JP2013240085A - Printing system, method for controlling printing system, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce workload of setting colors that are most suitable for printing image data.SOLUTION: A printing system capable of printing in four colors of CMYK comprises: input means which receives image data; selection means which analyzes the received image data to select two colors from plural colors including seven colors of C, M, Y, K, R, G and B; and printing means which, when the two colors selected by the selection means are complementary colors, prints the received image data in three colors.

Description

  The present invention relates to a printing system, a printing system control method, and a program.

  CMYK 4-color printing (full color printing) is common in the printing industry. However, in the case of full-color printing, since color materials (toner, ink, etc.) for four colors are required, the cost is high. Under such circumstances, N (N is 2 or more and the number of color materials (M) -1 or less that can be mounted on the printing apparatus. For example, in the case of a 4-color printing apparatus, N is 2 or 3). Has begun to attract attention.

  Patent Document 1 discloses a two-color printing technique. In Patent Document 1, the user selects two colors and performs printing using the two colors.

JP 2000-003084 A

  However, it is burdensome for the user to select the optimum N color to be used during printing. For example, when there are 40 pages of documents to be printed, the user needs to look at the 40-page document to determine what is the optimum N color. Therefore, according to the present invention, when the input image data is printed in N colors, the optimum N colors for the input image data are automatically determined by analyzing the information of the input image data. An object of the present invention is to provide a printing system for performing N-color printing of image data based on the determination result.

  In order to solve the above-described problems, a printing system according to the present invention is a printing system capable of CMYK four-color printing, and includes an input unit that inputs image data, and C, The selection means for selecting two colors from a plurality of colors including M, Y, K, R, G, and B, and the two colors selected by the selection means are in a complementary color relationship, the input And printing means for printing image data using three colors.

  According to the present invention, it is possible to reduce the amount of work for setting an optimum color for printing image data.

6 is a flowchart illustrating an example of printing processing according to the first exemplary embodiment of the present invention. It is a block diagram which shows an example of the printing apparatus in this invention. It is a flowchart which shows an example of the printing process in Embodiment 2 of this invention. FIG. 10 is a diagram illustrating an example of an operation panel according to a third embodiment. FIG. 10 is a diagram illustrating an example of an operation panel according to a modification of the third embodiment. FIG. 10 is a diagram illustrating an example of an operation panel according to a fourth embodiment. It is a flowchart which shows an example of the restriction | limiting process in Embodiment 5 of this invention. It is a flowchart which shows an example of the printing process in Embodiment 6 of this invention. FIG. 20 is a diagram illustrating an example of an operation panel according to a sixth embodiment.

The present invention will be described below with reference to the drawings.
<Embodiment 1>
FIG. 2 is a block diagram illustrating an example of the printing apparatus 100 according to each embodiment. In the example of FIG. 2, the printing apparatus 100 is an MFP (Multi Function Peripheral) having a plurality of functions such as a copy function and a printer function. Note that the printing apparatus 100 may be a single-function printing apparatus such as only a copy function or only a printer function.

  In the printing apparatus 100, the scanning unit 200 reads an image on a document, converts it into image data, and transfers the image data to another unit.

  The operation unit 201 has an operation panel to be described later, and receives an instruction from the user through them. The operation unit 201 performs various displays on the operation panel.

  The external I / F unit 205 transmits and receives data between the printing apparatus 100 and another apparatus (device) connected to the network.

  The storage unit 203 is a large-capacity storage device for storing data input from the scan unit 200 or the external I / F unit 205. The storage unit 203 may be a hard disk or a flash memory.

  The printing unit 204 prints an image based on the image data input to the printing apparatus 100 by being read by the printing apparatus 100.

The control unit 202 controls processing and operations of various units included in the printing apparatus 100.
The control unit 202 executes processing shown in a flowchart described later based on a program in the ROM existing under the control of the control unit 202.

  Here, the control unit 202 and the printing unit 204 have been described as being in the printing apparatus 100, but the control unit 202 and the printing unit 204 may be outside the printing apparatus 100.

  Hereinafter, when the printing apparatus 100 analyzes the information of the image data input to the printing apparatus 100, the optimum color for the image data is automatically selected and determined as the priority color based on the analysis result. The flow of processing when printing using will be described. FIG. 1 shows an example of a processing flow according to the first embodiment.

  First, in step S <b> 100, the control unit 202 of the printing apparatus 100 acquires image data from the scan unit 200 or the external I / F unit 205. Next, in step S101, the control unit 202 analyzes the image data acquired in step S100. More specifically, the control unit 202 performs the following processing.

  First, the control unit 202 generates RGB format image data and CMYK format image data in step S101 from the image data acquired in step S100. If the image data acquired in step S100 is in either RGB or CMYK format, the control unit 202 generates only image data in one color format of RGB or CMYK format. That is, when the color format of the image data acquired in step S100 is RGB, the control unit 202 generates CMYK image data from the RGB image data. If the color format of the image data acquired in step S100 is CMYK, the control unit 202 generates RGB image data from the CMYK image data. The following conversion formula is used as the conversion formula of the color format of the image data (when the range of R, G, B, C, M, Y, K is 0 to 255 (8 bits)). The following conversion formula is merely an example. There are many well-known documents regarding the conversion formula of the color format of image data, and any of them may be used.

  In addition, image data of RGB color format is generated from the image data of CMYK color format by the following conversion formula (R, G, B, C, M, Y, K range is 0 to 255 (8bit )in the case of).

  In the above conversion formula, C, M, Y, and K indicate the density of each color in each pixel of the image data, and R, G, and B also indicate the density of each color in each pixel of the image data.

  In step S101, the control unit 202 performs image data analysis by the following processing. First, the control unit 202 analyzes the usage amount of each color of CMYK using image data having a color format of CMYK. And the control part 202 analyzes the usage-amount of each RGB color using the image data whose color format is RGB format. When the above process ends, the process proceeds to step S102.

  As an example of the analysis used in step S101, the density of R, G, B, C, M, Y, and K is counted for each pixel, and the total of each color of R, G, B, C, M, Y, and K is calculated. It is conceivable to measure (calculate) the number of pixels Cr, Cg, Cb, Cc, Cm, Cy, Ck. In such an analysis, the control unit 202 counts the total number of pixels having a density equal to or higher than the threshold value. Specifically, the control unit 202 counts the number of pixels having a density equal to or higher than the threshold (128) for each of R, G, B, C, M, Y, and K, and calculates the number of pixels as the total number of pixels. Cr, Cg, Cb, Cc, Cm, Cy, Ck. In this case, the count result (total number of pixels) = measurement (calculation) result = analysis result.

  Another analysis may be used as the analysis used in step S101. For example, when there are two pixels of R = 140, G = 0, B = 0 (respectively indicating the density), the control unit 202 does not set Cr = 2, but Cr = 2 × It may be 128/255. That is, the control unit 202 may set the total number of pixels by the number of pixels having a density equal to or higher than the threshold × the average density (in all pixels having a density equal to or higher than the threshold). Further, the control unit 202 may set the total number of pixels by the number of pixels × density per pixel.

  In step S102 and subsequent steps, the control unit 202 performs processing while paying attention to one page of the acquired image data. In step S102, the control unit 202 selects from seven candidate colors (R, G, B, C, M, Y, K) based on the analysis result (color type and usage amount, etc.) in step S101. Select the priority color and determine it as the priority color. When determining the color to be the priority color, the control unit 202 may determine, for example, the top two colors in the image data with the largest usage amount as the priority color. Then, the control unit 202 uses the most used color in the image data as it is, and determines the second most used color as the priority color for the remaining part. For example, when the color Color1 having the largest number of pixels is black and the color Color2 having the second largest color is cyan, the control unit 202 determines two colors Color1 and Color2 by the following calculation formula, for example.

  Since Ck has already been selected in Color1, Ck is not included in the expression for Color2. In the Color1 formula, max (Cr, Cg, Cb, Cc, Cm, Cy, Ck) outputs the color corresponding to the maximum value of Cr, Cg, Cb, Cc, Cm, Cy, Ck. . Here, when there are two or more values that take the maximum value (for example, when Cr = Cg = Cb), max (Cr, Cg, Cb, Cc, Cm, Cy, Ck) is the leftmost color. (Ie, R) is output. Max (Cr, Cg, Cb, Cc, Cm, Cy) in the expression of Color2 also outputs a color corresponding to the maximum value of Cr, Cg, Cb, Cc, Cm, Cy. Here, when there are two or more values that take the maximum value (for example, when Cr = Cg = Cb), max (Cr, Cg, Cb, Cc, Cm, Cy) is the leftmost color (ie, , R). Note that Color1 and Color2 may be automatically selected to satisfy other specified conditional expressions.

  In step S103, the control unit 202 generates print image data for printing an image using only the priority color determined in step S102, and outputs the print image data to the printing unit 204 in step S104.

  For example, when two colors of CMYK (for example, C and M) are determined as the priority colors in step S102, the control unit 202 determines the remaining two colors (for example, Y of the CMYK image data). And K) are set to 0 in all pixels. In this case, the control unit 202 sets CMYK image data in which the density of Y and K is 0 in all pixels as print image data.

  For example, when two colors of RGB (for example, R and G) are determined as priority colors in step S102, the control unit 202 determines the remaining one color (for example, B of RGB image data). ) Is set to 0 in all pixels. Then, the control unit 202 converts the RGB image data into CMYK image data using the color format conversion formula described above. For example, when there are image data of R = 140, G = 100, and B = 10 in all pixels, the following is performed. First, the control unit 202 generates image data of R = 140, G = 100, and B = 0. Then, the control unit 202 sets CMYK image data in which C = 0, M = 40, Y = 140, and K = 115 as print image data using the above color format conversion formula.

  For example, if it is determined in step S102 that one of RGB (for example, R) and one of CMYK (for example, Y) are determined as priority colors, Color1 is RGB as follows: Or CMYK processing may be different.

  When Color1 is any one of RGB, the control unit 202 determines that the color density of Color1 (eg, R) ≧ 128 and the density of colors other than Color1 (eg, G and B) at the target pixel. Respectively) It is determined whether the condition <128 is satisfied.

  When it is determined that the above condition is satisfied, the control unit 202 sets the density of the remaining two colors (for example, G and B) of the RGB image data to 0 in the target pixel. Then, the control unit 202 converts RGB image data into CMYK image data using the above-described color format conversion formula. In this case, the target pixel is printed using M and Y. That is, if only one of RGB colors is dark at the target pixel, only that dark color is printed faithfully. As a result, Color2 is ignored, but Color2 is often a color (for example, M or Y) that forms a dark color (for example, R) of only one of RGB. Therefore, Color2 is not substantially ignored.

  On the other hand, when the density of two or more colors of RGB exceeds 128 or the density of all three colors of RGB is less than 128 in the target pixel, the control unit 202 uses the conversion formula of the color format described above, Convert RGB image data to CMYK image data. Then, the control unit 202 sets the density of colors other than Color2 (for example, Y) to 0. Then, the control unit 202 sets the CMYK image data as print image data. In this case, the target pixel is finally printed using Y. That is, when the density of two or more colors of RGB exceeds 128 and is dark, the color (for example, Y) composed of the two colors (for example, R and G) is set to Color2, and attention is paid to Color2. Pixels are printed. On the other hand, if the density of all three colors of RGB is less than 128, the pixel of interest is printed with Color2, assuming that none of the RGB colors should be particularly emphasized.

  On the other hand, when Color1 is any one of CMYK, the control unit 202 first converts RGB image data into CMYK image data using the above color format conversion formula. Then, in the target pixel of the CMYK image data, the control unit 202 satisfies the condition of Color1 color density (eg, Y) ≧ 128 and the color density other than Color1 (C, M, and K) <128. It is determined whether or not the above conditions are satisfied.

  When it is determined that the condition of the color density of Color1 (for example, Y) ≧ 128 and the condition of the color density other than Color1 (each of C, M, and K) <128 are satisfied, the control unit 202 Performs the following processing. That is, the control unit 202 sets the density of the remaining three colors (for example, C, M, and K) in the CMYK image data to 0 at the target pixel. That is, the target pixel is printed with only one color using a dark color. In this case, Color2 is formally ignored, but Color2 is not substantially ignored for the same reason as described above.

  Further, in the pixel of interest that does not satisfy the above-described condition (that is, when only one color is not dark), the control unit 202 sets the density of colors other than the color of Color2 (eg, R) to 0 in the RGB image data. Then, the image data is converted into CMYK image data using the above-described color format conversion formula. The control unit 202 sets the CMYK image data as print image data. That is, when the density of Color1 is not high, the pixel of interest is printed using Color2.

  In step S105, when the acquired image data includes a plurality of pages, the control unit 202 determines whether or not printing has been completed by processing all pages, and determines that printing of all pages has not been completed. If so, the process proceeds to step S102.

  If it is determined in step S105 that printing of all pages has been completed, the process ends.

  Note that after the processing of the flowchart shown in FIG. 1 is completed, the image data is sent from the control unit 202 to the printing unit 204, and the printing unit 204 prints the image data. This is the same in other embodiments.

  The present invention is not limited to the above-described embodiment, and can be implemented with appropriate modifications within a range not changing the gist thereof.

  As a result of the processing as described above, for example, although the two priority colors are determined based on the analysis result of the image data in step S101, the control unit 202 makes the image data special. If it is determined that the condition is satisfied, three-color printing may be performed. On the other hand, if the control unit 202 determines that the image data does not satisfy a special condition, the image data is printed with two priority colors determined based on the analysis result of the image data. The case where the image data is determined to satisfy a special condition and three colors are printed is, for example, when two colors that are complementary colors such as Color1 is B and Color2 is Y are determined as priority colors. is there. That is, the control unit 202 increases the number of priority colors from two colors to three colors when the priority colors have a complementary color relationship. However, in reality, it is unlikely that two colors having a complementary color relationship are determined as priority colors. Even if two colors having a complementary color relationship are determined as the priority colors, the total amount of the color materials to be used is reduced from four colors, so that the effect according to the present invention can be obtained with certainty. In another embodiment according to the present invention described below, although two priority colors are determined, three colors may be printed. This is because of the same reason. Is allowed. In the embodiment according to the present invention, three priority colors may be determined. Further, in the embodiment according to the present invention, two or more colors and N colors equal to or less than the number (M) −1 of color materials that can be mounted on the printing apparatus may be determined as priority colors.

<Embodiment 2>
In the first embodiment, the flow of processing for automatically selecting and determining an optimum color as a priority color and printing using the priority color has been described. However, when a special condition that only black characters exist in the image is satisfied, it may be better to print using only one color.

  Therefore, in the second embodiment, by analyzing the image data, the optimum N colors for printing the image data are automatically selected and determined as the priority colors, and the flow for printing using the N priority colors is performed. Will be described. FIG. 3 is an example of the flow of the second embodiment. Hereinafter, only parts of the first embodiment different from those of FIG. 1 will be described below.

  Steps S300 and S100 are the same. Moreover, the process of step S301 and step S101 is the same.

  In step S302, the control unit 202 confirms the analysis result of step S301 (the total number of pixels Cr, Cg, Cb, Cc, Cm, Cy, Ck for each color R, G, B, C, M, Y, and K). . Here, the method of obtaining Cr, Cg, Cb, Cc, Cm, Cy, and Ck is the same as in the first embodiment. Then, the control unit 202 sets “the maximum value among the density values of R, G, B, C, M, Y, and K” / “the density of R, G, B, C, M, Y, and K”. When “the second largest value among the values” exceeds the threshold (S), it is determined that N = 1. That is, based on the analysis result in step S301, when it is determined that the special condition that only one color is significantly large is satisfied in the image data, the control unit 202 determines N = 1. In addition, the control unit 202 sets the “maximum value among the density values of R, G, B, C, M, Y, and K” / “the density of R, G, B, C, M, Y, and K”. If “the second largest value among the values” does not exceed the threshold (S), it is determined that N = 2. That is, based on the analysis result in step S301, when it is determined that the special condition that only one color is significantly large is not satisfied in the image data, the control unit 202 determines N = 2.

  In step S302, if the image data acquired in step S300 is N> 1, the control unit 202 proceeds to the process of step S303. Steps S303 and S102 are the same.

  On the other hand, in step S302, if the image data acquired in step S300 is N = 1, the control unit 202 proceeds to the process of step S304.

  In step S <b> 304, the control unit 202 determines one color Color <b> 1 used for monochromatic printing using the following calculation formula.

  That is, as a result of the analysis in step S301, if it is determined in step S302 that N = 1 (the image data acquired in step S301 is suitable for single color printing), one color (Color1) is calculated according to the above calculation formula. Is determined as the color (priority color) for printing the image data.

  In step S305, the control unit 202 generates print image data for printing an image with only the N colors determined in step S302, and outputs the print image data to the printing unit 204 in step S306. The process of generating print image data when N = 2 is the same as the process of step S103 of the first embodiment. The generation of print image data when N = 1 will be described below. For example, when one color (for example, R) of RGB is selected as Color1, the control unit 202 sets all the densities of the remaining two colors (for example, G and B) of the RGB image data. Set to 0 in the pixel. Thereafter, the control unit 202 converts the RGB image data into CMYK image data, and uses the CMYK image data as print image data. For example, if there is image data of R = 140, G = 100, and B = 10 in all pixels, image data of R = 140, G = 0, and B = 0 is created in all pixels. In addition, the control unit 202 sets C = 0, M = 140, Y = 140, and K = 115 using the above-described color format conversion formula. The control unit 202 uses the CMYK image data as print image data. Next, in step S307, when the acquired image data includes a plurality of pages, the control unit 202 determines whether or not printing has been completed by processing all pages, and printing of all pages has been completed. If it is determined that there is no, the process proceeds to step S302.

  If it is determined in step S307 that printing of all pages has been completed, the process ends.

  As a result of the above processing, one color having a number equal to or less than the number of color materials (M) −1 that can be mounted on the printing apparatus is determined as the priority color.

  The present invention is not limited to the embodiment described above and shown in the drawings, and can be appropriately modified and implemented within a range not changing the gist thereof.

<Embodiment 3>
In the first and second embodiments, N colors (for example, two colors or three colors) optimal for printing image data are automatically selected and determined as the priority colors by analyzing the image data.

  In the third embodiment, N colors (for example, two colors or three colors) that are optimal for printing image data are automatically selected as priority colors based on the analysis result of the image data, under certain constraints given by the user. Is selected and decided.

  The constraint conditions used in the third embodiment will be described with reference to FIG. FIG. 4 is an example of an operation panel screen according to the third embodiment. In the two-color setting 401 for performing the two-color printing setting, the operation panel 400 that has received the first basic color setting 402 and the priority color setting 403 from the user notifies the control unit 202 of the acceptance. In the case of the third embodiment, in the priority color setting 403, features such as the type, size, color, and color priority order of objects in the image data are received from the user as constraints on the image data.

  In step S102 in FIG. 1 or the priority color determination in step S303 in FIG. 3, the control unit 202 automatically sets the optimum color for the page of image data that satisfies the constraint conditions received from the user as the N priority colors. Select and decide. That is, in the third exemplary embodiment, the priority color is specified based on the constraint condition regarding the image data that the control unit 202 receives from the user. That is, in the third embodiment, the control unit 202 accepts designation of a priority color from the user in the form of accepting designation of a constraint condition related to image data from the user.

  Since the flow of processing is substantially the same as that of FIG. 1 of the above-described embodiment, only different portions will be described below. In step S101, the control unit 202 analyzes the image data acquired in step S100, as in the first embodiment. Then, the control unit 202 obtains an analysis result (the type and amount of color used in the image data). In the priority color determination in step S102 of FIG. 1, the control unit 202 selects the color designated by the basic color setting 402 for the first color as Color1 as Color1. Further, the control unit 202 calculates the total number of pixels Cr, Cg, Cb, Cc, Cm, Cy, Ck in consideration of whether or not the image data acquired in the order of priority includes colors that satisfy the constraint conditions. Determine the color of Color2. For example, when “text, 8pt, magenta” is designated as the constraint condition at the first priority, the control unit 202 performs the following processing. First, the control unit 202 counts the number of pixels whose object attribute in the image data is text, the font size is 8 pt or more, and magenta has a density greater than or equal to the threshold (128) to Cm ′. When Cm ′ is equal to or greater than a threshold value (for example, 1), the control unit 202 sets Color2 = M. When Cm ′ is equal to or smaller than the threshold value, the control unit 202 similarly counts the number of pixels for the constraint conditions after the second priority and determines Color2. Note that if not all the constraint conditions received from the operation panel are satisfied, printing may be performed with only one color set in Color1.

  In step S103 in FIG. 1, the control unit 202 generates print image data for printing an image with the N colors determined in step S102, and outputs the print image data to the printing unit 204 in step S104. In the process of generating print image data, the same calculation formula as in the second embodiment is used.

  In step S103, the control unit 202 generates print image data for printing an image using only the priority color determined in step S102, and outputs the print image data to the printing unit 204 in step S104. The third embodiment is different from the first and second embodiments in that Color2 is printed only for pixels that satisfy the priority color constraint conditions determined in step S102, and the other portions are Color1. It is a point printed by. For example, when two colors (for example, C and M) of CMYK are determined as the priority colors and the priority color having the constraint condition of “text, 8pt, magenta” is Color2, the control unit 202 The following processing is performed. In other words, the control unit 202 applies the remaining attribute of the image data to CMYK pixels in which the attribute of the object in the image data is text, the font size is 8 pt or more, and magenta has a density of the threshold (128) or more. The density of three colors (for example, C, Y and K) is set to zero. In addition, the control unit 202 sets the density of the remaining three colors (for example, M, Y, and K) in the image data to 0 for pixels that do not satisfy the constraint conditions. The CMYK image data is used as print image data.

In addition, as a modification of the third embodiment, a description will be given regarding restriction of priority colors with reference to FIG. In the present invention, for example, when the user selects two colors of two-color printing from the two-color setting 501 of the operation panel, the control unit 202 does not permit printing using three-color toner not including black. By selecting the color of the second color, the priority colors that can be selected for the second color are limited.
Furthermore, in the embodiment according to the present invention, two or more colors and N colors that are equal to or less than the number of color materials (M) −1 that can be mounted on the printing apparatus may be determined as priority colors.

<Embodiment 4>
In the fourth embodiment, even when the color corresponding to the priority color of N colors (for example, two colors or three colors) is not found by the process of S102 in FIG. , Which color is the priority color is received from the user in advance. Also in the fourth embodiment, the control unit 202 analyzes the image data acquired in step S100 (step S300) in step S101 (step S301), as in the first and second embodiments. Then, the control unit 202 obtains an analysis result (the type and amount of color used in the image data).

  A fourth embodiment will be described with reference to FIG. FIG. 6 shows an example of an operation panel screen according to the fourth embodiment. In the two-color setting 601 for performing the two-color printing setting, the operation panel 600 that has received the first and second basic color settings 602 and the priority color setting 603 from the user notifies the control unit 202 of the acceptance. In the case of the fourth embodiment, in the priority color setting 603, features such as the type, size, color, and color priority order of the object in the image data are received as a constraint condition from the user.

  In the priority color determination in step S102 in FIG. 1 or step S303 in FIG. 3, the control unit 202 automatically selects an optimum color for a page of image data that satisfies a condition within certain constraint conditions given by the user. Choose to. When the constraint condition is not satisfied, the control unit 202 automatically determines the second color of the basic color setting 602 as the priority color.

  Since the processing flow of the fourth embodiment is substantially the same as that of the above-described third embodiment, only the parts different from the third embodiment will be described below. In the priority color determination in step S102 of FIG. 1, the control unit 202 determines the color designated by the basic color setting 402 of the first color as Color1 for the first color. In Color2, the control unit 202 calculates Color2 from the total number of pixels Cr, Cg, Cb, Cc, Cm, Cy, and Ck calculated in consideration of whether the acquired image data includes a color that satisfies the constraint condition. Determine the color. Here, when all the constraint conditions received from the operation panel are not satisfied, the control unit 202 sets the second color of the basic color setting 602 to Color2. For example, in the basic color setting 602, when the first color is set to black, the second color is set to magenta, and image data that does not satisfy all the constraint conditions is the target, the control unit 202 performs the following processing.

  When the constraint condition with the first priority as shown in FIG. 6 is designated, the control unit 202 determines that the object attribute in the image data is text, the font size is 8 pt or more, and magenta is a threshold (128). ) Count the number of pixels having the above density as Cm ′. When Cm ′ is equal to or smaller than the threshold value, the control unit 202 similarly counts the number of pixels for the constraint conditions after the second priority and determines Color2. In this case, since all the constraint conditions received from the operation panel are not satisfied, the control unit 202 determines a priority color by setting Color1 as black and Color2 as magenta.

<Embodiment 5>
Hereinafter, as a modified example of the third embodiment, a description will be given of the fifth embodiment in which priority color restriction is performed with reference to FIG. In this embodiment, for example, when two colors of two-color printing are selected from the two-color setting 501 of the operation panel, the control unit 202 does not permit printing using three-color toner not including black. By selecting the color, the selectable priority colors of the second color are limited. In other words, in the present embodiment, when there are a plurality of priority colors, reception of priority color types other than the first priority color is limited by the first priority color type.

  In the fifth embodiment, as an example, based on the first color of the two-color printing set in the two-color setting 501 of the operation panel, only the colors other than the color complementary to the selected first color and black are candidates for the second color. Presented to the user.

  The selectable priority color constraint conditions used in the fifth embodiment will be described with reference to FIGS. In the two-color setting 501 that accepts the two-color printing setting, the operation panel that accepts the first basic color setting from the user notifies the control unit 202 that it has accepted (step S700).

  In step S701 in FIG. 7, the control unit 202 determines the constraint condition for the second color according to the accepted first priority color.

When the received basic color setting for the first color is black, all colors C, M, Y, R, G, and B other than black can be selected, and can be selected in the priority color column of the priority color setting on the operation panel 501. The color is reflected (step S702).

  If the received basic color setting of the first color is other than black, it is possible to select a color other than the color complementary to the first color, and the selectable color is reflected in the priority color column of the priority color setting of the operation panel 501. (Step S703). For example, as shown in FIG. 5, when the first basic color setting is red, the colors that can be selected as the second priority color setting are magenta, yellow, and black.

  For example, when the basic color setting of the first color is green, the colors that can be selected as the priority color setting of the second color are three colors of cyan, yellow, and black.

  For example, when the basic color setting of the first color is magenta, the colors that can be selected as the priority color setting of the second color are five colors of cyan, blue, red, yellow, and black. Even when an arbitrary color is designated among these five colors, the number of color materials to be used falls within three colors including black.

  It should be noted that the same color as the first color may be selected as the color that can be selected as the second priority color setting. When the same color is determined for both colors in the priority color setting, the single color printing process shown in the second embodiment may be performed.

  The present invention is not limited to the embodiment described above and shown in the drawings, and can be appropriately modified and implemented within a range not changing the gist thereof.

<Embodiment 6>
In the first embodiment, the flow of processing for automatically selecting and determining an optimum color as a priority color and printing using the priority color has been described. In the present embodiment, when the optimum number of color materials for printing differs in the image data of each page to be printed, the number of color materials used for printing is automatically switched and printed. That is, in the present embodiment, the number of color materials used when the image data of each page of a plurality of pages included in the image data to be printed is printed based on the analysis result in step S801. Will be judged.

  For example, the sixth embodiment is realized by switching ON / OFF of the auto color 901 on the operation panel 900 shown in FIG. When the auto color 901 is ON, the control unit 202 masks the basic color setting 902 and the priority color setting 903 so that the number of color materials is automatically determined (the mask is expressed by gray out in FIG. 9) so that it cannot be set. To do. When the auto color 901 is OFF, the control unit 202 unmasks the basic color setting 902 and the priority color setting 903 so that the setting is possible. As a result, the operation panel has the same function as that of the third embodiment shown in FIG.

  Since the processing flow is substantially the same as that in FIG. 1 of the above-described embodiment, only different portions will be described below with reference to FIG.

  Steps S800 and S100 are the same. Further, the processes in step S801 and step S101 are the same.

  In step S802, the control unit 202 confirms the analysis result of step S801 (total number of pixels Cr, Cg, Cb, Cc, Cm, Cy, Ck for each color of R, G, B, C, M, Y, and K). To do. Here, the method of obtaining Cr, Cg, Cb, Cc, Cm, Cy, and Ck is the same as in the first embodiment. Then, the control unit 202 prints out of the seven candidate colors (R, G, B, C, M, Y, K) based on the analysis result (color type and usage amount, etc.) in step S801. The number NN of color materials to be used is automatically determined. When determining the number of color materials, for example, the control unit 202 sets a threshold value (T) for the color usage amount, and uses colors (R, G, and R) that have a larger usage amount than the threshold value (T) in the image data. The number of color materials to be used may be determined from the combination of B, C, M, Y, and K).

  For example, in a certain page, when the color exceeding the threshold (T) is only black, the control unit 202 switches the color material so that printing is performed as a single color, and sets the number of color materials NN = 1.

  For example, in a certain page, when the colors exceeding the threshold (T) are cyan and magenta, the color materials are switched to perform two-color printing using two cyan and magenta color materials, and the number of color materials NN = 2. .

  For example, if the color exceeding the threshold (T) is red or black on a certain page, the color material is switched to perform three-color printing using three color materials of magenta, yellow, and black, and the number of color materials NN = 3. However, if it is determined that the number of color materials NN = 3 without black, that is, cyan, magenta, and yellow color materials are necessary, the color material number is set to NN = 4 so that full color printing is performed. Shall be switched.

  For example, if the color that exceeds the threshold (T) is cyan, magenta, yellow, or black on a page, the color material is switched to perform full color printing using four color materials, cyan, magenta, yellow, and black. The number of color materials NN = 4.

  In step S803, the control unit 202 generates print image data for printing an image using only the color material determined in step S802, and outputs the print image data to the printing unit 204 in step S804.

  For example, the case where NN <= 4 will be described below. For example, in step S <b> 802, when the number of color materials NN = 1 in the image data acquired in step S <b> 800, the control unit 202 performs the same process as the single color printing process in the second embodiment.

  For example, in step S802, when the number of color materials NN = 2 in the image data acquired in step S800, the control unit 202 performs the same process as the two-color printing process in the first embodiment.

  For example, in step S802, when the number of color materials NN = 3 in the image data acquired in step S800, the control unit 202 performs the same process as the three-color printing process including black in the first embodiment.

  For example, in step S802, when the number of color materials NN = 4 in the image data acquired in step S800, the control unit 202 performs processing similar to normal full color printing processing.

  For example, if it is determined in step S802 that two color materials (for example, C and M) out of CMYK are used and the number of color materials NN = 2 is determined, the control unit 202 determines the number of color materials CMYK. The density of the remaining two colors (for example, Y and K) in the image data is set to 0 in all pixels. In this case, the control unit 202 sets the CMYK image data in which the density of Y and K is 0 for all pixels as print image data (step S803). In step S805, when the acquired image data includes a plurality of pages, the control unit 202 determines whether or not printing has been completed by processing all pages, and printing of all pages has been completed. If it is determined that there is not, the process proceeds to step S802.

  If it is determined in step S805 that printing of all pages has been completed, the process ends.

  With the above processing, it is possible to automatically switch between printing with four colors, printing with two colors, or printing with one color, according to the number of color materials that can be mounted on the printing apparatus.

  As described above, according to the present invention, N (a number less than M, which is the number of color materials that can be mounted on the printing apparatus) optimal colors for printing input image data are automatically determined. By performing N color printing based on the determination result, an N color printed matter having a color close to the user's desire is generated. Furthermore, according to the present invention, the N priority colors that are optimal for printing the input image data are automatically determined, so that the user can optimally print the print target having a large number of optimal pages. The amount of work for setting colors can be reduced.

  The present invention is not limited to the embodiment described above and shown in the drawings, and can be appropriately modified and implemented within a range not changing the gist thereof.

(Other embodiments)
The present invention can also be realized by executing the following processing. That is, software (program) that realizes the functions of the above-described embodiments is supplied to a system or apparatus via a network or various storage media, and a computer (or CPU, MPU, or the like) of the system or apparatus reads the program. It is a process to be executed.

DESCRIPTION OF SYMBOLS 100 Printing apparatus 200 Scan part 201 Operation part 202 Control part 203 Storage part 204 Printing part 205 External I / F part

Claims (5)

A printing system capable of CMYK four-color printing,
Input means for inputting image data;
Selecting means for selecting two colors from a plurality of colors including seven colors of C, M, Y, K, R, G, and B by analyzing the input image data;
A printing system comprising: a printing unit that prints the input image data using three colors when the two colors selected by the selection unit have a complementary color relationship. The selection means includes
The printing system according to claim 1, wherein the top two colors having a large amount of use in the input image data are selected. A control method of a printing system capable of CMYK four-color printing,
An input step for inputting image data;
Selecting two colors from a plurality of colors including seven colors of C, M, Y, K, R, G, and B by analyzing the input image data;
And a step of printing the input image data using three colors when the two colors selected in the selecting step are in a complementary color relationship. The step of selecting includes
The control method according to claim 3, wherein the control method is a step of selecting the top two colors having the largest usage amount in the input image data.   The program for making a computer perform the control method of Claim 3 or 4.

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