enlarging and displaying a part of the reduced image data (small).
Step S601: The main control unit 110 determines whether or not the user has turned on the enlarged display mode. At this time, the image display mode of the imaging device 10 may be any of the one-image display mode, the four-image display mode, the nine-image display mode, and the information display mode. If the user turns on the enlarged display mode, the process proceeds to step S602. In this case, the enlarged display mode is turned on.
[0025]
Step S602: The memory interface unit 105 reads an image file corresponding to the selected reduced image data (small) from the removable memory 106, and stores the read image file in the memory 104.
[0026]
Step S603: The main control unit 110 analyzes the image file stored in the memory 104, and determines whether or not reduced image data (large) is added to the image file. If it has not been added, the process proceeds to step S604, and if it has been added, the process proceeds to step S605.
[0027]
Step S604: The main control unit 110 displays a message or a mark indicating the fact on the display unit 109 to notify the user that the enlarged display processing cannot be performed. Thereafter, the main control unit 110 returns to the original image display mode (the screen in the single image display mode, the four image display mode, or the information display mode).
[0028]
Step S605: The main control unit 110 determines the processing mode of the enlarged display processing. When the processing mode is mode A, the process proceeds to step S606, and when the processing mode is mode B, the process proceeds to step S611. Mode A is a processing mode in which the enlarged display processing is started from the central image block (image block 4). Mode B is a processing mode in which the enlarged display processing is started from the image block corresponding to the block number stored in the previous enlarged display processing.
[0029]
Step S606: The main control unit 110 extracts the central image block from the reduced image data (large), and displays the extracted image block on the display unit 109.
Step S607: The main control section 110 determines whether or not the user has turned off the enlarged display mode. If the user turns off the enlarged display mode, the process proceeds to step S608.
[0030]
Step S608: The main control unit 110 ends the enlarged display processing and returns to the original image display mode (the screen in the single image display mode, the four image display mode or the information display mode).
[0031]
Step S609: The main control section 110 determines whether or not another image block has been selected. If another image block has been selected, the process proceeds to step S610. The selection of an image block can be performed using the user interface unit 107.
[0032]
Step S610: The main control unit 110 extracts the selected image block from the reduced image data (large), and displays the extracted image block on the display unit 109.
[0033]
Step S611: The main control section 110 reads out the block number stored in the memory 111.
[0034]
Step S612: The main control unit 110 cuts out the image block corresponding to the block number read out in step S611 from the reduced image data (large), and displays the cut out image block on the display unit 109.
[0035]
Step S613: The main control section 110 determines whether or not the user has turned off the enlarged display mode. When the user turns off the enlarged display mode, the process proceeds to step S614.
[0036]
Step S614: The main control section 110 writes the block number of the selected image block into the memory 111.
[0037]
Step S615: The main control unit 110 ends the enlarged display processing and returns to the original image display mode (the screen in the single image display mode, the four image display mode or the information display mode).
[0038]
Step S616: The main control section 110 determines whether or not another image block has been selected. If another image block has been selected, the process proceeds to step S617. The selection of an image block can be performed using the user interface unit 107.
[0039]
Step S617: The main control unit 110 extracts the selected image block from the reduced image data (large), and displays the extracted image block on the display unit 109.
[0040]
As described above, according to the imaging apparatus 10 of the present embodiment, since the enlarged display processing can be performed using the reduced image data for enlarged display obtained when the subject is imaged, the enlarged display processing can be performed at high speed. Will be able to do it.
[0041]
Further, according to the imaging device 10 of the present embodiment, the reduced image data for enlarged display can be generated from the original image data instead of being generated from the thumbnail data or the reduced image data for normal display. High-resolution reduced image data for enlarged display can be displayed.
[0042]
Further, according to imaging apparatus 10 of the present embodiment, enlarged display processing can be started from the part stored at the time of the previous enlarged display processing.
[0043]
(Other embodiments)
A software program for realizing the functions of the above-described embodiments is provided to an apparatus connected to the various devices or a computer in the system so that the various devices operate to realize the functions of the above-described embodiments. The present invention also includes a code that is supplied and executed by operating the various devices according to a program stored in a computer (CPU or MPU) of the system or the apparatus.
[0044]
In this case, the software program code itself implements the functions of the above-described embodiment, and the program code itself constitutes the present invention. As a transmission medium of the program code, a communication medium (a wired line or a wireless line such as an optical fiber) in a computer network (WAN such as a LAN or the Internet, a wireless communication network, etc.) system for transmitting and supplying the program information as a carrier wave. Etc.) can be used.
[0045]
Further, means for supplying the program code to a computer, for example, a recording medium storing the program code constitutes the present invention. As a recording medium for storing such a program code, for example, a flexible disk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, a magnetic tape, a nonvolatile memory card, a ROM, and the like can be used.
[0046]
When the computer executes the supplied program code, not only the functions of the above-described embodiments are realized, but also the OS (Operating System) or other application software running on the computer. Needless to say, such a program code is also included in the embodiment of the present invention when the functions of the above-described embodiment are realized in cooperation with the above.
[0047]
Further, after the supplied program code is stored in a memory provided in a function expansion board of a computer or a function expansion unit connected to the computer, a CPU provided in the function expansion board or the function expansion unit based on the instruction of the program code. It is needless to say that the present invention also includes a case where the functions of the above-described embodiments are implemented by performing part or all of the actual processing.
[0048]
It should be noted that the shapes and structures of the respective parts shown in the above-described embodiments are merely examples of the specific embodiments for carrying out the present invention, and the technical scope of the present invention is limited by these. It must not be interpreted. That is, the present invention can be embodied in various forms without departing from the spirit or main features thereof.
[0049]
【The invention's effect】
According to the present invention, it is possible to shift from any image display mode to an enlarged display mode for performing an enlarged display process for enlarging and displaying a part of reduced image data for normal display.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a main configuration of an imaging device according to an embodiment.
FIG. 2 is a flowchart illustrating a procedure of an imaging process.
FIG. 3 is a diagram illustrating the relationship between original image data and three types of reduced image data (thumbnail data, reduced image data (small), and reduced image data (large)).
FIG. 4 is a diagram illustrating a relationship between reduced image data (small) and reduced image data (large).
FIG. 5 is a diagram showing a schematic configuration of an image file.
FIG. 6 is a flowchart illustrating a procedure of an enlarged display process.
FIG. 7 is a flowchart illustrating a procedure of an enlarged display process.
FIG. 8 is a flowchart illustrating a procedure of an enlarged display process.
FIG. 9 is a diagram illustrating a relationship between image display modes according to the present embodiment.
[Explanation of symbols]
Reference Signs List 10 imaging device 101 imaging unit 102 imaging control unit 103 image processing unit 104 memory 105 memory interface unit 106 removable memory 107 network interface unit 108 external device 109 display unit 110 main control unit 111 memory 112 power switch 113 shutter button 114 display button 115 Enlarge Display button 116 select button 117 user interface

Claims (5)

An imaging device having a plurality of image display modes,
An imaging apparatus characterized in that it is possible to shift from any one of the plurality of image display modes to an enlarged display mode for performing an enlarged display process for enlarging and displaying a part of reduced image data. The imaging apparatus according to claim 1, wherein one of the plurality of image display modes is an image display mode for displaying reduced image data obtained from one image file. The imaging apparatus according to claim 1, wherein one of the plurality of image display modes is an image display mode for displaying reduced image data obtained from four image files. The imaging apparatus according to claim 1, wherein one of the plurality of image display modes is an image display mode for displaying reduced image data obtained from nine image files. 4. The image display mode according to claim 1, wherein one of the plurality of image display modes is a reduced image data obtained from one image file and information on the original image data of the reduced image data. 5. The imaging device according to claim 4.

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