Abstract: A hybrid-masked halftone area Neugebauer separation (HANS) pipeline for a printing system is constructed. A number of Neugebauer Primaries (NPs) of and a halftone pattern to employ within the pipeline are selected according to specified ink interaction constraints during printing system ink output onto media, at a native resolution of the printing system. An NP area coverage (NPac)-based lookup table (LUT) and a pre-LUT color profile to employ within the pipeline are constructed according to first specified ink coverage and usage constraints during the ink output, at the native resolution. LUT post-processing and post-halftone pattern masking to employ within the pipeline are determined according to second specified ink coverage and usage constraints during the ink output, at the native resolution.

Abstract: An image magnifying apparatus includes a processor configured to execute non-transitory machine readable instructions to configure the processor to, receive the image data, generate a first interpolation pixel between pixels of the image data, by applying a first interpolation method based on a high-band spectrum of the image data, generate a second interpolation pixel between pixels of the image data, by applying a second interpolation method not based on the high-band spectrum of the image data, identify a pattern of pixels of the image data by extracting peripheral pixels of an interpolation object position in the image data, select whether to apply the first interpolation method to the interpolation object position or whether to apply the second interpolation method to the interpolation object position, and output one of the first interpolation pixel and the second interpolation pixel, as an output interpolation pixel, based on the selection.

Abstract: A display apparatus includes a display, a signal processor configured to process an image signal to display an image on the display, and a controller configured to determine at least one region of possible color distortion from an edge area in the image displayed on the display and to change a color of the determined at least one region, based on a probability that a color distortion occurs in the determined at least one region and a replacement color.

Abstract: In one embodiment of the present invention a driver configures a graphics pipeline implemented in a cache tiling architecture to perform dynamically-defined multi-pass rendering sequences. In operation, based on sequence-specific configuration data, the driver determines an optimized tile size and, for each pixel in each pass, the set of pixels in each previous pass that influence the processing of the pixel. The driver then configures the graphics pipeline to perform per-tile rendering operations in a region that is translated by a pass-specific offset backward—vertically and/or horizontally—along a tiled caching traversal line. Notably, the offset ensures that the required pixel data from previous passes is available. The driver further configures the graphics pipeline to store the rendered data in cache lines.

Abstract: A frame memory and a computing processing unit are provided within an image pickup device having a first semiconductor substrate and a second semiconductor substrate mutually stacked and electrically directly connected, and digital image data having undergone resize processing are output from the image pickup device.

Abstract: To detect an image region to be an object of thinning processing appropriately and through the use of simple processing. An image processing apparatus detects a line region being a region sandwiched by white pixel regions and consisting only of a non-white pixel region, and detects a thinning candidate region being a region sandwiched by black pixel regions in the line region. A thinning region is detected from the inside of the thinning candidate region.

Abstract: A method of transferring digital content from a mobile wireless information apparatus such as a smart phone, an information Pad, or a digital Pad to a wireless output device associated with a television by short range wireless communication. The method may include downloading video digital content from the Internet to the mobile wireless information apparatus and may open a short range wireless communication that is compatible with IEEE802.11 or with Bluetooth™ standard for output. The method may select a wireless output device associated with the television. Subsequently, the information apparatus may conform the digital content into an output data for transferring the output data over the short range wireless connection to the selected wireless output device associated with the television for output.

Abstract: A method is disclosed. The method includes intersecting a clip polygon with a source image, determining destination coordinates of the clip polygon, rasterizing the clip polygon, determining a bounding box, dividing the bounding box into a plurality of logical destination tiles, processing the destination tiles to determine coordinates of source tiles corresponding to each of the destination tiles and performing rotation processing of the source tiles, wherein each tile is processed independently.

Abstract: Devices, systems and methods are disclosed for reducing an amount of moiré pattern exhibited by an image having a halftone pattern. Regions of the image including the halftone pattern may be identified and selectively blurred to reduce the amount of moiré pattern visible to a user. The halftone pattern may be detected using digital wavelets to identify high frequency patterns in the image. The halftone pattern may be blurred using a convolution matrix having a weighted average, and a transition band may be used to reduce an intensity of the blur near the edges of the halftone pattern.

Abstract: An image processing device includes an artificial image determining unit configured to determine whether a pixel is in an artificial image by using two or more different determination criteria or conditions based on an input image signal, where the determination criteria include any one or more of a first determination criterion for determining whether the pixel is part of an artificial image by determining whether a predetermined area including the pixel represents a flat area, a second determination criterion for determining whether the pixel is part of an artificial image by determining whether the predetermined area represents a gradation area, or a third determination criterion for determining whether the pixel is part of an artificial image by determining whether the predetermined area represents a color change area.

Abstract: An image processing device includes a first subdividing unit that subdivides an image, a second subdividing unit that subdivides an image subdivided by the first subdividing unit along an axis that is independent from an axis of subdivision by the first subdividing unit, a differential unit that generates a difference between an image subdivided by the second subdividing unit and an image stored in an image storage unit, and a coding unit that codes a difference image generated by the differential unit.

Abstract: Apparatus, methods, and other embodiments associated with image morphology operations that provide fractional pixel dilation and erosion are described. According to one embodiment, an apparatus includes scaling logic configured to scale up an input data structure of image pixel data from a first number of pixels to a second number of pixels to generate a scaled-up data structure of image pixel data. The apparatus also includes morphology logic configured to perform a morphological operation on the scaled-up data structure of image pixel data to generate a morphed data structure of image pixel data. The apparatus further includes sub-sampling logic configured to sub-sample the morphed data structure of image pixel data to generate an output data structure of image pixel data. The output data structure of image pixel data has a same number of pixels as the input data structure of image pixel data.

Abstract: There are disclosed an image processing system which can scale up an image while maintaining a quality of the image, an image processing method, and an image processing program.

Abstract: An information processing apparatus includes a receiving unit configured to receive a pattern indicating positions of non-transparent pixels of a semi-transparent object; a multivaluing processing unit configured to perform multivaluing processing on the received pattern; a scaling processing unit configured to perform scaling processing on the multivalued pattern, and an applying unit configured to apply a screen to the scaled pattern.

Abstract: An image forming apparatus forms an image by irradiating light from a light source to an image carrier. The image forming apparatus includes: an image processing unit that processes image data at resolution N; and a control unit that generates modulation data to drive the light source at resolution m×N (m is a positive integer equal to or larger than 2), which is higher than the resolution N, based on the processed image data. Processing at the image processing unit is pseudo-halftone processing to perform line thinning or thickening on a part of the image data. The control unit converts the image data at the resolution N that has been subjected to the pseudo-halftone processing into data at the resolution m×N, and adjusts an amount of light for a part of the image data based on the resolution m×N.

Abstract: An image enlargement processing portion 16 of the image processing device includes a data acquisition section 70 which judges whether or not photographing condition data is included in the image photographing data, and for acquiring content of the photographing condition data in a case where it is judged that the photographing condition data is included in the input image photographing data, and an enlargement process determination section 72 which determines a process parameter for an enlargement process for generating enlarged image data from the imaging data, in which the photographing condition data includes information regarding presence or absence of an optical low-pass filter during creation of the imaging data or information regarding an array of color filters of an imaging portion used to create the imaging data.

Abstract: Methods and systems for using ink-jet technology for high speed printing are provided. Print growth between pixels in an image is significantly reduced or eliminated by adjusting the printing of the pixels based on the status of the following pixel to be printed, i.e., whether the following pixel is either black or white. If a black pixel, formed by a plurality of columns of dots, is being followed by a white pixel, the column of dots closest to the white pixel will not be printed, and the column of dots in the black pixel next to the column of dots closest to the white pixel are staggered such that the pixel appears filled despite the absence of the column of dots closest to the white pixel and will still be properly read as a black pixel by a scanner reading the image.

Abstract: An image processing apparatus comprises: a decision unit which decides, based on a first resolution and a second resolution, a sampling pixel to be used for resolution conversion in the first image data; a determination unit which determines whether the first image data includes a white line of not larger than a predetermined width; a replacing unit which, in a case where a pixel of interest in the first image data is a pixel included in the white line and is not the sampling pixel, replaces a value of the pixel of interest with a value of a pixel adjacent to the pixel of interest; and a conversion unit which converts the first image data including the replaced value of the pixel into the second image data having the second resolution.

Abstract: A super-resolution method and apparatus for a video image are disclosed. The method includes performing super-resolution processing based on fuzzy motion estimation by integral multiple times on an original low-resolution video image, to obtain an intermediate high-resolution video image. When resolution of the intermediate high-resolution video image is different from resolution of a target high-resolution video image, a non-integral multiple between the resolution of the target high-resolution video image and the resolution of the intermediate high-resolution video image is calculated. Super-resolution processing based on interpolation by the non-integral is performed multiple times on the intermediate high-resolution video image, to obtain the target high-resolution video image.

Abstract: An image forming apparatus includes low and high resolution imaging portions, a data generating portion, first and second reading portions, and a reading control portion. The first reading portion acquires, from the high resolution imaging portion, as output data for one pixel, data acquired by n-number of light receiving elements adjacent to each other in a main scanning direction in the high resolution imaging portion. The second reading portion acquires output data from light receiving elements arranged in the main scanning direction from a start position displaced by a distance corresponding to m times a second pitch in the main scanning direction from a first reference position in the high resolution imaging portion, where m is an integer. The reading control portion executes a reading operation for a document by the low and high resolution imaging portions, selecting the first reading portion or selecting both of the reading portions.

Abstract: An image processing device comprises a color conversion unit that converts image data expressed in a first color space to ink quantity data expressed in a second color space, the ink quantity data comprising ink quantity data for chromatic color and ink quantity data for black; and a density adjustment unit that increases or decreases the ink quantity data for chromatic color based on a first adjustment value specified for chromatic color and increases or decreases the ink quantity data for black based on a second adjustment value specified for black.

Abstract: A system and method of calibration, screening, and compensation is presented for multiple gray-level digital presses. Unequal quantization of the input range is employed with compensated overlapping of sub-ranges. Multiple instances of bi-level screening algorithms, tone modification functions, and a recombination algorithm are employed to produce calibrated screening on individual tone ranges. The method works with any bi-level screening algorithm and devices with any number of gray-levels. Quality imaging results from high detail, high tonal accuracy, low screening noise, and lack of printed artifacts. Dynamic re-calibration is facilitated. The elimination of the constraint of evenly spaced gray-levels also has advantages of cost and yield for both print head fabricators as well as digital press manufacturers. Multiple implementations of the system and method are given for both hardware and software embodiments of the invention.

Abstract: A quantization method according to an aspect of the present invention includes the steps of quantizing a first image data by the use of a basic pattern and converting the first image data into a second image data that represents a binary or multi-level quantized pattern having a gray level smaller than that of the first image data. The basic pattern according to this aspect of the present invention presents high frequent occurrence of the basic tone patterns and a mostly uniform-distributed pattern of the clusters of different kinds of the basic tone patterns in the image with the long-distance autocorrelation (periodicity) of the basic tone patterns suppressed. Quantization by the use of this basic pattern provides a quantized pattern that reflects pattern characteristics of the basic pattern.

Abstract: An image processing device adjusts black separately from chromatic colors and applies density adjustment capable of controlling the amount of color material according to the density. Such image processing device, capable of communicating with an image recording device, includes a color conversion unit that converts image data expressed in a first color space to color material amount data expressed in a second color space used by an image recording device; a density adjustment unit that increases or decreases the color material amount data based on a specified adjustment value; a dot breakdown unit that converts the increased or decreased color material amount data to dot quantity data expressed as a dot quantity for each of different sizes of dots formed by the image recording device; and a halftone process unit that converts the dot quantity data to data denoting whether or not the dots are formed.

Abstract: Disclosed is an image processing apparatus which uses a threshold matrix of a resolution higher than a resolution of an input image, the image processing apparatus including: a screen processing section which performs screen processing on an input image which is input; a matrix storage section which stores a threshold matrix of a resolution higher than a resolution of the input image; a threshold obtaining section which obtains a new threshold corresponding to each pixel of the input image based on a threshold of each cell composing the threshold matrix, wherein the screen processing section compares the pixel value of each pixel of the input image with the new threshold corresponding to each pixel of the input image obtained by the threshold obtaining section and generates a multivalue output image.

Abstract: In a control apparatus, first type binary image data representing density of pixels arranged along a first image direction at a first resolution is acquired, and a first determining process is executed to determine an exposure pattern used to execute exposures of exposure lines at a second resolution lower than the first resolution along a first exposure direction. In the first determining process, a partial exposure pattern for exposing an output partial area that is correlated with a binary partial area and that overlaps N successive exposure lines is determined such that distribution of exposure amounts in the output partial area along the first exposure direction differs according to layout of second-value pixels in the binary partial area at least in the first image direction, thereby enabling an image of color material to be formed through development at a resolution higher than the second resolution in the first exposure direction.

Abstract: The screened printing data are subjected to a filtering method, the raster information being maintained. Intermediate tonal values are produced by the filtering method, using the binary tonal values, the intermediate tonal values being configured in such a way that, by means of a color space transformation, transformed tonal values and/or intermediate tonal values can be formed which represent a true-to-color proof.

Abstract: A method of forming a dithering mask includes providing a specific sub-dithering mask, and generating a plurality of sub-dithering masks of the dithering mask by adjusting the specific sub-dithering mask. The dithering mask generated by the method includes a plurality of sub-dithering masks, each sub-dithering mask includes (4N)×(4N) dithering values, where N is an integer, and at least two sub-dithering masks of the plurality of sub-dithering masks have different contents. By breaking the regularity in the dithering mask, flickering patterns or visual patterns can be avoided on the screen, thereby raising the displaying quality of the screen.

Abstract: An image forming apparatus includes an image interpolation unit to compute a correct pixel value of a target pixel subject to interpolation of a halftone image. The image interpolation unit includes a base pattern setting unit to set a base pattern including the target pixel, a reference pattern setting unit to set reference pattern in a region peripheral to the target pixel, an analogous pattern acquisition unit to acquire at least one analogous pattern analogous to the base pattern from the reference pattern, a high-resolution pattern creating unit to create a high-resolution pattern having a predetermined resolution or higher by synthesizing the acquired analogous pattern, a pixel value estimating unit to compute an estimated pixel value of the target pixel based on the created high-resolution pattern, and a pixel value determination unit to determine the correct pixel value of the target pixel based on the computed estimated pixel value.

Abstract: What is disclosed is a novel system and method for determining an amount of clear toner to be applied to a document image to improve smoothness in an output print rendered using a xerographic device capable of applying clear toner to the image in the image path. Using clear toner to improve smoothness enables a GCR strategy in which more black can be used. This, in turn, decreases the incremental cost for clear toner. The teachings hereof present attractive trade-offs for print shops specializing in color document reproduction and other customers of high-end xerographic devices capable of applying clear toner. Various embodiments are disclosed.

Abstract: An ink jet printing apparatus which inhibits possible bleeding by thinning color data adjacent to black data and enables printing free from image quality degradation such as gradation skip is provided. Specifically, when only one pixel has color data and pixels located vertically and horizontally adjacent to that pixel have no color data, an isolated point pixel containing a color dot is detected only in that pixel. Then, the dots other than the isolated point are thinned-out. This makes it possible to inhibit possible bleeding at the boundary between a color area and a black area and to achieve proper printing with the appropriate gradation of the entire image maintained.

Abstract: The invention relates to a method for acquiring a substantially complete depth map from a 3-D scene. Both depth values and derivates of depth values may be used to calculate a pixel dense depth map with the steps of acquiring partial depth map from said 3-D scene, acquiring derivates of depth information from said scene, and extending said partial depth map by adding non-relevant information to said partial depth map, creating a pixel dense full depth map being spatially consistent with both said partial depth map and said derivates of depth information.

Abstract: In the image processing device, method and system of the present invention, a destination identifier of an image file is stored, the destination identifier indicating one of a plurality of external stations as a destination station which receives the image file from the image processing device through a network. At least one of a sender identifier of the image file, a subject identifier of the image file and a scan condition of the image file is stored. The image file is transmitted, together with at least one of the sender identifier, the subject identifier and the scan condition, through the network to one of the external stations indicated by the stored destination identifier.

Abstract: An apparatus for enhancing halftone image (204) appearance for imaging on a flexographic plate (108) includes a computer (130) adapted to receive a halftone image; an analysis element adapted to scan the previously produced halftone image and to detect areas (404) in the previously produced halftone image which are populated with dots which are smaller than a previously set minimal dot size value; an enhancement element adapted to replace the small dots with a reduced number of dots wherein each of the reduced number of dots are larger in size (504) than the small dots and wherein each of the reduced number of dots maintain original geometric characteristics of the small dots to create an enhanced halftone image; and an imaging head adapted to image the enhanced halftone image on an imaging system.

Abstract: A method adapts image data using more than eight bits per pixel to be compatible with devices using only 8-bit per pixel data. The method separates the higher bit depth data into an 8-bit image data stream, the balance of the bits are carried in a separate tag data stream. The 8-bit image data stream can be used in legacy devices that can handle only 8-bit data, and the tag data stream can be used in legacy devices that incorporate a tag data stream for their internal image processing.

Abstract: An image forming apparatus includes an image forming station for forming a pattern image on a recording material; an image reading station for reading a pattern image formed on a recording material by the image forming station; and a tone gradation corrector for calculating a halftone dot area property on the basis of the density of the pattern image read by the image reading station and for executing tone gradation correction in the image forming station on the basis of the calculated halftone dot area property.

Abstract: Provided is a 3-colorant DOD (dot-off-dot) periodic halftone geometry used to render an image. The DOD 3-colorant halftone geometry includes a base colorant halftone screen with hexagonally tiled halftone dots arranged in a hexagonal pattern, the hexagonally tiled halftone dots having a first fundamental frequency vector Vh1, a second fundamental frequency vector Vh2, and a third fundamental frequency vector Vh3, where Vh3 is substantially equivalent to Vh1+Vh2.

Abstract: A method (and system) for changing spatial resolution of an image includes systematically creating an image scaling look-up table including at least one pixel replacement pattern and applying a scaling algorithm to modify the image using the image scaling look-up table, thereby allowing a user to scale binary images with easy control of dot gain, output bit depth and other printer parameters.

Abstract: An image processing apparatus regardless of usage environment, at any time, for any occasion, without requiring a dedicated chart or device, spatial frequency conversion method and program for the apparatus that can calculate spatial frequency response characteristics necessary for calibration. The apparatus includes first and second image reading units reading a print-out image of a patch image stored in a storage section, and first and second spatial frequency conversion units performing spatial frequency conversion on images read by first and second reading units. Based on the amounts of change, caused through processing by first spatial frequency conversion unit, in spatial frequency response, the apparatus determines a patch image used for spatial frequency conversion, and calculates correction amounts for conversion by first and second spatial frequency conversion units, according to a result of spatial frequency conversion, using the patch image, by first and second spatial frequency conversion units.

Abstract: An image processing method includes: generating a stochastic screening dither matrix (S101); performing a centered positive-negative conversion operation on the stochastic screening dither matrix (S102); generating a screen dot dither contrast matrix for each color surface according to the stochastic screening dither matrix after being subjected to the positive-negative conversion operation and a stochastic screening dither threshold set for each color surface of an image; performing a logical “and” operation between each data item in a one-bit amplitude modulation screen dot matrix of each color surface of the image and a data item at a corresponding position in the screen dot dither contrast matrix of the color surface, and using a result as a processed value of a corresponding data item in the one-bit amplitude modulation screen dot matrix of the color surface. An apparatus corresponding to the image processing method is also provided.

Abstract: An image processing apparatus includes a correcting unit that performs enlarging or reducing correction on an image to be processed by determining an arrangement of pixels that are to be added to or deleted from gradational image data of the image to be processed based on an angle at which the pixels are to be arranged with respect to a horizontal direction of the image to be processed or with respect to a vertical direction of the image to be processed, and a pixel array control unit that changes the angle at which the pixels are arranged based on a test image of the image data to be processed after being corrected by the correcting unit.

Abstract: A method and a printing system are described capable of rendering more than 2 density levels at the device pixel level using precalculated rectangular screening tiles of finite size that define a spatially repetitive screening operation according to geometric clustered dot screen definitions for first, second and third separation screens that has the following characteristics: (A) the set of at least three separation screens is free of second order moiré; (B) the set of at least three separation screens consists of screens that have no internal moiré and/or screens that have a reduced sensitivity to amplification by process instability of any remaining level of intrinsic internal moiré; and (C) the screens have an optimized and balanced rosette structure leading to a reduction of visible patterning in overlays of the separation screens.

Abstract: A method of file preparation, ripping and plate making for high end graphics printed on cylindrical products utilizing Dry Offset printing presses. While utilizing two inverse angle techniques and one fixed angle on the Black, with virtually unlimited color pluralities, encompassing a majority of all open areas of the common printing blanket without any ink overlap. The nesting of the halftone dots at even coarse line screen rulings eliminating a dot rosette pattern and creating a continuous tone appearance. Print contrast is increased to that of offset printing quality and ink contamination over the course of the run length is virtually eliminated. This current invention also increases the ability to print white with colors as opposed to needing white coating done in advanced to transparent plastics and metallic surfaces.

Abstract: In the image processing device, method and system of the present invention, a destination identifier of an image file is stored, the destination identifier indicating one of a plurality of external stations as a destination station which receives the image file from the image processing device through a network. At least one of a sender identifier of the image file, a subject identifier of the image file and a scan condition of the image file is stored. The image file is transmitted, together with at least one of the sender identifier, the subject identifier and the scan condition, through the network to one of the external stations indicated by the stored destination identifier.

Abstract: A method of processing a continuous tone image includes using a halftone screen to generate a bi-level bitmap; partitioning the contone image into an array of image blocks; halftoning the image blocks; using the bi-level bitmap to select some of the halftone image blocks; and modifying the selected halftone image blocks using code words, such that information contained in the code words is embedded in a halftone image. A method of extracting embedded information in a halftone image includes accessing a bi-level bit map; partitioning the halftone image into a plurality of image blocks; using the bitmap to select at least some of the blocks; identifying a code word sequence in the selected blocks; and extracting the information from the code word sequence.

Abstract: Disclosed herein is an image processing apparatus including: a screen processor for determining each pixel value of a screen processing application unit region composed of a plurality of pixels to which a threshold matrix is applied, in an inputted image; and for carrying out a screen processing by applying one threshold matrix among a plurality of threshold matrices in which applied positions of the threshold values are different from each other, to the plurality of pixels in the screen processing application unit region based on each determined pixel value.

Abstract: When a multi-level image having a first resolution is converted into a multi-level image having a second resolution lower than the first resolution, attribute data including a conversion processed flag indicating a kind of conversion and a conversion result is generated and held associated with pixel data of a pixel on interest undergone the conversion corresponding to an attribute flag indicating an attribute in which a pixel before the conversion is located. When the multi-level image having the first resolution is restored from the multi-level image having the second resolution, the pixel data of the pixel of interest is replaced with pixel data of a plurality of pixels in correspondence with the conversion processed flag in the attribute data held associated with the pixel data of the pixel on interest and pixel data of pixels around the pixel of interest.

Abstract: An image forming apparatus which forms a halftone image on a print medium (200) using multipass processing of scanning a single area on the print medium (200) by a printhead (220) N times and forming dots every scan operation includes a pass division table (410) used to set the print density ratio of each scan operation, a print data generation unit (370) which generates print data of each scan operation, a printer engine (180) which prints a halftone image on the print medium (200) on the basis of the generated print data, and a sensor (340) which detects the state of printing on the print medium (200) by the printer engine (180). The print data generation unit (370) corrects print data in synchronism with printing by the printer engine (180) on the basis of the set print density ratio and the detected printing state.

Abstract: A method is disclosed for screening color separations of a lenticular image with a lenticular frequency of the lenticular lenses needed for viewing the lenticular image. An amplitude-modulated halftone image is calculated for each of the color separations at a screen angle and at a screen frequency, the tangent of the screen angle being a rational number. For a specific color separation, a screen angle relating to the direction perpendicular to the image strips of the lenticular image is defined, a pair of whole numbers whose ratio is equal to the tangent of the screen angle is determined, and the screen frequency of the color separation is calculated as the product of the lenticular frequency and the square root of the sum of the squares of the two whole numbers.

Abstract: Example embodiments are directed to an apparatus and method of image processing. Moving speed control processing performed by a control unit causes an image reading portion to move the position of a reading line in a sub-scanning direction of a document, to read an image on the document in the main scanning direction, and to output the image data on the read line. A read image correction portion converts the image data characteristics to data characteristics that are predetermined at the time of accumulation of the image data, and accumulates the converted image data. Then, an image processing portion converts the accumulated image data characteristics into device characteristics of a device to which the image data is output, and outputs the converted image data to an image writing portion or to the device to which the image data is output, via an external I/F control unit.