Abstract: There are provided a conversion processing method of performing LUT conversion processing for converting, via a lookup table (LUT), texture characteristic information of an object of which texture is to be reproduced into ink amount information of an ink, which is used in order to reproduce the object of which texture is to be reproduced on a medium, the conversion processing method for optical texture reproduction in which the texture characteristic information is separated into internal scattering information and color signal information, the internal scattering information and the color signal information, which are separated out, are used as inputs of the LUT conversion processing, and as values of a modulation transfer function as the internal scattering information and the color signal information are used in the LUT conversion processing, reproduction of internal scattering and reproduction of color reproduction, which are important qualities of texture, can be simultaneously realized with high accurac
Abstract: A method for reproducing an out-of-gamut spot color includes determining a color gamut for a color printer, and specifying a spot color by color coordinates in a three-dimensional color space. A first target color is determined corresponding to a color having a minimum color difference to the specified spot color, and a second target color is determined corresponding to a color on the color gamut surface having a hue value equal to a hue value of the specified spot color. A path is defined on the color gamut surface connecting the first target color and the second target color, wherein a control parameter is used to specify a relative position along the defined path. A control parameter prediction function is provided which computes a predicted control parameter value as a function of color coordinates. The predicted control parameter value is used to determine an aim color for reproducing the spot color.
Type:
Grant
Filed:
June 28, 2022
Date of Patent:
July 25, 2023
Assignee:
EASTMAN KODAK COMPANY
Inventors:
Chung-Hui Kuo, Victor Ignacio Ibarluzea, Thomas L. Schwartz
Abstract: A redundantly printed security-enhanced document, printing method, and system for better ensuring that the meaning of the information imparted by variable indicia printed by redundant printing indicia on a document protected by a removable Scratch-Off Coating (SOC). By printing the variable indicia with multiple colors, redundancy and integrity of the intended indicia is achieved relative to the perception of human eye photoreceptor cones. The redundantly printed document, methods, and systems enhance the overall appearance of the redundantly printed document, and reduce possible consequences resulting from misprinted variable indicia.
Type:
Grant
Filed:
May 8, 2020
Date of Patent:
July 18, 2023
Assignee:
Hydragraphix LLC
Inventors:
Kenneth Earl Irwin, Jr., Fred W Finnerty
Abstract: An apparatus configured to generate image data represented in achromatic color from input image data and output the generated image data to a printer includes a controller. The controller is configured to replace color information of an object included in the input image data with an achromatic signal value, determine, based on an achromatic signal value corresponding to color information of a pixel of interest in the input image data, whether the pixel of interest satisfies a predetermined condition, and perform enhancement processing on the color information of the pixel of interest in a case where the pixel of interest is determined not to satisfy the predetermined condition.
Abstract: An image forming apparatus comprises a reading unit that reads a document sheet, specifies image data of a comparison source document sheet, among image data of document sheets read by the reading unit; extracts a difference by comparing the image data of the specified comparison source document sheet, and image data of each of other document sheets included in the read document sheets; and creates a composite image by composing the extracted difference and the image data of the comparison source document sheet.
Abstract: Mask entries for each of a plurality of passes over which print fluid drops are to be dispensed for printing an image are generated based on different types of masks and based on image data for the image. Print fluid drop dispensation for a pixel for which the mask entries for a given pass specify repeated print fluid drop dispensation is moved to a mask entry for an adjacent pass that does not specify print fluid drop dispensation for the pixel. Ejection of print fluid to print the image is caused based on the generated mask entries.
Type:
Grant
Filed:
June 10, 2022
Date of Patent:
June 20, 2023
Assignee:
HEWLETT-PACKARD DEVELOPMENT COMPANY, L.P.
Inventors:
Pau Costal Fornells, Peter Morovic, Javier Maestro Garcia, Pere Josep Canti Nicolas, Sergio Etchebehere Juan
Abstract: A lighting device (23) irradiates a web under conveyance with light. The lighting device includes a light source (43), and an irradiation port (61) configured to open linearly in a widthwise direction of the web at an end portion facing the web. The irradiation port (61) is formed between first and second parallel portions (62b, 63b) where a first plate member (62) and a second plate member (63) parallelly face each other. The web under conveyance is irradiated with linear light. It is possible to provide a lighting device capable of irradiating only an inspection region of a sheet or a web with light.
Abstract: An image processing apparatus includes a processor configured to calculate color data for inspection by converting printing data that is data as a base of an image to be printed and includes a normal color which is a normally used color and a spot color which is a color other than the normal color, into color data of another color space in which the number of colors is decreased, for each of the printing data of the normal color and the printing data of the spot color and then, combining the color data after the conversion, and output the calculated color data for inspection.
Abstract: In a case where it is determined that a document is left behind, a display control unit is configured to control display of an icon using a result of detection by a second detection unit without using at least a result of detection by a first detection unit.
Abstract: An image processing apparatus for converting color data into gray data extracts an object included in the color data in a page, and determines, based on color information and position information on a first object and a second object extracted, whether at least one of the first object and the second object is to be a target of conversion of a color value of the color data into a gray value with improved discriminability. The image processing apparatus controls to convert the color value of the object into a gray value by a conversion targeting all color values, or into a gray value with the improved discriminability, based on the determination whether or not to be the target of conversion.
Abstract: An image processing apparatus includes an acquisition unit configured to acquire first image data indicating a reference image as a target print result, and second image data indicating a target image to be inspected, and a processing unit configured to inspect the target image by performing a correction on a second partial region adjacent to a first partial region to enhance the second partial region relative to a difference image representing a difference between the reference image and the target image based on the first image data and the second image data, the first partial region having a difference in between the reference image and the target image.
Abstract: A system encodes a plurality of colorant vectors of a printer in a Neugebauer Primary area coverage (NPac) vector for use in selecting colorants to output an image by the printer. The encoding includes using a function that relates the plurality of colorant vectors to an NP matrix including a plurality of sets of NPs that correspond to different colorant vectors of the plurality of colorant vectors, and determining the NPac vector based on achieving an objective for the function.
Type:
Grant
Filed:
June 9, 2022
Date of Patent:
May 30, 2023
Assignee:
HEWLETT-PACKARD DEVELOPMENT COMPANY, L.P.
Inventors:
Sergio Etchebehere Juan, Peter Morovic, Javier Maestro Garcia, Pere Gasparin Talarn, Jan Morovic
Abstract: An image inspection apparatus includes a processor configured to acquire printing data that is data as a base of an image to be printed, acquire read data that is data obtained by reading the image printed on a paper sheet, specify whether or not the printing data or the read data is an image corresponding to any of an image having a periodic structural feature or an image not having a structural feature, in a case where the printing data or the read data corresponds to the image having the periodic structural feature or the image not having the structural feature, perform registration using a position correction amount that is a correction amount for registering an image based on the printing data and an image based on the read data and is calculated for an already printed image, and inspect the image by comparing the printing data with the read data.
Abstract: A prescribed program causes a computer to display a first display region to execute printing by using a first color adopting an ordinary color ink being an ink of a process color and a specific color ink being an ink of a color other than the process color, and a second display region being different from the first display region to execute printing by using a second color being different from the first color and adopting at least the specific color ink.
Abstract: First relational equations which represent characteristics of respective sample colors are obtained, and for the respective sample colors, prediction values of spectral characteristics of characteristics-acquired gradation values for a prediction target color are obtained using the first relational equations. Difference values between the prediction values and actual measurement values are obtained, and a sample color for which a minimum difference value is obtained is selected as a reference color. A second relational equation that represents characteristics of the reference color is obtained, and a prediction value of spectral characteristics of a prediction target gradation value for the prediction target color is obtained using the second relational equation.
Abstract: A method of digital printing is disclosed in which a digital image to be printed has at least one region having pixels comprising superpositioned layers of a first ink and a second ink. The method includes producing at least one sample print and calibrating misalignment of the superpositioned layers at a plurality of calibration locations on the sample print. The resultant misalignment data is provided to a morphing program to pre-deform the digital image to provide a modified digital image which compensates for misalignment during printing. The image is then printed using the modified digital image. An apparatus and a machinereadable storage medium comprising instructions executable by a processor are also disclosed.
Type:
Grant
Filed:
June 26, 2019
Date of Patent:
May 16, 2023
Assignee:
HEWLETT-PACKARD DEVELOPMENT COMPANY, L.P.
Inventors:
Eduardo Amela Conesa, Diana Canto Estany, Marta Blanch Pinol
Abstract: The disclosure discloses methods and systems for handling drifting of colors in printing. The method includes receiving a document including the image for printing, the image includes one or more gray and non-gray portions. An input from a user to selectively adjust the color of the gray portions of the image is received. The gray portions of the image are identified. Then, color values associated with the identified gray portions of the image are determined. Based on the user input, the determined color values associated with the gray portions of the image are selectively adjusted, without affecting non-gray color portions of the image to generate an updated image. The updated image is printed and the printed image includes adjusted color for the gray portions of the image such that gray color in the printed image is consistent with gray color of the image in the document.
Abstract: An apparatus corrects a measurement value obtained by measuring a first image formed using a recording element that ejects ink, to identify a density characteristic of the recording element. The apparatus includes a first acquisition unit configured to acquire a second image obtained by measuring the first image, an identification unit configured to identify a boundary between regions in the second image, each of the regions corresponding to one of a plurality of head modules including the recording element, and a first correction unit configured to correct a measurement value of the second image based on the identified boundary.
Abstract: An information processing device includes an acquisition unit acquiring pre-printing image data that is obtained by digitizing, as an image, the fabric before the printing process is performed and at least one of pre-drawing image data that is obtained by digitizing, as an image, the fabric after the pre-processing is performed and before the image is drawn and post-drawing image data that is obtained by digitizing, as an image, the fabric before the post-processing is performed and after the image is drawn, a storage unit storing derivation data indicating a correspondence relationship between the pre-printing image data, the pre-drawing image data or the post-drawing image data, and a recommended parameter for at least one of the pre-processing device and the post-processing device, and a control unit deriving, based on the derivation data, the recommended parameter from the pre-printing image data, the pre-drawing image data or the post-drawing image data.