Abstract: The color processor is provided with: a conversion source color data acquiring part for acquiring conversion source color datasets in a first color space; a gamut storage for storing a gamut; a determining part for determining whether or not each of the conversion source color datasets exists in the gamut; a first color conversion processor for performing color conversion processing on each of conversion source color datasets A in the conversion source color datasets by use of a color conversion characteristic model, the conversion source color datasets A being determined to exist in the gamut; and a second color conversion processor for performing color conversion processing on each of conversion source color datasets B in the conversion source color datasets by use of color conversion correspondence, the conversion source color datasets B being determined not to exist in the gamut.

Abstract: A method of retaining original natural language commands along with the mathematical LUT transform of the commands and a private tag within the same ICC profile. The private tag can be read only by an exclusive or proprietary application or color management module. When a user loads a color editing profile into the proprietary application, the natural language commands could then be read from the private tag and displayed on a user interface. The user can then immediately see the qualitative effect of the color editing profile and provide selected modifications to the commands and retain a new set of commands stored in another profile.

Abstract: A method, program product, and system for controlling a print device which helps minimizing effects which a failure of a plug-in module for adding a function of a printer driver may cause to the printer driver body and other plug-in modules The print device control system includes a data processing device and a plug-in server. The data processing device has a printer driver embedded thereon. The plug-in server has plug-in modules for executing an add-function of the printer driver, and executes, according to a request from the printer driver, the plug-in module corresponding to the request, and returns processed data to the printer driver. The plug-in server is configured as a process different from the printer driver. The printer driver returns the processed data to the data processing device through a memory with the data processing system.

Abstract: Color imaging devices, color imaging methods, and color separation methods are described. According to one embodiment, a color imaging device includes interface circuitry configured to access color image data of an initial color space for a plurality of pixels, color space conversion circuitry coupled with the interface circuitry and configured to convert the color image data for some of the pixels from the initial color space to a first output color space representation and to convert the color image data for others of the pixels from the initial color space to a second output color space representation different than the first output color space representation, and an image engine coupled with the color space conversion circuitry and configured to form a color image using the color image data of the first and the second output color space representations.

Abstract: An image displaying device and a method for controlling color thereof. The image displaying device includes a lattice selection unit which selects a lattice of a look-up table (LUT) for reference of each pixel of an input image, a lattice control unit which determines whether the selected lattice requires to be changed for color adjustment and calculates a change degree of the lattice, an LUT conversion unit which converts the LUT by changing the lattice based on the calculated change degree, and a lattice reference/interpolation unit which refers to or interpolates the lattice based on the converted LUT. Accordingly, the LUT can be updated real time, thereby realizing more accurate adjustment of color.

Abstract: This disclosure relates to the color management of image output devices. Specifically, this disclosure provides methods, apparatus and systems to generate a destination printer profile for coated images. According to one exemplary method, the destination printer profile is generated by printing a plurality of color patches which are then coated, measuring the color attributes associated with the coated color patches, and modifying a destination printer profile to compensate for differences between the printed and coated color patches, relative to a respective reference color.

Abstract: A color correction apparatus of a scanner and a method of controlling the same. The color correction apparatus changes data existing outside of the gamut boundary to the other data existing within a gamut boundary in order to correctly express a gamut, and correctly corrects the color of the scanner. The color correction apparatus includes a calculator to calculate CIE data corresponding to RGB data, and a correction unit to change the CIE data to new CIE data existing within a gamut boundary if it is determined that the CIE data exists outside of the gamut boundary.

Abstract: A multi-module device having first and second modules is disclosed. The first and second modules communicate through a serial bus. The first module has a memory for storing image data in a RGB format and a processing unit for converting the image data from the RGB format to a L*a*b* format, before outputting image data in the L*a*b* format through the serial bus. The second module receives the image data in the L*a*b* format, converts the image data to a CMY format and prints the image data in the CMY format.

Abstract: The present invention provides an image processing device, a color correction table generation device, a display device, an image processing method, a color correction table generation method, a color adjustment method of a display device, and an image processing program capable of color matching to preferred colors of which excessive emphasis in chroma is suppressed. There are provided a chroma limit setting section for setting a chroma limit based on a optimal color, and a color correction table generation section for generating a color correction table by making a correspondence between an input color and an output color having chroma no greater than a chroma limit. The color correction table is stored in a color correction table storage section. The color correction execution section executes color correction along the color correction table so that the projector outputs a color with chroma no greater than the chroma limit.

Abstract: In creating a color conversion table, search time for searching a point at which a color difference with a target color corresponding to a grid point is minimum can be reduced effectively. In a predetermined grid point constituting a second pre-color processing table, a post-RGB value of a target color of the grid point is determined by interpolation computation using a first pre-color processing table created beforehand. An interpolation operation using each grid point data of a plurality of grid points in the neighborhood in the table is executed, thus the post-RGB value of an object grid point is determined. Next, a neighboring region of the obtained post-RGB value is set, and a post-RGB value of most approximate to the target color in the neighboring region is determined as grid point data of the object grid point.

Abstract: A Personal Computer (PC) adjusts a color of an image received from a digital camera to produce an estimated reflectance spectrum and/or to convert the color to a new color space. First, an input compensation transform is generated, e.g. based on a Macbeth color chart in the image, to compensate for the sensitivity of the camera used to generate the image to different wavelengths of light and the illumination spectrum incident on an object of interest to which the image relates. In order to estimate the reflectance spectrum, a reflectance spectrum estimation transform is then generated by the PC. In order to convert the color of the image to the new color space, a color space conversion transform is generated by the PC. Both the reflectance spectrum estimation transform and the color space conversion transform are based on the input compensation transform and reference reflectance spectra stored in a reference reflectance spectra database.

Abstract: An image processing apparatus converts an input color signal into a color signal which falls within a color reproduction range of an image output device. The image processing apparatus includes a representative color setting unit that sets plural representative colors, a first hue setting unit that sets hue for an equi-hue line connecting the representative color and black, a hue correcting unit that corrects hue of the input color signal referring to the first hue setting unit, and a mapping unit that maps the input color signal after whose hue is corrected to a color signal within a color range of the image output device.

Abstract: An image-processing device includes: a color conversion unit that converts an input image data expressed by a combination of light's primary colors into an intermediate image data in which a color of each pixel is expressed by a combination of basic printing colors; a density correction unit that corrects the intermediate image data so that density of a pixel of the intermediate image data corresponds to that of a corresponding pixel of the input image data; an identifying unit that identifies an area in which the density is close to a prescribed value by analyzing the intermediate image data; and an output unit that corrects a density distribution in a pixel of the intermediate image data contained in the area in accordance with a prescribed distribution function and outputs the result.

Abstract: A method for printing an image includes: generating a third table in which a second table, indicating a relationship between one of a plurality of brightness values and an amount of ink of an achromatic color for representing the one of the brightness values, is embedded in the first table, indicating a relationship between a color defined by each of the first lattice points and amounts of the ink of the achromatic color and ink of chromatic colors; converting first RGB components of the image data corresponding to a character area into the RGB components defined by the some of the lattice points based on brightness values of the RGB components of the image data, thereby generating modified image data; converting the RGB components of the modified image data into amounts of the ink o; and printing the image in accordance with the converted amounts.

Abstract: A method for determining (250) a change required in a selected base point in an input colorant space of a digital-image rendering system to obtain from the digital-image rendering system a desired reference output color to within a predetermined color tolerance comprises determining the required change based on a local approximation of the colorant/color relationship at the selected base point. Gradient points are automatically generated (210) that are proximate or coincident with the selected base point and that are different from any other base point than the selected base point. A linear approximation to the colorant/color relationship at the selected base point is computed (240) from the gradient points and the measured (230) output colors at the gradient points as rendered (220) by the digital-image rendering system and. The required change is determined from the local gradient of the colorant/color relationship at the selected base point.

Abstract: A system and method of converting a red-green-blue (RGB) pixel to a red-green-blue-white (RGBW) pixel by using a W value extraction, the RGB-to-RGBW converting system including: a lookup table generator to generate an RGBW lookup table using one or more RGB lattice points; and an RGBW value computation unit to compute an RGBW value of an input pixel with respect to an RGB value of the input pixel based on the generated RGBW lookup table.

Abstract: An image reading apparatus which is capable of appropriately performing show-through reduction processing and foundation color reduction processing in accordance with an operation for changing the color of a background member to another one having different color that is read along with an original. An image reading unit reads an image of a conveyed original. A background member has a white-colored member and a black-colored member and is disposed in such a manner that it opposed to the image reading unit. A moving unit moves the background member. A CPU determines a degree of image processing to be applied to read image data depending on the color of an opposing portion of the background member, which is opposed to the image reading unit that is reading an original.

Abstract: In an image processing apparatus, a first conversion unit converts, on the basis of an input device profile, input data into first device-independent data expressed by a color space that is independent of an apparatus. A storage unit stores plural conversion profiles for converting using a color appearance model in the color space that is independent of the apparatus in correspondence with plural device characteristics that are dependent on apparatuses. A selection unit selects a conversion profile corresponding to characteristics of the input device, characteristics of an output device, observation conditions of the input data and the output data. A second conversion unit converts, on basis of the selected conversion profile, the first device-independent data into second device-independent data. A third conversion unit converts the second device-independent data into the output data on the basis of an output device profile.

Abstract: A method processes image data in a color separation to attenuate printing defects arising from misalignment of serially arranged printheads that eject ink for the color separation. The method includes processing image values of the color separation with a first rendering process that corresponds to one printhead in a plurality of serially arranged printheads for printing the color separation, processing the image values of the color separation with a second rendering process that differs from the first rendering process for at least one other printhead in the plurality of serially arranged printheads for printing the color separation, generating firing signals for the one printhead from the rendered image values generated by the first rendering process, and generating firing signals for the at least one other printhead from the rendered image values generated by the second rendering process.

Abstract: A server receives simulation condition input from a client computer, and in accordance with the simulation condition input creates display-use data indicating the result of the simulation, and sends the display-use data to the client. The print simulator of the server first converts the image data to ink quantities, and then converts the ink quantities to spectral reflectance of the print. Then, using the spectral reflectance of the print together with the print observation condition and the display device observation condition, there is created display-use data for simulating the appearance of the print under the print observation condition, under the display device observation condition.

Abstract: Disclosed herein is an image signal processor for carrying out conversion into an xvYCC signal by using a photograph film as a material, the image signal processor including: acquisition means for acquiring print film concentration data based on said photograph film; generation means for generating spectral data on an image on a screen previously presumed based on spectral concentration characteristics of colors of a positive film having an image projected on said screen, a spectral distribution of a projection light source, and the print film concentration data; arithmetical operation means for arithmetically operating an XYZ tri-stimulus value corresponding to the spectral data; and conversion means for converting the XYZ tri-stimulus value into the xvYCC signal.

Abstract: An update performing unit repeatedly performs an updating process by controlling a second reference point setting unit to set a plurality of second reference points that are uniformly distributed in a subspace in the second color space; a calculation unit to calculate color differences between a set of fifth color data for each second reference point in the subspace and a single first reference point; a first judging unit to judge whether or not the smallest color difference among all the color differences with respect to each of the second reference points in the subspace is smaller than a color difference registered at the single first reference point; and a updating unit to update, if the first judging unit judges that the smallest color difference is smaller than the color difference, a set of fourth color data, that is already registered at the single first reference point, to a set of fourth color data for the each second reference point in the subspace.

Abstract: Color management in which gamut mapping is performed in a spectral color space. The gamut mapping process includes a colorimetric gamut mapping step, in which a colorimetric projection of the source-side color is gamut-mapped into a colorimetric projection of the destination side's spectral gamut. To ensure that the resulting gamut-mapped colorimetric color can be inverted into a set of feasible points in the spectral gamut, an additional step is inserted into the gamut-mapping process. Specifically, a further projection is made of the gamut-mapped colorimetric projection, whereby the colorimetric color is projected onto within the numerical boundary of the colorimetric projection of the destination side's spectral gamut. This additional projection yields a numerically robust color space color, that largely avoids adverse effects that otherwise might be caused by “numerical voids” found in the floating point representation of numbers by digital computers.

Abstract: Preservation of rendering intent when a rendering model encapsulated in a transform-based profile is used in a measurement-based CMS. Source device color values are converted to generate perceptually rendered values using a perceptual transform of the transform-based color profile. Perceptually rendered appearance values of a color appearance space are generated by converting the perceptually rendered values using predefined ICC viewing conditions. Using a gamut mapping model (GMM), the generated appearance values are converted to generate destination device color values within a color gamut of a destination device. The GMM uses a PRMG boundary description and a gamut boundary description of the destination device to perform the mapping. A transform is constructed from the source device color values and the corresponding destination device color values. Color values of an image generated by the source device are converted to color values of a destination device using the constructed transform.

Abstract: A method includes identifying multiple preferred color values in a destination color space. Each preferred color value is one of a set of colorimetrically equivalent color values. The destination color space has color values defined by a particular number of color components. The method further includes defining intermediate color values in an intermediate color space. The intermediate color values correspond to the multiple color values and the intermediate color space has a number of color components that is less than the particular number of color components of the destination color space. The method also includes identifying a known mapping from the destination color space to a source color space and using the intermediate color values and the known mapping to determine a conversion process for converting source color values to preferred color values.

Abstract: This disclosure relates to decreasing the required buffer memory capacity while reducing the impact of an arithmetic error in error diffusion processing. A quantization circuit (4) quantizes input image data and outputs an output code. The quantization error generated in the quantization circuit (4) is calculated by an inverse quantization circuit (5) and subtracter (6). The calculated quantization error is stored in a buffer (8). Since the buffer (8) only needs to have a size capable of storing the quantization error, the size can be made smaller than before. A diffusion filter (9) diffuses the quantization error using a quantization error or the like, which is stored in the buffer (8). A latch (3) and bit connector (1) can usefully reduce the impact of an arithmetic error in error diffusion processing on the next input image data.

Abstract: In order to obtain colorimetric data close to the color appearance under an actual viewing condition, a plurality of conversion data for converting colorimetric data measured under the first geometric condition of colorimetry into that measured under the second geometric condition of colorimetry are held, and the information of a viewing illuminant and colorimetric data measured under the first geometric condition of colorimetry are obtained. Conversion data which corresponds to the information of the viewing illuminant is interpolated from the plurality of conversion data which are held. The colorimetric data measured under the first geometric condition of colorimetry is converted into that measured under the second geometric condition of colorimetry using the interpolated conversion data.

Abstract: In order to obtain an excellent color processing result by calculating an optimal white point in partial adaptation, first white point data which indicates white of a device is input, the first white point data is projected onto a predetermined curve, and white point data in the partial adaptation located on the predetermined curve is calculated using the projected first white point data and the second white point data located on the predetermined curve. Color processing of input color data is performed using the white point data in the partial adaptation, which is corrected in accordance with the positional relationship between the first white point data and projected first white point data, and the color reproduction characteristics of the device.

Abstract: This disclosure provides methods, systems and apparatus to manage spot colors for an image marking device. Specifically, disclosed is a spot color control method including selecting a gain matrix K from a plurality of gain matrices, the gain matrix K being selected to satisfy performance criteria associated with the rendering of the target spot color, the performance criteria including an acceptable spot color error associated with the rendered spot color relative to the target color, an acceptable actuator energy utilized to achieve the acceptable spot color error and a total toner/ink usage acceptable to render the spot color.

Abstract: Determination of a grid structure for a set of values in a device color space, in which heuristics are applied to a collection of color sample data in order to determine the structure of a look-up table that best fits the samples. Sampling data is sorted for each channel thereof, and the number of steps in each channel is counted. The data is checked for completeness. Steps are removed if they do not correspond to steps on the axes of a three-dimensional cube. If, as a result of step removal, a full LUT has been obtained, then the structure of the LUT has been determined and the process ends. On the other hand, if a full LUT has not been obtained, then steps are removed if they are under-correlated with other steps.

Abstract: An image processing method includes creating a conversion table for converting a color in a device-independent color space into a color in a device color space based on a colorimetry result of a color patch output by a device. Creating the conversion table includes converting a color in a three-dimensional color space dependent on a device into a color in a four-dimensional device color space including black. Converting a color in the three-dimensional color space includes separating an input color in the three-dimensional device-dependent color space into color components of the four-dimensional device color space based on a gradation from the input color to black, using a black generation curve of a gray line set by a user and black generation curves set for individual primary colors of RGBCMY, and performing saturation-increase conversion on the color components in accordance with an amount of a black colorant.

Abstract: In a method, program, or device to generate or process a document data stream that comprises data relating to color management resources wherein processing of color-related data of the document data stream can be controlled, associating at least one indexed color management resource with the document data stream wherein with the management resource color-related data of the document data stream can be associated with multiple predetermined color palettes. Within a color palette, an index value is respectively associated with multiple color. Respective values regarding the index colors are stored in the color management resource. The values are associated with corresponding proportions of color tones to reproduce the respective indexed color. The color palettes are compared between the system that generates the document data and an output system that outputs the document data, the document data stream is structured.

Abstract: A method and apparatus of adjusting color conversion parameters to be used by a color printer for printing documents or images, includes receiving a user input designating a color conversion parameter to be adjusted. It also includes obtaining information as to at least one other color conversion parameter that is related to the user designated color conversion parameter. It further includes adjusting the user designated color conversion parameter based on a user selection of source color-to-destination color change, and adjusting the at least one other color conversion parameter related to the user designated color conversion parameter based on the same user selection of source color-to-destination color change.

Abstract: A color image scanning system, method and medium that generates look-up tables for color data correction based on the type of printing paper and the kind of image on the printing papers, thereby improving color reproducibility upon scanning. A color image scanning system may include a storage unit to store look-up tables having correction values of first color data, obtained by scanning a first printing paper having a plurality of color patches, each of the look-up tables corresponding to a type of printing paper, and a final image generation unit to correct second color data, obtained by scanning a second printing paper, with reference to a look-up table of the look-up tables, the look-up table corresponding to the type of printing paper used by the second printing paper.

Abstract: When one or both of color conversion data for chromatic colors and color conversion data for achromatic colors are rewritten, attribute information of the color conversion data for chromatic colors or the color conversion data for achromatic colors is updated and this attribute information is displayed on a display.

Abstract: An image processing device outputs four-color image data to a display section, the display section performing display using display pixels each composed of four sub-pixels, and having an arrangement of the display pixels in which a pixel arrangement in an even line of a scan lines and a pixel arrangement in an odd line of the scan lines are shifted a half pitch of the display pixels from each other, and the image processing device includes a color conversion section which obtains three-color image data and converts the three-color image data into first four-color image data while maintaining the number of display pixels in the three-color image data, a conversion section which generates second four-color image data by performing an interpolation process on the first four-color image data based on a relationship between a position of a sub-pixel in the first four-color image data and a position of a sub-pixel in the display section, and an output section which outputs the second four-color image data to the di

Abstract: A patch image generating section 101 generates a patch image by resolving the RGB space into an arbitrary number of steps, and by converting into a CMYK space via an LUT. A patch image calorimetric section 102 outputs the patch image onto a recording medium via a printer, and carries out colorimetry of the output image with a calorimeter. As calorimetric values, calorimetric values represented in an L*a*b* space independent of the RGB space and CMYK space are obtained. A linear space generating section 104 calculates ideal spatial distribution in the color space of the LUT according to the calorimetric values supplied. A color separation evaluation value calculating section 105 compares the ideal spatial distribution in the color space of the LUT with actual measurement data of the LUT. According to the compared results, color separation evaluation values are calculated from differences between the ideal value and actual measurement values.

Abstract: A measurement-based color management system (MBCMS) plugin device model, methods, and a color profiler program that use the plugin device model. The plugin device model provides both an interface used to convert between device dependent and device independent color values, and an interface used to create a color device profile for use with the plugin device model. The color profiler receives color sample information from the plugin device model, using the color profiler interface provided by the plugin device model. The color profiler generates a color target having color samples as specified by the received color sample information. The color values of the color target's color samples are measured. The color device profile is generated, based on the measured color values.

Abstract: A method for compensating for color variations among multiple user printers by providing a target simulation process in each user printer that modifies its default color characteristics so that it has the same color characteristics as a designated target printer. In a WCS implementation, a target CDMP and a user CDMP representing color characteristics of the target printer and the user printer, respectively, are stored and used by the WCS workflow to perform color conversion when printing an image on the user printer. In an ICC implementation, a color simulation profile is generated that matches the color characteristics of the user printer to those of the target printer. The color simulation profile is combined with the default color profile of the printer to generate a combined color profile which is used to perform color conversion when printing an image on the user printer.

Abstract: A print control system is provided. The print control system comprises an image capturing device configured to capture an image of at least a portion of a printed image on a printed product of a print device. The print control device further comprises a control system comprising an input device and a module. The input device is configured to allow a user to vary a print parameter. The module is configured to calculate a predictive image based on the print parameter variation from the input device. The predictive image is representative of a resultant image on the printed product following implementation of the print parameter variation on the print device.

Abstract: A gamut mapping apparatus includes a parameter calculating unit calculating parameters for segmenting a gamut of an output device using gamut information about first and second input color spaces; a gamut segmenting unit segmenting the gamut of the output device into a core gamut and a surround gamut using the parameters; and a gamut mapping unit performing gamut mapping on image data present into the first and second input color spaces to the core gamut and the surround gamut according to a predetermined mapping method. The gamut mapping apparatus and method enable accurate reproduction of image data having components having undergone total internal reflection falling outside the scRGB color space or high chroma components in the scRGB color space.

Abstract: A data divider divides N-dimensional digital image signals into higher-order bit signals and lower-order bit signals. Reference values corresponding to all combinations of the divided higher-order bit signals are divisionally stored in 2N?1 sub-memories without overlaps. The (N+1) reference values necessary for interpolation processing are read by a reference value reader at the same time.

Abstract: In an image pickup apparatus, image data obtained by an image pickup unit is subjected to predetermined image processing, and an image is displayed on an electronic viewfinder screen based on the image data that has undergone the image processing. A specified color is determined based on color information included in a predetermined region of an image that is currently being displayed on the electronic viewfinder screen, and image processing parameters are produced so that color conversion is carried out on the image while eliminating color components of colors other than the determined specified color.

Abstract: A method and apparatus for performing color plane adjustment are provided. In one embodiment, an apparatus comprises a set of inputs for receiving a first input value and a second input value in a color space. The apparatus also comprises a color plane adjustment component operative to adjust the first input value and the second input value by amounts that depend on a distance of the first input value and second input value, respectively, from a value of neutral gray in the color space. The apparatus further comprises a set of outputs for outputting the adjusted first and second values. A related method and computer program are disclosed. Other embodiments are disclosed, and each of the embodiments can be used alone or together in combination.

Abstract: An image processing method is used to converting a color within a first color reproduction range that is a device-independent color space into a color within a second color reproduction range that is a color reproduction range of an output device. The image processing method includes defining, within the first color reproduction range, a third color reproduction range of a color that is estimated to be input; defining, within the second color reproduction range, a fourth color reproduction range that is smaller than the second color reproduction range; and, in performing the color conversion, compressing a color within the third color reproduction range into a color within the fourth color reproduction range and compressing a color within the first color reproduction range and outside the third color reproduction range into a color within the second color reproduction range and outside the fourth color reproduction range.

Abstract: In a method of managing color output by appearance intent a color display value is received. The color display value comprises at least one appearance intent tag and is associated with an item of graphic content. The color display value is converted into an intermediate color value such that an appearance intent specified by the appearance intent tag is preserved in the intermediate color value. The intermediate color value is converted into an output color display value recognizable by an output device, such that the appearance intent is preserved in the output color display value.

Abstract: This disclosure provides methods, apparatus and systems for generating a multidimensional printer profile for a color printer. Specifically, the disclosure provides a method to blend multiple GCR functions or strategies to produce a final GCR blended printer profile, for example a printer profile LUT.

Abstract: A system is configured to calculate an evaluation index of sample ink amount data from a color difference evaluation index and an image quality evaluation index and create a profile on the basis of a sample with a high rating value. When the image quality evaluation index is predicted, the image quality evaluation index corresponding to any sample ink amount data is estimated based on a profile produced on the basis on actual evaluation. A printer driver is configured to create a plurality of profiles by using different indices in this system and to perform color conversion by using the plurality of profiles. The plurality of profiles are appropriately selected according to the user's needs, printing conditions, and type of printing object image.

Abstract: Systems and methods, including computer software products, for processing gray colors in a conversion between color spaces involve identifying a non-pure gray color value in a color space that represents a substantially gray color. The methods further include converting the non-pure gray color value to a corresponding pure gray color value in the color space. The methods also include determining a first difference vector between the non-pure gray color value and the corresponding pure gray color value. The methods further include determining a distance between the corresponding pure gray color value and a selected color value. The corresponding pure gray color value represents a nearest pure gray color value to the selected color value. The methods also includes determining a correction factor based on the first difference vector and the distance and applying the correction factor to the selected color value to produce a corrected color value.

Abstract: A process and system for depicting a combination of process colors and spot colors on a radiant light source such as a computer monitor screen. The invention provides a user-definable “meta-ink” color which is made up of the components of the process colors and the spot colors. Shade values are assigned to each of these components to create the meta-ink color. This meta-ink color then replaces the document color for visual depiction on the radiant light source. This process and system provides a more accurate depiction of the representation of the printed image.