JP4232360B2 - Image file generation device, image processing device, and image file editing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for performing image processing using an image file including image data and attached information of the image data.
[0002]
[Prior art]
In recent years, a method has been widely used in which image data is generated by an imaging device such as a digital still camera, a digital video camera, or a scanner, and the image data is output by an output device such as a CRT, a liquid crystal display, a printer, a projector, or a television receiver. ing. In such an image output method, the brightness and color tone of the subject may not be faithfully reproduced due to differences in color reproduction characteristics between the imaging device and the output device. Conventionally, in view of such a problem, a technique for automatically correcting an image on the output device side has been proposed.
[0003]
[Problems to be solved by the invention]
In the above-described technique, image processing information for performing appropriate image processing on the generated image data, that is, various information such as contrast, brightness, and sharpness is recorded in the image file, and the output device This information was analyzed and corrected. However, this technique has the following problems. In order to perform appropriate correction on the output device side, various information is required, and the amount of information required increases as the image quality is increased, and the size of the image file increases. . Further, the increase in the image file size has caused a problem that the number of image data that can be recorded in the imaging apparatus is limited.
[0004]
The present invention has been made in view of these problems, and provides a technique capable of performing optimum image processing desired by a user while minimizing image processing information to be recorded in an image file. Objective.
[0005]
[Means for solving the problems and their functions and effects]
In order to solve at least a part of the above problems, the present invention adopts the following configuration. In other words, the image file generation device of the present invention is an image file generation device that generates an image file, an image data generation unit that generates image data, and image processing control data that should be used during image processing of the image data. An identifier data storage unit for holding a plurality of identifier data for specifying, an identifier data input unit for selecting and inputting at least one identifier data from a plurality of identifier data held in the identifier data storage unit , An image file generation unit that integrally generates the generated image data and the input identifier data and generates an image file that does not include the image processing control data, and the identifier data storage unit includes the identifier data And the correspondence between the image processing control data and included in the generated image file An image processing apparatus for performing image processing using the image processing control data corresponding to the identifier data included in the image file to the image data, and summarized in that comprises means for obtaining at least part of the identifier data .
[0006]
According to such an image file generation device, identifier data for specifying image processing control data to be used at the time of image processing of image data can be included in the image file. Thereby, it is not necessary to record the entity of the image processing control data in the image file, and an increase in the size of the image file can be suppressed.
[0007]
In the above image file generation device,
The identifier data may be data that is referred to in order to select at least one image processing control data to be used during the image processing from a plurality of image processing control data.
[0008]
According to such an image file generation device, a plurality of image processing control data can be used flexibly.
[0009]
Furthermore, in the above-described image file generation device,
The identifier data may be data including connection information necessary for connection to a server holding image processing control data.
[0010]
According to such an image file generation device, the image processing device can know the connection information to the server holding the image processing control data by referring to the identifier data. Accordingly, the image processing apparatus can appropriately acquire new image processing control data from any server on the network.
[0011]
Furthermore, the above-described image file generation device
An identifier data storage unit that holds a plurality of identifier data may be provided, and the identifier data input unit may be an image file generation device that selects at least one identifier data from the identifier data storage unit.
[0012]
According to such an image file generation device, identifier data and thus image processing control data can be used flexibly.
[0013]
Furthermore, in the above-described image file generation device,
The identifier data storage unit may be capable of acquiring identifier data from a storage medium that stores the identifier data and the image processing control data in association with each other.
[0014]
According to such an image file generation device, the identifier data can be appropriately acquired from the storage medium, so that extensibility can be improved.
[0015]
Furthermore, in the above-described image file generation device,
The identifier data storage unit may be capable of acquiring identifier data from an image processing apparatus that performs image processing.
[0016]
According to such an image file generation device, the image processing device and the image file generation device can hold the same identifier data. Accordingly, it is possible to accurately set the identifier data corresponding to the image processing control data used in the image processing apparatus.
[0017]
Furthermore, in the above-described image file generation device,
The identifier data storage unit may be capable of acquiring identifier data from a predetermined server connected via a communication line.
[0018]
According to such an image file generation device, identifier data can be appropriately acquired from a predetermined server connected via a communication line, so that expandability can be improved.
[0019]
The various image file generation apparatuses described above can be configured as a digital still camera. In addition, any apparatus such as a digital video camera or a scanner that can capture an image can be applied. When configured as a digital video camera, it can also be applied to moving image data such as MPEG. By adding identifier data to the moving image file, image processing corresponding to the identifier data can be performed on all or a part of the frames of the moving image.
[0020]
The present invention can also be configured as follows as an image processing apparatus that performs image processing based on the above-described image file. That is, the image processing apparatus of the present invention is an image processing apparatus that performs image processing on image data using image processing control data, and includes identifier data for specifying the image processing control data used for the image processing; And an image file input unit that inputs an image file that does not include the image processing control data, a storage unit that holds a correspondence relationship between the identifier data and the image processing control data, and the input An image processing control data setting unit for setting image processing control data used for the image processing based on the identifier data included in the image file and the correspondence relationship; and the set image processing control data for the image data using an image processing section for performing image processing, the image file generating device for generating the image file, held in the storage unit And summarized in that comprises the identifier data transmission unit that transmits at least part of the identifier data.
[0021]
According to such an image processing apparatus, identifier data for setting image processing control data to be used at the time of image processing of image data can be acquired from the input image file. Therefore, by using the identifier data, the image processing desired by the user can be automatically performed at the time of image file generation. Image processing control data refers to various parameters used in image processing such as contrast, brightness, and sharpness.
[0022]
In the above image processing apparatus,
The identifier data may be data for selecting image processing control data used during the image processing from a plurality of image processing control data.
[0023]
According to this image processing apparatus, it is possible to select the image processing control data designated by the identifier data from a plurality of image processing control data held in advance by the image processing apparatus. Therefore, it is possible to simplify the processing for setting the image processing control data.
[0024]
Furthermore, in the above-described image processing apparatus,
The identifier data includes connection information necessary for connecting to a server holding the image processing control data via a communication line, and the image processing control data setting unit is configured to connect the server based on the connection information. The image processing control data may be obtained from
[0025]
According to such an image processing apparatus, image processing control data can be appropriately acquired from an arbitrary server on the network, and thus expandability can be improved.
[0026]
Furthermore, in the above-described image processing apparatus,
An image processing control data storage unit that holds the image processing control data may be provided.
[0027]
According to such an image processing apparatus, it is possible to perform image processing on image data using the image processing control data held in the image processing control data storage unit.
[0028]
Furthermore, in the above-described image processing apparatus,
The image processing control data storage unit may be capable of acquiring image processing control data from a storage medium that holds identifier data and image processing control data in association with each other.
[0029]
According to such an image processing apparatus, the identifier data and the image processing control data can be appropriately acquired via the storage medium, so that expandability can be improved.
[0030]
Furthermore, in the above-described image processing apparatus,
The image processing control data storage unit may be capable of acquiring image processing control data from a predetermined server connected by a communication line.
[0031]
According to such an image processing apparatus, data can be appropriately acquired from a server connected by a communication line, so that expandability can be improved.
[0032]
Furthermore, in the various image processing apparatuses described above,
A storage unit that holds a correspondence relationship between the identifier data and the image processing control data;
It is good also as a structure provided with the identifier data transmission part which transmits at least one part of the said held identifier data with respect to the image file generation apparatus which produces | generates an image file.
[0033]
According to such an image processing apparatus, identifier data held by the image processing apparatus can be transmitted to an image file generation apparatus that generates an image file. As a result, the image processing apparatus and the image file generation apparatus can hold identifier data having the same content. Therefore, the image processing apparatus inputs the image file generated by the image file generation apparatus and refers to the identifier data recorded in the image file, thereby accurately setting the image processing control data used at the time of image processing. be able to.
[0034]
The various image processing apparatuses described above can be configured as a printer. In addition, the present invention can be applied to various devices capable of handling images, such as computers, CRTs, and liquid crystal displays.
[0035]
The present invention can also be configured as an invention of an image file generation method. In this case, the present invention can be realized in various modes such as a computer program or a recording medium on which the program is recorded.
[0036]
The present invention may be configured not only as an image file generation device but also as an image file editing device described below. That is, the image editing apparatus of the present invention is
An image file editing apparatus that edits an image file, and inputs an image file including at least one of image processing control data for specifying image processing contents and identifier data for specifying the image processing control data, and image data An image file input unit; an identifier data input unit for inputting new identifier data for specifying image processing control data to be used during image processing of the image data; the newly input identifier data and the image data A new image file that does not include the image processing control data specified by the identifier data, and excludes both the image processing control data and the identifier data included in the input image file And an image file generation unit that generates
[0037]
According to such an image file editing apparatus, it is possible to change identifier data and image processing control data included in an image file to new identifier data.
[0038]
The above-described image file editing apparatus can be applied to various apparatuses capable of handling image files such as personal computers and printers. The present invention can also be configured as an invention of an image file editing method. In this case, the present invention can be realized in various modes such as a computer program or a recording medium on which the program is recorded.
[0039]
As a storage medium storing the program, various computer-readable media such as a flexible disk (FD), a CD-ROM, a magneto-optical disk, an IC card, a ROM cartridge, and an external storage device can be used.
[0040]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, as an example of an embodiment of the present invention, an image file generating device is configured as a digital still camera, an image processing device is configured as a printer, and an image file editing device is configured as a personal computer, and will be described in the following order.
A. Image processing system:
(A1) System overview:
(A2) Other aspects:
B. First embodiment:
(B1) Digital still camera device overview:
(B2) Image file configuration:
(B3) Printer device overview:
(B4) Image file generation processing:
(B5) Print processing:
(B6) Modification:
C. Second embodiment:
(C1) Personal computer device overview:
(C2) Image file editing process 1:
(C3) Image file editing process 2:
[0041]
A. Image processing system:
(A1) System overview:
FIG. 1 is an explanatory diagram illustrating an example of an image processing system according to the present embodiment. The digital still camera 10 captures an image of a person or a landscape and generates image data. At the time of imaging, the user designates a shooting mode corresponding to the shooting target. The shooting mode refers to an identifier that is referred to in order to optimally output an image, such as a landscape mode when shooting a landscape and a portrait mode when shooting a person. The digital still camera 10 generates an image file 11 that integrally holds the generated image data and the name of the shooting mode selected by the user. The image file 11 is recorded on a memory card 12 stored in the digital still camera 10.
[0042]
The user of the digital still camera 10 takes out the memory card 12 stored in the digital still camera 10 and prints it in a predetermined slot of the printer 13 when printing the captured image. The printer 13 reads the image file 11 from the attached memory card 12. The printer 13 sets the image processing control data with reference to the database 15 in which the shooting mode name and the image processing control data are recorded in association with each other according to the shooting mode name recorded in the image file 11. Image processing control data refers to various parameters used in image processing such as contrast, brightness, and sharpness. The printer 13 performs image processing on the image data included in the image file 11 using the set image processing control data, and performs printing.
[0043]
The shooting mode name can be changed as appropriate even after the digital still camera 10 generates the image file 11. The user inserts the memory card 12 into a predetermined slot of the personal computer 14 and reads the image file 11. The personal computer 14 resets the shooting mode name and generates a new image file by a predetermined operation from the user. The personal computer 14 records a new image file on the memory card 12.
[0044]
(A2) Other aspects:
FIG. 2 is an explanatory diagram illustrating another example of the image processing system according to the present embodiment. The image processing system can include a display 20 and a server 21 in addition to the digital still camera 10, the printer 13, and the personal computer 14 described in FIG.
[0045]
The display 20 has an image processing function. The display 20 reads the image file generated by the digital still camera 10 and performs image processing on the image data according to the shooting mode name included in the image file. Therefore, the optimum image desired by the user can be displayed.
[0046]
Further, the server 21 has a function of performing image processing on image data input via the network NE. Therefore, when the image processing function is not built in the printer 13 or the display 20, the server 21 can perform image processing instead of these devices.
[0047]
The delivery of the image file is not limited to delivery via the memory card 12. Direct delivery may be performed between the devices via a cable CV or a wired or wireless network NE.
[0048]
B. First embodiment:
(B1) Digital still camera device overview:
FIG. 3 is an explanatory diagram showing a schematic configuration of the digital still camera. The digital still camera 10 includes a control unit 30 that controls all functions of the digital still camera 10, a CCD unit 31 that converts light information into image data, and an operation unit 32 that performs a shutter operation, a shooting mode selection operation, and the like. In addition, a liquid crystal display 33 for displaying captured images and shooting mode names, a memory card slot 34 for mounting a memory card for recording generated image files, and the like are also provided.
[0049]
The control unit 30 includes a CPU, a RAM, an EEPROM, and the like, and the CPU performs various processes according to a program (firmware) recorded in the EEPROM. The RAM is used as a work area for the CPU to perform various processes. In addition to the above program, a plurality of shooting mode names are recorded in the EEPROM.
[0050]
Further, in place of the memory card, a USB port 35 that can output an image file, a shooting mode name input interface 36 that can acquire a shooting mode name from the outside, and the like can be provided.
[0051]
(B2) Image file configuration:
FIG. 4 is an explanatory diagram showing the structure of an image file generated by the digital still camera 10. The image file 11 has a file structure according to Exif, which is a standard for digital still camera image files. Exif specifications are defined by the Japan Electronics and Information Technology Industries Association (JEITA).
[0052]
The image file 11 includes an image data storage area 40 that stores image data, and an attached information storage area 41 that stores various attached information related to the stored image data. The image data storage area 40 stores image data in JPEG format. In the attached information storage area 41, attached information is stored in the TIFF format. In the attached information storage area 41, an area called a MakerNote data area 42 is allocated as a part thereof. The MakerNote data area 42 is an undefined area released to the manufacturer of the digital still camera, and the shooting mode name in this embodiment is stored in the MakerNote data area 42.
[0053]
In the present embodiment, the file configuration according to the Exif standard is shown, but the file configuration is not limited to this. The image data can be in the BMP format, TIFF format, or the like instead of the JPEG format. Further, the shooting mode name is not limited to being stored in the MakerNote data area 42, but may be stored in an area other than the image data storage area.
[0054]
(B3) Printer device overview:
Next, a printer 13 that outputs an image using the image file 11 generated by the digital still camera 10 will be described. FIG. 5 is an explanatory diagram showing a schematic configuration of the printer 13. The printer 13 includes a control unit 50 that controls all the functions of the printer 13, a memory card slot 51 for mounting a memory card in which an image file is recorded, a printing unit 52 for outputting an image, and the like.
[0055]
The control unit 50 includes a CPU, a RAM, and an EEPROM, and the CPU performs various processes according to a program (firmware) recorded in the EEPROM. The RAM is used as a work area for the CPU to perform various processes. In addition to the above programs, the EEPROM also stores a database 15 in which shooting mode names and image processing control data are recorded in association with each other.
[0056]
The printer 13 can output the shooting mode name from the USB port 53 for inputting an image file, the operation unit 54 for performing a printing operation, and the database 15 to the digital still camera 10 or the like instead of the memory card. An imaging mode name output interface 55 that can be used can be provided.
[0057]
(B4) Image file generation processing:
Next, image file generation processing will be described with reference to FIGS. FIG. 6 is a flowchart showing the flow of image file generation processing by the digital still camera 10. The user of the digital still camera 10 first selects an appropriate shooting mode according to the image to be shot when shooting an image. According to FIG. 3, in this embodiment, in addition to “normal mode” that is normally used, “portrait mode” for photographing a person, “landscape mode” for photographing a landscape, and for photographing a night view Mode names of “Night Scene Mode” and “Sport Mode” for photographing a motion with intense motion are stored in the EEPROM. The control unit 30 displays a list of these mode names on the liquid crystal display 33 (step S100). The user uses the operation unit 32 to select a desired shooting mode from the displayed list. The control unit 30 temporarily inputs the mode name of the selected shooting mode to the RAM (Step S101). Subsequently, when there is a photographing request from the user with a shutter button included in the operation unit 32, the control unit 30 acquires image data via the CCD unit 31. The acquired image data is temporarily recorded in the RAM (step S102). The control unit integrally generates the shooting mode name and image data obtained in the above two steps as an image file based on the above-described file structure (step S103), and ends the process. The generated image file is recorded on a memory card inserted in the memory card slot 34.
[0058]
In the above description, the shooting mode is selected before generating the image data for convenience. However, the shooting mode may be selected after the image data is generated. When the shooting mode is not selected, the “normal mode” may be automatically selected. In addition, the shooting mode name and the image data are temporarily recorded in the RAM, but may be temporarily recorded in the memory card.
[0059]
(B5) Print processing:
Next, the printing process will be described with reference to FIGS. FIG. 7 is a flowchart showing the flow of printing processing in the printer 13. When a memory card is inserted into the memory card slot 51 and a user performs a printing operation via the operation unit 54, the control unit 50 inputs an image file from the memory card and temporarily records it in the RAM (step S200). ). The control unit 50 analyzes the image file recorded in the RAM and searches for the shooting mode name (step S201). If the shooting mode name is not recorded, normal image processing such as halftone processing is performed, and an image is output by the printing unit 52 (step S205). If the shooting mode name is recorded, the image processing control data corresponding to the shooting mode name is acquired from the database 15 held in the EEPROM and set (step S203). For example, when the shooting mode name “landscape mode” is recorded in the image file, contrast is set to −2, brightness is set to 0, and sharpness is set to −1 as image processing control data based on the database 15 in FIG. To do. After setting the image processing control data, the control unit 50 performs image processing on the image data using the image processing control data (step S204), performs normal image processing such as halftone processing, and then prints. The output is performed by the unit 52 (step S205). Various image processing such as adjustment of contrast, brightness, and sharpness in step S204 can be performed by known methods. The halftone process in step S205 is a process for expressing the gradation value of the image data by the density of dots formed by the printer. For example, a known method such as an error diffusion method or a systematic dither method is used. It is possible by the method.
[0060]
In the above description, for convenience, it is described that the image file is temporarily recorded in the RAM in step S200 and the shooting mode name is searched in step S201. However, the memory card is not temporarily recorded in the RAM. You may search directly from the image file recorded in the inside.
[0061]
As described above, according to the digital still camera of the present embodiment, an image file including image data and a shooting mode name for setting image processing control data to be used at the time of image processing of the image data is generated. Can do. Accordingly, since it is not necessary to record the actual image processing control data in the image file, it is possible to suppress an increase in the image file.
[0062]
Further, according to the printer 13 according to the present embodiment, the image processing mode name is acquired from the image file, and the image processing control data is set based on the image capturing mode name, thereby appropriately performing the image processing desired by the user. Can be done.
[0063]
(B6) Modification:
The input / output of the image file in the image file generation process and the printing process uses a memory card. However, by connecting the USB ports of both the digital still camera 10 and the printer 13 with a cable, the image file Delivery may be performed. Further, by providing a network circuit in both apparatuses, delivery via a wireless or wired network may be performed.
[0064]
It is desirable that the shooting mode names and the database 15 held by the digital still camera 10 and the printer 13 can be appropriately rewritten as desired by the user. With such an aspect, it is possible to later provide a shooting mode name and image processing control data according to the user's preference. In addition, as described later, it is possible to match the shooting mode names held by both apparatuses.
[0065]
In order for the printer 13 to specify the image processing control data using the shooting mode name set in the digital still camera 10, the shooting mode name in the database 15 held in advance by the printer and the shooting held in the digital still camera 10 are used. Must match the mode name. Therefore, by using a storage medium in which the shooting mode name and the image processing control data are stored in association with each other, the storage medium is read by both the digital still camera 10 and the printer 13 so that a common shooting mode name is obtained. You can have it.
[0066]
Further, the shooting mode name input interface 36 provided in the digital still camera 10 and the shooting mode name output interface 55 provided in the printer 13 are connected, and the shooting mode name is transmitted from the printer 13 to the digital still camera 10. It is also possible to achieve consistency. These interfaces can be configured by an RS-232C port, a USB port, a LAN port, or the like.
[0067]
Thus, in order to match the shooting mode names, it is preferable that the printer 13 has a function of editing the database 15 held by the printer 13. The user edits the database 15 via the operation unit 54 and the like, and the control unit 50 stores the shooting mode name recorded in the database 15 by the memory card, the USB port 53, the shooting mode name output interface 55 and the like in the digital still camera 10. Deliver.
[0068]
The shooting mode name and the database 15 do not necessarily need to be stored in the EEPROMs of both apparatuses, and may be configured to be directly acquired from a server holding these pieces of information via a network. With such a configuration, the capacity of the EEPROM can be reduced.
[0069]
C. Second embodiment:
In the first embodiment, the case where an image file is generated by a digital still camera is illustrated. The second embodiment exemplifies a case where an image file once generated is edited and identifier data is added or changed.
[0070]
(C1) Personal computer device overview:
FIG. 8 is an explanatory diagram showing a schematic configuration of the personal computer 14 for editing an image file. The personal computer 14 includes a control unit 80 that controls all functions of the personal computer 14, a hard disk 81 in which an OS and various applications are recorded, a memory card slot 82 for inputting image files, and the like. The hard disk 81 also records a plurality of shooting mode names.
[0071]
The control unit 80 includes a CPU, a ROM, and a RAM. The CPU performs various processes according to a basic input / output system (BIOS) recorded in the ROM and an OS recorded in the hard disk 81. The RAM is used as a work area in various processes of the CPU.
[0072]
Further, the personal computer 14 is provided with a USB port 83 for inputting / outputting files instead of the memory card, and a LAN port 86 for transmitting / receiving various data stored in the hard disk 81. In addition, an input device 84 such as a keyboard and a mouse and a CRT 85 are connected to the personal computer 14.
[0073]
(C2) Image file editing process 1:
Next, the image file editing process will be described with reference to FIGS. FIG. 9 is a flowchart showing the flow of image file editing processing in the personal computer 14. The control unit 80 of the personal computer 14 inputs an image file from the memory card inserted in the memory card slot 82 (step S300). Subsequently, the control unit 80 analyzes the image file and determines whether there is a shooting mode name (step S301). If the shooting mode name is included, the shooting mode is displayed on the CRT 85 to indicate to the user what shooting mode was recorded (step S302). Next, the control unit 80 displays a plurality of shooting mode names recorded on the hard disk 81 on the CRT 85 to prompt the user to select. The user selects a desired shooting mode name from the displayed shooting mode names. The control unit 80 inputs a new shooting mode name by selection from the user (step S303). Subsequently, the control unit 80 creates a new image file integrally including the image data included in the image file input in step S300 and the new shooting mode name input in step S303. (Step S304). Finally, a new image file is output to the memory card 12 (step S305), and the process ends.
[0074]
(C3) Image file editing process 2:
FIG. 10 is a flowchart showing the flow of another method for editing an image file in the personal computer 14. In this editing process, an image file including image processing control data and image data is edited. The control unit 80 of the personal computer 14 inputs an image file from the memory card inserted in the memory card slot 82 (step S400). Subsequently, an arbitrary photographing mode name for specifying the image processing control data included in the image file is received from the user (step S401). The control unit 80 removes the image processing control data from the input image file, and a new image file that integrally includes the shooting mode name input in step S401 and the image data included in the image file input in step S400. Is generated (step S402). Finally, the control unit 80 outputs a new image file to the memory card (step S403) and ends the process.
[0075]
In the editing process, the personal computer 14 creates a database in which an arbitrary shooting mode name input by the user and the image processing control data included in the image file input in step S400 are stored in association with each other on the hard disk 81. It may be stored. This database can be transmitted to the printer 13 via the LAN port 86. It is also possible to send the shooting mode name recorded in this database to the digital still camera 10. With such a configuration, the personal computer 14 can be a device having a database creation function, and furthermore, the photographing mode names held by the digital still camera 10 and the printer 13 can be matched.
[0076]
In this embodiment, an example in which an image file is input / output by a memory card is shown, but the present invention is not limited to this. It may be performed by the USB port 83, or may be performed via the network using the LAN port 86.
[0077]
As described above, according to the personal computer 14 according to the present embodiment, for the change of the shooting mode name included in the image file or the image file including the image processing control data, a new shooting mode name is used instead of the image processing control data. Can be recorded. Further, it is possible to generate a database in which shooting mode names and image processing control data to be transmitted to the digital still camera 10 and the printer 13 are recorded in association with each other.
[0078]
Although various embodiments of the present invention have been described above, the present invention is not limited to these embodiments, and various configurations can be adopted without departing from the spirit of the present invention. For example, although image processing is performed by a printer, it may be performed by a device such as a display or a projector. In addition, the image file is edited with a personal computer, but it may be performed with a digital still camera or a printer. In addition, the various processes described above can be realized by software, or may be realized by hardware.
[0079]
The shooting mode name recorded in the image file is not limited to the shooting mode name as long as it is an identifier that can specify image processing control data used when image processing is performed on image data in a printer or the like. . For example, a URL indicating the address of a server that holds image processing control data may be recorded. An image processing apparatus such as a printer may be configured to access the server at the address via a network and acquire image processing control data.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram illustrating an example of an image processing system according to an embodiment.
FIG. 2 is an explanatory diagram illustrating another example of the image processing system according to the embodiment.
FIG. 3 is an explanatory diagram showing a schematic configuration of a digital still camera.
FIG. 4 is an explanatory diagram illustrating a structure of an image file generated by a digital still camera.
FIG. 5 is an explanatory diagram illustrating a schematic configuration of a printer.
FIG. 6 is a flowchart showing a flow of image file generation processing by the digital still camera.
FIG. 7 is a flowchart illustrating a flow of print processing in the printer.
FIG. 8 is an explanatory diagram showing a schematic configuration of a personal computer.
FIG. 9 is a flowchart showing the flow of image file editing processing in a personal computer.
FIG. 10 is a flowchart showing the flow of another method for editing an image file in a personal computer.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Digital still camera 11 ... Image file 12 ... Memory card 13 ... Printer 14 ... Personal computer 15 ... Database 20 ... Display 21 ... Server 30 ... Control part 31 ... CCD part 32 ... Operation part 33 ... Liquid crystal display 34 ... Memory card slot 35 ... USB port 36 ... Shooting mode name input interface 40 ... Image data storage area 41 ... Attached information storage area 42 ... MakerNote data area 50 ... Control unit 51 ... Memory card slot 52 ... Printing unit 53 ... USB port 54 ... Operation unit 55 ... Shooting mode name output interface 80 ... Control unit 81 ... Hard disk 82 ... Memory card slot 83 ... USB port 84 ... Input device 85 ... CRT
86 ... LAN port

Claims (9)

An image file generation device for generating an image file,
An image data generation unit for generating image data;
An identifier data storage unit for holding a plurality of identifier data for specifying image processing control data to be used during image processing of the image data ;
An identifier data input unit for selecting and inputting at least one identifier data from a plurality of identifier data held in the identifier data storage unit ;
An image file generation unit that integrally includes the generated image data and the input identifier data, and generates an image file that does not include the image processing control data ;
The identifier data storage unit retains a correspondence relationship between the identifier data and the image processing control data, and corresponds to the identifier data included in the image file with respect to the image data included in the generated image file. An image file generation device comprising means for acquiring at least a part of the identifier data from an image processing device that performs image processing using processing control data . The image file generation device according to claim 1,
The identifier data is an image file generation device which is data that is referred to in order to select at least one image processing control data to be used during the image processing from a plurality of image processing control data. 3. The image file generation device according to claim 1, wherein the image file generation device is configured as a digital still camera. An image processing apparatus that performs image processing on image data using image processing control data,
An image file input unit that integrally includes identifier data and image data for specifying image processing control data used for the image processing, and that inputs an image file that does not include the image processing control data;
A storage unit that holds a correspondence relationship between the identifier data and the image processing control data;
An image processing control data setting unit that sets image processing control data used for the image processing based on the identifier data included in the input image file and the correspondence relationship ;
An image processing unit that performs image processing on the image data using the set image processing control data ;
An image processing apparatus comprising: an identifier data transmission unit that transmits at least part of the identifier data held in the storage unit to an image file generation device that generates the image file . The image processing apparatus according to claim 4 ,
The identifier data is data for selecting image processing control data used at the time of image processing from a plurality of image processing control data. The image processing apparatus according to claim 4 or 5 configured as a printer. An image processing method in which an image processing apparatus performs image processing on image data using image processing control data,
An image file input step for inputting an image file that does not include the image processing control data, integrally including identifier data and image data for specifying the image processing control data used for the image processing;
Image processing control data used for the image processing based on the identifier data included in the input image file and the correspondence between the identifier data stored in the storage unit of the image processing apparatus and the image processing control data An image processing control data setting process for setting
An image processing step for performing image processing on the image data using the set image processing control data ;
And a step of transmitting at least a part of the identifier data held in the storage unit to an image file generation device that generates the image file . A computer program for performing image processing on image data using image processing control data,
A function of integrally including identifier data and image data for specifying image processing control data used for the image processing, and inputting an image file not including the image processing control data;
A function of holding a correspondence relationship between the identifier data and the image processing control data in a storage unit;
A function of setting image processing control data used for the image processing based on the identifier data included in the input image file and the correspondence relationship ;
A function of performing image processing on the image data using the set image processing control data ;
A computer program for causing a computer to realize a function of transmitting at least a part of identifier data held in the storage unit to an image file generation device that generates the image file . A computer-readable storage medium storing the computer program according to claim 8 .

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