JP2011166558A - Image processing apparatus, image printing system, image processing method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image processing apparatus in which a color weak person can easily select the second and subsequent colors having the best discrimination with respect to the first selected color.
When a user selects a color that can be used to form an image and the number of colors, the image processing apparatus 210 selects a second color after the color of the first image component is selected. The image presentation unit 211 presenting a discriminant priority mode that disables selection of some of the colors that can be used in the selection of colors after the color of the image component, and the discriminant priority mode is selected by the user and the first image In response to the selection of the color of the component, the color to be made unselectable is determined based on the color of the first image component and the information regarding the discriminability of the weak color, and the color of the first image component And an image forming color selection unit 212 that causes the image presentation unit 211 to present colors excluding the colors that cannot be selected as usable colors.
[Selection] Figure 3

Description

  The present invention relates to an image processing apparatus that converts image data of a color image composed of a plurality of colors into image data of an image composed of a selected number of colors and colors. An image processing apparatus that selects a color that can be easily discriminated, converts it to image data of an image composed of the selected number of colors and colors, an image printing system including the image processing apparatus, and the image processing apparatus The present invention relates to an image processing method to be performed and a computer-readable program for executing the method.

  In recent years, color image output technology such as display and printing of color images has been developed and can be provided at a low cost. Therefore, various colored characters and color images are displayed on documents and web pages created by individuals and companies. It has come to be used. In such a document or the like, in many cases, important information is given to the color itself, such as coloring with a colored character or a plurality of colors for notation and graph grouping to call attention. For this reason, in order to correctly understand the contents of these documents and the like, in addition to the ability to recognize characters and the like, the ability to discriminate between the colors used in the documents and the like is also required.

  Documents using various colors are easy for people with normal color vision to understand information, but not necessarily for people who do not have normal color vision characteristics. Some people who do not have normal color vision characteristics have color vision types that are difficult to distinguish between red and green, but those who do not have such normal color vision characteristics have three elements: red, green, and blue. Looking at the graph used, it is difficult to distinguish between red and green, and in some cases it cannot be distinguished at all, so it can only be recognized as a graph consisting of blue and the other two elements.

  In addition, since color image output devices in recent years have been able to express a great number of colors, conversely, it may be difficult to identify colors even for people with normal color vision.

  Here, FIG. 1 shows an example of a document including color characters, a pie chart, and a photograph. First, referring to the pie chart 100, the color of the pie chart 100 itself is relatively easy to understand because the areas of the areas indicated by the colors are relatively large and the colors are in contact with each other. ing. In order to know what information each area represents, it is necessary to associate with the legend 101. However, the legend 101 is displayed small on the side of the pie chart 100 and its area is small. Is difficult to understand, and it is difficult to associate the color of each area of the main body of the pie chart 100 with each other.

  Similarly, if the color character 102 is a thin character such as Mincho and the character size is small, the color of the color character 102 is very difficult to distinguish. In addition to discriminating between multiple colors, when red letters are used as highlights in text written in black letters, red is dark gray for people with specific color vision characteristics. It becomes visible, and it becomes impossible to distinguish between black characters and red characters. This is because the general color sense person with normal color vision can recognize that it is emphasized in the text, but the person with the specific color vision characteristic cannot recognize the emphasized part. There will be less information available.

  On the other hand, for images of natural objects such as the photograph 103, the object and the color name are often associated empirically, and the color painting itself is often not meaningful. Such problems are unlikely to occur. For example, the object and the color name are empirically associated with each other, for example, the leaves are green, the human skin is skin color, and the sea and sky are blue.

  By the way, in recent years, C (Common) type, P (Protanope) type (intensity and weakness) (equivalent to red-green weakness), D (Deuteranope) type (intensity and weakness) (Corresponding to red-green weakness), T (Tritanope) type (corresponding to yellow-blue weakness), A (Achromat) type (color difference can only be perceived as a difference in light and darkness) type called Categorized type, C It is proposed that a person having a type color vision is called a general color vision person, and a person who has a weak part regarding color recognition is called a color weak person (for example, see Non-Patent Document 1).

  Conventionally, when designing using colors in the printing field or the like, a color palette is displayed on the display screen so that even a color weak person can understand the difference in color, and when the user selects a color, In other colors on the color palette, the color difference between the selected color and the color recognized by the color weaker is displayed as “x” to prevent the color from being selected. There has been proposed a color sample selection device that enables a design with a color that is easily discriminable to the color weak (see, for example, Patent Document 1).

  By the way, in an MFP (Multi Function Peripheral) or a color printer having a plurality of functions such as a copy function, a scanner function, a print function, and a FAX function, image data of an input color image is stored in a color selected by the user. Some combinations have a two-color printing function for converting to image data of an image composed of, for example, “red and black” and printing it out.

  In the MFP or color printer having the two-color printing function, the user selects the first color as a base color in order to print a specific color in a color image, and the first color to print other colors. If a second color other than the first color is selected, a specific color in the color image is printed with a color having a hue close to the color selected for the first color, and the second color is printed for the other colors. Prints with a hue close to the selected color.

  Specifically, when these MFPs and color printers, for example, the user selects to print a portion indicated by blue in a color image in black and a portion indicated in other colors in red, All the parts shown in blue in the image are printed in black, and all parts shown in red, yellow, green, cyan, purple, etc. other than blue are printed in red.

  In these MFPs and color printers, if the usable colors are full, there are a large number of colors that approximate the first color selected for printing a specific color, and other colors are printed. Therefore, if a color approximated to the first color is selected, there is almost no difference from reproducing a single color, and the meaning of performing two-color printing is lost. For this reason, it is general that the number of colors that can be distinguished from each other is selected from about 12 colors or about 24 colors.

  In the above-mentioned Patent Document 1, a color sample patch for printing is displayed on a display device, and the user selects a color. The color displayed on the display device and the color actually printed Since the reproduction range is different, even if a color is selected so as to be discriminated on the display device, it may be difficult to discriminate the color when actually printing.

  Further, in the above-described MFP or color printer having the two-color printing function, when the first and second colors are selected, the color reproducibility that the color reproduction range is different between the display device and the printed matter is not considered. This color reproducibility can be ignored, and the user can select the two colors that are considered to be the most discriminating, and the color can be discriminated even if the printing is actually performed. There are also many colors around the color to be used, for example, if the surroundings are dark only, the target color will feel brighter than the actual color. Therefore, it is difficult to select the second color in consideration of only the color difference from the first color.

  In the two-color printing, as shown in the above example, the portion indicated by blue in the color image is printed in black, and the portion indicated by other colors is printed in red, so a number of hue colors are output with one color. In order to discriminate the colors of these many hues and improve their discriminability, they must be expressed with a difference in brightness and saturation, in order to prevent confusion with the first color However, the selection of the second color is very important. There is a problem that it is difficult for the user to determine this and select the second color.

  The present invention has been made in view of the above problem, and the above problem is that when a user who is weak in color prints image data of an input color image with a selected number of colors and colors, the first color It is possible to solve the problem by providing an image processing apparatus that can easily select the second and subsequent colors having the best discrimination with respect to the selected color and can print with the selected color.

  Specifically, this image processing apparatus is an apparatus that converts input image data of a color image into image data of an image composed of the number of colors and colors selected by a user, and forms an image. When the user selects a usable color and the number of colors, the color usable after selecting the color of the second image component after the color of the first image component is selected. In response to the selection of the discriminant priority mode and the selection of the color of the first image component by the user. A color that can be used based on the color of the image component of the image and the information regarding the discriminability of the color of the weak color, and a color that can be used excluding the color of the first image component and the color that cannot be selected And an image forming color selection unit to be presented to the image presentation unit

  By adopting such a configuration and considering the color selected by the user as the first color and the color vision characteristics of the weak, the user can select colors that can be selected by limiting the selectable second color candidates. When comparing, it is possible to suppress the influence of unnecessary colors in the vicinity, and more easily select the second and subsequent colors with good discrimination.

The image forming color selection unit determines the difference between the a ^* component and the b ^* component of the CIELAB color values for usable colors other than the color of the first image component with respect to the color of the selected first image component. It is determined whether or not the values Δa and Δb are equal to or smaller than a predetermined value, and it is determined that a color that is equal to or smaller than the predetermined value excluding an achromatic color is a color that cannot be selected.

CIELAB is a color space established by the International Commission on Illumination (CIE) that describes colors perceived by the human eye and can be used as a standard for equipment-specific models. In this CIELAB, the color is indicated by three coordinates: L ^* representing the lightness of the color, a ^* representing the position between magenta and green, and b ^* representing the position between yellow and blue. Therefore, the difference values Δa and Δb between the a ^* component and the b ^* component between the color of the first image component initially selected by the user and the other usable colors are obtained, respectively, and the discriminability is low. By making it impossible to select a color whose difference value is equal to or less than a predetermined value, when comparing colors that can be selected by the user, the influence of unnecessary colors in the vicinity is suppressed, and the second and subsequent colors that are easier to distinguish Can be selected.

  The image forming color selection unit determines that black or red cannot be selected as the color of the second image component in response to selection of red or black as the color of the first image component. The combination of red and black is not selectable.

  When the user selects red as the first color, black cannot be selected as the second color, or when the user selects black as the first color, red is selected as the second color By making it impossible, it is possible to select a color that can be easily recognized by more people, including those with P-type color vision, whether or not the user has P-type color vision. be able to.

  Further, the image forming color selection unit selects red as the highlight color as the color of the first image component in response to the selection of the discriminability priority mode by the user, and discriminates between the colors of red and weak colors The color to be made unselectable is determined based on the information on the sex, and the color excluding the red and the color to be made unselectable can be presented to the image presentation unit as a usable color.

  By selecting the emphasized color first, it is possible to prevent the inconvenience that red cannot be selected as the emphasized color because black is selected as the base color.

  In addition, the image forming color selection unit can instruct the image presentation unit to fill a non-selectable color with an achromatic color or to hide it. Thereby, it can be easily understood that the user cannot select.

  The image forming color selection unit, when causing the image presenting unit to present usable colors, presents a color name of the color, a patch image of the color, and text composed of characters of the color.

  The user can select the color to be used while looking at the text or patch image assuming an actual document image or a document image with poorer color discrimination. Thus, it is possible to prevent a situation in which it is impossible to discriminate on the output product that is output in (1), and an output result with high discriminability can be obtained more reliably.

  The above color names, patch images, and text are presented with the same brightness for chromatic colors among all available colors. As a result, it is possible to select a color that improves discrimination only with the hue.

  The image presenting unit displays a message or color image indicating that black cannot be selected as a color after the color of the second image component when the image forming color selection unit selects red as the color of the first image component It is possible to present an image in which the portion indicated by black is indicated by a color other than black and to reselect the color of the first image component.

  When black cannot be selected as the second color, a display to that effect is displayed, and a sample in which the portion shown in black is reproduced in a non-black state is displayed in advance. It is possible to suppress a sense of discomfort given to the user by coloring the portion shown in black.

  In addition to the above-described image processing apparatus, the present invention also provides an image printing system including the image processing apparatus, an image processing method executed by the image processing apparatus, and a computer-readable program for executing the method. Is possible.

The figure which showed an example of the document which contains a color character, a pie chart, and a photograph. 1 is an external view of an MFP shown as an example of an image printing system including an image processing apparatus of the present invention. 1 is a block diagram showing a configuration of an image output system including an image processing apparatus provided in an MFP. The figure which illustrated the screen which the image presentation part with which an image processing apparatus is provided showed the number of colors. The figure which illustrated the screen where the image presentation part presented discriminability priority mode. The figure which illustrated the screen which presented the color which an image presentation part can use. For the color of the selected first image component, the difference values Δa and Δb between the a ^* component and b ^* component of the CIELAB color specification value are calculated for usable colors other than the color of the first image component. The figure which showed the table used for. The figure which showed an example of the screen after the color of the 1st image component was selected. The figure which showed another example of the screen after the color of the 1st image component was selected. The figure which showed an example of the screen after red was selected as the 1st color. The figure which illustrated the sample image displayed when red was chosen as the 1st color and the color other than black was chosen as the 2nd color. The flowchart which showed an example of the flow of the image processing performed by an image processing apparatus.

  FIG. 2 is an external view of an MFP shown as an example of an image printing system including the image processing apparatus of the present invention. The MFP 200 includes a copy function, a printer function, a FAX function, a scanner function, and the like, and includes an operation button 201 and an operation panel 202 for performing instructions and inputs in order to implement these functions.

  The operation button 201 includes a start button for starting an operation such as copying, a numeric keypad for designating the number of copies, a function selection button for selecting a target function from a plurality of functions, and the like. The operation panel 202 displays buttons to display the device status to the user and allow the user to make settings for various functions.

  For example, a touch panel color liquid crystal monitor is used as the operation panel 202, and information is presented to the user, and an operation instruction can be given by the user touching with a finger, a stylus pen, or the like.

  In addition, the MFP 200 includes a network interface, and can present information to the user on a display device such as a PC connected via the network, and the user can give an operation instruction using the input device of the PC. .

  As shown in FIG. 3, the MFP 200 includes a network interface 203 and an image reading unit 204 that reads a document and outputs it as image data, and is connected to an information recording medium 205 that records information such as image data via the interface. Has been. The MFP 200 includes hardware such as the operation panel 202, a CPU, a memory, an HDD, an ASIC that is an application-specific IC for controlling image processing, and a printer engine that prints and outputs an image based on image formation data. The image output system 206 is further provided.

  The image output system 206 converts image data received via the network (not shown) by the network interface 203, image data read and output by the image reading unit 204, and image data read from the information recording medium 205 into input image data. The image data is converted into data for image formation, and an image is formed and output on an output medium such as paper.

  The image output system 206 can be divided into a color adjustment unit 207, a color conversion unit 208, an image forming unit 209, and an image processing device 210 according to the function. The image forming color selection unit 212 is included.

  The image presentation unit 211 provided in the image processing apparatus 210 sorts the number of output colors such as “color”, “monochrome”, and “two colors”, as well as paper selection, document type, and whether or not to perform duplex printing. Whether to perform printing, whether to perform punching or stapling, whether to perform color printing, whether to perform divided printing, and the like are presented to the user. Further, when a specific number of colors “two colors” is selected, a display “discriminant priority mode” is presented to the user, and colors that can be used to form an image are presented to the user. Here, in the “discriminability priority mode”, when the user selects a color of the number of colors, after the color of the first image component is selected, the color after the color of the second image component is selected. This mode disables selection of colors other than those that can be identified by the weak.

  When the “discriminability priority mode” is selected by the user, the image forming color selection unit 212 causes the image presenting unit 211 to present usable colors, and the user selects the first color of the first image component. Then, the color to be made unselectable is determined based on the information about the discriminability between the color of the first image component and the color of the weak. Then, the image formation color selection unit 212 instructs the image presentation unit 211 to present the colors excluding the color of the first image component and the color that cannot be selected as the usable colors.

  When the image output system 206 receives image data input from the image reading unit 204 or image data read from the information recording medium 205 via the network interface 203 to perform printing, color adjustment is performed. Input to the unit 207. The color adjustment unit 207 performs color adjustment on the input image data based on the information of the two colors of the first image component color and the second image component color received by the image processing apparatus 210. Details of the color adjustment will be described in detail below.

  The image data for which color adjustment has been completed is sent to the color conversion unit 208, which converts the color adjusted and corrected image data into data for image formation and sends it to the image formation unit 209. The image forming unit 209 forms an image on an output medium such as paper based on the image forming data and outputs the image.

  The processing executed by the image processing apparatus 210 will be described in detail with reference to the screens, flowcharts, and tables shown in FIGS. FIG. 4 is a diagram illustrating an operation panel 202 that includes an image presentation unit 211 and an image formation color selection unit 212.

  First, in order to select the type of image to be output, the user touches an area for expanding the “color type” menu in the screen of the operation panel 202 to expand the menu. At this point, the area for displaying the discriminant priority mode is in a state where it cannot be selected in a grayed-out manner that is not presented to the user. Here, although grayed out, “x” may be shown on the display to clearly indicate that the selection cannot be made, or the display may be completely erased so that it cannot be seen.

  When the menu is expanded, a display as shown in FIG. 5 is obtained. When the user selects “two colors” from the menu developed on the “color type” area as shown in FIG. 5, the image forming color selection unit 212 accepts a request for two-color printing. Then, the image forming color selecting unit 212 instructs the image presenting unit 211 to present the “discriminability priority mode” to the user so that it can be selected. The user touches the display area of “discrimination priority mode” and selects the discrimination priority mode. When selected, the display area of the “discriminability priority mode” is reversed in black and white to clearly indicate that it has been selected.

  When the discriminant priority mode is selected, the display on the operation panel 202 is an arrangement of buttons for each color of “available colors” as shown in FIG. / English color character sample / Kanji color character sample / Hiragana color character sample / rectangular patch etc. are displayed. In addition, the image presenting unit 211 displays “Please select the color (first color) to be used for the color of the document” on the screen, and prompts the user to input. Therefore, the user selects a color to be used for a colored portion of the document, for example, a portion that is considered to be colored with the intention of emphasis by the creator of the document as a highlight color by touching the display button for that color. The color selected as the first color is the color of the first image component.

  Here, a sample displayed below the color name of each color button will be described. The ease of understanding the difference in color is affected by the thickness of the character line and the area of the filled area. Therefore, as a sample, when you select a color by presenting a thick image or a patch image with a large area of the fill area, the text includes thin characters such as chromatic color Mincho, thin lines, graph legends, etc. If the image is printed on paper or the like by the image forming unit 209, the difference in color does not occur as viewed on the operation panel 202, and the color discrimination may not be so good. Therefore, by selecting a color on the operation panel 202 using a sample whose color difference is difficult to understand, it is possible to select a color with better discrimination.

  In order to select a color, the characters and patch samples presented to the user use a thin Ming Dynasty font for the font, the character width or height for the size, and the horizontal width of the approximately square patch image is approximately the viewing angle. It is preferably about 12 to 45 minutes.

  Incidentally, 45 minutes corresponds to a width of about 4 mm at an observation distance of 60 cm. 12 minutes is the limit character size that makes it impossible for elderly people to read characters. However, it does not necessarily have to be within this range, and it is only necessary to assume the actual document size and to be approximately the same as the character size in the document and the size of the rectangular area used as a legend. In addition, since the character size may be smaller than that of the original due to the collective printing function or the like, the lower limit size that can be read as characters can be set.

Next, limiting the selectable colors of the second color after the user has selected the first color will be described. Here, FIG. 7 shows L ^* a ^* b ^* values of CIELAB display colors and hues H of each color in the sRGB space as usable color samples. CIELAB is a color space established by the International Commission on Illumination (CIE) that describes colors perceived by the human eye and can be used as a standard for equipment-specific models. In this CIELAB, the color is indicated by three coordinates: L ^* representing the lightness of the color, a ^* representing the position between magenta and green, and b ^* representing the position between yellow and blue.

The sRGB space is an international color space standard established by the International Electrotechnical Commission (IEC), and the hue H is a hue (H) in HSL space conversion. Incidentally, the HSL color space is a color space composed of three components, hue (H), saturation (S), and luminance (L). Although calculation formulas such as sRGB and HSL values will be described later, even if the L ^* a ^* b ^* values shown in FIG. 7 are converted from sRGB values to HSL values, they do not coincide.

In FIG. 7, in the hue of each color in the sRGB space to be displayed on the operation panel 202, the saturation is about half of the maximum saturation in the hue, and the lightness is L ^{* in the} L ^* a ^* b ^* color space ^. = 50 is given. In general, the saturation is reduced to about half because the color range that can be reproduced by a liquid crystal monitor such as the operation panel 202 and a printed matter output from an electrophotographic printer or an ink jet printer is used. In contrast, the LCD monitor usually has a wider range of colors that can be reproduced. Therefore, when a color is selected with a sample expressed with the highest saturation in the sRGB space and printed on a paper medium, the color difference is clearly visible on the LCD monitor. The reason for this is that the color difference on the printed material becomes small, and the discriminability may deteriorate. In this way, the saturation is reduced to about half, and the color that can be reproduced in common between the liquid crystal monitor and the printer makes it possible for the color difference to widen when printed on a paper medium, but it does not shrink. I am doing so.

  Also, the lightness is standardized in order to express the difference in hue of colors in the original when multiple colors are used in the original in the color adjustment described later. It is necessary to express. That is, it is to select a color that can distinguish the emphasized color from the other colors only by the difference in color (chromaticity).

For example, as illustrated in FIG. 8, when the user selects blue as the first color, the image forming color selection unit 212 can determine whether the first color is red, and when it is determined that the first color is not red, In the table shown in FIG. 7, for the first color blue, the difference value Δa or Δb of a ^* or b ^* excluding the achromatic color is not a predetermined value, for example, a color less than 20 and blue itself cannot be selected as the second color. It can be judged as a color. In the embodiment shown in FIG. 8, the image forming color selection unit 212 instructs the image presentation unit 211 to gray down a color selection button that is determined to be an unselectable color, and does not present that color to the user. That you can't choose. In addition, as shown in FIG. 9, it is possible to hide the unselectable color buttons themselves so that they cannot be selected.

In general, it is said that P-type and D-type color sensers have difficulty in understanding the color difference in the a ^* -axis direction, and T-type color sensers have difficulty in understanding the color difference in the b ^* -axis direction. Therefore, a color having a small difference from the first color of the a ^* component or the b ^* component is excluded, and the choice of the second color is limited, so that the user can select a color having good discrimination from the first color. It can be easy. In addition, by displaying and selecting a sample that assumes an actual document, it is possible to select in consideration of discriminability on an actual printed matter.

  Here, there are about 12 colors that can be used for two-color printing, and it is possible to select a distinguishable color from all other colors, that is, 11 colors, for the first color. It is known that the color appearance is greatly influenced by the surrounding environment, and an example thereof is called a contrast effect. As an example of this contrast effect, there is a so-called color relative ratio, which is a phenomenon in which the hue that is felt changes depending on the adjacent colors even if they are the same color.

  Due to this phenomenon, even if an attempt is made to select a color having the best discrimination from the first color from among the remaining colors, the color of the selection candidate changes due to the influence of unnecessary surrounding colors that cannot be selected. This may hinder the selection of the most discriminating color. Therefore, in order to suppress the influence of the color arrangement order, the already selected color or a color that is difficult to distinguish is painted in neutral gray or black that does not affect the color vision indicating that it is not presented to the user. It is necessary to hide.

  As shown in FIG. 8 or FIG. 9, the image presentation unit 211 displays “Please select a color that can be easily distinguished from the first color” on the screen, prompts input, and sees this. Thus, the user can input. At this time, the color painted in neutral gray is disabled, and the user can select the second color from among the unfilled colors. Here, for example, light green is selected.

  Thereafter, when the user instructs printing, processes such as color adjustment, color conversion, and image formation are performed based on the selected two-color information.

  Here, the color adjustment performed by the color adjustment unit 207 will be described in detail. When the color adjustment unit 207 receives the input image data (RGB image) and information on the colors (two colors) selected by the user, first, the color adjustment unit 207 converts the image data from RGB to HSL. Conversion from RGB to HSL can be performed by the following Equation 1. The RGB image has a value of 0 to 1 for each of R, G, and B. These values are expressed in terms of an angle by Equation 1 and converted into H having a value of 0 to 360, S having a value of 0 to 1, and L having a value of 0 to 1, respectively. In the following formula, HLS is synonymous with HSL.

The following color adjustment is performed on the data converted into the HSL value by the above equation 1. First, the hue adjustment will be described. The differences between the a ^* component and b ^* component of the two colors selected by the user are compared. In this embodiment, since the blue and light green is selected, when obtaining the difference from the table shown in FIG. 7, ^{a *} for component 28.4, ^{b *} for the components becomes 107.9, ^{b *} component The difference between is larger. In this case, the b ^* component has a positive hue, that is, 0 deg. ≦ H <180 deg. The hue of the color on the side with a larger b ^* component, that is, light green H = 62.3 deg. B ^* is a negative hue, 180 deg. ≦ H <360 deg. H = 218.2deg of the color hue ^{b *} component is small side blue. To adjust.

  In addition, since blue is selected as the first color, that is, the color used for the colored portion, the achromatic color that is not the emphasized color converts the hue to light green.

For example, when two colors having a large difference in the a ^* axis direction are selected, the a ^* component has a positive hue, that is, 270 deg. ≦ H ≦ 360 deg. And 0 deg. ≦ H <90 deg. The hue in the range is adjusted to the hue of the selected color having the larger a ^* component, and the remaining hue is adjusted to the hue of the other color. Then, the achromatic color is adjusted to the hue of the color selected as the second color.

  Next, the saturation is adjusted. Saturation is the HSL value S and takes a value of 0 to 1. This saturation is uniformly adjusted to S = 1.0 in order to further improve the discrimination between the two selected colors. If black is selected as the second color, adjustment is made to S = 0.0.

Finally, adjust the brightness. The brightness is L of the HSL value and takes a value of 0 to 1. This brightness is adjusted according to the value of H. 0 deg. ≦ H <30 deg. In the case of the color, the uniform brightness is L = 0.15. Similarly, 30 deg. ≦ H <60 deg. Is 30 deg., Such that L = 0.30. L is assigned in increments of 0.15. The same applies when assigning colors with a large difference in a ^* component. The same applies when black is selected as the second color.

  By adjusting the hue, saturation, and brightness in this way, 0 deg. ≦ H <30 deg. The color is uniformly H = 62.3 deg. , S = 1.0 and L = 0.15, and the difference in hue in the input image data is converted into a difference in brightness. For an achromatic color with S = 0.0, uniform H = 218.2 deg. , S = 1.0 and L = 0.5.

  By such uniform adjustment for each hue range, a slight brightness difference or hue angle difference is lost, but a graph with different hue angles can be easily distinguished.

  After performing the adjustment as described above, the inverse conversion from the HSL value to the RGB value is performed using the following Expression 2, and then the color conversion unit 208 converts the RGB value into the data for image formation, for example, the CMYK value. Then, the image forming unit 209 forms an image on an output medium and outputs it.

  The color conversion unit 208 can prepare in advance a conversion table in which the hue angle is constant and the brightness is constant from the sRGB space, and conversion can be performed using this conversion table. The conversion table is not limited to this, and conversion can be performed using any expression known so far.

  As described above, when the user selects a color to be used for two-color printing, the user can easily discriminate because the second color candidate is limited according to the color selected as the first color. Two colors with good characteristics can be selected, and an image output with good discrimination can be obtained accordingly.

  In the above embodiment, the flow in which the user selects two colors and outputs an image has been described. However, the number of colors is not necessarily two, and if it can be discriminated, the number of colors is increased to three colors and four colors. It is also possible to follow. However, two-color printing is often aimed at reducing the printing cost, and increasing the number of colors such as four colors and five colors reduces the significance of limiting the number of colors as in two-color printing. End up.

In the above embodiment, red can be selected as the first color and black can be selected as the second color, and an image can be output using these two colors. This is because a color having a smaller Δa ^* or Δb ^* is excluded from the second color candidate with respect to red of the first color, but black has a relatively large Δa ^* or Δb ^{* and} is not excluded from the second color candidate. Because. In general, a P-type color vision person looks red and sinks, and even if Δa ^* and Δb ^* with black are relatively large, the lightness difference ΔL ^* perceived by the color-blind person becomes very small. It is said that it is difficult to distinguish from black. Also, compared to the distinctiveness of the color difference that fills a large area such as a pie chart, it is more difficult to discriminate the color in a font composed of thin lines such as Mincho.

  In particular, red is often used as an emphasis color and is highly important. Even if the user is not a P-type color vision person, the ratio of the P-type color vision person is relatively large among color-weak persons, and it is highly possible that the P-type color vision person will see the output output image. Therefore, it is desirable not to use red and black at the same time from the viewpoint of diversity of color vision characteristics.

Therefore, when red is selected for the first color so that red and black are not used simultaneously, black is disabled for the second color. Specifically, as shown in FIG. 10, it is assumed that the user selects two-color printing, selects the discriminant priority mode, and selects red as the first color. Then, the image forming color selection unit 212 determines whether or not the first color is red. If the first color is red, the difference values Δa ^* and Δb ^* between the a ^* component and the b ^* component are predetermined for each color other than red. It is determined whether or not it is equal to or less than a value, and a color that is equal to or less than a predetermined value is determined as a color that cannot be selected. Then, it is determined that black, which is an achromatic color, is also a color that cannot be selected.

  If red is selected as the highlight color, black cannot be selected as the second color in this embodiment, so that black characters in general document images are reproduced with colored characters, and the user may feel uncomfortable. For this reason, as shown in FIG. 10, it is possible to display on the operation panel 202 that black cannot be selected for the second color by selecting red for the first color. Furthermore, an operation button for reselecting the first color may be prepared, and the user may be allowed to reselect the first color other than red.

  Further, after the user selects the second color, a sample image composed of red and the other two colors may be displayed as shown in FIG. The sample image may be a preview image based on the input image data. However, it is only necessary to know that the black characters of the document are output as colored characters, and the sample image is previously stored in the information recording medium 205 connected to the image output system 206. A stored sample image or thumbnail image may be used.

In the above description, when the user selects red as the first color, the user selects it. However, the image forming color selection unit 212 may automatically select red as the first color. In this case as well, it is determined that the color having the difference values Δa ^* and Δb ^{* of} red and black, a ^* component and b ^* component equal to or less than a predetermined value is a color that cannot be selected, and these colors are used as the second color. Can not be selected.

  In this embodiment, when red is selected as the first color, black cannot be selected as the second color. Therefore, even when the user is not a P-type color sense person, the P-type color sense person is included. It is possible to select two colors that can be distinguished for many people and to output an image. Further, by displaying that black cannot be selected as the second color or displaying a sample image, it is possible to reduce the uncomfortable feeling that the black character given to the user cannot be used.

  Next, an image processing method executed in the image processing apparatus 210 will be described with reference to a flowchart shown in FIG. First, the processing is started from step 1200, and in step 1210, a menu for allowing the image presentation unit 211 to select the two-color printing mode is presented on the operation panel 202, and the user selects the two-color printing mode. In response to this, the image forming color selection unit 212 instructs the image presentation unit 211 in step 1220 to present the discriminant priority mode.

  When the user selects the discriminant priority mode, in step 1230, the image presenting unit 211 presents a usable color, and in response to the user selecting the first color, the image forming color selecting unit 212 In step 1240, it is first determined whether red is selected as the first color. This is to prevent black from being presented in the second color.

If it is determined in step 1240 that red has been selected, the process proceeds to step 1250, where the first color red and black are determined as colors that make the difference values Δa ^* and Δb ^* less than a predetermined value unselectable. The image presentation unit 211 is instructed not to present the color to the user. In response to this, the image presentation unit 211 prevents the user from selecting the color by, for example, graying down the colors.

  Next, in step 1260, the second color selected by the user is received. In step 1270, an image composed of red and the second color is presented to the user as a sample image. Presentation to the user can be performed, for example, by displaying an image composed of these two colors on the operation panel 202.

On the other hand, if the first color is not red in step 1240, the process proceeds to step 1280, where the first color and the difference values Δa ^* and Δb ^* are determined to be unselectable colors. The image presentation unit 211 is instructed not to present the color to the user. In response to this, the image presentation unit 211 prevents the user from selecting the color by, for example, graying down the colors.

  Next, in step 1290, the second color selected by the user is received. Thereafter, the process proceeds to step 1300, where a print instruction from the user is received, information on two colors is sent to the color adjustment unit 207 together with the print instruction, the color adjustment unit 207 performs color adjustment processing, and the color conversion unit 208 performs image formation data. The image forming unit 209 causes the image forming unit 209 to form an image on an output medium such as paper based on the image forming data, and outputs the image. In step 1310, the process ends.

  As described above, in consideration of the color selected by the user as the first color and the discriminability of the weak color, the second color candidate that can be selected by the user is limited and not presented. Thus, when comparing colors that can be selected by the user, it is possible to suppress the influence of unnecessary surrounding colors and more easily select the second and subsequent colors with good discrimination.

  In addition, when the user selects red as the first color, the black color cannot be selected as the second color, so that even if the user is not a P-type color person, It is possible to select two colors that are easy for a larger number of people to include.

  Further, by selecting red as the highlight color first, it is possible to prevent the disadvantage that red cannot be used as the highlight color because black is selected as the base color.

  Furthermore, the user can select the color to be used while looking at colored characters and color patches that are assumed to be an actual document image or a document image with poor color discrimination, so that the color can be discriminated on the operation panel. However, it is possible to prevent the inconvenience that the selected color cannot be discriminated on the output product, and an output result with improved discrimination can be obtained more reliably.

  In addition, when black is disabled for the second color, the black character part of the input image data is colored by notifying or displaying that fact, or by displaying a sample that reproduces the black character with colored characters. Therefore, it is possible to suppress a sense of discomfort given to the user.

  The present invention has been described with the above-described embodiments, but the present invention is not limited to the above-described embodiments, and those skilled in the art will conceive other embodiments, additions, changes, deletions, and the like. It can be changed within the range that can be performed, and any embodiment is included in the scope of the present invention as long as the operation and effect of the present invention are exhibited. Therefore, in addition to the image processing apparatus and the image processing method described above, the present invention provides an image output system including the image processing apparatus, an image printing system such as an MFP including the image output system, and a computer readable computer for executing the image processing method. And a recording medium on which the program is recorded can also be provided.

DESCRIPTION OF SYMBOLS 100 ... Pie chart, 101 ... Legend, 102 ... Color character, 103 ... Photograph, 200 ... MFP, 201 ... Operation button, 202 ... Operation panel, 203 ... Network interface, 204 ... Image reading part, 205 ... Information recording medium, 206 DESCRIPTION OF SYMBOLS ... Image output system, 207 ... Color adjustment part, 208 ... Color conversion part, 209 ... Image formation part, 210 ... Image processing apparatus, 211 ... Image presentation part, 212 ... Image formation color selection part

JP 2006-350066 A

“Mechanism to see colors and types of people with color weakness”, [online], 2005, NPO Color Universal Design Organization (CUDO), [December 1, 2009 search], Internet <URL: http: //www.cudo .jp / sikumi />

Claims (18)

An image processing apparatus that converts image data of an input color image into image data of an image composed of the number of colors and colors selected by a user, and outputs the image data.
When the user selects the colors that can be used to form the image and the number of colors, the colors after the color of the second image component are selected after the color of the first image component is selected. An image presentation unit that presents a discriminant priority mode that disables selection of some of the usable colors in selection;
In response to selection of the discriminant priority mode by the user and selection of the color of the first image component, information on the discriminability between the color of the first image component and the color of the weak colorant An image forming color selection unit that determines a color that cannot be selected on the basis of the first image component and causes the image presentation unit to present a color other than the color of the first image component and the color that cannot be selected as a usable color. An image processing apparatus. The image forming color selection unit selects a a ^* component and a b ^* component of the CIELAB color value for usable colors other than the color of the first image component for the selected color of the first image component. The image processing apparatus according to claim 1, wherein it is determined whether or not the difference values Δa and Δb are equal to or less than a predetermined value, and colors that are equal to or less than the predetermined value excluding an achromatic color are determined to be non-selectable colors.   The image forming color selection unit determines that black or red is not selectable as the color of the second image component in response to selection of red or black as the color of the first image component. The image processing apparatus according to claim 1, wherein a combination of red and black is not selectable.   In response to the user selecting the discriminant priority mode, the image forming color selection unit selects red as an emphasis color as the color of the first image component, and The color to be made non-selectable is determined based on information relating to color discrimination, and a color excluding red and the color to be non-selectable is presented as an available color to the image presentation unit. An image processing apparatus according to 1.   5. The image processing according to claim 1, wherein the image forming color selection unit instructs the image presentation unit to fill the non-selectable color with an achromatic color or to hide the color. apparatus.   The image forming color selection unit, when causing the image presenting unit to present the usable colors, presents a color name of the color, a patch image of the color, and text composed of characters of the color. Item 6. The image processing apparatus according to any one of Items 1 to 5.   The image processing apparatus according to claim 6, wherein the color name, the patch image, and the text are presented with the same brightness for chromatic colors among the usable colors.   The image presenting unit indicates that when the image forming color selecting unit selects red as the color of the first image component, black cannot be selected as a color after the color of the second image component. The image processing apparatus according to claim 4, wherein an image in which a message or a portion of a color image indicated in black is presented in a color other than black and a reselection of the color of the first image component is presented.   An image printing system including the image processing apparatus according to claim 1. An image processing method executed by an image processing apparatus that converts image data of an input color image into image data of an image composed of the number of colors and colors selected by a user,
When the user selects the number of colors, the colors that can be used to form the image in the selection of colors after the color of the second image component after the color of the first image component is selected A mode presenting step for presenting a discriminant priority mode for making a part of the selection impossible,
A first color presenting step for presenting the usable colors in response to selection of the discriminant priority mode;
In response to the color of the first image component being selected by the user, based on the color of the first image component and the information regarding the discriminability of the weak color held by the image processing device, An image processing method comprising: determining a color to be made unselectable and presenting a color excluding the color of the first image component and the color to be unselectable as a usable color. In the second color presentation step, for the color of the selected first image component, the a ^* component and b ^* component of the CIELAB color values for usable colors other than the color of the first image component The image processing method according to claim 10, wherein it is determined whether or not the difference values Δa and Δb are equal to or less than a predetermined value, and colors that are equal to or less than the predetermined value excluding an achromatic color are determined to be non-selectable colors.   In the second color presentation step, in response to the selection of red or black as the color of the first image component, it is determined that the color of the second image component is black or red. The image processing method according to claim 10 or 11.   In the second color presentation step, in response to selection of the discriminability priority mode by the user, red as an emphasis color is selected as the color of the first image component, and red and the color weak 12. The color to be made unselectable is determined based on information relating to color discrimination, and a color excluding red and the color to be unselectable is presented as an available color to the image presentation unit. An image processing method described in 1.   The said 2nd color presentation step includes the step which instruct | indicates to the said image presentation part to fill in the color which makes the said selection impossible with an achromatic color, or to make it non-display. Image processing method.   In the first color presentation step and the second color presentation step, when presenting the usable colors, a color name of the color, a patch image of the color, and text composed of characters of the color are presented. The image processing method according to claim 10.   The image processing method according to claim 15, wherein the color name, the patch image, and the text are presented with the same brightness for chromatic colors among the usable colors.   A message indicating that black cannot be selected as a color subsequent to the color of the second image component or an image indicating a portion of the color image indicated by black in a color other than black is presented. The image processing method according to claim 13, further comprising the step of presenting a reselection of colors of the image components of the image processing method.   A computer-readable program for executing the image processing method according to claim 10.