JP3915879B2 - Color data processing apparatus, color data processing method, and storage medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention creates color conversion data for performing color conversion of image data based on the characteristics of each of a source device and a target device, and further performs color conversion processing using the created color conversion data The present invention relates to a processing device, a color data processing method, and a storage medium storing a program for executing the function of the color data processing device or the color data processing method by a computer.
[0002]
[Prior art]
When performing color management processing between different input / output devices, that is, processing to reproduce almost the same color using any input device and output device, a profile describing the color characteristics of each device is created. A method of performing color matching processing (color matching processing) by using it is known. As a standard for such a profile for each device, a profile standardized by ICC (International Color Consortium) is used as a standard, and is generally used. Hereinafter, a file for recording such color characteristic information will be described as an ICC profile. However, a different file format in which color characteristic information of a device is stored in advance is not different from the gist of the present invention.
[0003]
Device profile types include an image input device such as a scanner, an image output device such as a printer, and an image display device such as a monitor. In order to acquire the color characteristics of each device, the device color (for example, RGB value or CMYK value) and the chromaticity value (for example, L) in the device-independent color space obtained by color measurement or the like. ^* a ^* b ^* It is necessary to generate a correspondence between an arbitrary device color and a chromaticity value in a device-independent color space by using a data pair with a value or an XYZ value.
[0004]
FIG. 7 is a block diagram illustrating an example of a general color characteristic data generation process. In the figure, 41 is a data input unit, 42 is a data processing unit, 43 is a profile data generation unit, and 44 is a profile output unit. When generating color characteristic data of a specific device, first, if the device is an output device, device color data (for example, RGB value or CMYK value) is given to the device, and the color corresponding to the device color data The color is measured with a colorimeter, for example, and the chromaticity value in a device-independent color space (color measurement data such as L ^* a ^* b ^* Value or XYZ value). If the device is an input device, the color to be read by the device is measured by, for example, a colorimeter, and the chromaticity value in a device-independent color space (color measurement data, for example, L ^* a ^* b ^* Value and XYZ value), and the device reads the color to obtain device color data (for example, RGB value or CMYK value).
[0005]
When a large number of pairs of device color data and corresponding device-independent colorimetric data are obtained in this way, these are input by the data input unit 41 and appropriately processed by the data processing unit 42. Input to the profile data generation unit 43. The profile data generation unit 43 receives a pair of device color data and colorimetric data as input, performs calculations using various color models that can describe the correspondence relationship, and generates profile data such as an ICC profile. The generated profile data is output from the profile output unit 44 and stored as a device color characteristic file. The device color characteristic file is created for each device or for various conditions of the device. Examples of the conditions include paper type and screen conditions for a printer, and set color temperature for a monitor.
[0006]
Color conversion processing from input image data of the source device to output image data of the target device is performed using the ICC profile of the device generated in this way. The source device is, for example, an input device if an image is read and input. Further, when considering image data created so that a desired color is reproduced by an output device, the output device may be a source device. The target device is an output device to which image data is output.
[0007]
If the source device and the target device are the same device, a desired color reproduction can be realized basically without color conversion. However, generally color matching between different devices is required. Even with the same output method, the color development will be different if the device type is different. Furthermore, even in the same type of device, the color development is slightly different due to the difference (machine difference) for each device. Furthermore, even in the same device, color shift may occur due to changes over time or parts replacement.
[0008]
In this way, when outputting image data input with an input device with an output device, or when outputting image data created assuming a certain output device with another output device, the desired color reproduction can be performed with a different device. In order to achieve this, it is necessary to perform color conversion processing that reflects device states according to various situations. Furthermore, even when the same output device is used for a long time, color conversion processing may be necessary.
[0009]
During such color conversion processing, color conversion data is generated using the source device profile and target device profile so that the same color is reproduced on the target device, and the color conversion processing is performed using the color conversion data. It is carried out. This color conversion process is the above-described color matching process.
[0010]
FIG. 8 is a block diagram illustrating an example of a general color conversion process. In the figure, 51 is a profile input unit, 52 is a color conversion data generation unit, 53 is a color conversion execution unit, 54 is an image data input unit, and 55 is an image data output unit. The profile input unit 51 reads the profile of the source device and the profile of the target device from each device color characteristic file, for example, and passes them to the color conversion data generation unit 52. The color conversion data generation unit 52 generates color conversion data using the read source device profile and target device profile so that the same color as the source device is reproduced on the target device.
[0011]
After the color conversion data is set in the color conversion execution unit 53, the color conversion according to the color conversion data is performed by the color conversion execution unit 53 on the image data corresponding to the source device input by the image data input unit 54. Processing is performed and image data corresponding to the target device is output via the image data output unit 55. If this image data is output by the target device, a color-reproduced image can be obtained as in the case of output by the source device.
[0012]
As a system for performing such color conversion processing, there is known Color Sync 2.6 installed in the OS of Apple Computer, or CMS (Color Management System) called ICM 2.0 installed in the OS of MicroSoft. Color conversion using a profile can be performed by an application program or a device driver.
[0013]
FIG. 9 is an explanatory diagram of an example of a processing procedure for a conventional color conversion process. As described above, in the conventional color management process, the ICC profile of the source device is created in S61 and the ICC profile of the target device is created in S62 by the color characteristic data generation process as shown in FIG. For example, in the color conversion process as shown in FIG. 8, the color conversion data is generated in S63 using the ICC profile of the source device and the ICC profile of the target device created in S61 and S62. In step S64, color conversion is actually performed on the color data of the image or graphic or text to be converted.
[0014]
As described above, there is a variation in individual device characteristics even in the same model, so it is necessary to create an ICC profile for the device itself being used. However, the creation is a laborious operation such as measuring various types of color characteristic data. Furthermore, in order to satisfy the specifications such as the ICC profile, it is necessary to create a plurality of color conversion parameters, and there is a problem that it takes more processing time. For this reason, it is usually not performed except for work that requires more accurate color matching (design sample, printing color proofing, etc.).
[0015]
In operations such as color proofing for printing, when the output result of a color printer is matched with the color sample for printing, for example, the ICC profile of the condition that created the color sample for printing is used as the profile of the source device. As a target profile, an ICC profile of the color printer device to be used is created. Using these source device profiles and color printer profiles, color conversion parameters from the source (printer) CMYK device color to the target (color printer) CMYK device color are created, and a color separation is created for the source. Color conversion can be performed.
[0016]
In this case, in order to perform accurate color conversion taking into account, for example, changes with time of the device, it is necessary to create profiles of the source device and the target device each time. However, performing such work every time is extremely inefficient. For this reason, in a normal color conversion process, various profiles can be supported by appropriately selecting a profile created in advance. In this case, the device for creating color characteristic data for each device as shown in FIG. 7 and the device for performing color conversion processing as shown in FIG. 8 are usually configured as different devices. A processing apparatus is used to place an order for creating a profile as appropriate.
[0017]
However, the efficiency of work is usually improved by using a profile that has already been created. However, if accurate color reproduction is unavoidable, there is a case where it is desired to create a profile from the user side even if it is troublesome. . Conventionally, it has not been possible to respond to such user requests.
[0018]
[Problems to be solved by the invention]
The present invention has been made in view of the above-described circumstances, and can selectively use a function that uses an already created profile and a function that is created from a device profile and performs accurate color reproduction. An object of the present invention is to provide a color data processing apparatus and color data processing method capable of generating an adaptive color conversion parameter suitable for a user's purpose of use, and a storage medium storing a program for realizing such a function. To do.
[0019]
[Means for Solving the Problems]
The present invention is a color data processing apparatus and color data processing method for creating color conversion data based on the characteristics of each of a source device and a target device, and a storage medium storing a program for realizing such a function, For example, the user selects a pre-stored color characteristic information of the source device or a plurality of data sets for generating the color characteristic information of the source device and inputs the target device stored in advance. Of the plurality of data sets for generating the color characteristic information of the target device or the color characteristic information of the target device is selected. Then, according to the selection, either the data set generated from the color characteristic information of the source device or the data set on the source device side, and either the data set generated from the color characteristic information on the target device side or the data set of the target device It is characterized in that color conversion data is created based on these data.
[0020]
With this configuration, if you want to use pre-created color characteristic information, you can select it. If you want to perform color matching that is more current, you can generate color characteristic information. Multiple data sets can be entered and created from the profile selectively. Therefore, it is possible to adaptively create color conversion data according to the user's purpose of use.
[0021]
Furthermore, it corresponds to the case where it is desired to create color conversion data after performing a predetermined process rather than using pre-created color characteristic information as it is. A plurality of data sets are generated from the information, and a predetermined process is performed on the generated plurality of data sets before being used to create color conversion data. As a result, color conversion data can be created within a range of various conditions, such as controlling the value of data of a specific color to be generated or limiting the total value.
[0022]
In addition, the structure which enables selection of any of a plurality of data sets for generating color characteristic information and color characteristic information created in advance is, for example, only on the source device side, or conversely only on the target device side It can also be configured. Furthermore, color conversion execution means for performing color conversion of image data using the created color conversion data may be provided.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing an embodiment of a color data processing apparatus and color data processing method according to the present invention. In the figure, 11 is a source device profile input unit, 12 is a profile processing unit, 13 is a source device color data input unit, 14 is a source side colorimetric data input unit, 15 is a data processing unit, 16 is a source side selection instruction unit, 21 is a target device profile input unit, 22 is a profile processing unit, 23 is a target device color data input unit, 24 is a target side colorimetric data input unit, 25 is a data processing unit, 26 is a target side selection instruction unit, and 31 is a color A conversion data generation unit, 32 is a color conversion execution unit, 33 is an image data input unit, and 34 is an image data output unit.
[0024]
The source device profile input unit 11 reads a profile corresponding to the source device from the profiles created in advance. The profile corresponding to the source device read by the source device profile input unit 11 is subjected to predetermined processing by the profile processing unit 12 and then passed to the color conversion data generation unit 31.
[0025]
The source device color data input unit 13 inputs device color data in the source device. The source side colorimetric data input unit 14 inputs colorimetric data corresponding to the device color data. Thus, a plurality of data sets of device color data and colorimetric data for generating color characteristic information of the source device can be input. A plurality of input data sets are subjected to predetermined processing by the data processing unit 15 and then passed to the color conversion data generation unit 31.
[0026]
The source side selection instructing unit 16 reads one of the profiles created in advance by the source device profile input unit 11 or the source device color data input unit 13 and the source side colorimetric data input unit 14 in the source device. Whether device color data and colorimetric data are to be read is selected by an external instruction such as a user instruction, and the reading instruction and information for reading are sent to either.
[0027]
The target device profile input unit 21 reads a profile corresponding to the target device from the profiles created in advance. The profile corresponding to the target device read by the target device profile input unit 21 is subjected to predetermined processing by the profile processing unit 22 and then passed to the color conversion data generation unit 31.
[0028]
The target device color data input unit 23 inputs device color data in the target device. The target side colorimetric data input unit 24 inputs colorimetric data corresponding to the device color data. Thus, a plurality of data sets of device color data and colorimetric data for generating color characteristic information of the target device can be input. The plurality of input data sets are subjected to predetermined processing by the data processing unit 25 and then passed to the color conversion data generation unit 31.
[0029]
The target side selection instructing unit 26 reads one of the profiles created in advance by the target device profile input unit 21 or the target device color data input unit 23 and the target side colorimetric data input unit 24 in the target device. Whether device color data and colorimetric data are to be read is selected by an external instruction such as a user instruction, and the reading instruction and information for reading are sent to either.
[0030]
The color conversion data generation unit 31 inputs the source device profile input by the source device profile input unit 11 or the source device color data input unit 13 and the source side colorimetric data input unit 14 as source device data. One of a plurality of data sets of device color data and colorimetric data of the source device is received via the profile processing unit 12 or the data processing unit 15. The target device profile input by the target device profile input unit 21 or the device color data of the target device input by the target device color data input unit 23 and the target side colorimetric data input unit 24 as target device data. And the color measurement data are received via the profile processing unit 22 or the data processing unit 25. From the source device profile or multiple data sets of device color data and colorimetric data, and from the target device profile or multiple data sets of device color data and colorimetric data, the target device is the same as the source device. Color conversion data is created so that colors are reproduced. This process is, for example, L ^* a ^* b ^* Or the same value in the XYZ color space. However, when there are differences in the color expression range depending on the device, processing such as color reproduction range compression may be required. This indicates that the colors do not always match.
[0031]
The color conversion execution unit 32 performs color conversion processing on the image data input via the image data input unit 33 using the color conversion data generated by the color conversion data generation unit 31. The image data input via the image data input unit 33 is image data having a device color in the source device. Further, the image data after the color conversion processing by the color conversion execution unit 32 has a device color in the target device, but almost the same color reproduction as the color reproduction in the source device is performed. is there. The image data and the like after the color conversion processing is performed by the color conversion execution unit 32 is output via the image data output unit 34.
[0032]
Next, an example of the operation in the embodiment of the color data processing apparatus and color data processing method of the present invention will be described. Here, the description will be made assuming that the source side selection instruction unit 16 and the target side selection instruction unit 26 select either a profile stored in advance or a plurality of data sets of device color data and colorimetric data, respectively. Of course, this selection operation may be configured to be selected by other software or data.
[0033]
The user first selects an input condition for the source device and an input condition for the target device. In the source side device selection instruction, it corresponds to the source device color data necessary for generating the color characteristic information of the source device or the source device color data necessary for generating the color characteristic information of the source device. The source side selection instruction unit 16 selects whether to read the colorimetric data to be read. FIG. 2 is an explanatory diagram of an example of a user interface in the source side selection instruction unit 16. The source side selection instructing unit 16 can be configured to sequentially select, for example, in an input dialog as shown in FIG. FIG. 2A shows a dialog for selecting parameter input means. In this dialog, it is selected whether to use a prestored profile (input from an ICC profile) or to read a pair of device color data and corresponding colorimetric data in the source device (input from a data pair). When one is selected and the process proceeds to “next”, a data input dialog corresponding to the user's selection is displayed.
[0034]
For example, when a profile stored in advance is used, “input from ICC profile” is selected in the dialog shown in FIG. 2A and “next” is instructed. Then, the dialog shown in FIG. 2C is displayed. In this dialog, it is only necessary to input a location (including a file name) where a profile of the source device such as an ICC profile stored in advance is stored. Of course, the identification method of the file etc. in which the profile is stored is arbitrary. By instructing “next”, the input instruction to the source device is terminated and the process proceeds to the input instruction to the target device. If it is desired to redo the selection of the input means, “return” may be indicated. If it is desired to stop the color conversion process, “cancel” may be indicated.
[0035]
On the other hand, when reading a pair of device color data and corresponding colorimetric data in the source device, “Input from data pair” is selected in the dialog shown in FIG. 2A and “Next” is instructed. . Then, the dialog shown in FIG. 2 (B) is displayed. In this dialog box, enter the color data file that stores the data indicating the device color of the source device and the location (including the file name) where the data file that stores the colorimetric data that is paired with the color data file is stored. Will do. Of course, the identification method of the file etc. in which the profile is stored is arbitrary. By instructing “next”, the input instruction to the source device is terminated and the process proceeds to the input instruction to the target device. If it is desired to redo the selection of the input means, “return” may be indicated. If it is desired to stop the color conversion process, “cancel” may be indicated.
[0036]
Similarly, the input conditions of the device on the target side can be specified and selected by the same method. That is, whether to use a profile stored in advance or to read a pair of device color data and corresponding colorimetric data in the target device is selected by a dialog similar to FIG. When using a pre-stored profile, input the location (including the file name) where the pre-stored profile of the target device is stored using a dialog similar to that shown in FIG. That's fine. On the other hand, when reading a pair of device color data and corresponding colorimetric data in the target device, a color data file storing data indicating the device color of the target device and the like by a dialog similar to FIG. The location (including the file name and the like) where the data file storing the colorimetric value data paired therewith is stored.
[0037]
The dialog shown in FIG. 2 is an example, and can be arbitrarily configured. For example, FIGS. 2A to 2C may be combined into one dialog, and the inputable area such as a file name may be switched by switching to an input unit. Further, the dialog of the source device and the target device may be combined. Alternatively, the dialog shown in FIG. 2B may be divided into a dialog for specifying a colorimetric data file corresponding to the specification of a color data file. Of course, the layout of these dialogs is arbitrary.
[0038]
When the designation of the input method on the source side and the target side and the designation of the data file according to the designated input method are completed, the input unit according to the designated input method is instructed to input data. For example, when input of a profile stored in advance is instructed on the source device side, location information including the file name where the profile is stored is passed to the source device profile input unit 11 to read the profile. Instruct. On the other hand, when the source device side is instructed to input a pair of colorimetric data corresponding to the device color data, the source device color data input unit displays the location information including the file name of the input device color data file. 13 to read the device color data of the source device. Further, the location information including the file name of the corresponding color measurement data file is passed to the source side color measurement data input unit 14 to read the corresponding color measurement data. Similarly, for example, when an input of a profile stored in advance is instructed on the target device side, the target device profile input unit 21 is passed the location information including the file name where the profile is stored, Instruct to load profile. On the other hand, when the target device side is instructed to input a pair of colorimetric data corresponding to the device color data, the target device color data input unit displays the location information including the file name of the input device color data file. 23 to read the device color data of the target device. Further, the location information including the file name of the corresponding color measurement data file is passed to the target side color measurement data input unit 24, and the corresponding color measurement data is read.
[0039]
In this way, the profile is read from the source device profile input unit 11 on the source device side, or the device color data and the corresponding colorimetry from the source device color data input unit 13 and the source side colorimetric data input unit 14 are read. Data is read. The read profile, or device color data and colorimetric data are each subjected to predetermined processing by the profile processing unit 12 or the data processing unit 15 and then passed to the color conversion data generation unit 31. Similarly, on the target device side, a profile is read from the target device profile input unit 21, or device color data and corresponding colorimetric data are received from the target device color data input unit 23 and the target side colorimetric data input unit 24. Is read. The read profile, or device color data and colorimetric data are each subjected to predetermined processing by the profile processing unit 22 or data processing unit 25 and then passed to the color conversion data generation unit 31.
[0040]
The color conversion data generation unit 31 receives a profile on the source device or a pair of device color data and colorimetric data, and a profile on the target device side or a pair of device color data and colorimetric data. Color conversion data is generated so that the matching color is reproduced by the target device. The color conversion data generated by the color conversion data generation unit 31 varies depending on the color conversion method used in the color conversion execution unit 32 or the image data on which color conversion is performed. For example, assuming a CMYK four-color printer color calibration process for the CMYK four-color print color sample as described above, color conversion from CMYK to C'M'Y'K 'is performed by four-dimensional table type color conversion. What is necessary is just to produce | generate the parameter for it from the color characteristic data of a source side and a target side. For example, the source device may be CMY 3-color printing or 6-color printing using special colors, or the target device may be CMY 3-color printing or 6-color printing using special colors. However, a color conversion table that matches the conditions may be used. The same applies when the source device is RGB data such as a scanner or a digital camera. The same applies to a target device such as a color printer, a printer, or a monitor. Furthermore, in addition to table-type color conversion, other color conversion methods such as matrix conversion type color conversion, or a method using a combination of them may be used, and color conversion according to these methods is also possible. Data can be generated.
[0041]
The color conversion data generated by the color conversion data generation unit 31 is transferred to the color conversion execution unit 32, and the color conversion execution unit 32 prepares for color conversion. Thereafter, image data or the like having a device color in the source device is input from the image data input unit 33, and the color conversion execution unit 32 performs color conversion processing so that color reproduction almost the same as the color in the source device is performed in the target device. Is done. The image data after the color conversion processing is sent from the image data output unit 34 to, for example, a target device and output. For example, when the source device is a printing machine and image data of a printed matter of CMYK four-color printing is input and the image data is output to the CMYK four-color color printer that is the target device, the color conversion data as described above is created and created. By color conversion processing using color conversion data, a color printer can print an image with color reproduction similar to that performed by a printing press. Therefore, it is possible to realize color calibration using a color printer.
[0042]
FIG. 3 is a block diagram showing a modification in one embodiment of the color data processing apparatus and color data processing method of the present invention. The reference numerals in the figure are the same as those in FIG. In this modification, the source device side can select either a pre-stored profile or a pair of device color data and colorimetric data, but the target device side can only use a pre-stored profile. Shows the configuration.
[0043]
Such a configuration is effective when the target device is limited to a specific device and changes with time do not occur so much. For example, when the profile of the target device is created in another apparatus and the profile can be acquired, such a configuration may be used.
[0044]
FIG. 4 is a block diagram showing another modification of the embodiment of the color data processing apparatus and color data processing method of the present invention. The reference numerals in the figure are the same as those in FIG. In this modification, the target device can select either a pre-stored profile or a pair of device color data and colorimetric data, but the source device only uses a pre-stored profile. Shows the configuration.
[0045]
Such a configuration is effective when the source device is limited to a specific device and changes with time do not occur so much. For example, when the profile of the source device is created in another apparatus and the profile can be acquired, such a configuration may be used. For example, when you perform color proofing with your own printer at a print ordering company or print production company that does not have a printing machine, download the printing machine profile from the printing company and use it as the source device profile, It is conceivable that the input means can be switched for the printer of its own company as the target device.
[0046]
FIG. 5 is a block diagram showing still another modification of the embodiment of the color data processing apparatus and color data processing method of the present invention. In the figure, the same parts as those in FIG. Reference numeral 17 denotes a source side data set generation unit, and 27 denotes a target side data set generation unit. For example, if the target side selection instruction unit 26 selects to read one of the profiles created in advance by the target device profile input unit 21, if the profile is an ICC profile, based on the color characteristics of the device, Already device color and L ^* a ^* b ^* A color conversion method with a color space or an XYZ color space is described. Therefore, it is possible to perform color conversion by the described method.
[0047]
However, there are cases where it is desired to perform various processes without using the color conversion method described in the ICC profile as it is. For example, when color conversion data is generated in a four-color printer using color materials of C (Cyan), M (Magenta), Y (Yellow), and K (Black), the value of the generated K data is set to color. Cannot be changed arbitrarily when generating conversion data. In addition, for example, there is a case where it is necessary to limit the total data amount of the color material, for example, when the total amount of the color material of C, M, Y, and K is desired to be 300% or less, but such a limitation cannot be imposed. . These are important for improving the color reproducibility in the printer, and it is desirable to generate color conversion data after performing these processes. Of course, the same applies to the source data set.
[0048]
The example shown in FIG. 5 shows a configuration in which various processes can be performed before color conversion data generation even when an ICC profile is selected in this way. Therefore, in the example shown in FIG. 5, the source side data set generation unit 17 is provided on the source side, and the target side data set generation unit 27 is provided on the target side.
[0049]
The source-side data set generation unit 17 receives a profile read by the source device profile input unit 11 and subjected to predetermined processing by the profile processing unit 12. The device color and L stored in the profile ^* a ^* b ^* Device color data necessary for generating color characteristic information of a source device using a color conversion method with a color space or XYZ color space, and L corresponding to the device color data ^* a ^* b ^* A plurality of data sets consisting of pairs with color data in the color space or XYZ color space are generated. For example, the data set is generated from a predetermined combination of C, M, Y, and K according to the color conversion method described in the profile. ^* a ^* b ^* A value in a color space or an XYZ color space may be generated.
[0050]
The plurality of data sets generated by the source-side data set generation unit 17 are input to the data processing unit 15 and subjected to predetermined processing. At this time, it is possible to perform processing such as arbitrarily changing color conversion conditions when generating color conversion data. For example, the value of K data generated at the time of color conversion data generation can be arbitrarily changed on the source side, and the image quality can be improved by adjusting the black amount. Various restrictions can be imposed such as keeping the total of each color component below a predetermined value.
[0051]
Similarly, the target-side data set generation unit 27 receives a profile read by the target device profile input unit 21 and subjected to predetermined processing by the profile processing unit 22. The device color and L stored in the profile ^* a ^* b ^* Device color data necessary for generating color characteristic information of the target device using a color conversion method with the color space or XYZ color space, and L corresponding to the device color data ^* a ^* b ^* A plurality of data sets consisting of pairs with color data in the color space or XYZ color space are generated. The data set generation method is the same as that of the source side data set generation unit 17.
[0052]
The plurality of data sets generated by the target-side data set generation unit 27 are input to the data processing unit 25 and subjected to predetermined processing. At this time, it is possible to perform processing such as arbitrarily changing color conversion conditions when generating color conversion data. For example, the value of K data generated at the time of color conversion data generation can be arbitrarily changed on the target side, and the image quality can be improved by adjusting the black amount. In addition, various restrictions can be imposed such as suppressing the total amount of each color material to a predetermined value or less to prevent problems during image formation.
[0053]
In the example shown in FIG. 5, the source side data set generation unit 17 is provided on the source side and the target side data set generation unit 27 is provided on the target side. Good. Further, it may be configured to be switchable whether the source side data set generation unit 17 generates a data set on the source side or whether the target side data set generation unit 27 generates a data set on the target side. Good.
[0054]
FIG. 6 is an explanatory diagram showing an example of a storage medium storing a computer program when the function of the color data processing apparatus or the color data processing method of the present invention is realized by the computer program. In the figure, 101 is a program, 102 is a computer, 111 is a magneto-optical disk, 112 is an optical disk, 113 is a magnetic disk, 114 is a memory, 121 is a magneto-optical disk apparatus, 122 is an optical disk apparatus, and 123 is a magnetic disk apparatus.
[0055]
The functions in the configuration shown in the embodiment and the modification of the color data processing apparatus and color data processing method of the present invention described above can also be realized by a program 101 that can be executed by a computer. In that case, the program 101 and data used by the program can be stored in a computer-readable storage medium. A storage medium is a signal format that causes a state of change in energy such as magnetism, light, electricity, etc. according to the description of a program to a reader provided in hardware resources of a computer. Thus, the description content of the program can be transmitted to the reading device. For example, the magneto-optical disk 111, the optical disk 112, the magnetic disk 113, the memory 114, and the like. Of course, these storage media are not limited to portable types.
[0056]
By storing the program 101 in these storage media and mounting these storage media in, for example, the magneto-optical disk device 121, optical disk device 122, magnetic disk device 123, or memory slot (not shown) of the computer 102, the computer 101 It is possible to read the program 101 and execute the function of the configuration described in each embodiment of the present invention. Alternatively, a storage medium may be attached to the computer 102 in advance, and the program 101 may be transferred to the computer 102 via a network, for example, and the program 101 may be stored and executed on the storage medium.
[0057]
【The invention's effect】
As apparent from the above description, according to the present invention, when inputting the color characteristic data of the device, the color characteristic information of the device such as the ICC profile stored in advance is input, or the color of the device Whether to input a pair of device color data and corresponding colorimetric data for generating characteristic data can be selected. As a result, for example, by using a pre-stored profile, the processing procedure and processing speed can be shortened, and a pair of device color data and corresponding colorimetric data can be input to obtain the color at the time of processing. By creating the characteristic information, more accurate color conversion processing can be performed. As described above, according to the present invention, it is possible to perform adaptive selection such as management with the ICC profile and management with the device data for the management of the color characteristic data, and there is an effect that the convenience of the user can be improved. . It is also possible to generate color characteristic data from a profile and use the color characteristic data after processing.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a color data processing apparatus and a color data processing method according to the present invention.
FIG. 2 is an explanatory diagram illustrating an example of a user interface in a source side selection instruction unit;
FIG. 3 is a block diagram showing a modification in one embodiment of the color data processing apparatus and color data processing method of the present invention.
FIG. 4 is a block diagram showing another modification of the embodiment of the color data processing apparatus and color data processing method of the present invention.
FIG. 5 is a block diagram showing still another modification of the embodiment of the color data processing apparatus and color data processing method of the present invention.
FIG. 6 is an explanatory diagram showing an example of a storage medium storing a computer program when the function of the color data processing apparatus or the color data processing method of the present invention is realized by the computer program.
FIG. 7 is a block diagram illustrating an example of processing for generating general color characteristic data.
FIG. 8 is a block diagram illustrating an example of a general color conversion process.
FIG. 9 is an explanatory diagram of an example of a processing procedure for a conventional color conversion process.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 ... Source device profile input part, 12 ... Profile processing part, 13 ... Source device color data input part, 14 ... Source side colorimetric data input part, 15 ... Data processing part, 16 ... Source side selection instruction part, 17 ... Source Side data set generation unit, 21 ... Target device profile input unit, 22 ... Profile processing unit, 23 ... Target device color data input unit, 24 ... Target side colorimetric data input unit, 25 ... Data processing unit, 26 ... Target side selection Instruction unit 27 ... target side data set generation unit, 31 ... color conversion data generation unit, 32 ... color conversion execution unit, 33 ... image data input unit, 34 ... image data output unit, 41 ... data input unit, 42 ... data Processing unit 43 ... Profile data generation unit 44 ... Profile output unit 51 ... Profile Power unit, 52 ... color conversion data generation unit, 53 ... color conversion executing unit, 54 ... image data input unit, 55 ... image data output unit.

Claims (18)

  In a color data processing apparatus for creating color conversion data based on characteristics of a source device and a target device, first source side input means for inputting color characteristic information of a source device stored in advance, the first Source-side data set generating means for generating a plurality of data sets according to the color characteristic information input by the source-side input means, and a second source for inputting a plurality of data sets for generating color characteristic information of the source device Side input means, first target side input means for inputting color characteristic information of a target device stored in advance, and generating a plurality of data sets according to the color characteristic information input by the first target side input means Target-side data set generation means and a plurality of data for generating color characteristic information of the target device. A second target side input means for inputting a tuset, either the first source side input means or the second source side input means, and the first target side input means or the second target side input. A selection instruction means for selecting any of the means, a data set generated by the source-side data set generation means according to the selection by the selection instruction means, or a data set input by the second source-side input means, and the And color conversion data generation means for generating the color conversion data based on either the data set generated by the target side data set generation means or the data set input by the second target side input means. Color data processing device.   In a color data processing apparatus for creating color conversion data based on characteristics of a source device and a target device, first source side input means for inputting color characteristic information of a source device stored in advance, the first Source-side data set generating means for generating a plurality of data sets according to the color characteristic information input by the source-side input means, and a second source for inputting a plurality of data sets for generating color characteristic information of the source device Side input means, target side input means for inputting color characteristic information of a target device stored in advance, and a selection instruction for selecting either the first source side input means or the second source side input means And a data set generated by the source-side data set generation means according to the selection by the selection instruction means. Or color conversion data generation means for generating the color conversion data based on any one of the data sets input by the second source side input means and the color characteristic information input by the target side input means. A color data processing apparatus.   In a color data processing apparatus for creating color conversion data based on the characteristics of a source device and a target device, source side input means for inputting color characteristic information of the source device stored in advance, and a target stored in advance First target side input means for inputting device color characteristic information, target side data set generation means for generating a plurality of data sets in accordance with the color characteristic information input by the first target side input means, and target device A second target side input means for inputting a plurality of data sets for generating the color characteristic information, and a selection instruction for selecting either the first target side input means or the second target side input means And the color characteristic information inputted by the source side input means and the selection finger Color conversion data generating means for creating the color conversion data based on either the data set generated by the target side data set generating means or the data set input by the second target side input means according to selection by the means; A color data processing apparatus comprising:   3. The color data processing apparatus according to claim 1, further comprising data processing means for performing a predetermined process on a plurality of data sets generated by at least the source-side data set generation means. .   4. The color data processing apparatus according to claim 1, further comprising data processing means for performing predetermined processing on at least a plurality of data sets generated by the target side data set generation means. .   6. The apparatus according to claim 1, further comprising color conversion execution means for performing color conversion processing on image data input using the color conversion data created by the color conversion data generation means. The color data processing device according to any one of the above.   In the color data processing method for creating color conversion data based on the characteristics of each of the source device and the target device, a plurality of data sets generated by the source-side data set generation means according to the color characteristic information of the source device stored in advance or The selection instruction means selects which of the plurality of data sets for generating the color characteristic information of the source device is input, and the target side data set generation means generates according to the color characteristic information of the target device stored in advance. The selection instruction means selects which of the plurality of data sets or the plurality of data sets for generating the color characteristic information of the target device is input, and the data set on the selected source device side and the target device side are selected. Enter the data set Color data processing method, wherein a color conversion data generating means for generating the color conversion data based on al.   In the color data processing method for creating color conversion data based on the characteristics of each of the source device and the target device, a plurality of data sets generated by the source-side data set generation means according to the color characteristic information of the source device stored in advance or The selection instruction means selects which of a plurality of data sets for generating the color characteristic information of the source device is input, and inputs the data set on the selected source device side and the color characteristic information on the target device side Then, based on these, the color conversion data generation means creates the color conversion data.   In a color data processing method for creating color conversion data based on the characteristics of each of a source device and a target device, a plurality of data sets generated by a target-side data set generation unit according to color characteristic information of a target device stored in advance or The selection instruction means selects which of the plurality of data sets for generating the color characteristic information of the target device is selected, and the color characteristic information on the source device side and the color characteristic information on the selected target device side or the A color data processing method comprising: inputting a data set, and color conversion data generation means creating the color conversion data based on the data set.   A data processing unit performs predetermined processing on a plurality of data sets generated from color characteristic information of a source device stored in advance, and the processed data sets are used to create the color conversion data. The color data processing method according to claim 7 or 8.   Data processing means performs predetermined processing on a plurality of data sets generated from color characteristic information of a target device stored in advance, and the processed data sets are used to create the color conversion data The color data processing method according to claim 7 or 9.   The color data processing method according to any one of claims 7 to 11, further comprising performing color conversion processing on image data input using the created color conversion data.   Input pre-stored color characteristic information of the source device in a computer-readable storage medium storing a program for causing a computer to execute processing for creating color conversion data based on the characteristics of the source device and the target device To generate a first source side input process, a source side data set generation process for generating a plurality of data sets according to the color characteristic information input in the first source side input process, and a color characteristic information of the source device A second source-side input process for inputting a plurality of data sets, a first target-side input process for inputting color characteristic information of a target device stored in advance, and an input by the first target-side input process Target-side data set generation process for generating a plurality of data sets according to the specified color characteristic information A second target-side input process for inputting a plurality of data sets for generating color characteristic information of the target device, one of the first source-side input process or the second source-side input process, and A selection instruction process for selecting either the first target-side input process or the second target-side input process, and a data set generated by the source-side data set generation process according to the selection by the selection instruction process, or the first The color based on any one of the data sets input by the source side input processing and the data set generated by the target side data set generation processing or the data set input by the second target side input processing. Color conversion data generation processing to create conversion data Computer-readable storage medium characterized by storing a program to be executed by the data.   Input pre-stored color characteristic information of the source device in a computer-readable storage medium storing a program for causing a computer to execute processing for creating color conversion data based on the characteristics of the source device and the target device To generate a first source side input process, a source side data set generation process for generating a plurality of data sets according to the color characteristic information input in the first source side input process, and a color characteristic information of the source device A second source side input process for inputting a plurality of data sets, a target side input process for inputting color characteristic information of a target device stored in advance, the first source side input process or the second source side input process Selection instruction process for selecting one of the source side input processes and selection by the selection instruction process The color based on either the data set generated by the source-side data set generation process or the data set input by the second source-side input process and the color characteristic information input by the target-side input process A computer-readable storage medium storing a program for causing a computer to execute color conversion data generation processing for generating conversion data.   Input pre-stored color characteristic information of the source device in a computer-readable storage medium storing a program for causing a computer to execute processing for creating color conversion data based on the characteristics of the source device and the target device Source side input processing, first target side input processing for inputting color characteristic information of a target device stored in advance, and a plurality of data sets according to the color characteristic information input in the first target side input processing A target side data set generation process to be generated; a second target side input process for inputting a plurality of data sets for generating color characteristic information of the target device; and the first target side input process or the second target side input process. A selection instruction process for selecting one of the target side input processes, and A data set generated by the target side data set generation process selected according to the color characteristic information input by the source side input process and the selection by the selection instruction process, or data input by the second target side input process A computer-readable storage medium storing a program for causing a computer to execute color conversion data generation processing for generating the color conversion data based on one of the sets.   14. The computer-readable program according to claim 13, further comprising a program for causing a computer to execute data processing for performing predetermined processing on at least a plurality of data sets generated by the source-side data set generation processing. The storage medium according to claim 14.   14. The computer-readable program according to claim 13, further comprising a program for causing a computer to execute data processing for performing predetermined processing on a plurality of data sets generated by at least the target-side data set generation processing. The storage medium according to claim 15.   Further, a program for causing a computer to execute color conversion execution processing for performing color conversion processing on image data input using the color conversion data created in the color conversion data generation processing is stored. The computer-readable storage medium according to any one of claims 13 to 17.

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