| Patent application number | Description | Published |
|---|
| 20090040255 | INKJET PRINTER AND INKJET PRINTING METHOD - An image having high quality is output, in which density unevenness due to a deflection in an ejecting direction is reduced, in an inkjet printer for forming an image by ejecting small droplets at a high frequency and high density. Thereby, in a mask pattern employed for multi-pass printing, a print permission rate of an ejection port positioned at the end of a ejection port array is set higher than those of ejection ports positioned at the other parts of the ejection port array. Thus, even if extremely small droplets are ejected at a high frequency and high-density, the generated density unevenness is reduced, and an image excellent in uniformity and having high definition can be output at a high speed. | 02-12-2009 |
| 20090040550 | DATA GENERATION APPARATUS, PRINTING APPARATUS AND DATA GENERATION METHOD - When a feeding amount for multi-pass printing is changed, the purpose related to an image quality using a binary data generation pattern can still be attained by, for example, a density pattern method. Specifically, a multi-pass printing mode is identified, and a density pattern selection matrix associated with a cycle of binary data generation is selected in accordance with the selected printing mode. That is, a density pattern selection matrix employed for binary data generation using a density pattern is changed to a size corresponding to the feeding amount designated by the selected printing mode. Thereby, a phenomenon that a unit used for image processing to gain a predetermined purpose related to an image quality does not match a unit area used for a printing operation is avoided, and an image printing purpose using a binary data generation pattern can be appropriately attained. | 02-12-2009 |
| 20090184994 | DATA PROCESSING APPARATUS, PRINTING APPARATUS AND METHOD OF CREATING MASK PATTERN - The interference between the dot arrangement pattern used for binarizing an image and the mask pattern for processing the dot arrangement pattern can be reduced and the well dispersed dot arrangement can realized by using the mask pattern. Specifically, in creating the mask, repulsive potential between the mask and the plane of dots arrangement pattern is calculated. That is, when the arrangement of print permitting pixels in the mask is determined, repulsive potential between print permitting pixels and dots on the plane of the dot arrangement pattern is calculated and print permitting pixels are arranged on the position where energy is the lowest and most dispersed. This enables print permitting pixels to be well dispersed in overlapping of the dot arrangement pattern and the mask. Consequently, as to dots formed by mask-processing and each scanning, their number is not unequally high in a specific scanning and dots are well dispersed. | 07-23-2009 |
| 20090189934 | RECORDING APPARATUS AND RECORDING METHOD - A recording apparatus for recording an image on a recording medium by scanning the recording medium with a recording head for discharging ink includes a thinning unit configured to thin data for discharging ink by the recording head on a plurality of areas formed by dividing scanning regions including at least a first scanning region and a second scanning region to be recorded each by one scan of the recording head in the scan direction, and a recording head drive unit configured to discharge ink by driving the recording head based on data which has been thinned by the thinning unit, wherein a boundary between the areas in the first scanning region is located in a different position from that of a boundary between areas in the second scanning region, which is adjacent to the first scanning region, in the scan direction. | 07-30-2009 |
| 20100045723 | INK-JET PRINTING APPARATUS AND INK-JET PRINTING METHOD - The print permitting ratios of the masks in the first to fourth passes of a C ink are respectively 6.2%, 37.5%, 37.5%, and 18.8%. On the other hand, the print permitting ratios of the masks in the first to fourth passes of an M ink are respectively 12.5%, 37.5%, 37.5%, and 12.5%. In this way, the respective masks are set such that a larger amount of the C ink is applied in a later pass as compared with the M ink. Thereby, it is possible to reduce an amount of the M ink to be applied later with respect to the C ink functioning to “reduce a permeation speed of an ink applied later by filling,” and it is possible to prevent a permeation speed from slowing down overall. As a result, it is possible to prevent the occurrence of beading due to a time to complete permeation becoming longer. | 02-25-2010 |
| 20110019208 | IMAGE DATA GENERATING APPARATUS, PRINTING APPARATUS, AND IMAGE DATA GENERATION METHOD - When error diffusion processing is applied to thinned printing, the thinned printing can be performed without spoiling the dot printing pattern, and dot data is generated so that occurrence of grain may be suppressed by the dot arrangement distributed by the error diffusion processing. Specifically, the error diffusion of the binary data is performed in consideration of permitted positions shown by a division pattern of a nozzle array. That is, the binary data is permitted to be arranged only at a pixel position indicated by black in the division pattern of the nozzle array. Next, the result of having subtracted binary data from multi-valued data is applied as correction data of a multiple value, and this correction data is added to cyan multi-valued data of the nozzle array of first pass related to second plane generation. | 01-27-2011 |
| 20110181897 | DATA PROCESSOR, DATA PRCESSING METHOD AND PROGRAM - Provided are a data processing method and a data processor for ink jet printing, which are capable of achieving uniform and high-quality images while stabilizing density and color development in each of pixels. To this end, a mask pattern for setting permission and non-permission to print dots in each area is arranged non-periodically by using an integral multiple of m×n areas as one unit. The m×n areas allow one pixel to be expressed in half-tone. Thereby, density in the pixel is stable since a plurality of dots printed in the same pixel are printed approximately in the same event. Moreover, since each of the units (clusters) is non-periodically arranged, a uniform image can be obtained. | 07-28-2011 |
| 20110261373 | DATA GENERATION APPARATUS, PRINTING APPARATUS AND DATA GENERATION METHOD - When a feeding amount for multi-pass printing is changed, the purpose related to an image quality using a binary data generation pattern can still be attained by, for example, a density pattern method. Specifically, a multi-pass printing mode is identified, and a density pattern selection matrix associated with a cycle of binary data generation is selected in accordance with the selected printing mode. That is, a density pattern selection matrix employed for binary data generation using a density pattern is changed to a size corresponding to the feeding amount designated by the selected printing mode. Thereby, a phenomenon that a unit used for image processing to gain a predetermined purpose related to an image quality does not match a unit area used for a printing operation is avoided, and an image printing purpose using a binary data generation pattern can be appropriately attained. | 10-27-2011 |
