KR20110061601A - Program, image forming method, and printing system - Google Patents

Abstract

For a plurality of inkjet heads, variations in color reproduction characteristics for each inkjet head are appropriately reduced. A program for causing a computer to execute an image forming process, which causes the computer to execute an output image generation process (S54) for generating output image data based on print data, and the inkjet printer includes a plurality of inkjet heads, The inkjet head prints in a single pass method, and the output image generation processing (S54) uses the rasterization processing (S62) and one ICC profile to perform common color conversion for a plurality of inkjet heads. Conversion processing (S64) and head-specific adjustment processing (S66) for making adjustments to reduce variations in color reproduction characteristics in each of the plurality of inkjet heads by using calibration information prepared for each inkjet head.

Description

Program, Image Forming Method and Printing System {PROGRAM, IMAGE FORMING METHOD, AND PRINTING SYSTEM}

The present invention relates to a program, an image forming method and a printing system.

Background Art Conventionally, inkjet printers which print in a single pass method are known. Such an ink jet printer has a plurality of ink jet heads installed side by side in a predetermined arrangement direction, for example. Then, printing is performed at high speed by simultaneously ejecting ink droplets from a plurality of inkjet heads.

However, in such a structure, a color difference may arise for every inkjet head by the individual difference and the installation precision difference of an inkjet head, for example, and there exists a possibility that the deviation of a color reproduction characteristic may arise. Therefore, in such a case, for example, it is required to suppress the variation in color reproduction characteristics for each inkjet head by an appropriate method.

In this regard, for example, when performing an image forming process such as a RIP process, it is conceivable to perform color conversion using an ICC profile separately prepared for each inkjet head. However, in recent years, the throughput of the image forming process is also increased due to the improvement of the print resolution, and when the image forming process is attempted in this manner, the required processing amount is greatly increased, so that the time required to complete the image forming process is increased. As a result, there is a fear that image forming processing at high speed becomes difficult.

In addition, the creation of an ICC profile may be a job that requires a time of about 1 day to 1 week or more. For this reason, attempting to prepare an ICC profile individually for each inkjet head greatly increases the number of work steps, leading to a significant decrease in work efficiency and an increase in cost. Therefore, conventionally, for example, it is required to suppress the variation in color reproduction characteristics for each inkjet head by a more appropriate method. Accordingly, an object of the present invention is to provide a program, an image forming method, and a printing system that can solve the above problems.

On the other hand, after the completion of the present invention, the prior art related to the present invention was examined, and a document describing a method for suppressing individual differences in printing results for each device for the case of performing distributed printing using a plurality of inkjet printers, and the like. (See, for example, Japanese Patent Laid-Open No. 2004-46339, Japanese Patent Laid-Open No. 2004-234391, and Japanese Patent Laid-Open No. 2007-137013). For example, in the configuration disclosed in Japanese Patent Laid-Open No. 2004-46339, a plurality of color conversion information corresponding to each inkjet printer is generated, and a color conversion table corresponding to each of a plurality of printers specified according to the operation situation is generated. Send.

However, these prior art do not relate to inkjet printers printing in a single pass method. Furthermore, the present invention is not applied to a plurality of inkjet heads of an inkjet printer which prints in a single pass method.

In order to solve the said subject, this invention has the following structures.

(Configuration 1)

A program for causing a computer to execute an image forming process for forming output image data, which is data representing an image to be printed by a printing apparatus which prints by an inkjet method, and is characterized by a color system that does not depend on color reproduction characteristics of ink used in a printing apparatus. A print data acquisition process for acquiring print data representing an image in color, and generating output image data by converting the print data into output image data representing an image in a color dependent on color reproduction characteristics of the ink used in the printing apparatus. The computer executes an output image generation process, the printing apparatus includes a plurality of inkjet heads, and prints in a single pass method by the plurality of inkjet heads, and the output image generation process prints an image represented by the print data. Rasterized to Raster Resolution A common color conversion process for performing common color conversion for a plurality of inkjet heads by using an image processing, a common ICC profile for a plurality of inkjet heads, and for each inkjet head according to color reproduction characteristics of each inkjet head. Using calibration information, there is a head-by-head adjustment process for making adjustments to reduce variations in color reproduction characteristics in each of the plurality of inkjet heads.

The program is provided in a state of being recorded on a recording medium such as a CD-ROM, for example, and is installed in a computer. The computer is, for example, a host computer that controls the operation of the inkjet printer. This computer is installed outside of an inkjet printer, for example. The computer may also be incorporated in an inkjet printer. The program also allows, for example, the computer to execute data output processing. In the data output processing, the computer outputs, for example, output image data to the printing apparatus.

The output image generation process is, for example, a RIP (Raster Image Processor) process for forming output image data based on print data. The output image generation processing may further execute other processing in the RIP processing. For example, the output image generation process may further perform a rendering process or the like.

Further, the plurality of inkjet heads are head rows that are each independently interchangeable in the inkjet printer, and are arranged side by side by, for example, a staggered arrangement. This inkjet head is, for example, an inkjet head for color printing. The color printing inkjet head may be a head array in which a plurality of monochromatic inkjet heads (hereinafter referred to as monochromatic heads) for discharging monochromatic ink are arranged. The plurality of monochromatic heads respectively discharge, for example, different primary colors of ink. The primary color ink is, for example, ink of each color of C (cyan), M (magenta), Y (yellow), and K (black).

If comprised in this way, the color difference generate | occur | produced by the individual difference and the installation precision difference with respect to a some inkjet head can be suitably absorbed, for example. Thereby, for example, the dispersion | variation in the color reproduction characteristic for every inkjet head can be reduced suitably.

In this configuration, a process example other than the adjustment process for each head is shown in the image forming process by dividing the process using one ICC profile common to a plurality of inkjet heads and the process using calibration information prepared for each inkjet head. For example, rasterization processing and head common color conversion processing can be commonly used for a plurality of inkjet heads. Therefore, if configured in this way, the image forming process can be appropriately performed at high speed.

In this configuration, for example, unlike the case where an individual ICC profile is prepared for each inkjet head, only one common ICC profile is required for a plurality of inkjet heads. Therefore, if comprised in this way, the number of work processes required for preparation of an ICC profile, for example can be drastically reduced.

Here, the head-specific adjustment processing replaces, for example, the color of data such as before or after conversion by the head common color conversion processing with a color having a value after correction by calibration information. If comprised in this way, the correction according to the color reproduction characteristic of each inkjet head can be performed suitably.

As calibration information, the information which correct | amends one value of the device dependent color or device independent color in an ICC profile can be used, for example. In this case, the calibration information corresponds, for example, to the value of the device dependent color or the device independent color in the ICC profile with the value corrected according to the color reproduction characteristic of the corresponding inkjet head. For example, the calibration information corresponds the value of the device dependent color in the ICC profile with the value of the device dependent color after the correction. The calibration information may correspond to the value of the device independent color in the ICC profile with the value of the device independent color after the correction.

In addition, when the head-specific adjustment process is a process performed before the head common color conversion process, the head-specific adjustment process may, for example, detect variations in color reproduction characteristics with respect to data generated by the rasterization process performed before the head common color conversion process. Make adjustments to reduce. In this case, the calibration information, for example, matches the value of the device dependent color used in the data generated in the rasterization process with the value after correction.

The above calibration information can be easily and appropriately created, for example, with a small number of processes compared to the ICC profile. For example, such calibration information may be prepared in a few minutes to several tens of minutes. Therefore, if comprised in this way, the number of processes required for preparation of data required for color conversion can be reduced suitably. In addition, this makes it possible to more appropriately reduce variation in color reproduction characteristics for each inkjet head.

Moreover, since the preparation of the calibration information becomes easy, it is possible to appropriately perform adjustment or re-creation of the calibration information as necessary. For example, unlike the case where the ICC profile itself is adjusted or rewritten, the user of the printing apparatus can create calibration information. For example, new calibration information can be created before starting work every day. Therefore, if comprised in this way, the variation of the color reproduction characteristic for every inkjet head can be reduced more flexibly, for example.

(Composition 2)

Color chart printing execution processing for printing a predetermined color chart by a plurality of inkjet heads, and colorimetric results for the print results by each of the plurality of inkjet heads by acquiring colorimetric results obtained by measuring the printed color chart with a colorimeter. The computer further executes the colorimetric result acquisition process and the calibration information generation process of generating calibration information corresponding to each of the plurality of inkjet heads based on the colorimetric result corresponding to each inkjet head.

In such a configuration, for example, calibration information according to the color reproduction characteristics of each inkjet head can be appropriately generated. In addition, this can appropriately reduce the variation in color reproduction characteristics for each inkjet head, for example.

On the other hand, in the color chart print execution process, the computer causes a portion of one color chart to be printed on each of the plurality of inkjet heads. Also, the colorimeter is installed outside of the computer, for example.

(Composition 3)

The output image generation process is a RIP (Raster Image Processor) process for forming output image data based on print data, and the color used in the print data is a device-dependent color that depends on the color reproduction characteristics of a predetermined device, and the head common color. The conversion process is a color conversion process using a first ICC profile common to a plurality of inkjet heads, the first common color conversion process of converting a device dependent color used for print data into a device independent color, and a plurality of inkjet heads. A color conversion process using a second common ICC profile, the second common color conversion process of converting a device independent color after conversion by the first common color conversion process into a device dependent color depending on color reproduction characteristics by ink. Each inkjet head discharges at least ink of each color of CMYK ink, The process is a process performed after the second common color conversion process, and the calibration information is information for associating the color of the CMYK color system with the color of the CMYK color system, and each of the colors of the CMYK color system in the ICC profile used in the second common color conversion process, respectively. Correspond to the corrected color for each of the inkjet heads.

In such a configuration, for example, the head-specific adjustment process can be executed appropriately and efficiently. In addition, this makes it possible to more appropriately reduce variation in color reproduction characteristics for each inkjet head.

(Composition 4)

The output image generation process is a RIP (Raster Image Processor) process for forming output image data based on print data, and the color used in the print data is a device-dependent color that depends on the color reproduction characteristics of a predetermined device, and the head common color. The conversion process is a color conversion process using a first ICC profile common to a plurality of inkjet heads, the first common color conversion process of converting a device dependent color used for print data into a device independent color, and a plurality of inkjet heads. A color conversion process using a common second ICC profile, comprising: a second common color conversion process for converting the device independent color after conversion by the first common color conversion process into a device dependent color depending on color reproduction characteristics by ink; , Head adjustment processing is a processing performed before the first common color conversion processing. Design information, associates as information for correcting the device depending color used in the printing data, the first to the device dependent color before being common color conversion processing is performed on a color correction for each ink jet head.

In such a configuration, for example, the head-specific adjustment process can be executed appropriately and efficiently. In addition, this makes it possible to more appropriately reduce variation in color reproduction characteristics for each inkjet head.

(Composition 5)

The output image generation process is a RIP (Raster Image Processor) process for forming output image data based on print data, and the color used in the print data is a device-dependent color that depends on the color reproduction characteristics of a predetermined device, and the head common color. The conversion process is a color conversion process using a first ICC profile common to a plurality of inkjet heads, the first common color conversion process of converting a device dependent color used for print data into a device independent color, and a plurality of inkjet heads. A color conversion process using a common second ICC profile, comprising: a second common color conversion process for converting the device independent color after conversion by the first common color conversion process into a device dependent color depending on color reproduction characteristics by ink; The head-specific adjustment processing is performed after the first common color conversion processing and before the second common color conversion processing. And the calibration information is information for correcting the device independent color after conversion by the first common color conversion process, and corresponds to the color that corrects the device independent color after conversion by the first common color conversion process for each inkjet head. Let's do it.

In such a configuration, for example, the head-specific adjustment process can be executed appropriately and efficiently. In addition, this makes it possible to more appropriately reduce variation in color reproduction characteristics for each inkjet head.

On the other hand, in Configurations 3 to 5, the device independent color in the first and second ICC profiles is, for example, a color expressed by a Lab colorimetric system. As a device independent color, the color represented by an XYZ color system etc. can also be used. In addition, the device dependent color in the second ICC profile is, for example, a color expressed by a CMYK colorimetric system.

Further, in the output image generation process, the head-specific adjustment process may be performed several times. For example, in the output image generation processing, two or three head-wise adjustment processing may be performed by combining two or three of the configurations 3 to 5.

(Composition 6)

The plurality of inkjet heads are installed side by side in a preset arrangement direction, each inkjet head has a nozzle array in which a plurality of nozzles are arranged in the arrangement direction, and the plurality of inkjet heads are nozzles of one inkjet head between adjacent inkjet heads. One side of the row and the other end of the nozzle row of the other inkjet head are installed side by side so as to overlap when viewed in a direction orthogonal to the arrangement direction, and the program is a masking process for selecting some nozzles of the nozzle row as nozzles which do not discharge ink. In the masking process, the computer adjusts the number of dots of ink discharged from each position of the nozzle row from the center of the nozzle row toward the end of the nozzle row with respect to the overlapping portion where the nozzle rows of the adjacent inkjet heads overlap. Ink is discharged so that the apparent density drops gradually. Select that nozzle. This arrangement direction is a direction orthogonal to the conveyance direction of a medium, for example.

If comprised in this way, the difference of the color reproduction characteristic of an overlap part and the other part can be reduced, for example, and it can prevent suitably that an overlap part is outstanding. In addition, this makes it possible to more appropriately reduce variation in color reproduction characteristics for each inkjet head.

(Composition 7)

An image forming method for forming output image data, which is data representing an image to be printed by a printing apparatus which prints by an inkjet method, wherein the printing data represents an image in a color of a color system that does not depend on color reproduction characteristics of the ink used in the printing apparatus. A print data acquiring step of acquiring the image data; and an output image generating step of generating the output image data by converting the print data into output image data representing the image in a color dependent on the color reproduction characteristics of the ink used in the printing apparatus. The printing apparatus includes a plurality of inkjet heads, and prints in a single pass by the plurality of inkjet heads. The output image generating step includes a rasterization step of rasterizing an image represented by the print data in accordance with the resolution of the printing apparatus. One ICC Pro Common for Multiple Inkjet Heads Color in each of the plurality of inkjet heads using the common color conversion step of performing common color conversion for a plurality of inkjet heads by using work, and calibration information prepared for each inkjet head according to the color reproduction characteristics of each inkjet head. It has a head-specific adjustment step that makes adjustments to reduce variations in reproduction characteristics. In this way, for example, the same effects as those in the configuration 1 can be obtained.

(Composition 8)

A printing system comprising a printing apparatus for printing by an inkjet method and an image forming apparatus for performing an image forming process for forming output image data which is data representing an image printed by the printing apparatus, wherein the printing apparatus includes a plurality of inkjet heads; The printing data acquisition processing unit prints the print data representing the image in a color of a color system that does not depend on the color reproduction characteristics of the ink used in the printing apparatus. And an output image generation processing unit for generating output image data by converting the print data into output image data representing an image in a color depending on the color reproduction characteristics of the ink used in the printing apparatus, and the output image generation processing unit printing Match the image represented by the data to the resolution of the printing device. A rasterization processing unit to be converted, a head common color conversion processing unit performing common color conversion for a plurality of inkjet heads by using a common ICC profile for a plurality of inkjet heads, and inkjet according to color reproduction characteristics of each inkjet head Using the calibration information prepared for each head, there is provided a head-specific adjustment processing unit that performs adjustment to reduce the variation in color reproduction characteristics in each of the plurality of inkjet heads. If comprised in this way, the same effect as the structure 1 can be acquired, for example.

The image forming apparatus is, for example, a computer installed outside of the inkjet printer. This computer operates, for example, as an image forming apparatus in accordance with a predetermined program. In this case, for example, the CPU of the computer operates as each part of the image forming apparatus in accordance with the program. The image forming apparatus may be a computer embedded in an inkjet printer. In addition, the image forming apparatus may be constituted by a plurality of computers.

According to the present invention, for example, variation of color reproduction characteristics for each inkjet head can be appropriately reduced for a plurality of inkjet heads.

1 is a diagram showing an example of the configuration of a printing system 10 using a program according to an embodiment of the present invention. FIG. 1A shows an example of the configuration of the printing system 10. FIG. 1B shows an example of the configuration of the head portion 100 in the inkjet printer 12.
2 is a flowchart showing an example of the image forming processing operation by the PC 14.
3 is a flowchart illustrating an example of an operation of generating calibration information.
4 is a view for explaining the adjustment of the head rows 102a to 102f in more detail. Fig. 4A shows an example of the color chart 200 printed in the color chart print execution process. 4B illustrates an example of the configuration of the ICC profile 302 and the plurality of calibration information 304a to 304f.
5 is a diagram illustrating a color tone of the color chart 200.
6 is a diagram for explaining the masking process in more detail. FIG. 6A shows an example of the ink concentration 154 set by the masking process. 6B shows an example of the print result 156 after the masking process.

Best Mode for Carrying Out the Invention Embodiments according to the present invention will be described below with reference to the drawings. 1 shows an example of a configuration of a printing system 10 using a program according to an embodiment of the present invention. FIG. 1A shows an example of the configuration of the printing system 10. The printing system 10 in this embodiment includes an inkjet printer 12, a colorimeter 16 and a PC 14.

The inkjet printer 12 is a printing apparatus which prints in a single pass method, and has a head portion in which a plurality of head rows which are inkjet heads for color printing are arranged. Then, the inkjet printer prints an image by this head portion based on the output image data received from the PC 14.

Further, for example, when the PC 14 performs the generation of calibration information used for adjusting color reproducibility, the inkjet printer 12 prints a color chart set in advance in accordance with the instruction of the PC 14. This calibration information is information used for color conversion adjustment in image formation processing, for example.

The colorimeter 16 is, for example, a colorimeter that is the same as or similar to a known colorimeter. The colorimeter 16 is provided outside the inkjet printer 12, for example, and color-codes the color chart printed by the plurality of head rows of the inkjet printer 12. FIG.

The PC 14 is a host computer installed outside the inkjet printer 12, and operates as an image forming apparatus in the printing system 10 in accordance with a preinstalled program. In this embodiment, the PC 14 stores an ICC profile according to the device characteristics of the inkjet printer 12, and performs image forming processing based on this ICC profile according to the program. In this embodiment, this image forming process is a RIP process. In addition, by this image forming process, the PC 14 forms output image data to be sent to the inkjet printer 12. In this image forming process, the PC 14 receives, for example, print data such as a PostScript file or a PDF file from the outside and forms output image data corresponding to the print data.

On the other hand, the image forming processing by the PC 14 will be described later in more detail. The PC 14 may form output image data based on print data created using application software on the PC 14.

In addition, in the present embodiment, the PC 14 acquires colorimetric results by the colorimeter 16 and generates calibration information based on the colorimetric results. The operation of generating calibration information will also be described in detail later.

In addition, in the modification of this invention, the structure corresponding to all or one part of the PC 14 which is the image forming apparatus of the printing system 10 may be integrated in the inkjet printer 12, for example. The image forming apparatus of the printing system 10 may be constituted by a computer and a database installed outside the computer. Moreover, you may be comprised by the some computer.

FIG. 1B shows an example of the configuration of the head portion 100 in the inkjet printer 12. In the present embodiment, the head part 100 has a plurality of head rows 102a to 102f. The plurality of head rows 102a to 102f are inkjet heads for color printing, respectively, and are installed in the inkjet printer 12 so as to be independently interchangeable. Further, each head row 102a to 102f has a configuration in which a plurality of monochromatic heads 104a to 104d for discharging different primary colors of ink are arranged.

In the present embodiment, each of the head rows 102a to 102f includes the Y (yellow) monochromatic head 104a, the M (magenta) monochromatic head 104b, the C (cyan) monochromatic head 104c, and It has a K (black) color monochrome head 104d. The monochromatic heads 104a to 104d are arranged in the conveying direction of the medium, for example.

In addition, the plurality of head rows 102a to 102f are arranged side by side by, for example, a zigzag arrangement in a predetermined arrangement direction orthogonal to the conveying direction. In this case, the plurality of head rows 102a to 102f are arranged so that their ends overlap between adjacent head rows 102a to 102f, as shown by the circle 150 in the figure.

Here, in each head row 102a-102f, each monochromatic head 104a-104d has the nozzle row by which several nozzle is arranged in an arrangement direction. In the case where attention is paid to the nozzle row, the plurality of head rows 102a to 102f are formed such that one end of the nozzle row of one head row and the other end of the nozzle row of the other head row are orthogonal to the arrangement direction between adjacent head rows 102a to 102f. It is provided side by side so as to overlap when viewed from the conveying direction which is a direction.

In addition, with respect to the overlapped portion where the nozzle rows of the head rows 102a to 102f in such a configuration overlap, the PC 14 performs a masking process of selecting some nozzles in the nozzle row as the nozzles which do not discharge ink. The masking process will also be described later in detail.

The operation of the PC 14 will be described in more detail below. First, the operation of the image forming process will be described. 2 is a flowchart showing an example of the image forming processing operation by the PC 14. The PC 14 performs the following operations, for example, in accordance with a preinstalled program.

The PC 14 first acquires print data from, for example, an external computer or application software executed on the PC 14 (print data acquisition processing: S52). This print data is, for example, a PostScript file, a PDF file, or the like, and the printed image is represented by a color of a color system that does not depend on the color reproduction characteristics of the ink used in the inkjet printer 12. In this embodiment, the color of the color system is, for example, the color of the RGB color system. This device dependent color may be a device dependent color which depends on the color reproduction characteristic of the device of the side which produces print data.

The PC 14 then generates output image data by converting the print data into output image data (output image generation processing: S54). In this embodiment, the output image generation process S54 is a RIP process, and generates output image data representing an image in a color of the CMYK color system based on the print data. The color of this CMYK color system is, for example, a color that depends on the color reproduction characteristics of the CMYK ink used in the inkjet printer 12. The output image data is, for example, data including expanded raster image data and a command that can be interpreted by the inkjet printer 12. The output image data may be data representing an image in a printer description language.

In the output image generation process S54, the PC 14 first rasterizes the image indicated by the print data in accordance with the resolution of the inkjet printer 12 (rasterization process: S62). Then, color conversion is performed on the plurality of head strings 102a to 102f using a common ICC profile (head common color conversion processing: S64).

Further, in the head common color conversion processing (S64) of the present embodiment, the PC 14 performs two color conversions (first common color conversion processing: S72, second common color conversion processing: S74). In the first common color conversion processing (S72), the PC 14 performs color conversion using a common first ICC profile for the plurality of head columns 102a-102f, and device independent of the device dependent color used for the print data. Convert to color. The first ICC profile is, for example, an ICC profile in which a color represented by an RGB color system and a color represented by a Lab color system are associated with each other.

Further, after the first common color conversion process S72, in the second common color conversion process S74, the PC 14 performs color conversion using the common second ICC profile for the plurality of head columns 102a to 102f. Thus, the device-independent color after conversion by the first common color conversion process is converted into a device-dependent color depending on the color reproduction characteristics by the ink. The second ICC profile is, for example, an ICC profile in which a color represented by a Lab color system and a color represented by a CMYK color system are associated with each other.

As a result, the PC 14 performs common color matching for the head rows 102a to 102f. On the other hand, the PC 14 may further perform other processing common to the plurality of head strings 102a to 102f, such as before or after the rasterization processing (S62) or the device common color conversion processing (S64). For example, the PC 14 may further perform rendering processing or the like.

Subsequently, the PC 14 makes individual color conversion adjustments for each of the head strings 102a to 102f (head-specific adjustment processing: S66). In the head-specific adjustment process S66, the PC 14 adjusts to reduce the variation in color reproduction characteristics in each of the plurality of head rows 102a to 102f by using the calibration information prepared for each head row 102a to 102f. Do it.

Here, in this embodiment, the calibration information is, for example, information corresponding to the color of the CMYK color system and the color of the CMYK color system, and the color of the CMYK color system in the ICC profile used in the second common color conversion process (S74). Corresponding to the corrected color for each of the head rows 102a to 102f. In addition, calibration information is prepared for every head row 102a-102f according to the color reproduction characteristic of each head row 102a-102f, for example.

As described above, the PC 14 performs RIP processing based on the print data and generates output image data. Then, the generated output image data is output to the inkjet printer 12 (data output process: S56). As a result, the PC 14 causes the inkjet printer 12 to execute a printing operation.

According to the present embodiment, for example, color differences caused by individual differences and installation precision differences can be appropriately absorbed for the plurality of head rows 102a to 102f. In addition, by this, for example, the variation of the color reproduction characteristics for each of the head rows 102a to 102f can be appropriately reduced.

Further, for example, a process other than the head-specific adjustment process is divided by dividing a process using a common ICC profile for the plurality of head rows 102a to 102f and a process using calibration information prepared for each of the head rows 102a to 102f. Can be appropriately common to a plurality of head rows 102a to 102f. Therefore, according to the present embodiment, for example, an image forming process can be appropriately performed at high speed.

Furthermore, in the present embodiment, unlike the case where the individual ICC profiles are prepared for each of the head rows 102a to 102f, for example, only the ICC profiles common to the plurality of head rows 102a to 102f need to be prepared. Therefore, according to this embodiment, the work process required for preparation of an ICC profile can be significantly reduced, for example.

Here, the PC 14 may perform head-specific adjustment processing at a timing different from the above. For example, the PC 14 may perform head-specific adjustment processing before the first common color conversion processing S72. In this case, the head-specific adjustment process performs color correction on the data generated by the rasterization process S62. In addition, as calibration information, the information which correct | amends the device dependent color used for print data is used, for example. This calibration information corresponds to, for example, the device-dependent color used in the data before the first common color conversion processing is performed for the color corrected for each head 102a to 102f.

In addition, the PC 14 may perform head-specific adjustment processing after the first common color conversion processing (S72) and before the second common color conversion processing (S74). In this case, as calibration information, the information which correct | amends the device independent color after conversion by 1st common color conversion process is used, for example. This calibration information corresponds, for example, to the color which correct | amended the device independent color after conversion by the 1st common color conversion process S72 for every head column 102a-102f.

In addition, the PC 14 may perform head-specific adjustment processing at a plurality of timings, for example. For example, even if the head-specific adjustment processing is performed at two or more timings before the first common color conversion processing S72, after the first common color conversion processing S72 and after the second common color conversion processing S72. do. In this case, the PC 14 performs calibration processing for each head by using calibration information corresponding to each timing.

Next, an operation for generating calibration information will be described. 3 is a flowchart illustrating an example of an operation of generating calibration information. The PC 14 performs the following operations, for example, in accordance with a preinstalled program.

The PC 14 first causes the inkjet printer 12 to perform color chart printing (color chart print execution process: S102). In this process, the PC 14 executes, for example, printing a portion of one color chart on each of the plurality of head rows 102a to 102f. This color chart is, for example, a color chart including patches of each primary color and a high order color.

Then, after the colorimeter 16 performs colorimetry on the printed color chart, the PC 14 acquires colorimetric results by the colorimetric device 16 (colorimetric result acquisition processing: S104). As a result, the PC 14 acquires colorimetric results for the print results by each of the plurality of head rows 102a to 102f.

Subsequently, the PC 14 generates a plurality of calibration information corresponding to the plurality of head strings 102a to 102f, respectively, based on the obtained colorimetric result (calibration information generation process: S106). In this process, the PC 14 calculates, for example, the color reproduction characteristics of the respective head trains 102a to 102f based on the colorimetric result. Based on the calculated color reproduction characteristics, calibration information for reducing variation in color reproduction characteristics is generated. This deviation in color reproduction characteristics is, for example, a deviation in color reproduction characteristics that occurs when color conversion is performed using only a common ICC profile.

After the calibration information generation process (S106), the PC 14 stores the generated calibration information in a storage device such as an HDD of the PC 14, for example (calibration information storage process: S108). In this process, the PC 14 stores a plurality of calibration information in association with one ICC profile.

According to this embodiment, for example, calibration information according to the color reproduction characteristics of each of the head rows 102a to 102f can be appropriately generated. In addition, the variation of the color reproduction characteristics for each of the head rows 102a to 102f can be appropriately reduced, for example.

In addition, such calibration information can be easily and appropriately created, for example, with a small number of processes compared to the ICC profile. Therefore, according to the present embodiment, the variation of the color reproduction characteristics of each of the head columns 102a to 102f can be appropriately reduced without the need for a large number of steps for creating data required for color conversion.

In addition, since the preparation of the calibration information becomes easy, adjustment and re-creation of the calibration information can be appropriately performed as necessary. For example, unlike the case where the ICC profile itself is adjusted or rewritten, the user of the inkjet printer 12 himself or herself can create calibration information. For example, new calibration information can be created before starting work every day. Therefore, if comprised in this way, the variation of the color reproduction characteristic for every inkjet printer 12, for example, can be reduced more flexibly.

On the other hand, in the calibration information generation process (S106), the PC 14 generates the calibration information by, for example, comparing the printed color chart with a previously prepared reference color chart. The color chart serving as a reference is, for example, a color chart printed by the inkjet printer 12 in a state where adjustments for reducing variations in color reproduction characteristics are performed for each of the head rows 102a to 102f. As such a color chart, the color chart printed with the inkjet printer 12 before a factory shipment, the color chart printed with the inkjet printer 12 on a specific day, etc. can be used, for example.

Further, in the calibration information generation process (S106), the PC 14 reproduces the color of the other head rows 102a to 102f based on the color reproduction characteristics of one of the head rows 102a to 102f, for example. Match the characteristics to the criteria. As the head trains 102a to 102f serving as the reference, for example, the head trains 102a to 102f having the lowest performance of color reproduction characteristics can be used. In this way, the color reproduction characteristics of the other head rows 102a to 102f can be appropriately matched with the reference.

4 and 5 illustrate the adjustment of the head rows 102a to 102f in more detail. Fig. 4A shows an example of the color chart 200 printed in the color chart print execution process. In the color chart print execution process, the PC 14 causes the inkjet printer 12 to print the color chart 200 having the plurality of head row corresponding portions 202a to 202f. The plurality of head row corresponding portions 202a to 202f are portions printed by the plurality of head rows 102a to 102f, respectively. Each head row corresponding portion 202a to 202f itself also includes patches of primary and higher order colors of Y (yellow), M (magenta), C (cyan) and K (black) colors. It is a color chart.

On the other hand, for convenience of illustration, an image obtained by converting the color tone of the color chart 200 to gray scale is shown in FIG. The color tone of the color chart 200 is separately shown in FIG. 5 is a diagram illustrating a color tone of the color chart 200, and the color tone of the color chart 200 is divided into an R component that is a red color channel, a G component that is a green color channel, and a B component that is a blue color channel. . As can be seen from the figure, in this embodiment, the head row corresponding portions 202a to 202f printed by the head rows 102a to 102f are patches of the same pattern.

According to this embodiment, for example, by measuring the print result of each head row correspondence portion 202a to 202f with the colorimeter 16, the color result corresponding to each head row 102a to 102f in the color result acquisition process. Can be appropriately obtained. In this way, calibration information corresponding to each of the head strings 102a to 102f can be appropriately generated in the calibration information generation process.

4B illustrates an example of the configuration of the ICC profile 302 and the plurality of calibration information 304a to 304f. In this embodiment, the PC 14 stores the ICC profile 302 and the plurality of calibration information 304a to 304f in one color conversion information file 300. As a result, the PC 14 has a common ICC profile 302 for the plurality of head rows 102a to 102f and a plurality of calibration information 304a to 304f corresponding to the plurality of head rows 102a to 102f. To remember them in a single file. According to this embodiment, for example, the ICC profile 302 and the calibration information 304a to 304f can be appropriately managed and used.

6 is a diagram for explaining the masking process in more detail. FIG. 6A shows an example of the ink concentration 154 set by the masking process. In addition, in this figure, for convenience of description, only one set of monochromatic heads 104 which produce an overlap part in the nozzle row is shown. In the drawing, the monochrome inkjet head 104 is one of the monochrome inkjet heads 104a to 104d (see Fig. 1).

Adjacent head rows 102a to 102f (refer to FIG. 1) in this embodiment are arranged so that their ends overlap, as shown by the circle 150 in FIG. 1B. Therefore, an overlap portion is formed between the nozzle rows of the monochromatic head 104 in each of the head rows 102a to 102f.

Therefore, for example, if the output image data after correction by the calibration information 304 is printed as it is, there is a possibility that the density of the overlapped portion becomes darker than the other portion and becomes noticeable. Thus, in the present embodiment, the PC 14 adjusts the number of dots of ink discharged from each position of the nozzle row from the center of the nozzle row toward the end of the nozzle row with respect to the overlapping portion, so that the apparent density drops gradually. Select a nozzle that does not discharge.

For example, in the output image data after correction by calibration information, the case where the correction data 152 corresponding to two adjacent monochromatic heads 104 is data which shows uniform density is considered. In this case, by the masking process, the ink concentration 154 of the ink actually discharged by each of the monochrome inkjet heads 104 gradually decreases toward the end of the nozzle row.

6B shows an example of the print result 156 after the masking process. As shown in the figure, in this embodiment, the monochromatic head 104 in each of the adjacent head rows 102a to 102f discharges ink to the ink concentration 154 whose apparent density gradually decreases toward the end. In this case, in the printing result 156 in which the overlap portions are overlapped, the density of the overlap portions does not become darker than the other portions. Therefore, according to this embodiment, printing can be performed suitably, for example, preventing an overlap part from being outstanding.

In addition, in order to make the density | concentration of an overlap part similar to another part, you may think that what is necessary is just to divide an overlap part in the center and to print each area | region with one monochromatic head 104, for example. However, in this case, even if the variation in the color reproduction characteristics of the head rows 102 is reduced, there is a possibility that the boundary portion becomes noticeable due to a slight characteristic difference. In contrast, according to this embodiment, by gradually changing the ink concentration, it is possible to more appropriately prevent the boundary portion from being noticeable. Therefore, according to this embodiment, the dispersion | variation in the color reproduction characteristic for every head row 102a-102f can be reduced more appropriately.

As mentioned above, although this invention was demonstrated using an Example, the technical scope of this invention is not limited to the range as described in the said Example. It will be apparent to those skilled in the art that the above embodiments can be variously modified or improved. It is evident from the description of the claims that such altered or improved forms can be included in the technical scope of the present invention.

The present invention can be preferably used in, for example, a printing system.

10: printing system 12: inkjet printer
14: PC 16: Colorimeter
100: head
102a, 102b, 102c, 102d, 102e, 102f: head row
104a, 104b, 104c, 104d, 104e, 104f: monochrome head
152: data after correction 154: ink concentration
156: print result 200: color chart
202a, 202b, 202c, 202d, 202e and 202f: head row corresponding parts
300: color conversion information file 302: ICC profile
304a, 304b, 304c, 304d, 304e, 304f: Calibration Information

Claims (8)

A program for causing a computer to execute an image forming process for forming output image data, which is data representing an image to be printed by a printing apparatus which prints by an inkjet method,
Print data acquisition processing for acquiring print data representing the image with a color of a color system that does not depend on color reproduction characteristics by ink used in the printing apparatus;
Causing the computer to execute an output image generation process of generating the output image data by converting the print data into the output image data representing the image with a color dependent on the color reproduction characteristics of the ink used in the printing apparatus. and,
The printing apparatus includes a plurality of inkjet heads, and prints in a single pass method by the plurality of inkjet heads,
The output image generating process is
A rasterization process for rasterizing the image represented by the print data in accordance with the resolution of the printing apparatus;
A head common color conversion process for performing common color conversion for the plurality of inkjet heads by using one ICC profile common to the plurality of inkjet heads,
Characterized in that it has head-specific adjustment processing for adjusting a variation in color reproduction characteristics of each of the plurality of inkjet heads by using calibration information prepared for each ink jet head according to the color reproduction characteristics of each of the ink jet heads. program. The method of claim 1,
A color chart print execution process for printing a predetermined color chart by the plurality of inkjet heads;
Colorimetric result acquisition processing for acquiring colorimetric results for print results by each of the plurality of inkjet heads by acquiring colorimetric results obtained by measuring the printed color chart with a colorimetric unit;
And cause the computer to execute a calibration information generation process of generating the calibration information corresponding to each of the plurality of inkjet heads based on the colorimetric result corresponding to each of the inkjet heads. The method according to claim 1 or 2,
The output image generation process is a RIP (Raster Image Processor) process for forming the output image data based on the print data,
The color used in the print data is a device dependent color that depends on the color reproduction characteristics of a given device,
The head common color conversion process,
A color conversion process using a first ICC profile common to the plurality of inkjet heads, the first common color conversion process of converting the device dependent color used for the print data into a device independent color;
A color conversion process using a second ICC profile common to the plurality of inkjet heads, wherein the device independent color after conversion by the first common color conversion process is converted into a device dependent color depending on color reproduction characteristics by the ink; A second common color conversion process,
Each said inkjet head ejects at least ink of each color of CMYK ink,
The head-specific adjustment process is a process performed after the second common color conversion process,
The calibration information is information for correlating the color of the CMYK color system with the color of the CMYK color system, and corresponds to the color of each of the inkjet heads correcting the color of the CMYK color system in the ICC profile used in the second common color conversion process. The program characterized in that the. The method according to any one of claims 1 to 3,
The output image generation process is a RIP (Raster Image Processor) process for forming the output image data based on the print data,
The color used in the print data is a device dependent color that depends on the color reproduction characteristics of a given device,
The head common color conversion process,
A color conversion process using a first ICC profile common to the plurality of inkjet heads, the first common color conversion process of converting the device dependent color used for the print data into a device independent color;
A color conversion process using a second ICC profile common to the plurality of inkjet heads, wherein the device independent color after conversion by the first common color conversion process is converted into a device dependent color depending on color reproduction characteristics by the ink; A second common color conversion process,
The head-specific adjustment process is a process performed before the first common color conversion process,
The calibration information is information for correcting the device-dependent color used for the print data, and the device-dependent color before the first common color conversion process is performed corresponds to the color corrected for each of the inkjets. Program. The method according to any one of claims 1 to 4,
The output image generation process is a RIP (Raster Image Processor) process for forming the output image data based on the print data,
The color used in the print data is a device dependent color that depends on the color reproduction characteristics of a given device,
The head common color conversion process,
A color conversion process using a first ICC profile common to the plurality of inkjet heads, the first common color conversion process of converting the device dependent color used for the print data into a device independent color;
A color conversion process using a second ICC profile common to the plurality of inkjet heads, wherein the device independent color after conversion by the first common color conversion process is converted into a device dependent color depending on color reproduction characteristics by the ink; A second common color conversion process,
The head-specific adjustment process is a process performed after the first common color conversion process and before the second common color conversion process,
The calibration information is information for correcting the device-independent color after conversion by the first common color conversion process, wherein the device-independent color after conversion by the first common color conversion process is corrected for each of the inkjets. A program characterized in that the corresponding. 6. The method according to any one of claims 1 to 5,
The plurality of inkjet heads are installed side by side in a predetermined arrangement direction,
Each of the inkjet heads has a nozzle row in which a plurality of nozzles are arranged in the arrangement direction,
The plurality of inkjet heads are arranged side by side so as to overlap when one end of the nozzle row of one of the inkjet heads and the other end of the nozzle row of the other inkjet heads are viewed in a direction orthogonal to the arrangement direction between the adjacent inkjet heads. Installed,
The program causes the computer to further execute a masking process of selecting nozzles of some of the nozzle rows as nozzles for not ejecting ink,
In the masking process, the computer determines the number of dots of ink discharged from each position of the nozzle row from the center of the nozzle row toward the end of the nozzle row with respect to the overlapping portion where the nozzle row of the adjacent inkjet head overlaps. And a nozzle which does not discharge the ink so as to gradually decrease the apparent density. An image forming method of forming output image data, which is data representing an image printed by a printing apparatus which prints by an inkjet method,
A print data acquisition step of acquiring print data representing the image with a color of a color system that does not depend on color reproduction characteristics by ink used in the printing apparatus;
And an output image generation step of generating the output image data by converting the print data into the output image data representing the image in a color dependent on the color reproduction characteristics of the ink used in the printing apparatus,
The printing apparatus includes a plurality of inkjet heads, and prints in a single pass method by the plurality of inkjet heads,
The output image generating step,
A rasterization step of rasterizing the image represented by the print data according to the resolution of the printing apparatus;
A head common color conversion step of performing common color conversion for the plurality of inkjet heads by using one ICC profile common to the plurality of inkjet heads;
And an adjustment step for reducing the variation of color reproduction characteristics in each of the plurality of inkjet heads using calibration information prepared for each ink jet head according to the color reproduction characteristics of each of the ink jet heads. Image Formation Method. A printing system comprising a printing apparatus for printing by an inkjet method and an image forming apparatus for performing an image forming process for forming output image data which is data representing an image printed by the printing apparatus.
The printing apparatus includes a plurality of inkjet heads, and prints in a single pass method by the plurality of inkjet heads,
The image forming apparatus,
A print data acquisition processing unit for acquiring print data representing the image with a color of a color system that does not depend on color reproduction characteristics of the ink used in the printing apparatus;
And an output image generation processing unit for generating the output image data by converting the print data into the output image data representing the image in a color depending on the color reproduction characteristic of the ink used in the printing apparatus.
The output image generation processing unit,
A rasterization processing unit for rasterizing the image represented by the print data in accordance with the resolution of the printing apparatus;
A head common color conversion processing unit for performing common color conversion for the plurality of inkjet heads by using one ICC profile common to the plurality of inkjet heads;
Characterized in that it has a head-specific adjustment processing unit that adjusts to reduce the deviation of color reproduction characteristics in each of the plurality of inkjet heads by using calibration information prepared for each of the ink jet heads according to the color reproduction characteristics of each of the ink jet heads. Printing system.

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