JP3922223B2 - Output image adjustment of image data - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image output processing technique for executing image output processing using image data subjected to image processing using shooting information or information designating image processing.
[0002]
[Prior art]
In image processing apparatuses such as personal computers and printers, a technique for improving image processing accuracy for image data generated by a digital still camera (DSC), a digital video camera (DVC), a scanner, or the like has been put into practical use. For example, for image data generated by DSC, the image data generated by DSC and the shooting information (shooting conditions) at the time of image data generation are stored in the same file, and the image processing apparatus uses the shooting information. Processing technology has been put into practical use. The image file used in this technology complies with the Exif file format standard defined by the Japan Electronics and Information Technology Industries Association (JEITA).
[0003]
As another technique, the applicant reflects the photographer's intention in the output image by outputting image processing control information (command, parameter) for controlling image processing in the image processing apparatus in association with the image data from the DSC. The technology to be used is put into practical use (see, for example, Patent Document 1).
[0004]
[Patent Document 1]
JP 2002-344989 A
[0005]
[Problems to be solved by the invention]
The shooting information and the image processing control information used in these two techniques are used as reference information for image processing in the image processing apparatus, whereas the latter is a command for instructing image processing in the image processing apparatus. It is different in that it is a character used as (parameter). Further, the storage positions of both pieces of information on the image file are different, and both pieces of information can coexist in the same file.
[0006]
Therefore, in order to obtain an output image using the technology exemplified above, according to the format of the image data (image file), necessary information is appropriately acquired, image processing suitable for the acquired information is executed, It is desirable to output an image.
[0007]
The present invention has been made to solve the above-described problems, and appropriately acquires information that is associated with image data and can be used for image processing, and image processing suitable for the acquired information is executed. An object is to output an image using the processed image data.
[0008]
[Means for solving the problems and actions / effects]
In order to solve the above-described problem, the first aspect of the present invention uses shooting information indicating shooting conditions of image data or image processing control information that specifies image processing conditions of image data associated with image data. An image output apparatus that outputs an image based on image data that has been subjected to image processing is provided. An image output apparatus according to a first aspect of the present invention includes an image data acquisition unit that acquires the image data, and image processing information that searches for the shooting information or the image processing control information associated with the acquired image data. If the image processing control information can be searched, a search means, an image processing means for executing image processing on the image data in accordance with the image processing control information, and image data subjected to the image processing Output image data generation means for generating image data for output using, and image output means for outputting an image using the generated output image data.
[0009]
According to the image output apparatus according to the first aspect of the present invention, when the imaging information or the image processing control information associated with the acquired image data is searched and the image processing control information can be searched, Since image processing can be performed on image data in accordance with image processing control information, image processing control information that specifies image processing conditions for image data is acquired as information that can be used for image processing associated with the image data. The image subjected to the image processing according to the acquired image processing control information can be output.
[0010]
In the image output apparatus according to the first aspect of the present invention, the image processing information search unit may not perform the search for the photographing information when the image processing information can be searched. The image processing control information is information that specifies image processing conditions for image data, and is more appropriate as information applied to image processing than shooting information that is shooting conditions.
[0011]
In the second aspect of the present invention, image processing is performed using image information related to image data indicating image data image capturing conditions or image processing control information specifying image data image processing conditions. An image output apparatus for outputting an image based on image data is provided. An image output apparatus according to a first aspect of the present invention includes an image data acquisition unit that acquires the image data, and image processing information that searches for the shooting information or the image processing control information associated with the acquired image data. And image processing means for executing image processing on the image data using the imaging information when the imaging information cannot be searched and the imaging information can be searched. And output image data generating means for generating output image data using the image data subjected to the image processing, and image output means for outputting an image using the generated output image data. It is characterized by.
[0012]
According to the image output device of the second aspect of the present invention, at least the shooting condition is obtained even when the image processing control information cannot be retrieved by using the shooting information having a high probability included in the image file. Can be executed, and an image can be output using the image data that has been subjected to the image processing.
[0013]
The image output apparatus according to the second aspect of the present invention further comprises storage means for storing default image processing control information which is general-purpose image processing information for predetermined image data, and the image processing means When neither the image processing control information nor the photographing information can be retrieved, the image processing may be executed on the image data according to the default image processing control information. In such a case, both the image processing control information and the shooting information cannot be used, but an image that has been subjected to some image quality adjustment processing by the default image processing control information can be output.
[0014]
In the image output device according to the second aspect of the present invention, the image processing means converts at least a part of the photographing information into image processing control information, and performs image processing according to the image processing control information obtained by the conversion. May be executed. In such a case, it is possible to output an image that has been subjected to image processing that is at least close to the photographer's intention by converting shooting information with a high probability included in the image file and using it as image processing control information. it can.
[0015]
According to a third aspect of the present invention, image processing is performed using image information associated with image data indicating image data image capturing conditions or image processing control information specifying image data processing conditions as image processing information. An image output device for outputting an image based on the image data subjected to. An image output apparatus according to a third aspect of the present invention includes an image data acquisition unit that acquires the image data, and image processing information that searches for the shooting information or the image processing control information associated with the acquired image data. When the search means and the image processing control information can be searched, the image processing is executed on the image data according to the image processing control information, and the image processing control information cannot be searched. Includes image processing means for performing image processing on the image data using the photographing information, output image data generating means for generating image data for output using the image data subjected to the image processing, And image output means for outputting an image using the generated output image data.
[0016]
According to the image output device of the third aspect of the present invention, when the image processing control information can be searched, the image processing control information is used to specify the image processing condition for the image data. If the image data cannot be retrieved, image processing can be executed on the image data using the shooting information. Therefore, it is possible to output an image that has been subjected to image processing that reflects at least the shooting conditions.
[0017]
In the image output apparatus according to the third aspect of the present invention, the image processing information search means may not perform the search for the photographing information when the image processing information can be searched. The image processing control information is information that specifies image processing conditions for image data, and is more appropriate as information applied to image processing than shooting information that is shooting conditions.
[0018]
The image output apparatus according to the third aspect of the present invention further includes storage means for storing default image processing control information that is general-purpose image processing information for predetermined image data, and the image processing means includes When neither the image processing control information nor the photographing information can be retrieved, the image processing may be executed on the image data according to the default image processing control information. In such a case, both the image processing control information and the shooting information cannot be used, but an image that has been subjected to some image quality adjustment processing by the default image processing control information can be output.
[0019]
In the image output apparatus according to the third aspect of the present invention, the image processing means converts at least a part of the photographing information into image processing control information, and an image according to the image processing control information obtained by the conversion. Processing may be executed. In such a case, it is possible to output an image that has been subjected to image processing that is at least close to the photographer's intention by converting shooting information with a high probability included in the image file and using it as image processing control information. it can.
[0020]
According to a fourth aspect of the present invention, image processing is performed using image information associated with image data indicating image data image capturing conditions or image processing control information designating image data image processing conditions as image processing information. An image output program for outputting an image based on the image data subjected to is provided. An image output program according to a fourth aspect of the present invention includes a function for acquiring the image data, a function for performing the shooting information or the image processing control information associated with the acquired image data, and the image processing control information. If the image processing control information can be retrieved, the image processing is performed on the image data according to the image processing control information. If the image processing control information cannot be retrieved, the imaging information is used. A function of performing image processing on the image data, a function of generating output image data using the image data subjected to the image processing, and a function of outputting an image using the generated output image data Is executed by a computer.
[0021]
According to the image output program according to the fourth aspect of the present invention, it is possible to obtain the same operational effects as those of the image output apparatus according to the third aspect of the present invention. Further, the image output program according to the fourth aspect of the present invention can be realized in various aspects similarly to the image output apparatus according to the third aspect of the present invention, and obtains the same effects in each aspect. be able to.
[0022]
According to the fifth aspect of the present invention, image processing is performed using shooting information indicating shooting conditions of image data or image processing control information specifying image processing conditions of image data, which is associated with image data. An image output method for outputting image data is provided. In the image output method according to the fifth aspect of the present invention, the image data is acquired, the image processing control information associated with the acquired image data is searched, and the image processing control information can be searched. Performs image processing on the image data according to the image processing control information, and if the image processing control information cannot be searched, the shooting information is searched, and if the shooting information can be searched, Image processing is performed on the image data using the shooting information, output image data is generated using the image data on which the image processing has been performed, and an image is output using the generated output image data It is characterized by that.
[0023]
According to the image output method of the fifth aspect of the present invention, it is possible to obtain the same operational effects as those of the image output apparatus according to the third aspect of the present invention. Further, the image output method according to the fifth aspect of the present invention can be realized in various aspects similarly to the image output apparatus according to the third aspect of the present invention, and obtains the same effects in each aspect. be able to.
[0024]
According to a sixth aspect of the present invention, the image data, the photographing condition indicating the condition at the time of generating the image data, the image processing condition at the time of image data processing are designated, and the storage position is defined according to the recording format. An image output device that outputs an image using an image file that stores at least one of processing control information is provided. An image output apparatus according to a sixth aspect of the present invention includes an image file acquisition unit that acquires the image file, a format determination unit that determines the recording format of the acquired image file, and the determined recording format. In response, the image processing control information search means for searching the image processing control information at the prescribed storage position, and the image data in accordance with the searched image processing control information when the image processing control information can be searched. Using image processing means for executing image processing, output image data generating means for generating output image data using the image data subjected to the image processing, and using the generated output image data And image output means for outputting an image.
[0025]
According to the image output device of the sixth aspect of the present invention, the image processing control information can be searched from the specified storage position according to the recording format of the image file, so that the image processing is appropriately performed according to the image file. Control information can be acquired. In addition, an image subjected to image processing according to the acquired image processing control information can be output.
[0026]
The image output apparatus according to a sixth aspect of the present invention further includes imaging information search means for searching for the imaging information when the image processing control information cannot be searched at the predetermined storage position. The processing means may convert at least a part of the photographing information into the image processing control information when the photographing information can be searched, and execute image processing according to the converted image processing control information. In such a case, it is possible to output an image that has been subjected to image processing that is at least close to the photographer's intention by converting shooting information with a high probability included in the image file and using it as image processing control information. it can.
[0027]
In the image output device according to the sixth aspect of the present invention, the image file includes at least one of a first application marker segment in which the image processing control information can be stored, the image processing control information, and the imaging information. A JPEG data storage file having one of at least one of second application marker segments that can be stored in the same hierarchy, and the image processing control information search means includes the default of the second application marker segment The image processing control information may be searched in the order of the storage position of the first application marker segment and the predetermined storage position of the first application marker segment. In such a case, the image processing control information can be appropriately searched according to the file format of the JPEG data storage file.
[0028]
In the image output device according to the sixth aspect of the present invention, the image file includes at least one of a first application marker segment in which the image processing control information can be stored, the image processing control information, and the imaging information. A JPEG data storage file having at least one of second application marker segments that can be stored in the same hierarchy, and the image processing control information search means is configured to store the default of the first application marker segment. The image processing control information may be searched in the order of the storage position of the second application marker segment and the predetermined storage position of the second application marker segment. In such a case, the image processing control information can be appropriately searched according to the file format of the JPEG data storage file.
[0029]
The image output apparatus according to the sixth aspect of the present invention further includes imaging information search means for searching for the imaging information from the second application marker segment, and the second application marker segment includes the imaging information. The image processing control information can be stored in a lower hierarchy of the image processing control information search means, and the image processing control information search means searches for the image processing control information in the predetermined storage positions of the first and second application marker segments. Instead, when the shooting information is searched by the shooting information search means, the image processing control information may be searched in a lower hierarchy of the shooting information of the second application marker segment. In such a case, the image processing control information can be appropriately searched according to the file format of the JPEG data storage file.
[0030]
In the image output device according to the sixth aspect of the present invention, when the image processing control information is not searched in a lower hierarchy of the shooting information of the second application marker segment, the image processing means Alternatively, at least a part of the photographing information may be converted into the image processing control information, and image processing may be executed according to the converted image processing control information. In such a case, it is possible to output an image that has been subjected to image processing that is at least close to the photographer's intention by converting shooting information with a high probability included in the image file and using it as image processing control information. it can.
[0031]
In the image output device according to the sixth aspect of the present invention, the image file includes at least a first image file directory in which the image processing control information can be stored and a second image file directory in which the shooting information can be stored. The image processing control information retrieval unit may retrieve the image processing control information in the order of the first image file directory and the second image file directory. In such a case, the image processing control information can be appropriately searched according to the file structure of the TIFF file.
[0032]
The image output apparatus according to a sixth aspect of the present invention further includes shooting information search means for searching for the shooting information from the second image file directory, and the second image file directory is subordinate to the shooting information. The image processing control information can be stored in a hierarchy, and the image processing control information search means is not searched for the image processing control information in the first image file directory, and the shooting information search means does not search for the shooting information. When the image processing control information is searched, the image processing control information may be searched in a lower hierarchy of the shooting information in the second image file directory. In such a case, the image processing control information can be appropriately searched according to the file structure of the TIFF file.
[0033]
In the image output device according to the sixth aspect of the present invention, when the image processing control information is not searched in a lower hierarchy of the shooting information in the second image file directory, the image processing means includes: At least a part of the photographing information may be converted into the image processing control information, and image processing may be executed according to the converted image processing control information. In such a case, it is possible to output an image that has been subjected to image processing that is at least close to the photographer's intention by converting shooting information with a high probability included in the image file and using it as image processing control information. it can.
[0034]
According to a seventh aspect of the present invention, there is provided an image in which image data, a photographing condition indicating a condition at the time of generating the image data, an image processing condition at the time of image data processing are designated, and a storage position is defined according to a recording format. An image output program for outputting an image using an image file storing at least one of the process control information is provided. An image output program according to a seventh aspect of the present invention includes a function of acquiring the image file, a function of determining the recording format of the acquired image file, and storing the specified according to the determined recording format A function for searching the image processing control information at a position, and a function for executing image processing on the image data according to the searched image processing control information when the image processing control information can be searched; A function of generating output image data using the image data subjected to the image processing and a function of outputting an image using the generated output image data are executed by a computer.
[0035]
According to the image output program concerning the 7th mode of the present invention, the same operation effect as the image output device concerning the 6th mode of the present invention can be obtained. Further, the image output program according to the seventh aspect of the present invention can be realized in various aspects similarly to the image output apparatus according to the sixth aspect of the present invention, and obtains the same effect in each aspect. be able to.
[0036]
According to an eighth aspect of the present invention, there is provided an image in which image data, a photographing condition indicating a condition at the time of image data generation, an image processing condition at the time of image data processing are specified, and a storage position is defined according to a recording format. Provided is an image output method using an image file storing at least one of processing control information. The image output method according to an eighth aspect of the present invention acquires the image file, determines the recording format of the acquired image file, and determines the recording format at the specified storage position according to the determined recording format. When image processing control information is searched and the image processing control information can be searched, image processing is performed on the image data in accordance with the searched image processing control information, and the image data is subjected to the image processing. Is used to generate output image data, and the generated output image data is used to output an image.
[0037]
According to the image output method of the eighth aspect of the present invention, it is possible to obtain the same operational effects as those of the image output apparatus according to the sixth aspect of the present invention. Further, the image output method according to the eighth aspect of the present invention can be realized in various aspects similarly to the image output apparatus according to the sixth aspect of the present invention, and obtains the same effects in each aspect. be able to.
[0038]
The ninth aspect of the present invention stores an application marker segment APP0 indicating that it is a JFIF file, and shooting information indicating conditions at the time of image data generation, and further specifies image processing conditions at the time of image data processing. Application marker segment APP1 indicating that the image processing control information can be stored in the same hierarchy and is an Exif file, at least one of the application marker segment APP6 in which the image processing control information can be stored, JPEG data, An image output device that outputs an image using an image file that stores image data is provided. An image output apparatus according to a ninth aspect of the present invention includes an image file acquisition unit that acquires the image file, a detection unit that detects the application marker segment, and an application marker segment APP0 and an application by the detection unit. When the marker segment APP1 is detected at the same time, an image processing unit that does not perform image processing on the image data using the image processing control information, and an image for output using the image data on which the image processing has been performed Output image data generating means for generating data, and image output means for outputting an image using the generated output image data.
[0039]
According to the image output apparatus of the ninth aspect of the present invention, it is impossible to specify which of the image file conforms to the JFIF file format or the image file conforms to the Exif file format, and the image processing control information If image processing using the image processing control information is not performed when image processing is not performed and image processing using image processing control information cannot be obtained by image quality adjustment processing using incorrect information, the incorrect information is used. It is possible to output an image in which inappropriate image processing has been prevented.
[0040]
In the image output device according to the ninth aspect of the present invention, the image processing means includes the application marker segment APP1, the application marker segment APP1, and the application marker segment APP6, or the application marker segment APP0 and the application marker segment APP1. When any combination of the application marker segment APP6 is detected, image processing on the image data may be executed according to the image processing control information. In such a case, image processing control information is appropriately retrieved and acquired from an image file conforming to the Exif file format or an image file conforming to the JFIF file format, and appropriate image quality adjustment processing is executed using the acquired image processing control information. The output image can be output.
[0041]
The image output apparatus according to the ninth aspect of the present invention can also be realized as a method and a program.
[0042]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, image output processing according to the present invention will be described based on examples with reference to the drawings.
[0043]
A. Configuration of image output processing system:
A configuration of an image output processing system to which an image output process according to the present embodiment can be applied will be described with reference to FIGS. FIG. 1 is an explanatory diagram illustrating an example of an image output processing system to which the image output apparatus according to the present embodiment can be applied. FIG. 2 is a block diagram illustrating a schematic configuration of a color printer that functions as an image output apparatus according to the present embodiment.
[0044]
An image output processing system 10 includes a digital still camera 12 as an input device that generates image data, a personal computer PC as an image processing device that performs image processing on image data generated by the digital still camera 12, an image Is provided as a color printer 20 as an output device. As the output device, in addition to the printer 20, a monitor 14 such as a CRT display or LCD display, a projector, or the like can be used. In the following description, the color printer 20 is used as the output device.
[0045]
The digital still camera 12 is a camera that electrically acquires an image by imaging light information on a digital device (CCD or photomultiplier tube), an optical circuit including a CCD or the like for collecting optical information, An image acquisition circuit for acquiring an image by controlling an optical circuit, an image processing circuit for processing the acquired digital image, a control circuit including a memory for temporarily storing each data and controlling each circuit, etc. It has. The digital still camera 12 stores the acquired image as digital data in a storage device such as the memory card MC. As a storage format of image data in the digital still camera 12, a JPEG data format is generally used as an irreversible compression method, and a TIFF data format as a lossless compression method. In addition, a RAW data format, a GIF data format, and BMP data are also used. A storage format such as a format may be used.
[0046]
The digital still camera 12 used in the image data output system 10 includes image processing control information GI for controlling image processing for image data GD and image data photographing information PI in an image output device (color printer 20, personal computer PC). At least one of them is stored in the memory card MC as an image file GF in association with the image data GD. The image processing control information GI is a parameter value that specifies image processing conditions so that an optimum image output result can be obtained in consideration of the color reproduction characteristics and image output characteristics of the output device such as the color printer 20. . The shooting information PI is information indicating shooting conditions such as a shutter speed, an aperture value, and an ISO speed at the time of shooting.
[0047]
The image file GF generated in the digital still camera 12 is sent to the color printer 20 via, for example, the cable CV, the computer PC, or via the cable CV. Alternatively, the memory card MC in which the image file GF is stored in the digital still camera 12 is connected to the printer 20 via the computer PC mounted in the memory card slot or directly to the printer 20. As a result, the image file is sent to the color printer 20. In the present embodiment, a case will be described in which the color printer 20 performs image output processing including image processing and output (printing) processing in a stand-alone manner.
[0048]
A color printer 20 shown in FIG. 3 is a printer that can output a color image. For example, four color inks of cyan (C), magenta (M), yellow (Y), and black (K) are used as a printing medium. This is an ink jet printer that forms an image by forming a dot pattern by jetting it upward. Alternatively, it is an electrophotographic printer that forms an image by transferring and fixing color toner onto a printing medium. In addition to the above four colors, light cyan (light cyan, LC), light magenta (light magenta, LM), and dark yellow (dark yellow, DY) may be used as the color ink.
[0049]
The color printer 20 includes a control circuit 21 that executes image processing for the image data GD and control processing for each unit of the color printer 20, a print head, a rotary drum, and the like, and prints on a print medium using image data that has been subjected to image processing. A printing unit 22 for executing processing and a slot 23 for accommodating the memory card MC are provided. The control circuit 21 includes an arithmetic processing unit (CPU) 211 that executes various arithmetic processes including image processing, a read only memory (ROM) 212 that stores programs executed by the CPU 211 in a nonvolatile manner, and arithmetic operations in the CPU 211. A random access memory (RAM) 213 for temporarily storing processing results and acquired data is provided. The control circuit 21 retrieves the image processing control information GI from the image file read from the memory card MC, and executes image processing (image quality adjustment processing) on the image data GD using the retrieved image processing control information GI. The control circuit 21 also controls the movement of a paper feed motor, a carriage motor, a print head, etc. (not shown).
[0050]
B. Image file structure:
The image file GF according to the present embodiment is, for example, a file structure (Exif file) conforming to the Exif format proposed as an image file format standard for a digital still camera by the Japan Electronics and Information Technology Industries Association (JEITA), C-Cube Microsystems , Xing Technology, Digital Origin (Radius), which is a standard for JPEG data file compatibility established by three companies, JFIF format file structure (JFIF file), and parameters related to image data in tag format A file structure (TIFF file) according to the TIFF format specified by the user can be provided. Exif files can be classified into JPEG-Exif files that store compressed JPEG image data and TIFF-Exif files that store uncompressed TIFF image data depending on the type of image data to be stored.
[0051]
A schematic configuration of an image file according to the JPEG data storage file format that can be used in this embodiment will be described with reference to FIGS. FIG. 3 is an explanatory diagram schematically showing the internal structure of the JPEG data storage file at the application marker segment (APP) level in order to explain the file format of the JPEG data storage file for storing JPEG data. FIG. 4 is an explanatory diagram schematically showing a general file structure of a JPEG data storage file for storing JPEG data. FIG. 5 is an explanatory diagram showing in detail the schematic internal structure of APP 6 that can be used in this embodiment. FIG. 6 is an explanatory diagram schematically showing the data structure of GI data storing the image processing control information GI used in this embodiment. FIG. 7 is an explanatory diagram showing in detail the schematic internal structure of the APP 1 that can be used in this embodiment. FIG. 8 is an explanatory diagram showing in detail the schematic internal structure of the Exif IFD in the Exif file format that can be used in this embodiment. Note that terms such as file structure, data structure, and storage area in this embodiment mean an image of a file or data in a state where the file or data is stored in the storage device.
[0052]
A basic file format of the JPEG data storage file will be described with reference to FIG. In the JPEG data storage file, a JFIF file and an Exif file are generally used as described above. The JPEG data storage file is a file including an application marker segment and JPEG data from the viewpoint of the file format. When the JPEG data storage file includes APP0 that is the 0th application marker segment, it conforms to the JFIF format and is APP1 that is the first application marker segment or the first and second application marker segments. When only APP and APP2 are provided, it conforms to the Exif format. APP2 can also be used as an application marker segment to store ICC profiles.
[0053]
The sixth application marker segment APP6 is used to store image processing control information, and the image processing control information GI is stored as GIapp data. In addition, the image processing control information GI can be stored as GItiff data in the GI tag included in the APP 1 and as GI exif data in the Exif tag. These GI data are given different subscripts app, tiff, and exif for convenience in order to simply show the difference in storage position, but the contents of the data are all the same. A detailed file structure in each file format will be described later.
[0054]
A general internal structure of the JPEG data storage file will be described with reference to FIG. The JPEG data storage file (image file GF) is composed of a plurality of marker segments and JPEG image data GD. The plurality of marker segments include an SOI that is a marker segment indicating the head of the segment compressed data, an application marker segment APPn (n = number) that is a marker segment for storing information (data) defined in each file format, DQT that is a marker segment that defines a quantization table, DHT that is a marker segment that defines a Huffman table, DRI that is a marker segment that defines the insertion interval of restart markers, SOF that is a marker segment that indicates various parameters relating to a frame, It includes an SOS that is a marker segment indicating various parameters related to scanning, and an EOI that is a marker segment indicating the end of compressed data. The compressed image data GD is stored between the marker segment SOS and the marker segment EOI. The recording order of each marker segment is arbitrary except that the marker segment APPn is recorded immediately after the SOI marker segment and the marker segment SOS is recorded with the image data GD interposed immediately before the marker segment EOI.
[0055]
The detailed structure of the marker segment APP6 will be described with reference to FIG. The marker segment APP6 includes an APP marker 100 indicating that the marker segment is APP6, an identifier ID_GI101 indicating that the image processing identification information GI is to be stored, attached information 102, and a thumbnail image 103. Yes. The attached information 102 has a file structure in accordance with the TIFF file format. The TIFF header 1021, 0th_IFD 1022 describing attached information related to GI data that is the data value of the image processing control information GI, and 0th data describing GI data. 1023 is included.
[0056]
The TIFF header 1021 describes the byte order corresponding to the CPU, the TIFF version information, and information about the offset to the first IFD. In the marker segment APP6, since the first IFD is 0th_IFD, an offset value to 0th_IFD1022 is described in the TIFF header. In IFD, a tag is used to identify each piece of information, and each piece of information is sometimes called by a tag name.
[0057]
The 0th_IFD 1022 indicates that the tag is related to the image processing control information GI, and also includes a GI tag number 1022a used when searching for the GI tag, a segment length 1022b indicating the GI data size, and the TIFF header 1021 to the GI data (0th data 1023 ) Offset values 1022c are respectively described.
[0058]
As shown in FIG. 6, the GI data that describes the data value of the image processing control information GI includes identifier information indicating that the data is GI data, version information of the GI data, and various parameter values related to image quality adjustment of the image data. Various information including is included. Various parameters relating to image quality adjustment included in the GI data include, for example, a color space matrix value for specifying a color space used for image processing executed in the color printer 20 and the personal computer PC, a correction value for the specified color space, and contrast. Parameters relating to image quality such as color balance adjustment, sharpness, and color correction are included.
[0059]
A detailed structure of the marker segment APP1 will be described with reference to FIG. Since the basic data structure after the TIFF header is the same regardless of the type of the application / marker segment APPn, the description of the information already described in the description of the marker segment APP6 is omitted.
[0060]
The marker segment APP1 includes an APP marker 200 indicating that the marker segment is APP1, an identifier Exif 201 indicating that the Exif information is to be stored, attached information 202, and a thumbnail image 203. The attached information 202 describes 0th_IFD 2022 that describes various information about the main image including the TIFF header 2021, Exif information, and image processing control information GI, 0th data 2023 that describes Exif data and GI data, and various information about thumbnail image data. 1st_IFD2024 is included.
[0061]
The 0th_IFD 2022 includes at least one of a GI tag 2050 that stores information related to the image processing control information GI and an Exif tag 2060 that stores information related to Exif information as data in the same layer. The GI tag 2050 indicates a GI tag and a GI tag number 2050a used when searching for the GI tag, a segment length 2050b indicating the GI data size, and the TIFF header 2021 to the GI data (0th data 2023). Each offset value 2050c is described. On the other hand, as shown in FIG. 8, the Exif tag 2060 is a set of a plurality of tags such as Exif version information, color space information, image data generation date and time, and shooting conditions. The Exif tag indicates the Exif tag and An Exif tag number 2060a and each photographing information tag 2060b used when searching are provided. A tag number is assigned in advance to each shooting information tag 2060b, and a reader that reads the Exif tag searches for the required shooting information tag 2060b using the tag number assigned in advance.
[0062]
As shown in FIGS. 7 and 8, the shooting information tag 2060b includes a Makernote tag 2060c that is open to the user (manufacturer) as a tag related to user information. The Makernote tag 2060c further includes image processing. A GI tag 2070 describing the control information GI is provided. The GI tag 2070 indicates that it is a GI tag, and also includes a GI tag number 2070a used when searching for the GI tag, a segment length 2070b indicating the GI data size, and an offset from the TIFF header 2021 to the GI data (0th data 2023). Each value 2070c is described.
[0063]
The shooting information tag 2060b included in the Exif tag 2060 includes a tag related to shooting conditions as shown in FIG. 8, and tags related to shooting conditions (shooting information PI) include exposure time, lens F value, and exposure control. Each parameter value such as mode, ISO sensitivity, exposure correction amount, light source, white balance, flash, focal length and the like is stored according to a predetermined offset. The shooting information PI is information (image quality generation information) related to the image quality when image data is generated (taken) in an image data generation device such as the digital still camera 12, and includes exposure time, ISO sensitivity, and the like. The parameters are automatically recorded with the shooting, while parameters such as exposure correction amount and light source are arbitrarily set by the user.
[0064]
The actual image file GF can have marker segments APP0, APP1, APP2, and APP6 in any combination. However, in order for the image file GF to be handled as a file that conforms to the Exif file format, It is necessary to have marker segments APP1 and APP2 and also have an Exif identifier. The Exif tag may be called Exif_IFD when the image file GF conforms to the Exif file format, and Exif_IFD is pointed by an offset from the TIFF header stored in 0th_IFD. Further, the image file GF needs to have a marker segment APP0 in order to be handled as a file conforming to the JFIF file format. Since the image processing control information GI can be described in the marker segment APP in various manners as described above, the image processing control information GI is appropriately set according to the required file structure without changing the file format to which the image file GF conforms. Image processing control information GI can be stored.
[0065]
A schematic configuration of an image file according to the TIFF file format that can be used in this embodiment will be described with reference to FIGS. FIG. 9 is an explanatory diagram schematically showing the internal structure of the TIFF file at the IFD level in order to explain the TIFF file format. FIG. 10 is an explanatory diagram schematically showing a general file structure of a TIFF file. Note that terms such as a file structure, a data structure, and a storage area mean an image of a file or data in a state where the file or data is stored in the storage device.
[0066]
The TIFF file format will be described with reference to FIG. In the TIFF file, information related to the image data GD is described as tag information, and in general, uncompressed TIFF data is stored. However, compressed JPEG data can also be stored. In the TIFF file, each piece of information related to image data is stored in IFD (image file directory) units. In the example of FIG. 9, ICC_IFD describing an ICC profile, Exif_IFD describing Exif information, and GI_IFD describing image processing control information GI are included. The image processing control information GI can be described in GI_IFD as GItiff data, and can also be described as GIexif data in Makernote of Exif_IFD.
[0067]
The TIFF file format will be described in more detail with reference to FIG. 10. The TIFF file includes a TIFF header 300, 0th_IFD 301, 0th data 302, GI_IFD 303, GI data 304, Exif_IFD 305, Exif data 306, thumbnail image data 307, main image data. 308 is provided. The JPEG data storage file described with reference to FIGS. 3 to 8 uses the tag structure in the TIFF file to describe various information related to JPEG data, and the structure after the TIFF header has already been described. The description is omitted. Further, the lower layer structure of GI_IFD303 and Exif_IFD305 is the same as the structure of the GI tag 2050 and Exif tag 2060 of the marker segment APP1 in FIG. 7, and since it has already been described, the same reference numerals are given and description thereof is omitted. .
[0068]
C. Image output processing in the color printer 20:
Hereinafter, image processing executed by the color printer 20 will be described with reference to FIGS. FIG. 11 is a flowchart showing a processing routine of image output processing in the image output apparatus (color printer 20) according to the present embodiment. FIG. 12 is a flowchart showing a processing routine of image quality adjustment processing using GIapp data in the image output apparatus (color printer 20) according to the present embodiment. FIG. 13 is a flowchart showing a processing routine of image quality adjustment processing using GItiff data or GIexif data in the image output apparatus (color printer 20) according to the present embodiment. FIG. 14 is a flowchart illustrating a processing routine of image quality adjustment processing in which Exif data is converted and used as GI equivalent data in the image output apparatus (color printer 20) according to the present embodiment. FIG. 15 is an explanatory diagram showing an example when the shooting information PI is associated with the GI equivalent data GI ′.
[0069]
When the memory card MC is inserted into the slot 23, the control circuit 21 (CPU 211) of the color printer 20 reads the image file GF from the memory card MC, and temporarily stores the read image file GF in the RAM 213. The CPU 211 determines whether the read image file GF is a JPEG file storing JPEG data, a TIFF file, or data based on the extension of the image file (step S100). When the CPU 211 determines that the acquired image file GF is a JPEG file or a TIFF file, that is, when the extension is “jpg” or “tif” (step S100: Yes), the image file GF. Determines whether the file is a JPEG file (step S110).
[0070]
On the other hand, when the CPU 211 determines that the image file GF is neither a JPEG file nor a TIFF file (step S100: No), the normal image quality without using the image processing control information GI (GI data). Adjustment processing is executed (step S150), print output processing is executed (step S160), and this processing routine is terminated. In the print output process, the CPU 211 executes a halftone process and a resolution conversion process, and sends the processed data to the printing unit 21 as raster data. This processing routine ends.
[0071]
If the CPU 211 determines that the image file GF is a JPEG file (step S110: Yes), whether or not both the APP marker indicating the marker segment APP0 and the APP marker indicating the marker segment APP1 are detected in the image file GF. Is determined (step S120). If both the marker segments APP0 and APP1 are detected in the image file GF (step S120: Yes), the CPU 211 proceeds to step S160. If both the marker segments APP0 and APP1 are detected, it cannot be determined whether the image file GF conforms to the JFIF or Exif file format, and the location of the GI data is appropriately specified. Since it cannot be detected, the image quality adjustment processing using the image processing control information GI is skipped.
[0072]
When both the marker segments APP0 and APP1 are not detected in the image file GF (step S120: No), the CPU 211 determines whether an APP marker indicating the marker segment APP2 is detected in the image file GF (step S120: No). Step S130). When the marker segment APP2 is detected in the image file GF (step S130: Yes), the CPU 211 proceeds to step S160. Since the image file having the marker segment APP2 is generally effectively defined as an image file having an ICC profile, the image quality adjustment processing using the image processing control information GI is skipped.
[0073]
Note that the determination processing in steps S120 and S130 is processing for improving the detection accuracy of the image processing control information GI and processing for prioritizing the current de facto standard, and does not necessarily have to be incorporated in this processing routine. (It may be omitted from this processing routine).
[0074]
When the marker segment APP2 is not detected in the image file GF (step S130: No), the CPU 211 determines whether an APP marker indicating the marker segment APP6 is detected in the image file GF (step S140). If the marker segment APP6 is detected in the image file GF (step S140: Yes), the CPU 211 proceeds to (1) in FIG. On the other hand, when the CPU 211 determines that the marker segment APP5 is not detected in the image file GF (step S140: No), the CPU 211 proceeds to (2) in FIG.
[0075]
With reference to FIG. 12, the continuation of the processing when the marker segment APP6 is detected in the image file GF (processing after (1)) will be described. In the following processing, upon detection of the marker segment APP6, execution of image quality adjustment processing using the image processing control information GI (GI data) described in the marker segment APP6 is attempted.
[0076]
The CPU 211 determines whether or not the identifier ID_GI indicating that the image processing control information GI is included in the marker segment APP6 has been detected (step S200). When the CPU 211 determines that the identifier ID_GI could not be detected (step S200: No), the CPU 211 proceeds to (2) in FIG. Since the presence of the marker segment APP6 does not guarantee the presence of the image processing control information GI, it is necessary to determine whether the image processing control information GI is included even if the marker segment APP6 is present in the image file GF. .
[0077]
When the CPU 211 determines that the identifier ID_GI has been detected (step S200: Yes), the CPU 211 determines whether or not the GI tag 1040 is described (stored) in the 0th_IFD 1022 based on whether or not the GI tag name 1040a is detected (step). S210). If the CPU 211 cannot detect the GI tag 1040 (step S210: No), the CPU 211 executes a normal image quality adjustment process that does not use the image processing control information GI (step S280), and executes this processing routine. finish. When this determination is executed, it is confirmed that at least the marker segment APP6 is the application marker segment APP that should include the image processing control information GI (step S200: Yes), so that a search error, file damage, etc. This corresponds to the case where the GI tag 1040 cannot be detected due to the above reason.
[0078]
When the CPU 211 can detect the GI tag 1040 (step S210: Yes), the CPU 211 identifies the GI data from the 0th data 1023 using the offset value 1040c to the GI data included in the GI tag 1040. It is determined whether or not an identifier GI_M is detected (step S220). If the CPU 211 determines that the identifier GI_M cannot be detected (step S220: No), the CPU 211 executes normal image quality adjustment processing (step S280), and ends this processing routine. When this determination is executed, it is confirmed that at least the GI tag 1040 is included in the image file GF (APP6) (step S210: Yes). This corresponds to the case where GI_M cannot be detected.
[0079]
If the CPU 211 determines that the identifier GI_M has been detected (step S220: Yes), it acquires GI data (GIapp) (step S230). The CPU 211 expands the image data GD included in the read image file GF, performs a matrix operation using the matrix S on the expanded image data GD, a gamma correction using a gamma correction value specified by the GIapp data, and Matrix N including matrix M ^-1 A matrix operation using M is executed to execute YCbCr → wRGB color conversion processing (step S240).
[0080]
The image file GF processed in this flowchart stores JPEG image data, and the JPEG data is data obtained by compressing YCbCr data. Also, RGB data is generally used in image processing in current personal computer PCs and printers. Therefore, decompression (decoding) of JPEG data and color conversion processing of YCbCr data to RGB data are required. The matrix S is a matrix generally used when converting YCbCr data to RGB data in the JFIF standard, and is a matrix well known to those skilled in the art, and thus detailed description thereof is omitted. In addition, since it is desirable to linearize the image data GD for color conversion, the gamma correction processing using the gamma correction value specified by the GI data is executed to linearize the image data GD.
[0081]
In this embodiment, in addition to the general YCbCr → RGB color conversion process using the matrix S, the matrix N including the matrix M in consideration of the color reproduction characteristics of the color printer 20 ^-1 An RGB → wRGB color conversion process is executed using M. The matrix M is a matrix in which each matrix value is designated by GIapp data, and an XYZ color space that is a device independent color space from an RGB color space (target color space) that defines (designates) RGB data after execution of the matrix S calculation. A matrix for converting the color space into When the RGB data after execution of the matrix S calculation has RGB values that exceed the color gamut of the sRGB color space, the color space of the RGB data after execution of the matrix S calculation is, for example, at least a part of it as compared to the sRGB color space. By designating a wRGB color space with a wide color gamut, it is possible to prevent loss of RGB values and connect to a wide wRGB color space (working color space) at a later stage. The matrix N is a matrix for converting a color space from an RGB color space allowed by the color printer 20, for example, a wRGB color space to an XYZ color space. Matrix N ^-1 M is a composite matrix for executing a color conversion process of RGB → XYZ → wRGB.
[0082]
The CPU 211 executes image quality adjustment processing using the parameter values designated by the GIapp data for the RGB data obtained by the conversion (step S250). Specifically, the CPU 211 analyzes the image data GD in units of pixels and displays various characteristic parameter values indicating the characteristics of the image data GD, for example, image statistical values such as a luminance minimum value, a luminance maximum value, and a brightness representative value. get. The CPU 211 obtains a correction amount so as to eliminate or reduce the difference between the reference value predetermined for each characteristic parameter stored in the ROM 212 and the image statistical value obtained by the analysis, and calculates the image data GD. Correct the RGB values. The image data GD is corrected by, for example, correcting the obtained correction value by applying it to a tone curve that defines the relationship between the input value and the output value, and applying the image data GD as an input value to the tone curve. Executed. The parameter value specified by the GI data is used to change the degree of cancellation or reduction (correction amount) of the difference between the reference value and the image statistical value, and directly reflects the correction amount (correction value). Is done. As a result, when the photographer desires a bright image and the exposure correction amount is set to a large positive value, or when the sunset scene mode is designated as the preset photographing mode, the photographer intends to The image quality adjustment process can be executed.
[0083]
The CPU 231 executes color conversion processing for converting image data (RGB data) that has been subjected to automatic image quality adjustment processing into CMYK data (step S260). That is, the color system of the image data is converted into the CMYK color system which is the color system used when the color printer 20 executes the printing process. Specifically, it is executed using a lookup table in which the RGB color system stored in the ROM 212 is associated with the CMYK color system.
[0084]
After completing the above image processing, the CPU 211 executes print output processing using the obtained image data (step S270), and ends this processing routine.
[0085]
In the print output (image output) process, the CPU 211 executes an RGB-CMYK color conversion process, a halftone process, and a resolution conversion process using a lookup table and the like, and outputs the processed data including a print command. Data (raster data) is sent to the printing unit 22. The printing unit 22 drives the print head in accordance with a print command included in the raster data, and forms an image based on the output image data on a print medium such as a paper medium. Note that the output image data does not necessarily include a print command, and it goes without saying that the print command may be sent to the printing unit 22 separately from the output image data.
[0086]
With reference to FIG. 13, the continuation of the process when the marker segment APP6 is not detected in the image file GF (process after (2)) will be described. In the following processing, in response to the fact that the marker segment APP6 has not been detected, the image processing control information GI in which the offset value is designated by the GInote 2050c (GI tag 2070) of the GI tag 2050 or Exif tag 2060 of the marker segment APP1. An attempt is made to execute image quality adjustment processing using (GI data). Alternatively, in response to the fact that the file format of the image file GF is the TIFF format, the image processing control information GI in which the offset value is specified by the GInote 2050c (GI tag 2070) of the GI_IFD 303 or the Exif_IFD 305 in the TIFF file format. An attempt is made to execute image quality adjustment processing using (GI data 304, 306).
[0087]
The CPU 211 determines whether or not the GI tag 2050 is described (stored) in the IFD based on whether or not the GI tag name (tag number) 2050a is detected (step S300). When the CPU 211 can detect the GI tag 2050 (step S300: Yes), the GI data from the 0th data 2023 or the GI data 304 is used using the offset value 2050c to the GI data included in the GI tag 2050. It is determined whether or not an identifier GI_M for identifying is detected (step S310). If the CPU 211 determines that the identifier GI_M has been detected (step S310: Yes), the CPU 211 acquires GI data (GItiff) (step S320), and proceeds to step S370.
[0088]
When the CPU 211 cannot detect the GI tag 2050 (step S300: No) and when the identifier GI_M cannot be detected (step S310: No), the Exif tag 2060 is described (stored) in the IFD. It is determined whether or not the Exif tag name (version name) 2060a is detected (step S330). When the CPU 211 can detect the Exif tag 2060 (step S330: Yes), the CPU 211 determines whether or not the GI tag 2070 is included in the Makernote tag 2060c based on whether or not the GI tag name 2070a is detected. (Step S340). When the CPU 211 can detect the GI tag 2060 (step S340: Yes), the GI data from the 0th data 2023 or the Exif data 306 is used using the offset value 2070c to the GI data included in the GI tag 2070. It is determined whether or not an identifier GI_M for identifying is detected (step S350). If the CPU 211 determines that the identifier GI_M has been detected (step S350: Yes), it acquires GI data (GIExif) (step S360), and proceeds to step S370.
[0089]
When the CPU 211 cannot detect the Exif tag 2060 (step S330: No), the CPU 211 executes normal image quality adjustment processing that does not use the image processing control information GI (step S390), and executes this processing routine. finish. In addition, when the CPU 211 cannot detect the GI tag 2070 (step S340: No) and when the identifier GI_M cannot be detected (step S350: No), the process proceeds to (3) in FIG. And migrate.
[0090]
Subsequently, the CPU 211 executes image quality adjustment processing using GI data (GItiff, GIExif) (steps S370, S372, S374, and S380). Each of these steps corresponds to steps S240, S250, S260, and S270 in FIG. 12, and is executed in the same manner as the processing described with reference to FIG.
[0091]
With reference to FIG. 14, the continuation of the processing (processing after (3)) when the GI tags 2050 and 2070 cannot be detected and when the identifier GI_M cannot be detected will be described. In the following processing, in response to the fact that the image processing control information GI, specifically, GItiff and GIexif could not be detected, the shooting information PI included in the shooting information tag 2060b of the Exif tag 2060 is converted into the GI equivalent data GI. The image quality adjustment process is executed after conversion to '.
[0092]
The CPU 211 acquires the shooting information PI included in the shooting information tag 2060b of the Exif tag 2060, and converts the shooting information PI into GI equivalent data GI ′ based on, for example, the correspondence shown in FIG. 15 (step S400). As a mode of conversion from the shooting information PI to the GI equivalent data GI ′, for example, the correspondence between the shooting scene and the mode specification in the GI data, the setting of the shooting contrast, etc., and the parameter specifying the contrast in the GI data, etc. And information such as gain control are associated with noise reduction processing. As described above, since the shooting information PI is only information that records shooting conditions (environment) at the time of shooting, it is not possible to supplement all of the image processing control information GI. Since the information indicating the intention of shooting is also included, the information is converted into the image processing control information GI.
[0093]
The CPU 211 expands the image data GD and converts the color space of the expanded image data GD from the YCbCr color space to the RGB color space (step S410). This conversion is executed by the color conversion process using the matrix S of the description, and the RGB-wRGB color conversion process via the target color space that can be used when GI data is used is not executed.
[0094]
The CPU 211 executes image quality adjustment processing using the parameter value designated by the GI equivalent data GI ′ obtained by the conversion on the obtained RGB data (step S420). Specifically, the CPU 211 uses various characteristic parameter values (image statistical values) indicating the characteristics of the image data GD by analyzing the image data GD pixel by pixel, reference values, and GI equivalent data GI ′. Thus, the RGB values of the image data GD are corrected so as to eliminate or reduce the difference between the reference value and the image statistical value. The image data GD is corrected by, for example, correcting the obtained correction value by applying it to a tone curve that defines the relationship between the input value and the output value, and applying the image data GD as an input value to the tone curve. Executed. The parameter value designated by the GI equivalent data GI ′ is used to change the degree of cancellation or the degree of reduction (correction amount) of the difference between the reference value and the image statistical value, and directly adjust the correction amount (correction value). ) Is reflected. As a result, it is possible to execute image quality adjustment processing in accordance with the shooting conditions set by the photographer.
[0095]
The CPU 211 executes color conversion processing for converting image data (RGB data) that has been subjected to automatic image quality adjustment processing into CMYK data (step S430). That is, the color system of the image data is converted into the CMYK color system which is the color system used when the color printer 20 executes the printing process. Specifically, it is executed using a lookup table in which the RGB color system stored in the ROM 212 is associated with the CMYK color system.
[0096]
After completing the above image processing, the CPU 211 executes print output processing using the obtained image data (step S4400), and ends this processing routine. In the print output (image output) process, the CPU 211 executes an RGB-CMYK color conversion process, a halftone process, and a resolution conversion process using a lookup table and the like, and outputs the processed data including a print command. Data (raster data) is sent to the printing unit 22. The printing unit 22 drives the print head in accordance with a print command included in the raster data, and forms an image based on the output image data on a print medium such as a paper medium. Note that the output image data does not necessarily include a print command, and it goes without saying that the print command may be sent to the printing unit 22 separately from the output image data.
[0097]
As described above, according to the color printer 20 (image processing apparatus) according to the present embodiment, the image processing control information GI is preferentially received from the image file GF in which both the image processing control information GI and the shooting information PI can be stored. The image quality adjustment processing intended by the photographer is executed using the GI data (GIapp, GItiff, GIexif) obtained by the retrieval, and the image intended by the photographer can be output.
[0098]
Further, since the image file GF used in this embodiment is configured to have a common file structure after the TIFF headers 1021, 2021, 300, the search procedure after the TIFF header by the color printer 20 is made common. be able to.
[0099]
Furthermore, the image file GF used in this embodiment has identifiers and tag numbers over multiple layers in order to prevent recognition of GI data. The color printer 20 according to this embodiment uses these identifiers, Since the GI data is specified after searching the tag number, an appropriate image quality adjustment process can be executed without misidentifying the GI data.
[0100]
Even when the GI data cannot be obtained (searched), the image quality can be adjusted by converting the shooting information PI that can be included in most image files GF into the GI equivalent data GI ′. It is possible to output an image according to the shooting intention.
[0101]
The image output apparatus according to the present invention has been described above based on the embodiments. However, the embodiments of the present invention described above are for facilitating the understanding of the present invention and do not limit the present invention. . The present invention can be changed and improved without departing from the spirit and scope of the claims, and it is needless to say that the present invention includes equivalents thereof.
[0102]
In the above-described embodiment, an example in which image quality adjustment processing is automatically executed based on a single reference value has been described. However, a tendency such as brightness correction on the operation panel of the color printer 20, for example, brightness, darkening, It is also possible to provide an image quality automatic adjustment button for selecting and to change each correction amount according to the tendency such as brightness correction selected by the image quality automatic adjustment button.
[0103]
In the above embodiment, an example in which image quality adjustment processing is automatically executed has been described. However, an image quality automatic adjustment button is provided on the operation panel of the color printer 20, and image quality automatic adjustment selected by the image quality automatic adjustment button is performed. The image quality automatic adjustment process of the above embodiment may be executed only when it is selected.
[0104]
In the above embodiment, all image processing is executed in the color printer 20 without using the personal computer PC, and a dot pattern is formed on the print medium according to the generated image data GD. Or you may make it run a part on a computer. In this case, the image data processing application such as a retouch application or a printer driver installed in a hard disk of a computer is provided with the image processing function described with reference to FIGS. The image file GF generated by the digital still camera 12 is provided to the computer via a cable or a memory card MC. On the computer, an application is started by a user operation, and reading of the image file GF, analysis of the shooting information PI, conversion and adjustment of the image data GD are executed. Alternatively, by detecting the insertion of the memory card MC, or alternatively, by detecting the insertion of the cable, the application is automatically started, and the image file GF is read, the GI data is searched, and the image data GD is read. Conversion and adjustment may be performed automatically.
[0105]
Furthermore, a characteristic parameter value for executing automatic image quality adjustment may be selected. For example, the color printer 20 may be provided with a parameter selection button or a shooting mode parameter selection button in which predetermined parameters are combined according to the subject, and parameters for executing automatic image quality adjustment may be selected with these selection buttons. When automatic image quality adjustment is executed on a personal computer, a parameter for executing automatic image quality adjustment may be selected on a user interface of a printer driver or a retouch application.
[0106]
In the above-described embodiment, the color printer 20 is used as the output device, but a display device such as a CRT, LCD, or projector can also be used as the output device. In such a case, for example, an image processing program (display driver) that executes the image processing described with reference to FIGS. 11 to 15 is executed by the display device as the output device. Alternatively, when a CRT or the like functions as a computer display device, an image processing program is executed on the computer side. However, finally output image data has an RGB color space instead of a CMYK color space.
[0107]
In such a case, the image processing control information GI can be reflected in the display result on a display device such as a CRT in the same manner as the information at the time of image data generation can be reflected in the print result via the color printer 20. . Therefore, the image data GD generated by the digital still camera 12 can be displayed more accurately.
[0108]
In the above embodiment, the image file GF is described as an example of the image file GF in the JFIF, Exif, and TIFF file formats, but the image file format according to the present invention is not limited to this. That is, any image file including image data GD and at least image processing control information GI associated with the image data GD may be used.
[0109]
In the above embodiment, the image processing control information is searched in the order of APP6, TIFF (GI tag), and Makernote (Exif tag) in order to improve the search efficiency, but other search orders may be used. This is because the search order does not affect the quality of image processing, and an image subjected to appropriate image processing can be output even in another search order.
[0110]
The digital still camera 12 and the color printer 20 used in the above-described embodiments are merely examples, and the configuration is not limited to the description of each embodiment. The digital still camera 12 only needs to have at least a function capable of generating the image file GF according to the above embodiment. In the color printer 20, the image processing control information GI is searched from the image file GF that can store at least both the image processing control information GI and the shooting information PI, and the searched GI data is used. Alternatively, it is only necessary to automatically adjust the image quality and output (print) the image using the GI equivalent data GI ′ obtained by conversion from the photographing information PI.
[0111]
In the above embodiment, the case where the image data GD and the GI data (image processing control information GI) are included in the same image file GF has been described as an example. However, the image data GD and the GI data are not necessarily in the same file. Need not be stored. That is, it is only necessary that the image data GD and the GI data are associated with each other. For example, associating data for associating the image data GD with the GI data is generated, and one or a plurality of image data GD and GI data are independent files And GI data associated with the image data GD when it is processed may be referred to. In such a case, the image data and the GI data are inseparable from each other at the time of image processing using the GI data and function in the same manner as when stored in the same file. . Furthermore, a moving image file stored in an optical disc medium such as a CD-ROM, a CD-R, a DVD-ROM, a DVD-RAM is also included.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram illustrating an example of an image output processing system to which an image output apparatus according to an embodiment can be applied.
FIG. 2 is a block diagram illustrating a schematic configuration of a color printer that functions as an image output apparatus according to the present exemplary embodiment.
FIG. 3 is an explanatory diagram schematically showing an internal structure of a JPEG data storage file at an application marker segment (APP) level in order to explain a file format of a JPEG data storage file for storing JPEG data.
FIG. 4 is an explanatory diagram schematically showing a general file structure of a JPEG data storage file for storing JPEG data.
FIG. 5 is an explanatory diagram showing in detail the schematic internal structure of APP6 that can be used in this embodiment.
FIG. 6 is an explanatory diagram schematically illustrating a data structure of GI data storing image processing control information GI used in the present embodiment.
FIG. 7 is an explanatory diagram showing in detail the schematic internal structure of APP1 that can be used in this embodiment.
FIG. 8 is an explanatory diagram showing in detail the schematic internal structure of an Exif IFD in an Exif file format that can be used in this embodiment. It is a block diagram.
FIG. 9 is an explanatory diagram schematically showing an internal structure of a TIFF file at an IFD level in order to explain a TIFF file format.
FIG. 10 is an explanatory diagram schematically showing a general file structure of a TIFF file.
FIG. 11 is a flowchart illustrating a processing routine of image processing in the image output apparatus (color printer 20) according to the present embodiment.
FIG. 12 is a flowchart illustrating a processing routine of image quality adjustment processing using GIapp data in the image output apparatus (color printer 20) according to the present embodiment.
FIG. 13 is a flowchart illustrating a processing routine of image quality adjustment processing using GItiff data or GIexif data in the image output apparatus (color printer 20) according to the present embodiment.
FIG. 14 is a flowchart illustrating a processing routine of image quality adjustment processing in which Exif data is converted and used as GI-equivalent data in the image output apparatus (color printer 20) according to the present embodiment.
FIG. 15 is an explanatory diagram showing an example when shooting information PI is associated with GI equivalent data GI ′;
[Explanation of symbols]
10. Image output processing system
12 ... Digital still camera
14 ... Display
20 Color printer
21 ... Control circuit
211 ... Arithmetic processing unit (CPU)
212 ... Programmable read only memory (PROM)
213: Random access memory (RAM)
22 ... Printing section
23 ... Slot
100, 200 ... APP marker
101 ... identifier ID_GI
102, 202 ... Attached information
1021, 2021 ... TIFF header
1022, 2022 ... 0th_IFD
1023, 2023 ... 0th data (GI data)
103, 202 ... Thumbnail image data
1040, 2050, 2070 ... GI tag
1040a, 2050a, 2070a ... GI tag names (tag numbers)
1040b, 2050b, 2070b ... segment length
1040c, 2050c, 2070c ... offset
201 ... identifier Exif
2024 ... 1st_IFD
2060 ... Exif tag
2060a ... Exif tag name (tag number)
2060b: Each shooting information tag length
2060c ... Makernote tag
300 ... TIFF header
301 ... 0th_IFD
302 ... 0th data
303 ... GI_IFD
304 ... GI data
305 ... Exif_IFD
306 ... Exif data
307 ... Thumbnail data
308 ... Image data
GIapp, GItiff, GIexif ... GI data
GF ... Image file
GD ... Image data
PI: Shooting information PI
MC ... Memory card

Claims (16)

Stores image data, photographing conditions indicating conditions at the time of image data generation, image processing conditions at the time of image data processing, and at least one of image processing control information whose storage position is defined according to the recording format An image output device that outputs an image using an image file
Image file acquisition means for acquiring the image file;
Format determination means for determining the recording format of the acquired image file;
The recording format of the acquired image file includes a first application marker segment in which the image processing control information can be stored, and at least one of the image processing control information and the shooting information stored in the same hierarchy. When it is determined that the recording format is a JPEG data storage file having at least one of the second application marker segments to be obtained, the default storage position of the second application marker segment, the first Image processing control information search means for searching the image processing control information in the order of the predetermined storage position of the application marker segment;
If the image processing control information can be searched, image processing means for executing image processing on the image data according to the searched image processing control information;
Output image data generation means for generating image data for output using the image data subjected to the image processing;
An image output device comprising image output means for outputting an image using the generated output image data. Stores image data, photographing conditions indicating conditions at the time of image data generation, image processing conditions at the time of image data processing, and at least one of image processing control information whose storage position is defined according to the recording format An image output device that outputs an image using an image file
Image file acquisition means for acquiring the image file;
Format determination means for determining the recording format of the acquired image file;
The recording format of the acquired image file includes a first application marker segment in which the image processing control information can be stored, and at least one of the image processing control information and the shooting information stored in the same hierarchy. When it is determined that the recording format of the JPEG data storage file has at least one of the second application marker segments to be obtained, the predetermined storage position of the first application marker segment, the second Image processing control information search means for searching the image processing control information in the order of the predetermined storage position of the application marker segment;
If the image processing control information can be searched, image processing means for executing image processing on the image data according to the searched image processing control information;
Output image data generation means for generating image data for output using the image data subjected to the image processing;
An image output device comprising image output means for outputting an image using the generated output image data. The image output apparatus according to claim 1 or 2, further comprising:
Photographing information retrieval means for retrieving the photographing information from the second application marker segment;
The second application marker segment may store the image processing control information in a lower hierarchy of the shooting information;
The image processing control information search means is not searched for the image processing control information in the predetermined storage positions of the first and second application marker segments, and the shooting information is searched by the shooting information search means. In this case, the image output apparatus searches for the image processing control information in a lower hierarchy of the shooting information of the second application marker segment. The image output apparatus according to claim 3.
When the image processing control information is not searched in a lower hierarchy of the shooting information of the second application marker segment, the image processing means uses at least a part of the shooting information as the image processing control information. An image output device that performs image processing according to the converted image processing control information. Stores image data, photographing conditions indicating conditions at the time of image data generation, image processing conditions at the time of image data processing, and at least one of image processing control information whose storage position is defined according to the recording format An image output device that outputs an image using an image file
Image file acquisition means for acquiring the image file;
Format determination means for determining the recording format of the acquired image file;
The recording format of the acquired image file is a TIFF file having at least one of a first image file directory in which the image processing control information can be stored and a second image file directory in which the shooting information can be stored. Image processing control information search means for searching the image processing control information in the order of the first image file directory and the second image file directory when it is determined that the recording format is set;
If the image processing control information can be searched, image processing means for executing image processing on the image data according to the searched image processing control information;
Output image data generation means for generating image data for output using the image data subjected to the image processing;
An image output device comprising image output means for outputting an image using the generated output image data. The image output device according to claim 5 further includes:
Photographing information retrieval means for retrieving the photographing information from the second image file directory;
The second image file directory may store the image processing control information in a lower hierarchy of the shooting information;
The image processing control information search unit is configured to search for the second image file when the image processing control information is not searched in the first image file directory and the shooting information is searched by the shooting information search unit. An image output apparatus that searches for the image processing control information in a lower hierarchy of the shooting information in a directory. The image output apparatus according to claim 6.
If the image processing control information is not searched in the lower hierarchy of the shooting information in the second image file directory, the image processing means uses at least a part of the shooting information as the image processing control information. An image output device that performs conversion and executes image processing according to the converted image processing control information. Stores image data, photographing conditions indicating conditions at the time of image data generation, image processing conditions at the time of image data processing, and at least one of image processing control information whose storage position is defined according to the recording format An image output program for outputting an image using an image file
A function of acquiring the image file;
A function of determining the recording format of the acquired image file;
The recording format of the acquired image file includes a first application marker segment in which the image processing control information can be stored, and at least one of the image processing control information and the shooting information stored in the same hierarchy. When it is determined that the recording format is a JPEG data storage file having at least one of the second application marker segments to be obtained, the default storage position of the second application marker segment, the first application A function of searching for the image processing control information in the order of the predetermined storage position of the marker segment;
A function for executing image processing on the image data in accordance with the searched image processing control information when the image processing control information can be searched;
A function of generating image data for output using the image data subjected to the image processing;
An image output program for causing a computer to execute a function of outputting an image using the generated output image data. The image output program according to claim 8 further includes:
A function for retrieving the photographing information from the second application marker segment is executed by a computer,
When the image processing control information cannot be searched at the predetermined storage position of the first and second application marker segments and the shooting information can be searched, the function of searching for the image processing control information is: An image output program for retrieving the image processing control information that can be stored in a lower hierarchy of the shooting information of the second application marker segment. The image output program according to claim 9, wherein
When the image processing control information cannot be searched in a lower layer of the shooting information of the second application marker segment, the image processing function is configured to control at least a part of the shooting information. An image output program that converts information into information and executes image processing according to the converted image processing control information. Stores image data, photographing conditions indicating conditions at the time of image data generation, image processing conditions at the time of image data processing, and at least one of image processing control information whose storage position is defined according to the recording format An image output program for outputting an image using an image file
A function of acquiring the image file;
A function of determining the recording format of the acquired image file;
The recording format of the acquired image file is a TIFF file having at least one of a first image file directory in which the image processing control information can be stored and a second image file directory in which the shooting information can be stored. A function of searching the image processing control information in the order of the first image file directory and the second image file directory when it is determined that the recording format is set;
A function for executing image processing on the image data in accordance with the searched image processing control information when the image processing control information can be searched;
A function of generating image data for output using the image data subjected to the image processing;
An image output program for causing a computer to execute a function of outputting an image using the generated output image data. The image output program according to claim 11 further includes:
Causing the computer to execute a function of retrieving the shooting information from the second image file directory;
When the image processing control information cannot be searched for in the first image file directory and the shooting information can be searched, the function of searching for the image processing control information is the shooting of the second image file directory. An image output program for retrieving the image processing control information that can be stored in a lower hierarchy of information. Stores image data, photographing conditions indicating conditions at the time of image data generation, image processing conditions at the time of image data processing, and at least one of image processing control information whose storage position is defined according to the recording format An image output method using an image file to perform,
Obtain the image file,
Determining the recording format of the acquired image file;
The recording format of the acquired image file includes a first application marker segment in which the image processing control information can be stored, and at least one of the image processing control information and the shooting information stored in the same hierarchy. When it is determined that the recording format is a JPEG data storage file having at least one of the second application marker segments to be obtained, the default storage position of the second application marker segment, the first application -Search the image processing control information in the order of the predetermined storage position of the marker segment,
If the image processing control information can be searched, image processing is executed on the image data according to the searched image processing control information,
Generating image data for output using the image data subjected to the image processing;
An image output method for outputting an image using the generated output image data. Stores image data, photographing conditions indicating conditions at the time of image data generation, image processing conditions at the time of image data processing, and at least one of image processing control information whose storage position is defined according to the recording format An image output method using an image file to perform,
Obtain the image file,
Determining the recording format of the acquired image file;
The recording format of the acquired image file is a TIFF file having at least one of a first image file directory in which the image processing control information can be stored and a second image file directory in which the shooting information can be stored. If the recording format is determined, the image processing control information is searched in the order of the first image file directory and the second image file directory;
If the image processing control information can be searched, image processing is executed on the image data according to the searched image processing control information,
Generating image data for output using the image data subjected to the image processing;
An image output method for outputting an image using the generated output image data.
The search for the image processing control information is an image output method that is executed in the order of the first image file directory and the second image file directory. The application marker segment APP0 indicating that it is a JFIF file and shooting information indicating the conditions at the time of image data generation are stored, and the image processing control information for specifying the image processing conditions at the time of image data processing is stored in the same hierarchy. An image using an image file that stores JPEG data and at least one of application marker segment APP1 that can be stored and indicates an Exif file, and application marker segment APP6 that can store the image processing control information An image output device for outputting
Image file acquisition means for acquiring the image file;
Detecting means for detecting the application marker segment;
An image processing unit that does not perform image processing on the image data using the image processing control information when the application marker segment APP0 and the application marker segment APP1 are detected simultaneously by the detection unit;
Output image data generation means for generating image data for output using the image data subjected to the image processing;
An image output device comprising image output means for outputting an image using the generated output image data. The image output apparatus according to claim 15, wherein
The image processing means detects any combination of the application marker segment APP1, the application marker segment APP1, and the application marker segment APP6, or the application marker segment APP0 and the application marker segment APP6. In this case, an image output device that executes image processing on the image data in accordance with the image processing control information.

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