JP7404859B2 - Image conversion device and image conversion program - Google Patents

Description

The present invention relates to an image conversion device and an image conversion program.

For example, Patent Document 1 discloses a color conversion processing device that converts an input image signal consisting of a process color version image signal and a special color version image signal into an output image signal consisting of a process color version, which has device-dependent color values. a reference profile that is a device link profile at a reference time when the spot color is defined; and a reference profile that is a device link profile at a reference time when the spot color is defined; a profile acquisition unit that acquires a certain updated profile; and a first color conversion unit that converts the image signal of the special color plate into a first image signal of the process color plate using the spot color information acquired by the spot color information acquisition unit. and converting the first image signal converted by the first color conversion unit into a second image signal of a process color version by sequentially applying the reference profile and the update profile acquired by the profile acquisition unit. A color conversion processing device is disclosed, which is characterized by comprising a second color conversion section that performs the following steps.

Further, Patent Document 2 discloses that it is determined whether or not print data includes a spot color, and if a spot color is included, identification information of the spot color and a printer device value indicating a density signal of the basic color are determined. a special color setting unit that sets a printer device value for a special color using an associated spot color table; an image forming unit that forms a color image on a recording medium based on the printer device value; A sample page in an image system that includes a colorimeter that measures the output image formed on the image and obtains color information, and a color conversion unit that calculates a printer device value that indicates the density signal of the basic color from the color information. A creation method includes: retaining the colorimetric results of the colorimeter for a spot color output image as historical colorimetric results; determining whether sample page creation conditions are satisfied; and sample page creation conditions. If it is determined that the spot color satisfies the above, a first color sample image based on the printer device value calculated based on the historical color measurement results of the spot color, and a second color sample image based on the printer device value of the spot color determined from the spot color table. A method for creating a sample page is disclosed, which includes the steps of: and creating a sample page formed on a recording medium.

Japanese Patent Application Publication No. 2015-076689 Japanese Patent Application Publication No. 2015-146490

When converting the received image information into image information in a device-dependent color space according to the image forming section, image information corresponding to the characteristics of the recording medium on which the image is formed cannot be obtained, and the There is a problem in that the color tone of the formed image may change depending on the type of image.

SUMMARY OF THE INVENTION An object of the present invention is to provide an image conversion device and an image conversion program that prevent changes in color tone of images formed on recording media having different characteristics.

In order to achieve the above object, the image conversion device according to the first aspect has a processor and image information that is device-dependent according to the characteristics of a plurality of types of recording media and according to the characteristics of the image forming section. a storage section that stores in advance output conversion information for converting into image information in a color space; the processor receives image information and stores an image represented by the received image information on one of the plurality of types of recording media When forming on any recording medium, the output conversion information according to the characteristics of the recording medium is read from the storage section, and the received image information is sent to the image forming section using the read output conversion information. control processing to convert the image information into image information in a device-dependent color space corresponding to the device-dependent color space; As a predetermined process for making the number of output conversion information smaller than the number of types of recording media according to the classification result of the classification, each classification is performed using the classification result of the classification. A process of proposing the output conversion information to be associated with each case is executed .

An image conversion device according to a second aspect is the image conversion device according to the first aspect, in which the processor reflects the classification result when receiving a classification reflection instruction in response to the proposal of the output conversion information .

In the image conversion apparatus according to a third aspect, in the image conversion apparatus according to the first aspect, the predetermined threshold value is a threshold value predetermined according to color accuracy required for image conversion processing.
In the image conversion device according to a fourth aspect, in the image conversion device according to any one of the first to third aspects , the processor generates one of the outputs for each classification using the classification results of the classification. A process for storing the conversion information in the storage unit is executed as the predetermined process.

An image conversion device according to a fifth aspect is the image conversion device according to any one of the first to fourth aspects, in which the image information is image information of a spot color.

An image conversion device according to a sixth aspect is the image conversion device according to the fifth aspect, wherein the image information in a device-dependent color space according to the image forming section includes information on a metallic color component. .

An image conversion device according to a seventh aspect is the image conversion device according to the sixth aspect, in which the metallic color component is a gold component or a silver component.

An image conversion device according to an eighth aspect is an image conversion device according to any one of the first to seventh aspects, in which the characteristics of the recording medium are characteristics related to the properties of the recording medium.

An image conversion device according to a ninth aspect is the image conversion device according to the eighth aspect, in which the characteristics related to the properties of the recording medium are made characteristics for each name of the recording medium.

An image conversion device according to a tenth aspect is the image conversion device according to any one of the first to ninth aspects, in which the output conversion information is a plurality of output profile information.

An image conversion apparatus according to an eleventh aspect is an image conversion apparatus according to any one of the first to tenth aspects, in which the received image information and an image in a device-dependent color space according to the image forming section are used. The device-dependent color spaces of the image information and the image information are the same color space.

An image conversion apparatus according to a twelfth aspect is an image conversion apparatus according to any one of the first to tenth aspects, in which the received image information and an image in a device-dependent color space according to the image forming section are used. The device-dependent color space of each image information is set to be a different color space.

The image conversion program according to the thirteenth aspect provides output conversion information for converting image information into image information in a device-dependent color space according to the characteristics of a plurality of types of recording media and according to the image forming section. A program executed in an image conversion device having a storage unit that stores information in advance, the program accepting image information and storing an image indicated by the received image information on one of the plurality of types of recording media. When forming the image, the output conversion information according to the characteristics of the recording medium is read from the storage section, and the received image information is converted into a device-dependent color space according to the image forming section using the read output conversion information. and classifying the plurality of types of recording media according to the type of recording medium in which the degree of similarity of each characteristic between the plurality of types of recording media is equal to or higher than a predetermined threshold, and As a predetermined process for making the number of output conversion information smaller than the number of types of recording media according to the classification result, the output conversion is associated with each classification using the classification result of the classification. A computer executes a process of suggesting information .

According to the image conversion apparatus of the first to third aspects and the image conversion program of the thirteenth aspect, it is possible to prevent the color tone of the formed image from changing for each recording medium having different characteristics. , and the number of types of output conversion information can be further reduced compared to the case where processing according to the results of classifying multiple recording media into each type is not executed, and the number of types of output conversion information can be further reduced, and the number of types of output conversion information can be associated with each type of recording medium. This has the effect that the effort of storing output conversion information can be further reduced compared to the case where the process of proposing output conversion information is not executed .

According to the image conversion device of the fourth aspect, the effort of storing output conversion information is further reduced compared to the case where processing for storing one piece of output conversion information for each type of recording medium is not performed. It has the effect that it can be done.

According to the image conversion device of the fifth aspect, it is possible to prevent the color tone of the formed image from changing even with respect to image information of a special color.

According to the image conversion device of the sixth aspect, even when the image information in the device-dependent color space corresponding to the image forming section includes information on a metallic color component, the color tone of the formed image changes. This has the effect of being able to prevent this.

According to the image conversion device of the seventh aspect, it is possible to prevent the color tone of the formed image from changing even when image information includes a gold component or a silver component.

According to the image conversion device of the eighth aspect, it is possible to prevent the color tone of the formed image from changing for each recording medium having different properties.

According to the image conversion device of the ninth aspect, it is possible to prevent the color tone of the formed image from changing for each recording medium with a different name.

According to the image conversion device of the tenth aspect, it is possible to eliminate the need to create new information as output conversion information.

According to the image conversion device of the eleventh aspect, it is possible to support a combination of the same color space as the received image information in the device-dependent color space and the image information in the device-dependent color space according to the image forming section. , has the effect of

According to the image conversion apparatus of the twelfth aspect, it is possible to support a combination of different color spaces as the color space of the received image information in the device-dependent color space and the image information in the device-dependent color space according to the image forming section. It has this effect.

1 is a front view showing an example of the configuration of an image forming apparatus according to an embodiment. FIG. 1 is a block diagram illustrating an example of a hardware configuration of an image conversion device according to an embodiment. FIG. 1 is a block diagram illustrating an example of a functional configuration of an image conversion device according to an embodiment. FIG. 2 is a schematic diagram illustrating an example of the configuration of a spot color output profile database according to an embodiment. FIG. 2 is a schematic diagram showing an example of the configuration of a general color output profile database according to an embodiment. It is a flow chart which shows an example of classification processing by characteristics concerning an embodiment. It is a front view showing an example of a classification result screen concerning an embodiment. 7 is a flowchart illustrating an example of image conversion processing according to the embodiment. FIG. 3 is a front view showing an example of a spot color registration screen according to the embodiment. FIG. 3 is a schematic diagram showing an example of conversion of image information of a spot color (when the spot color is defined in a device-dependent color space) according to the embodiment. FIG. 2 is a schematic diagram showing an example of conversion of image information of a spot color (when a spot color is defined in a device-independent color space) according to the embodiment. FIG. 3 is a front view showing an example of a spot color confirmation screen according to the embodiment.

EMBODIMENT OF THE INVENTION Hereinafter, with reference to drawings, an example of the form for implementing this invention is demonstrated in detail. In this embodiment, a case will be described in which the present invention is applied to a production printer, but the present invention may also be applied to general printers (business printers, home printers, etc.).

As shown in FIG. 1, the image forming apparatus 10 according to the present embodiment includes an image forming section 6, a supply section 8, a user interface (UI) section 15, a first storage section 24A, a second storage section 24B, and an image conversion section. A device 50 is provided.

The image forming section 6 has a function of forming an image on paper as a recording medium, and forms an image on the paper through the steps of charging, exposure, development, transfer, and fixing. In addition to the general color developers C (cyan), M (magenta), Y (yellow), and K (black), the image forming section 6 also uses special color developers as special color developers. It is also possible to form an image using a developer selected from certain gold, silver, white, orange, and the like. Further, the image forming section 6 includes an image conversion device 50 inside. Note that in this embodiment, white paper is used as the paper, but paper other than white may be used.

The supply section 8 has a function of accommodating sheets of paper to be supplied to the image forming section 6, and can accommodate sheets of different sizes and types. Note that the supply section 8 may be configured to include only one paper storage section, or may be configured to include a plurality of paper storage sections.

The UI section 15 includes an input section 20 and a display section 22 (see also FIG. 2). The input unit 20 includes a touch panel and is used to input various information. Further, the display unit 22 includes displays such as a liquid crystal display and an organic EL (Electro Luminescence) display, and displays various information. Note that the input section 20 and the display section 22 may be integrally configured as a touch panel display.

The first accommodating section 24A and the second accommodating section 24B are high capacity stackers (HCS) for accommodating sheets on which images have been formed by the image forming section 6. This is a device that converts image information into image information in a device-dependent color space according to the image forming section 6.

Next, the hardware configuration of the image conversion device 50 according to this embodiment will be explained. As shown in FIG. 2, the image conversion device 50 according to the present embodiment includes a CPU (Central Processing Unit) 11, a memory 12 as a temporary storage area, a nonvolatile storage section 13, and a communication interface (I/F) section. It is equipped with 18. The CPU 11, memory 12, storage section 13, and communication I/F section 18 are connected to each other via a bus B1. CPU11 is an example of a processor.

The storage unit 13 is realized by an HDD (Hard Disk Drive), an SSD (Solid State Drive), a flash memory, or the like. The storage unit 13 as a storage medium stores a characteristic classification program 13A and an image conversion program 13B. The CPU 11 reads the characteristic classification program 13A and the image conversion program 13B from the storage unit 13, expands them into the memory 12, and sequentially executes the processes included in the characteristic classification program 13A and the image conversion program 13B. The storage unit 13 also stores a special color output profile database 13C and a general color output profile database 13D. Details of the special color output profile database 13C and the general color output profile database 13D will be described later.

The communication I/F section 18 is connected to the above-mentioned UI section 15 and an external device 16 such as a personal computer. Therefore, the CPU 11 can send and receive various information to and from the UI section 15 and the external device 16.

Next, the functional configuration of the image conversion device 50 according to this embodiment will be described. As shown in FIG. 3, the image conversion device 50 includes a reception section 11A, a control section 11B, a classification section 11C, and an execution section 11D. The CPU 11 of the image conversion device 50 functions as a reception section 11A, a control section 11B, a classification section 11C, and an execution section 11D by executing the characteristic classification program 13A and the image conversion program 13B.

The reception unit 11A according to this embodiment receives image information. Note that although the receiving unit 11A according to the present embodiment receives image information via the external device 16, the present invention is not limited to this form. For example, the image information may be received via the UI unit 15.

Furthermore, when forming an image indicated by the image information received by the reception unit 11A on any one of a plurality of types of paper, the control unit 11B according to the present embodiment performs output conversion according to the characteristics of the paper. The information is read from the storage unit 13, and the read output conversion information is used to control the received image information to be converted into image information in a device-dependent color space according to the image forming unit 6. Note that in this embodiment, a plurality of pieces of output profile information are applied as the output conversion information. Furthermore, the image information in the device-dependent color space according to the image forming section in this embodiment includes information on metallic color components. Furthermore, in this embodiment, the device-dependent color spaces of the received image information and the image information of the device-dependent color space according to the image forming unit 6 are compatible regardless of whether they are the same color space or different color spaces. It is possible.

Further, the classification unit 11C according to the present embodiment classifies the plurality of types of paper for each type of paper for which the degree of similarity of each characteristic between the plurality of types of paper is equal to or higher than a predetermined threshold.

Then, the execution unit 11D according to the present embodiment executes a predetermined process for making the number of output conversion information smaller than the number of paper types, according to the classification result by the classification unit 11C. Note that in the execution unit 11D according to the present embodiment, as the predetermined process, one piece of output conversion information is stored in the storage unit 13 for each classification using the classification results by the classification unit 11C. and a process of proposing output conversion information to be associated with each classification.

Next, the special color output profile database 13C according to this embodiment will be explained. As shown in FIG. 4, the special color output profile database 13C according to the present embodiment stores information on paper profile, paper type, and special color output profile in association with each other.

The paper profile is information indicating the name of paper profile classified by paper type, and the paper type is information indicating the type of paper belonging to the corresponding paper profile. Further, the above output profile for spot color is applied when forming a spot color image on paper belonging to the corresponding paper profile, and when the image information received by the reception unit 11A is an image indicating a spot color, the image This information is converted into image information in a device-dependent color space according to the forming unit 6.

In general, a spot color is a term that refers to a special ink that is formulated to reproduce a predetermined color.In the case of digital printing, in order to express such a spot color, the process color yellow, Spot colors may be reproduced by defining how magenta_, cyan, and black are to be combined and expressed. At this time, in order to reproduce spot colors at a higher level, in addition to the standard process colors of yellow, magenta, cyan, and black, gold components and silver components are blended with toner, etc., and process colors such as orange and pink are used. Special toners may also be added to produce colors that are difficult to reproduce. Therefore, the device-dependent color space defined in the output profile for spot colors above may be a color space that includes metallic color components including gold and silver components, or it may include white components, fluorescent color components, etc. instead of metallic color components. It may also be a color space.

That is, in the special color output profile, in addition to the proportions of each process color component of yellow, magenta, cyan, and black, it is also possible to define the blending amount and proportion of a gold or silver component as a metallic color component. In particular, when blending metallic color components to express special colors, the color changes depending on whether the metallic color components are reproduced by forming them in the upper layer of the process color toner layer or in the lower layer. Since the reproduction may vary, it may be possible to define whether the layer formed by the metal color component is above or below the process color layer.

Next, the general color output profile database 13D according to this embodiment will be explained. As shown in FIG. 5, in the general color output profile database 13D according to the present embodiment, each information of paper profile, paper type, and general color output profile is stored in association with each other.

The paper profile and paper type are the same information as the special color output profile database 13C, and the general color output profile is applied when forming a general color image on paper belonging to the corresponding paper profile. When the image information received by the reception unit 11A is an image indicating a general color or a special color and is defined in a device-independent color space using an output profile for a special color, the image information is This information is converted into image information in a device-dependent color space.

As described above, in this embodiment, the classification unit 11C can set a paper profile in which paper is classified according to the similarity of paper characteristics, and associate an output profile with the paper profile, and the execution unit 11D 4 and 5 are executed to reduce the number of output profiles to fewer than the number of paper types (hereinafter, these processes are collectively referred to as "characteristic classification processing"). An example of the state before executing the characteristic classification process is illustrated.

Next, the operation of the image conversion device 50 according to this embodiment will be explained with reference to FIGS. 6 to 12. First, with reference to FIGS. 6 and 7, the operation of the image conversion device 50 when performing characteristic classification processing will be described. When the user inputs an instruction to start execution of the characteristic classification program 13A through the input unit 20, the CPU 11 of the image conversion device 50 executes the characteristic classification program 13A, thereby obtaining the characteristics shown in FIG. Separate classification processing is executed. In this embodiment, the image conversion device 50 determines the characteristics of each type of paper that the image forming device 10 supports (in this embodiment, the name of the paper and the characteristics of the presence or absence of coating on the surface of the paper). A case will be described in which the information shown (hereinafter referred to as "paper characteristic information") is stored in advance in the storage unit 13. Furthermore, in the present embodiment, when a new type of paper (hereinafter referred to as "new paper") is made compatible with the image forming apparatus 10, information indicating the above-mentioned characteristics of the new paper (hereinafter referred to as "new paper") is provided. A case will be described in which "characteristic information") is also stored in advance in the storage unit 13. In addition, here, in order to avoid confusion, a case will be described in which the special color output profile database 13C and the general color output profile database 13D have been constructed.

At step 200 in FIG. 6, the CPU 11 determines whether this process is being executed for the first time, and if the determination is affirmative, the process proceeds to step 202. In step 202, the CPU 11 reads the above-mentioned paper characteristic information from the storage unit 13.

In step 204, the CPU 11 uses the paper characteristic information read out in step 202 to derive the degree of similarity in characteristics between the sheets of paper supported by the image forming apparatus 10, and for each type of paper for which the degree of similarity is greater than or equal to a predetermined threshold. Performs classification processing to classify paper. The classification process will be explained in detail below.

First, a method for deriving the similarity R between sheets will be explained.

The CPU 11 determines the name matching degree N indicating whether the names of two types of paper match or not, and the presence/absence of coating indicating whether the presence or absence of coating on the surface of the two types of paper matches. Using the degree of coincidence T, the degree of similarity R is derived by the following equation (1).

R=N+T (1)

In this embodiment, if the names of the sheets match, the matching degree N is set to 1, and if they do not match, the matching degree N is set to 0. Further, in this embodiment, if the presence or absence of coating on the surface of the paper matches, the matching degree T is set to 1, and if they do not match, the matching degree T is set to 0.

As shown in equation (1), in this embodiment, the total value of the matching degree N and the matching degree T is applied as the similarity degree R, but the similarity is not limited to this. An arithmetic average value or a weighted average value of the matching degree N and the matching degree T may be applied as the similarity degree R, or only one of the matching degree N and the matching degree T may be applied as the similarity degree R. . Note that in the present embodiment, an example has been described in which the name of the paper and the presence or absence of coating are used as the characteristic information of the paper in determining the similarity of the paper, but the present invention is not limited thereto. For example, paper similarity may be derived by combining or using other paper characteristics such as paper background color, surface smoothness, paper thickness, glossiness, basis weight, etc. .

Next, the CPU 11 groups the sheets whose similarity R is equal to or greater than a predetermined threshold (2 in this embodiment) into one group, and assigns each group a single sheet profile and an individual sheet profile name. Note that in this embodiment, a value preset by the user is used as the predetermined threshold, but the present invention is not limited to this. The threshold value may be automatically set in accordance with the maximum value of the similarity R, the color accuracy required for image conversion processing, which will be described later, and the like.

In step 206, the CPU 11 uses the classification results from the classification process in step 204 to create information indicating a classification result screen with a predetermined configuration, and uses the created information to display the classification result screen. The display unit 22 is controlled to.

As shown in FIG. 7, on the classification result screen according to the present embodiment, as information indicating the classification result of the classification process in step 204, a paper profile name and the type of paper belonging to the paper profile with the paper profile name are associated. displayed. As an example, when the classification result screen shown in FIG. Hereinafter, these databases will be collectively referred to as the "output profile database.") To reflect the classification results, select the reflect button 22A, and to not reflect the classification results, specify the non-reflect button 22B.

Therefore, in step 208, the CPU 11 waits until the user specifies the reflection button 22A or the non-reflection button 22B.

In step 210, the CPU 11 determines whether or not the reflection button 22A has been designated by the user. If the determination is negative, the process of classifying by characteristic is terminated, whereas if the determination is affirmative, the process proceeds to step 212. do.

In step 212, the CPU 11 performs a process of reflecting the classification result of the classification process of step 204 in the output profile database (hereinafter referred to as "classification reflection process"), and then ends this characteristic-based classification process. Note that in this embodiment, as the classification reflection process, a process is performed in which sheets whose similarity R is equal to or greater than a predetermined threshold are grouped into the same group. More specifically, when multiple sheets of paper are in the same group, the remaining sheets of the group are integrated into the paper profile of the central sheet of the group (in this embodiment, the output profile database (Includes information indicating the types of the remaining paper in the "Paper Type" of the central paper) and deletes the information stored corresponding to the remaining paper from the output profile database. conduct. Note that no changes are made to sheets for which there is no other sheet for which the degree of similarity R is greater than or equal to the threshold value. In the present embodiment, the paper with the largest number of other papers whose similarity R is equal to or greater than the threshold is used as the central paper, but the paper is not limited to this.

On the other hand, if a negative determination is made in step 200, the process moves to step 214, and the CPU 11 reads the above-mentioned new paper characteristic information from the storage unit 13. In step 216, the CPU 11 calculates the degree of similarity R between the new paper corresponding to the read new paper characteristic information and the paper for each paper profile already registered in the output profile database using an equation similar to the process in step 204. Derived from (1).

At this time, for a paper profile in which multiple papers are registered in the output profile database as papers for each paper profile, the number of other papers whose similarity R is equal to or greater than the above threshold among the plurality of papers is Target the most common paper. Then, the CPU 11 specifies the registered paper profile for which the derived similarity R is the largest value.

In step 218, the CPU 11 performs a process of integrating the new paper into the registered paper profile specified in step 216 in the same manner as the process in step 212, and then ends the characteristic-based classification process. Note that the characteristic-based classification process according to the present embodiment may omit steps 206 to 210 and automatically reflect the classification results in step 204 in the output profile database.

Next, the operation of the image conversion device 50 when performing image conversion processing will be described with reference to FIGS. 8 to 11. When the user inputs an instruction to start executing the image conversion program 13B through the input unit 20, the CPU 11 of the image conversion device 50 executes the image conversion program 13B, thereby performing the image conversion process shown in FIG. is executed.

In order to avoid confusion, image information (hereinafter referred to as "processed image") indicating an image that includes multiple images formed by spot colors (hereinafter referred to as "object image") as a processing target of image conversion processing is used here. "target image information") is stored in the storage unit 13 via the external device 16 in association with information indicating the name of the applied spot color (hereinafter referred to as "applied spot color information"). Further, a case will be described in which the special color output profile database 13C and the general color output profile database 13D, which have undergone the above-described characteristic classification process, have been constructed. Furthermore, in order to avoid confusion, information indicating the type of paper on which the object image is to be formed (hereinafter referred to as "formation target paper information") is specified in advance by the user via the UI unit 15 or the external device 16. A case where the information is stored in the storage unit 13 will be explained.

In step 400 of FIG. 8, the CPU 11 reads the processing target image information and the applied spot color information associated with the processing target image information from the storage unit 13, and in step 402, the CPU 11 uses the read information to Create information indicating a spot color registration screen with a predetermined configuration for one object image (hereinafter referred to as "object image to be processed"), and display the spot color registration screen using the created information. The display unit 22 is controlled to.

As shown in FIG. 9, on the spot color registration screen according to the present embodiment, a display area 22C in which the name of the spot color is displayed (in the example shown in FIG. 9, "PANTONE 877C" (PANTONE is a registered trademark of Pantone LLC)) , a display area 22D for displaying values when a spot color is defined only by L ^* a ^* b ^* values of Lab color space as an example of a device-independent color space (in the example shown in FIG. 9, the default value of each value display area 22E for displaying the values when the spot color is defined only by CMYK values as an example of a device-dependent color space (in the example shown in FIG. 9, 0 is displayed as the default value for each value) , and a selection designation area 22F for designating whether to define the spot color using L ^* a ^* b ^* values or CMYK values. Note that the display area 22D may be configured as an area for displaying values when the spot color is defined as an XYZ value, L ^* C ^* h ^* value, etc., and the display area 22E may be configured as an area for displaying a value when the spot color is defined as a CMY value, etc. It may also be configured as an area for displaying the value defined in .

Further, on the special color registration screen according to the present embodiment, a selection designation area 22G for designating whether to use a special color developer other than cyan, magenta, yellow, and black is displayed. In addition, in the spot color registration screen according to the present embodiment, a display area 22H (in the example shown in FIG. C = 4.54, M = 4.91, Y = 0.65, K = 0.00''), the arrangement of special color developer, and the values that define the type and amount of color. According to the values defined in the display area 22I (in the example shown in FIG. 9, the case where 100% of the silver special color developer is used on the backmost side of the paper) and the display areas 22D, 22E, 22H, and 22I are displayed. A display area 22J for displaying the selected spot color is displayed. In the example shown in FIG. 9, a state in which the selection enactment area 22G is specified by the user is shown. Note that the display area 22H may be configured to be an area for displaying values when the spot color is defined by CMY values or the like when the selection designation area 22G is specified.

In the display area 22J, when a definition using L ^* a ^* b ^* values is specified in the selection designation area 22F, the L ^* a ^* b ^* values displayed in the display area 22D are converted to RGB values, and the RGB values are The color will be displayed according to the color. Furthermore, in the display area 22J, when definition using CMYK values is specified in the selection designation area 22F, the CMYK values displayed in the display area 22E are converted to RGB values, and colors based on the RGB values are displayed. Furthermore, in the display area 22J, when the selection designation area 22G is specified, RGB values converted from the CMYK values displayed in the display area 22H and the amount of developer of the special color displayed in the display area 22I are converted. The RGB values are combined and the resulting color is displayed. While referring to the display area 22J, the user uses the input unit 20 to press increase/decrease buttons (in the example shown in FIG. 9, " Adjust the tint of the spot color by operating the ``+'' button and ``-'' button.

The user adjusts the corresponding value as necessary while referring to the color of the spot color displayed in the display area 22J, and when the desired color is obtained as the color of the object image to be processed, the user inputs the color through the input unit 20. to specify the registration button 22K.

Therefore, in step 404, the CPU 11 waits until the registration button 22K is specified by the user, and in step 406, the CPU 11 stores the information specified by the user on the spot color registration screen as color information of the object image to be processed. The information is stored in a predetermined area of the unit 13.

In step 408, the CPU 11 reads out the forming target paper information, which is information on the paper used for printing, included in the print instruction (or set by the user in the UI unit 15) from the storage unit 13, thereby creating the processing target object. The type of paper on which the image is to be formed is specified, and in step 410, the CPU 11 determines whether the color information stored in the process of step 406 is information defined in the device-dependent color space, and an affirmative determination is made. If so, the process moves to step 412. In step 412, the CPU 11 reads spot color output profile information corresponding to the paper type specified in step 408 from the spot color output profile database 13C.

In step 414, the CPU 11 uses the color information stored in the process of step 406 and the special color output profile information read out in the process of step 412 to adjust the color information of the object image to be processed according to the image forming unit 6. The color information is converted into device-dependent color space, and the process moves to step 420, which will be described later.

On the other hand, if a negative determination is made in step 410, the process moves to step 416, and in step 416, the CPU 11 converts the general color output profile information corresponding to the paper type specified in the process in step 408 into the general color output profile. Read from database 13D.

In step 418, the CPU 11 uses the color information stored in the process of step 406 and the general color output profile information read out in the process of step 416 to adjust the color information of the object image to be processed according to the image forming unit 6. The color information is converted into device-dependent color space, and the process moves to step 420.

In step 420, the CPU 11 stores the color information converted in the processing in step 414 or step 418 in a predetermined area of the storage unit 13, and in step 422, the CPU 11 performs the processing in steps 402 to 420 on all object images. Determine whether it has been executed. If a negative determination is made in step 422, the process returns to step 402, while if an affirmative determination is made, the main image conversion process ends.

In this way, in the image conversion process according to the present embodiment, when the color information of the object image to be processed is registered as color information of the device-dependent color space via the spot color registration screen, as an example, as shown in FIG. , the color information is converted into device-dependent color space information according to the image forming section 6 by an output profile (in the example shown in FIG. 10, "output profile T2 for special color") according to the characteristics of the paper on which the object image is formed. converted.

On the other hand, in the image conversion process according to the present embodiment, when the color information of the object image to be processed is registered as color information in a device-independent color space via the spot color registration screen, as shown in FIG. 11 as an example, The color information is converted into device-dependent color space information according to the image forming unit 6 by an output profile (in the example shown in FIG. 11, "general color output profile G2") that corresponds to the characteristics of the paper on which the object image is formed. converted.

Note that the image conversion process according to this embodiment is a process that is repeatedly performed on one piece of image information, so for example, when forming images on multiple sheets of paper of different types, the CPU 11 Image conversion processing is executed for each sheet and for each image indicated by the image information.

Note that the user can check the list of color information of the spot colors stored in step 406 of the image conversion process on the spot color confirmation screen. As an example, as shown in FIG. 12, on the spot color confirmation screen according to this embodiment, an input area 22L for inputting the name of the brand of the spot color is displayed.

When the spot color confirmation screen shown in FIG. 12 is displayed on the display section 22, the user inputs the name of the spot color brand into the input area 22L via the input section 20, and then specifies the display button 22M. When the user specifies the display button 22M, the spot color confirmation screen according to the present embodiment displays the color, spot color name, L ^* a ^* b ^* value, CMYK value, and The presence or absence of a special color developer is displayed in correspondence. The above spot color name is the name of the corresponding spot color, and the above color is the color of the corresponding spot color. The presence or absence of the special color developer is information indicating whether or not the special color corresponding to the special color name uses a special color developer.

Note that in the above embodiments, the processor refers to a processor in a broad sense, and includes a general-purpose processor (e.g., CPU: Central Processing Unit, etc.) and a dedicated processor (e.g., GPU: Graphics Processing Unit, ASIC: Application Specific Integrated Circuit, FPGA: Field Programmable Gate Array, programmable logic device, etc.).

Further, in the above embodiment, a case has been described in which the characteristic classification program 13A and the image conversion program 13B are stored in advance in the storage unit 13, but the present invention is not limited to this. For example, the characteristic classification program 13A and the image conversion program 13B may be stored in a storage medium such as a CD-ROM (Compact Disc Read Only Memory) or may be provided via a network. .

Further, the operation of the processor in the above embodiments may be performed not only by one processor, but also by a plurality of processors located at physically separate locations working together. Further, the order of each operation of the processor is not limited to the order described in the above embodiments, and may be changed as appropriate.

In addition, the configurations of the image conversion device and the image conversion program described in the above embodiments are merely examples, and may be changed according to the situation without departing from the spirit of the invention.

Furthermore, the processing flows of the various programs described in the above embodiments are just examples, and unnecessary steps may be deleted, new steps may be added, or the processing order may be changed within the scope of the main idea. Good too.

Further, in the above embodiment, a case has been described in which the processing according to the embodiment is realized by a software configuration using a computer by executing a program, but the present invention is not limited to this. For example, the processing according to the embodiment may be realized by a hardware configuration or a combination of a hardware configuration and a software configuration.

6 Image forming section 8 Supply section 10 Image forming device 11 CPU
11A Reception section 11B Control section 11C Classification section 11D Execution section 12 Memory 13 Storage section 13A Characteristic classification program 13B Image conversion program 13C Output profile database for special colors 13D Output profile database for general colors 15 UI section 16 External device 18 Communication I/F Section 20 Input section 22 Display section 24A First storage section 24B Second storage section 50 Image conversion device

Claims (13)

a processor;
a storage unit pre-stored with output conversion information for converting image information into image information in a device-dependent color space in accordance with the characteristics of the plurality of types of recording media and in accordance with the image forming unit; ,
The processor includes:
Accepts image information,
When forming an image indicated by the received image information on any one of the plurality of types of recording media, reading out the output conversion information according to the characteristics of the recording medium from the storage unit; Controlling the received image information to be converted into image information in a device-dependent color space according to the image forming unit using output conversion information;
classifying the plurality of types of recording media for each type of recording medium in which the degree of similarity of each characteristic between the plurality of types of recording media is equal to or higher than a predetermined threshold;
As a predetermined process for making the number of output conversion information smaller than the number of types of recording media according to the classification result of the classification, the classification result of the classification is used to associate each classification. performing a process of proposing the output conversion information;
Image conversion device. The image conversion device according to claim 1 , wherein the processor reflects the classification result when receiving a classification reflection instruction in response to the proposal of the output conversion information . The image conversion device according to claim 1 or 2, wherein the predetermined threshold value is a threshold value predetermined according to color accuracy required for image conversion processing . The processor further executes, as the predetermined process, a process of storing one piece of the output conversion information for each category in the storage unit using the classification results of the classification.
The image conversion device according to any one of claims 1 to 3 . the image information is spot color image information;
The image conversion device according to any one of claims 1 to 4. The image information in a device-dependent color space according to the image forming unit includes information on a metallic color component.
The image conversion device according to claim 5. The metallic color component is a gold component or a silver component,
The image conversion device according to claim 6. The characteristics of the recording medium are characteristics related to the properties of the recording medium,
The image conversion device according to any one of claims 1 to 7. The characteristics related to the properties of the recording medium are characteristics for each name of the recording medium,
The image conversion device according to claim 8. The output conversion information is a plurality of output profile information,
The image conversion device according to any one of claims 1 to 9. The device-dependent color space of each image information of the received image information and the image information of a device-dependent color space according to the image forming unit are the same color space;
The image conversion device according to any one of claims 1 to 10. The device-dependent color space of each image information of the received image information and the image information of a device-dependent color space according to the image forming unit are different color spaces;
The image conversion device according to any one of claims 1 to 10. An image provided with a storage section that stores in advance output conversion information for converting image information into image information of a device-dependent color space according to the characteristics of a plurality of types of recording media and according to the image forming section. A program executed in a conversion device,
Accepts image information,
When forming an image indicated by the received image information on any one of the plurality of types of recording media, reading out the output conversion information according to the characteristics of the recording medium from the storage unit; Controlling the received image information to be converted into image information in a device-dependent color space according to the image forming unit using output conversion information ;
classifying the plurality of types of recording media for each type of recording medium in which the degree of similarity of each characteristic between the plurality of types of recording media is equal to or higher than a predetermined threshold;
As a predetermined process for making the number of output conversion information smaller than the number of types of recording media according to the classification result of the classification, the classification result of the classification is used to associate each classification. The process of proposing the output conversion information,
An image conversion program that is run on a computer.