JP2024007767A - Image forming apparatus, image forming method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image forming apparatus, an image forming method, and a program that can form an image in a color desired by an operator on a recording medium.

SOLUTION: An image forming apparatus performing image formation on a recording medium has: an image processing unit that performs processing on first image data on the basis of which an image is formed; an image forming unit that performs image formation on the recording medium on the basis of a result of the processing performed by the image processing unit; a correction unit that corrects a color of the first image data by using color correction information based on a result of measurement of the color of a formed image for density correction; an image creation unit that creates second image data on the basis of the corrected first image data; a display that displays the second image data; a first receiving unit that receives operation input in which an operator of the image forming apparatus has selected a color area in the displayed second image data; and a changing unit that changes the color correction information. The changing unit changes the color correction information on the basis of a result of measurement, which is performed by a measurement unit, of the image for density correction added with the color of the color area formed on the recording medium.

SELECTED DRAWING: Figure 2

COPYRIGHT: (C)2024,JPO&INPIT

Description

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

Conventionally, with image forming apparatuses used in commercial printing, the printed matter, which is the recording medium on which the image is formed, becomes a product, so high color quality is required of the printed matter. Corrections are made. Such color corrections include those that correct one single color, those that correct mixed colors that are a mixture of multiple colors, and those that correct gray that is a color between black and white. It has been known.

In order to prevent sudden changes in color between consecutively printed images, the image forming apparatus described above changes the color of the image formed by the image forming unit from the misaligned color to a predetermined color that has been corrected. A device has been disclosed that controls the number of sheets to be changed depending on the number of sheets (see, for example, Patent Document 1).

However, in the apparatus described in Patent Document 1, the color of the image formed on the recording medium may deviate from the color desired by the operator of the image forming apparatus.

An object of the present invention is to enable an operator of an image forming apparatus to form an image in a desired color on a recording medium.

An image forming apparatus according to one aspect of the present invention is an image forming apparatus that forms an image on a recording medium, and includes an image processing section that processes first image data that is the basis of an image to be formed; An image forming unit that forms an image on the recording medium based on the processing result by the processing unit; and color correction information based on the measurement result by the measuring unit of the color of the density correction image formed on the recording medium by the image forming unit. a correction unit that corrects the color of the first image data using the correction unit; and a first image data that is ready for image formation by the image forming unit based on the first image data whose color has been corrected by the correction unit. an image generation unit that generates second image data; a display control unit that causes a display unit to display the second image data; a first reception unit that receives a first operation input in which an operator selects a color area; and a change unit that changes the color correction information; The density correction image is formed on the recording medium, and the changing unit changes the color correction information based on a measurement result by the measurement unit of the density correction image including the color of the color area.

According to the present invention, an image in a color desired by an operator of an image forming apparatus can be formed on a recording medium.

1 is a block diagram showing an example of the overall configuration of an image forming apparatus according to an embodiment. FIG. 2 is a block diagram showing an example of a functional configuration of an image processing unit according to an embodiment. FIG. 2 is a flow diagram illustrating an example of color correction operation of the image forming apparatus according to the embodiment. FIG. 3 is a diagram showing an example of a color correction screen displayed on the display unit according to the first embodiment. FIG. 3 is a diagram showing a first example of a monochromatic density correction image. FIG. 7 is a diagram showing a second example of a monochromatic density correction image. FIG. 7 is a diagram illustrating an example of a color correction screen displayed on the display unit according to the second embodiment.

Hereinafter, embodiments for carrying out the invention will be described with reference to the drawings. In each drawing, the same components are denoted by the same reference numerals, and redundant explanations will be omitted as appropriate.

<Configuration example of image forming apparatus 100>
(overall structure)
FIG. 1 is a block diagram showing an example of the overall configuration of an image forming apparatus 100 according to an embodiment. The image forming apparatus 100 forms an image on paper as a recording medium. Note that the image forming method by the image forming apparatus 100 may be any image forming method such as an electrophotographic method or an inkjet method as long as color image formation is possible.

As shown in FIG. 1, the image forming apparatus 100 is communicably connected to a client PC (Personal Computer) 300 via a LAN (Local Area Network) 200. The image forming apparatus 100 can form an image on paper based on the first image data Im received from the client PC 300. The first image data Im is data that is the source of an image formed on paper by the image forming apparatus 100.

Image forming apparatus 100 includes an image processing section 110, an image forming section 120, a display section 130, and an operation section 140. The image forming apparatus 100 can use these components to perform color correction to ensure high color quality of printed matter, which is paper on which images are formed. Here, color correction refers to adjusting the image forming device so that it becomes the desired color when the color of the image formed on paper deviates from the desired color due to changes over time in the components of the image forming device. It means to do something.

In order to perform color correction with high precision, monochrome correction and mixed color correction may be performed to correct colors so that color shift is minimized. However, color mixture correction has the following disadvantages (1) to (3).
(1) The number of patches required for correction increases, and image formation and measurement take time.
(2) There is some difference in the color desired by the operator of the image forming apparatus.
(3) After color correction, it is necessary for the operator to perform color adjustment, which is time consuming.

The operator of the image forming apparatus includes a user of the image forming apparatus, an administrator, a service person, and the like.

In this specification, a patch refers to a monochromatic image formed on a sheet of paper and having a predetermined shape. In color correction, the color of a predetermined patch is measured, and correction is performed by comparing the measurement result with a specified value. In the case of color mixture correction, since there are many color variations, the number of patches used in the correction increases. For example, while the number of patches used in monochrome correction is 84, the number of patches used in mixed color correction may range from 300 to 1000.

Based on the above, here, an example will be shown in which monochrome correction is performed, which allows color correction to be performed using fewer patches than mixed color correction. However, the embodiments can be applied not only to monochromatic correction but also to mixed color correction, color correction for correcting gray color, and the like.

The image processing unit 110 processes first image data Im formed on paper by the image forming apparatus 100. As shown in FIG. 1, the image processing unit 110 includes a CPU (Central Processing Unit) 111, a ROM (Read Only Memory) 112, a RAM (Random Access Memory) 113, and an HDD (Hard Disk Drive)/SSD (Solid Disk Drive). It has a state drive) 114, a connection IF (Interface) 115, and a communication IF 116. These are communicably connected to each other via a system bus B.

The image processing unit 110 constitutes, for example, a printer control device (DFE: Digital Front End). The image processing unit 110 uses the above-mentioned components to realize the following functions with reference to FIG.

The CPU 111 executes control processing including various types of arithmetic processing. The ROM 112 stores programs used to drive the CPU 111, such as IPL (Initial Program Loader). The program refers to a program coded in a programming language suitable for the image forming apparatus 100 according to the embodiment. RAM 113 is used as a work area for CPU 111.

The HDD/SSD 114 is a nonvolatile memory that can store various information.

The connection IF 115 is an interface that controls the connection between the image forming section 120, display section 130, and operation section 140, and the image processing section 110.

Communication IF 116 is an interface that controls communication between LAN 200 and image processing section 110.

The image forming section 120 forms an image on paper based on the processing result by the image processing section 110. In the case of electrophotography, the image forming section 120 includes a photosensitive drum and the like, and forms an image using toner on paper. In the case of the inkjet method, the image forming section 120 includes an ink ejection head and the like, and forms an image using ink on paper. Particularly in this embodiment, the image forming unit 120 can form a monochromatic density correction image on paper.

The monochromatic density correction image is an image that includes a plurality of monochromatic patches with different densities. The monochromatic density correction image corresponds to an example of a density correction image. The image forming apparatus 100 can use the paper on which the monochromatic density correction image is formed as a test chart for performing color correction. Note that the term density in this specification may be translated as gradation.

The display unit 130 displays second image data generated based on the color-corrected first image data. A liquid crystal display or the like can be used for the display section 130.

The operation unit 140 allows an operator to input various operations to the image forming apparatus 100. For the operation unit 140, in addition to an interface unit such as buttons and keys, a touch panel or the like that can be operated by touch can be used. A touch panel in which the display section 130 and the operation section 140 are integrated may be used.

(Example of functional configuration of image processing unit 110)
FIG. 2 is a block diagram showing an example of the functional configuration of the image processing section 110. The image processing section 110 includes a transmitting/receiving section 11, a density converting section 12, a target information generating section 13, a correction curve generating section 14, a correcting section 15, an image generating section 16, an image data selecting section 17, and a display. It has a control section 18. Further, the image processing section 110 includes a first reception section 19 , a second reception section 20 , a patch addition processing section 21 , a change section 22 , and a storage section 23 .

Among the functional components described above, the function of the transmitter/receiver 11 is realized by either the connection IF 115 or the communication IF 116. The function of storage unit 23 is realized by at least one of HDD/SSD 114 and RAM 113. Each function of the functional components other than the transmitting/receiving section 11 and the storage section 23 is realized by, for example, executing a program read out from the ROM 112 by the CPU 111.

At least some of the above functions may be realized by components other than the image processing section 110. Components other than the image processing section 110 include the image forming section 120, the display section 130, the operation section 140, or an external server of the image forming apparatus 100. Furthermore, at least some of the above functions may be realized by distributed processing between the image processing section 110 and components other than the image processing section 110.

Client PC 300 has a storage section 310. The storage unit 310 stores first image data Im and spectral data Sp. The spectral data Sp is the result of measuring the color of a monochromatic density correction image formed on a sheet of paper by the image forming apparatus 100 using a measuring unit 400 such as a spectrophotometer. Client PC 300 transmits first image data Im and spectral data Sp stored in storage unit 310 to image forming apparatus 100 via LAN 200.

The transmitting/receiving unit 11 receives first image data Im and spectral data Sp from the client PC 300. The concentration converter 12 converts the spectral data Sp acquired through the transmitter/receiver 11 into concentration data Nd. The target information generating section 13 generates target information Tg, which is the target of color correction, using the density data Nd generated by the density converting section 12. The target information Tg is stored in the storage section 23.

The correction curve generation unit 14 generates a color correction curve Cv using the target information Tg generated by the target information generation unit 13 and the density data Nd generated by the density conversion unit 12. The color correction curve Cv is a table that associates density data Nd with target information Tg. The color correction curve Cv corresponds to color correction information. The generated color correction curve Cv is stored in the storage section 23.

The correction unit 15 corrects the color of the first image data Im using the color correction curve Cv. This color correction curve Cv is based on the result of measurement by the measurement unit 400 of the color of the monochromatic density correction image formed on the paper by the image forming unit 120. The correction unit 15 corrects the color of the first image data Im by correcting the density data Nd of the first image data Im. The image forming apparatus 100 can correct the deviation of the color of the image formed on the paper from the target information Tg by the correction by the correction unit 15.

However, in the above correction, although the color shift with respect to the target information Tg is reduced, the color of the image may shift from the color desired by the operator. For example, if the operator prefers a color different from the color corresponding to the target information Tg, the color of the image will deviate from the operator's desired color.

In the above case, in the present embodiment, the image generation unit 16 generates a first image data, which is ready for image formation by the image forming unit 120, based on the first image data Im whose color has been corrected by the correction unit 15. 2 image data Rp is generated. The second image data Rp includes, for example, raster image data in which an image is expressed by a set of dots, that is, RIP (Raster Image Processor) image data.

The display control unit 18 causes the display unit 130 to display the second image data Rp. Note that the display control unit 18 may display the second image data Rp on a liquid crystal display or the like external to the image forming apparatus 100. The image forming apparatus 100 also selects desired second image data Rp according to the selection operation of the operator from among the plurality of second image data Rp generated in advance and stored in the storage unit 23. The selection may be made by the section 17 and displayed on the display section 130.

The first accepting unit 19 accepts a first operation input In1 in which the operator selects a color area within the second image data Rp displayed on the display unit 130. The second image data Rp includes raster image data. Therefore, the operator viewing the second image data Rp displayed on the display unit 130 can visually see colors that are almost the same as the colors of the actual printed matter, and can select the color region corresponding to the desired color with high accuracy. Selection information Sa, which is information regarding the selected color area, is stored in the storage section 23.

The patch addition processing unit 21 generates first image data Im of a monochromatic density correction image to which a patch corresponding to the color of the selection information Sa is added. Further, the patch addition processing unit 21 can also perform color addition or change processing on the first image data Im of the monochromatic density correction image according to the second operation input In2. The image forming unit 120 forms a monochrome density correction image on paper based on the first image data Im of the monochrome density correction image to which patches have been added or changed.

The changing unit 22 changes the color correction curve Cv based on the measurement result of the monochromatic density correction image by the measuring unit 400. Specifically, the changing unit 22 calculates the difference between the target information acquired based on the measurement result by the measuring unit 400 and the target information Tg stored in the storage unit 23. The changing unit 22 changes the color correction curve Cv stored in the storage unit 23 so that this difference disappears.

The image forming apparatus 100 can acquire the Lab value of the color of the image on the first image data Im and the Lab value of the color of the image actually formed on the paper. The image forming apparatus 100 calculates the amount of color shift for each color of cyan (C), magenta (M), yellow (Y), and black (K) from the difference between these Lab values. The image forming apparatus 100 incorporates the calculated amount of color shift for each color into the target information Tg used in monochrome correction, and regenerates the target information Tg.

Since the target information Tg at the time of color correction includes color information of the color region of the second image data Rp, the image forming apparatus 100 allows the operator to check the color of the region of particular interest in the second image data Rp. Image formation can be performed according to the color of the area. Furthermore, in this embodiment, since a desired color area is selected using the second image data Rp, the image forming apparatus 100 can perform color correction for a predetermined print job in addition to monochrome correction. This makes it possible to finely adjust the color according to the selection result of the color area while maintaining monochromatic correction performance.

As described above, in this embodiment, since the color of the first image data Im can be corrected so as to approximate the color desired by the operator, an image in the color desired by the operator can be formed on the paper.

In this embodiment, the storage unit 23 stores a plurality of first image data Im and a plurality of color correction curves Cv in association with each other. The plurality of color correction curves Cv are obtained in advance for each of the plurality of first image data Im. The correction unit 15 can correct the first image data Im based on the first image data Im using the color correction curve Cv obtained by referring to the storage unit 23. Thereby, it is possible to reduce the effort of generating or changing the color correction curve Cv every time the first image data Im changes.

The second reception unit 20 receives the second operation input In2. The second operation input In2 includes an operation input for adding a color different from the color of the color area corresponding to the first operation input In1 received by the first reception unit 19, and an operation input for changing the color of the color area. At least one of the following. Note that the functions of the first reception section 19 and the second reception section 20 will be explained separately with reference to FIG. 4 as well.

In the present embodiment, a spectrophotometer or the like that is configured separately from the image forming apparatus 100 is shown as an example of the measurement section 400, but the measurement section 400 is not limited to this. The image forming apparatus 100 includes a measuring section 400, the measuring section 400 includes a line sensor that reads paper on which an image is formed, and the correcting section 15 performs automatic correction based on the reading result by the line sensor. Good too.

The line sensor is a scanner or the like that is provided in the image forming apparatus 100 on a path along which a sheet of paper on which an image has been formed is conveyed, and reads the image formed on the sheet of paper that is being conveyed. This line sensor can also be called an in-line sensor from the viewpoint of reading an image immediately after image formation.

When the image forming apparatus 100 includes the measuring section 400 including a line sensor, it is possible to measure the color of an image with higher efficiency than when the measuring section 400 is provided as a separate structure from the image forming apparatus 100. Image colors can be corrected with high efficiency.

<Example of operation of image forming apparatus 100>
FIG. 3 is a flowchart illustrating an example of a color correction operation of the image forming apparatus 100. The image forming apparatus 100 starts the operation shown in FIG. 3 at the timing when an operation input to start color correction is received using the operation unit 140.

First, in step S31, the image forming apparatus 100 uses the image forming unit 120 to form a monochrome density correction image on a sheet of paper based on the first image data Im for the monochrome density correction image.

Subsequently, in step S32, the image forming apparatus 100 transmits the spectral data Sp, which is the measurement result by the measurement unit 400 of the monochromatic density correction image formed on the paper in step S31, to the transmission/reception unit 11 by the density conversion unit 12. Get it through.

Subsequently, in step S33, the image forming apparatus 100 causes the target information generation unit 13 to generate target information Tg, which is the target of color correction, using the density data Nd generated by the density conversion unit 12.

Subsequently, in step S34, the image forming apparatus 100 uses the target information Tg generated by the target information generation unit 13 and the density data Nd generated by the density conversion unit 12 to generate a color correction curve using the correction curve generation unit 14. Generate Cv.

Subsequently, in step S35, the image forming apparatus 100 causes the correction unit 15 to correct the color of the first image data Im using the color correction curve Cv.

Subsequently, in step S36, the image forming apparatus 100 causes the image generating section 16 to generate second image data Rp based on the first image data Im whose color has been corrected by the correcting section 15.

Subsequently, in step S37, the image forming apparatus 100 causes the image forming unit 120 to form an image on the paper based on the second image data Rp.

Subsequently, in step S38, the image forming apparatus 100 determines whether the desired color is obtained in the image formed on the paper. The image forming apparatus 100 determines whether or not the desired color is obtained by accepting an input operation for determining whether or not the desired color is obtained by the operator who visually recognized the image formed on the paper in step S37. It can be determined whether

If it is determined in step S38 that the desired color is obtained (step S38, YES), the image forming apparatus 100 ends the operation. On the other hand, if it is determined that the desired color is not obtained (step S38, NO), in step S39, the image forming apparatus 100 causes the display control unit 18 to display the second image data Rp on the display unit 130. Display. The image forming apparatus 100 selects desired second image data Rp according to the operator's selection operation from among the plurality of second image data Rp generated in advance and stored in the storage unit 23. It is also possible to select by section 17 and display on display section 130.

Subsequently, in step S40, the image forming apparatus 100 receives, by the first reception unit 19, a first operation input In1 in which the operator selects a color region in the second image data Rp displayed on the display unit 130. .

Subsequently, in step S41, the image forming apparatus 100 uses the patch addition processing unit 21 to generate the first image data of the monochromatic density correction image to which the patch corresponding to the color of the selection information Sa according to the first operation input In1 has been added. Generate Im.

Subsequently, in step S42, the image forming apparatus 100 causes the image forming unit 120 to form a monochrome density correction image on the paper based on the first image data Im of the monochrome density correction image described above.

Subsequently, in step S43, the image forming apparatus 100 transmits the spectral data Sp, which is the measurement result of the monochromatic density correction image formed on the sheet of paper in step S42 by the measuring unit 400, to the density converting unit 12 via the transmitting/receiving unit 11. Obtained by

Subsequently, in step S44, the image forming apparatus 100 uses the changing unit 22 to change the color correction curve Cv stored in the storage unit 23 based on the measurement result.

Subsequently, in step S45, the image forming apparatus 100 causes the correction unit 15 to correct the color of the first image data Im using the color correction curve Cv.

Subsequently, in step S46, the image forming apparatus 100 causes the image generating section 16 to generate second image data Rp based on the first image data Im whose color has been corrected by the correcting section 15.

Subsequently, in step S47, the image forming apparatus 100 causes the image forming unit 120 to form an image on the paper based on the second image data Rp.

Subsequently, in step S48, the image forming apparatus 100 determines whether the desired color is obtained. The determination method is the same as that shown in step S47.

If it is determined in step S48 that the desired color is obtained (step S48, YES), the image forming apparatus 100 ends its operation. On the other hand, if it is determined that the desired color is not obtained (step S48, NO), in step S49, the image forming apparatus 100 receives the second operation input In2 through the second reception unit 20, and The addition processing unit 21 performs color addition or change processing according to the second operation input In2. After completing the process, the image forming apparatus 100 performs the operations starting from step S44 again.

As described above, the image forming apparatus 100 can perform color correction.

<Example of color correction screen according to the first embodiment>
FIG. 4 is a diagram showing an example of a color correction screen displayed by the display unit 130. As shown in FIG. 4, the color correction screen 40 includes a list box 41, a display image 42, a first confirmation print button 43, first text boxes 44C, 44M, 44Y, 44K, a first combo box 45C, It has 45M, 45Y, and 45K. The color correction screen 40 also includes second text boxes 46C, 46M, 46Y, 46K, second combo boxes 47C, 47M, 47Y, 47K, a patch print button 48, and a calibration chart + patch print button 49. have

The list box 41 is a user interface for selecting the second image data Rp. Information indicating the second image data Rp selected through the list box 41 is passed to the image data selection section 17.

The display image 42 is an image that displays second image data Rp generated by the image generation section 16 based on the first image data Im corrected by the correction section 15. The display image 42 is an example of information related to the second image data. Although the display image 42 was selected through the list box 41, the second image data Rp may be displayed.

The color area of the display image 42 can be selected by the operator touching the area where the display image 42 is displayed on the color correction screen 40. A first color region 421 indicated by a circle symbol and a second color region 422 indicated by a triangle symbol each indicate a color region selected by the operator. The first color area 421 and the second color area 422 each correspond to an example of a color area. In the example of FIG. 4, two color areas are selected, but the operator can also select one, three or more color areas.

The first confirmation print button 43 is a user interface for causing the image forming apparatus 100 to form an image based on the second image data Rp. The operator can determine whether or not the desired color is obtained by visually checking the image formed on the paper by the image forming apparatus 100 based on the second image data Rp.

The first text boxes 44C, 44M, 44Y, and 44K are user interfaces that indicate the component ratio of the color of the first color area 421 selected in the display image 42. The first text box 44C shows the cyan component ratio. The first text box 44M shows the magenta component ratio. The first text box 44Y shows the yellow component ratio. The first text box 44K shows the black component ratio.

The first combo boxes 45C, 45M, 45Y, and 45K are user interfaces for the operator to change the color component ratio of the first color area 421. The numerical values of the color component ratios displayed in the first text boxes 44C, 44M, 44Y, and 44K also change according to the operation inputs to the first combo boxes 45C, 45M, 45Y, and 45K.

The second text boxes 46C, 46M, 46Y, and 46K are user interfaces that indicate the color component ratio of the second color area 422 selected in the display image 42. The second text box 46C shows the cyan component ratio. The second text box 46M shows the magenta component ratio. The second text box 46Y shows the yellow component ratio. The second text box 46K shows the black component ratio.

The second combo boxes 47C, 47M, 47Y, and 47K are user interfaces for the operator to change the color component ratio of the second color area 422. The numerical values of the color component ratios displayed in the second text boxes 46C, 46M, 46Y, and 46K also change according to the operation inputs to the second combo boxes 47C, 47M, 47Y, and 47K.

If the number of selected color areas is one or more than three, sets of text boxes and combo boxes are displayed on the color correction screen 40 in accordance with the number of selected color areas. An operation input in which the operator changes the color component ratio using a combo box corresponds to a second operation input In2 that changes the color of the color area corresponding to the first operation input In1. The operation input for adding a color region by the operator touching the display image 42 corresponds to the second operation input In2 for adding a color different from the color of the color region corresponding to the first operation input In1.

For example, even if the colors are corrected based on a monochromatic density correction image to which a patch corresponding to the selected color area has been added, and the color of the image formed on the paper is different from the color of the image desired by the operator. It may shift. In such a case, by adding a color region or changing the color component ratio in the color region, the image forming apparatus 100 changes the color of the image formed on the paper into the image desired by the operator. You can get close to the color of

The patch print button 48 is a user interface that allows the image forming apparatus 100 to form a monochromatic density correction image on a sheet of paper to which patches corresponding to the first color area 421 and the second color area 422 have been added.

The calibration chart + patch print button 49 prints a monochrome density correction image to which patches corresponding to the first color area 421 and the second color area 422 are added to the monochrome density correction image including the calibration chart. This is a user interface for forming an image on paper using the apparatus 100.

<Example of image for monochrome density correction>
5 and 6 are diagrams showing examples of images for monochrome density correction. FIG. 5 is a monochrome density correction image 121 including a calibration chart + patch as a first example, and FIG. 6 is a patch image as a second example. This is a monochromatic density correction image 121a including the following. The monochrome density correction image 121 and the monochrome density correction image 121a both represent images formed on paper.

As shown in FIG. 5, the monochromatic density correction image 121 includes calibration charts 122K, 122C, 122M, and 122Y, and a patch 123.

The calibration chart 122K includes a plurality of black patches with different densities. The calibration chart 122C includes a plurality of cyan patches with different densities. The calibration chart 122M includes a plurality of magenta patches with different densities. The calibration chart 122Y includes a plurality of yellow patches with different densities. The plurality of black patches, the plurality of cyan patches, the plurality of magenta patches, and the plurality of yellow patches are arranged in descending order of density, respectively.

Patch 123 includes a first patch 1231 and a second patch 1232. The first patch 1231 is a patch corresponding to the first color area 421 in FIG. The second patch 1232 is a patch corresponding to the second color area 422 in FIG.

As shown in FIG. 6, the monochromatic density correction image 121a includes patches 123. Patch 123 is the same as patch 123 in FIG.

The measurement unit 400 can measure the color of the monochrome density correction image 121 or the monochrome density correction image 121a formed on the paper by the image forming apparatus 100.

<Example of color correction screen according to second embodiment>
In the color correction screen 40 according to the first embodiment, information on a desired color is acquired based on the input of a color region selection operation by the operator. On the other hand, in this embodiment, the entire hue can be changed using a color correction screen. A change in the overall hue corresponds to a change such as lowering the redness or increasing the yellowness.

FIG. 7 is a diagram showing an example of a color correction screen according to the second embodiment. As shown in FIG. 7, the color correction screen 40a includes a graph 71, a first table 72, a second table 73, a second confirmation print button 74, a third combo box 751, and a fourth combo box 752. , has.

A graph 71 shows the correspondence between the color measurement results included in the second image data Rp and the target information Tg. The graph 71 corresponds to an example of the color correction curve Cv described in FIG. 2 and the like. The horizontal axis represents the color density that is the measurement result, and the vertical axis represents the color density that is the target information Tg. Gradation values may be used instead of density.

The first table 72 indicates the maximum density of each of the density data Nd and target information Tg for each color of cyan, magenta, yellow, and black included in the second image data Rp. “Target” in the first table 72 corresponds to target information Tg. The "measured value" corresponds to the concentration data Nd. This point remains the same hereafter.

The graph 71 and the first table 72 each correspond to an example of information related to the second image data Rp.

The second table 73 shows the target information Tg before and after being changed using the third combo box 751 and the fourth combo box 752. “Target density before change” represents target information Tg before change. “Target density after change” represents the target information Tg after change. “Tone value” represents the ratio of tone values corresponding to density. The second table 73 is provided with tabs for each color. When the operator touches this tab, target information Tg for each color is displayed. The changing unit 22 shown in FIG. 2 can change the color correction curve Cv according to the changed target information Tg.

The second confirmation print button 74 is a button for forming an image on paper by the image forming apparatus 100 based on the corrected second image data Rp.

The third combo box 751 and the fourth combo box 752 are user interfaces for changing the target information Tg.

The third combo box 751 is for changing the colors of red and green. By operating a triangular symbol whose apex faces the characters "red direction" displayed on the color correction screen 40, the target information Tg is changed so as to approach red. By operating a triangular symbol whose apex faces the characters "green direction" displayed on the color correction screen 40, the target information Tg is changed so as to approach green.

The fourth combo box 752 is for changing the colors of yellow and blue. By operating a triangular symbol whose apex faces the characters "yellow direction" displayed on the color correction screen 40, the target information Tg is changed so as to approach yellow. By operating the triangular symbol whose apex faces the characters "blue direction" displayed on the color correction screen 40, the target information Tg is changed so as to approach blue.

As described above, in this embodiment, by making it possible to change the entire hue using the color correction screen, it is possible to add color information tailored to the user's sense to the target information Tg and correct the color.

Although the embodiments have been described above, the present invention is not limited to the above embodiments, and various modifications and improvements can be made within the scope of the present invention.

The functions of the image forming apparatus 100 according to the embodiment described above can be realized by executing each of the above-described processing procedures as a program on a computer. A program for realizing the image forming apparatus 100 according to the embodiment described above can be stored in a computer-readable recording medium.

Among the functions of the embodiments described above, the portions executed by the image forming apparatus 100 can be realized by one or more processing circuits. Here, the term "processing circuit" as used herein refers to a processor programmed to execute each function by software, such as a processor implemented by an electronic circuit, or a processor designed to execute each function explained above. This includes devices such as ASICs (Application Specific Integrated Circuits), DSPs (digital signal processors), FPGAs (field programmable gate arrays), and conventional circuit modules.

Aspects of the present invention are, for example, as follows.
<1> An image forming apparatus that forms an image on a recording medium, comprising: an image processing unit that processes first image data that is the basis of an image to be formed; An image forming unit that forms an image on a recording medium, and color correction information based on a measurement result of a color of a monochromatic density correction image formed on the recording medium by the image forming unit, by a measuring unit, are used to generate the first image. a correction unit that corrects the color of data; and an image generation unit that generates second image data that is ready for image formation by the image forming unit, based on the first image data whose color has been corrected by the correction unit. a display control unit that causes the display unit to display the second image data, and an operator of the image forming apparatus selects a color area from information related to the second image data displayed on the display unit; a first receiving unit that receives a first operation input, and a changing unit that changes the color correction information; The image forming apparatus is formed on a recording medium, and the changing section changes the color correction information based on a measurement result by the measuring section of the monochromatic density correction image including the color of the color area.
<2> The image forming apparatus according to <1>, wherein the second image data includes raster image data in which an image is expressed by a set of dots.
<3> A storage unit that stores a plurality of the first image data and a plurality of the color correction information in association with each other, and the correction unit refers to the storage unit based on the first image data. The image forming apparatus according to <1> or <2>, wherein the first image data is corrected using the color correction information acquired by the image forming apparatus.
<4> At least one of an operation input that adds a color different from the color of the color area corresponding to the first operation input received by the first reception unit, and an operation input that changes the color of the color area. The image forming apparatus according to any one of <1> to <3>, further comprising a second reception unit that receives a second operation input.
<5> The measuring unit includes a line sensor that reads the recording medium on which an image is formed, and the correction unit performs automatic correction based on the reading result by the line sensor. The image forming apparatus according to any one of <1> to <4>.
<6> An image forming method using an image forming apparatus that forms an image on a recording medium, wherein the image forming apparatus processes first image data, which is the basis of an image to be formed, by an image processing section, An image forming section forms an image on the recording medium based on the processing result by the image processing section, and a measuring section measures the monochromatic density correction image formed on the recording medium by the image forming section. The color of the first image data is corrected using color correction information based on the result, and the image generation section generates an image by the image forming section based on the first image data whose color has been corrected by the correction section. A display controller generates second image data that is ready to be formed, a display controller causes the display unit to display the second image data, and a first reception unit generates the second image data displayed on the display unit. A first operation input in which the operator of the image forming apparatus selects a color area is received by the operator of the image forming apparatus, the changing unit changes the color correction information, and the image forming unit changes the color of the color area. is added to the monochromatic density correction image on the recording medium; This is an image forming method that changes information.
<7> A program executed by an image forming apparatus that forms an image on a recording medium, in which an image processing section processes first image data that is the basis of an image to be formed, and the image forming section processes the first image data that is the basis of an image to be formed. An image is formed on the recording medium based on the processing result by the image processing section, and a color based on the measurement result by the measurement section of the color of the monochromatic density correction image formed on the recording medium by the image forming section by the correction section. The color of the first image data is corrected using the correction information, and the image forming unit can form an image based on the first image data whose color has been corrected by the image generating unit. generates second image data that is a state, causes the display control unit to display the second image data on the display unit, and causes the first reception unit to generate information related to the second image data displayed on the display unit. The operator of the image forming apparatus receives a first operation input in which a color area is selected, the changing unit changes the color correction information, and the image forming unit changes the color correction information to which the color of the color area is added. A process in which a density correction image is formed on the recording medium, and the changing unit changes the color correction information based on a measurement result by the measurement unit of the density correction image including the color of the color area. This is a program that causes the image forming apparatus to execute.

11 Transmission/reception section 12 Density conversion section 13 Target information generation section 14 Correction curve generation section 15 Correction section 16 Image generation section 17 Image data selection section 18 Display control section 19 First reception section 20 Second reception section 21 Patch addition processing section 22 Change Section 23 Storage section 40, 40a Color correction screen 41 List box 42 Display image (an example of information related to the second image data)
421 First color area (an example of color area)
422 Second color area (an example of color area)
43 First confirmation print button 44C, 44M, 44Y, 44K First text box 45C, 45M, 45Y, 45K First combo box 46C, 46M, 46Y, 46K Second text box 47C, 47M, 47Y, 47K Second combo box 48 Patch print button 49 Calibration chart + patch print button 71 Graph (an example of information related to the second image data)
72 First table (an example of information related to second image data)
73 Second table 74 Second confirmation print button 751 Third combo box 752 Fourth combo box 100 Image forming device 111 CPU
112 ROM
113 RAM
114 HDD/SSD
115 Connection IF
116 Communication IF
120 Image forming unit 121, 121a Single color density correction image (an example of density correction image)
122K, 122C, 122M, 122Y Calib chart 123 Patch 1231 1st patch 1232 2nd patch 130 Display section 140 Operation section 200 LAN
300 Client PC
310 Storage section 400 Measurement section B System bus Im First image data In1 First operation input In2 Second operation input Nd Density data Rp Second image data Sp Spectral data Tg Target information Cv Color correction curve (an example of color correction information)
Sa selection information

Japanese Patent Application Publication No. 2007-57564

Claims (7)

An image forming apparatus that forms an image on a recording medium,
an image processing unit that processes first image data that is the basis of the image to be formed;
an image forming unit that forms an image on the recording medium based on a processing result by the image processing unit;
a correction unit that corrects the color of the first image data using color correction information based on a measurement result of the color of the density correction image formed on the recording medium by the image forming unit by the measurement unit;
an image generation unit that generates second image data that is ready for image formation by the image forming unit, based on the first image data whose color has been corrected by the correction unit;
a display control unit that causes a display unit to display the second image data;
a first reception unit that receives a first operation input in which an operator of the image forming apparatus selects a color region among information related to the second image data displayed on the display unit;
a changing unit that changes the color correction information;
the image forming unit forms the density correction image to which the color of the color area is added on the recording medium;
The changing unit changes the color correction information based on the measurement result of the density correction image including the color of the color area, by the measuring unit. The image forming apparatus according to claim 1, wherein the second image data includes raster image data in which an image is expressed by a set of dots. comprising a storage unit that stores a plurality of the first image data and a plurality of the color correction information in association with each other;
The correction unit corrects the first image data based on the first image data using the color correction information obtained by referring to the storage unit. Image forming device. A first operation input that is at least one of an operation input that adds a color different from the color of the color area corresponding to the first operation input received by the first reception unit, and an operation input that changes the color of the color area. 3. The image forming apparatus according to claim 1, further comprising a second reception section that receives two operation inputs. having the measuring section;
The measurement unit includes a line sensor that reads the recording medium on which an image is formed,
The image forming apparatus according to claim 1 or 2, wherein the correction section performs automatic correction based on a reading result by the line sensor. An image forming method using an image forming apparatus that forms an image on a recording medium, the image forming apparatus comprising:
The image processing unit processes the first image data that is the basis of the image to be formed,
forming an image on the recording medium by an image forming unit based on a processing result by the image processing unit;
A correction unit corrects the color of the first image data using color correction information based on a measurement result by a measurement unit of a density correction image formed on the recording medium by the image forming unit,
an image generation unit generates second image data in a state in which image formation by the image forming unit is possible, based on the first image data whose color has been corrected by the correction unit;
a display control unit displays the second image data on a display unit;
a first reception unit accepts a first operation input in which an operator of the image forming apparatus selects a color region in information related to the second image data displayed on the display unit;
changing the color correction information by a changing unit;
the image forming unit forms the density correction image to which the color of the color area is added on the recording medium;
In the image forming method, the changing unit changes the color correction information based on a measurement result of the density correction image including the color of the color region, by the measuring unit. A program executed by an image forming apparatus that forms an image on a recording medium,
The image processing unit processes the first image data that is the basis of the image to be formed,
forming an image on the recording medium by an image forming unit based on a processing result by the image processing unit;
A correction unit corrects the color of the first image data using color correction information based on a measurement result by a measurement unit of the color of the density correction image formed on the recording medium by the image forming unit,
an image generation unit generates second image data in a state in which image formation by the image forming unit is possible, based on the first image data whose color has been corrected by the correction unit;
a display control unit displays the second image data on a display unit;
a first reception unit accepts a first operation input in which an operator of the image forming apparatus selects a color region in information related to the second image data displayed on the display unit;
changing the color correction information by a changing unit;
the image forming unit forms the density correction image to which the color of the color area is added on the recording medium;
The changing unit changes the color correction information based on a measurement result by the measuring unit of the density correction image including the color of the color area.
A program that causes the image forming apparatus to execute processing.

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