In an image processing apparatus, a processor sets a target printing method for printing a target image to one of a bidirectional printing method and a unidirectional printing method. In a case where the bidirectional printing method is set as the target printing method: the processor executes both a first generation process and a second generation process. The first generation process generates first partial print data by converting a set of partial image data using a first color conversion profile. The second generation process generates second partial print data by converting another set of partial image data using a second color conversion profile. In a case where the unidirectional printing method is set as the target printing method, the processor executes a third generation process generating third partial print data by converting a set of partial image data using a third color conversion profile.

A method corrects color density unevenness during a printing operation on an inkjet printing machine having printing nozzles and a computer. The computer modifies the number or size of the drops to be applied to a printing substrate to attain nominal color density values after the processing of a rasterized print image. For different actual tone values, it is determined which target tone value is required to attain a nominal coloration by measuring a test image for every printing nozzle using a color measurement device, and, based thereon, an area coverage-dependent compensation profile is determined and saved on the computer to be applied in the printing operation to calculate the number and size of the drops on the computer.

The disclosure includes an edge extracting unit configured to, based on image data corresponding to a print image, extract edge pixels forming an outline of a partial image, a dot formation specification determining unit configured to, based on the image data, determine dot formation specifications, and a print data generator configured to, based on the dot formation specifications, generate print data for causing execution of printing by a printing apparatus for printing the print image by discharging first ink on a printing medium and second ink that promotes spreading of the first ink on the printing medium to form the plurality of dots.

An object is to reduce coloring of specular reflection while improving gloss uniformity (particularly, gloss clarity). Recording is performed at least part of a surface of a recording medium by using a first color material with relatively high transmittance. In this case, control is performed such that thickness variation in the applied first color material is set to have an amplitude that generates interference fringes and to have a desired cycle within a range of 40 m or more and 320 m or less.

A color-separation optical system for image capture includes three rolling shutter CMOS image capturing elements of B, G and R, respectively capturing: an image of B at the speed of an integer N multiple of the number of output picture frames, an image of G at the speed of an integer M multiple of N+1, and an image of R at the speed of the integer M multiple of N+1. The vertical synchronization phases of the captured image frames of B, G and R, are offset by approximately half the vertical synchronization period of an even multiple of speed such that the center phases of the captured image frames of B, G and R have approximately the same vertical synchronization phase. A picture to be output uses the vertical effective pictures of the captured image frames having approximately the same vertical synchronization phase.

Print jobs call for printing multiple logical pages on the same sheet, using base colorants and an extension colorant, and call for a different number of printing passes of the extension colorant for different logical pages. A first bitmap is created, and a first printing pass prints the first bitmap. The first bitmap is then modified to leave only the extension colorant plane, to create a modified bitmap; and a second printing pass prints the modified bitmap on the same sheet. The modified bitmap is additionally modified by removing printing pixels for the logical pages that do not contain an instruction to perform an additional printing pass of the extension colorant; and an additional printing pass prints the modified bitmap. These printing passes are repeated until no more of the logical pages contain the instruction to perform an additional printing pass of the extension colorant.

The disclosure includes an edge extracting unit configured to, based on image data corresponding to a print image, extract edge pixels forming an outline of a partial image, a dot formation specification determining unit configured to, based on the image data, determine dot formation specifications, and a print data generator configured to, based on the dot formation specifications, generate print data for causing execution of printing by a printing apparatus for printing the print image by discharging first ink on a printing medium and second ink that promotes spreading of the first ink on the printing medium to form the plurality of dots.

The disclosure relates to a method for color correcting a digital printer over a printing width of the digital printer, having the steps of: a) providing a specified digital image, said digital image having at least one color channel pattern, wherein each color channel pattern is assigned to a print color channel of the digital printer; b) determining at least one test color of the specified digital image; c) generating a digital test pattern, said digital test pattern being provided with at least one single-colored test strip which is designed to be printed over the printing width of the digital printer, d) printing the digital test pattern using the digital printer; e) detecting the color values of the printed test pattern on the basis of the position thereof in the direction of the printing width using an optical color measuring device; f) generating correction data for the digital printer using the detected color values; and g) using the correction data on the digital printer and/or the specified digital image. The method is suitable in particular for color correcting substantially single-colored prints and for reducing the formation of stripes in the printing direction.

A method corrects color density unevenness during a printing operation on an inkjet printing machine having printing nozzles and a computer. The computer modifies the number or size of the drops to be applied to a printing substrate to attain nominal color density values after the processing of a rasterized print image. For different actual tone values, it is determined which target tone value is required to attain a nominal coloration by measuring a test image for every printing nozzle using a color measurement device, and, based thereon, an area coverage-dependent compensation profile is determined and saved on the computer to be applied in the printing operation to calculate the number and size of the drops on the computer.

In a method to administer, via a print job administrator, print jobs to be printed at a printing system, a plurality of print jobs are determined. A print job can indicate a specification of one or more print features. Different specifications of a print feature may require different configurations of the printing system. Change-over expenditures for the printing of at least two print jobs of the plurality of print jobs by the printing system can be determined based on the specification of the one or more print features of the plurality of print jobs. An order for the printing of the plurality of print jobs can be determined based on the change-over expenditures. The order of the plurality of print jobs can be indicated.