Patent application number | Description | Published |
20080212885 | SCALING DOWN OF DATA - The scaling down of data is provided. At least two blocks of transformed data samples representing at least two blocks of original data samples are received. One of at least two tables of constants is selected wherein each table of constants is capable of reducing the number of transformed data samples by a different factor. The constants taken from the selected table are applied to the at least two blocks of transformed data samples to produce one block of transformed data samples representing one block of final data samples. The data is processed one dimension at a time by multiplying the data in one dimension with selected constants taken from previously developed tables corresponding to the desired scale down factor. Scaling down by different factors in each dimension as well as scaling down in one dimension and scaling up in the other dimension may be achieved. In addition, the de-quantization of the quantized transform coefficients may be accomplished by pre-multiplication of the selected constants when the quantization values are known. In a similar way the re-quantization may be accomplished by a pre-division of the selected constants. Both de-quantization and re-quantization may be combined when the input quantized transform coefficients and output quantized transform coefficients are desired. | 09-04-2008 |
20080252495 | System and program for using a reentry data set to decode compressed data - Provided are a method, system, and program for decoding compressed data. Compressed data is received and decoded. An error is detected while decoding a first location in the compressed data. A reentry data set is accessed having a pointer to a second location in the compressed data following the first location and decoding information that enables decoding to start from the second location. The second location in the compressed data is accessed and the decoding information in the accessed reentry data set is used to continue decoding the compressed data from the second location. | 10-16-2008 |
20090060358 | SYSTEM AND COMPUTER READABLE MEDIUM FOR THE SCALING DOWN OF DATA - The scaling down of data is provided. At least two blocks of transformed data samples representing at least two blocks of original data samples are received. One of at least two tables of constants is selected wherein each table of constants is capable of reducing the number of transformed data samples by a different factor. The constants taken from the selected table are applied to the at least two blocks of transformed data samples to produce one block of transformed data samples representing one block of final data samples. The data is processed one dimension at a time by multiplying the data in one dimension with selected constants taken from previously developed tables corresponding to the desired scale down factor. Scaling down by different factors in each dimension as well as scaling down in one dimension and scaling up in the other dimension may be achieved. In addition, the de-quantization of the quantized transform coefficients may be accomplished by pre-multiplication of the selected constants when the quantization values are known. In a similar way the re-quantization may be accomplished by a pre-division of the selected constants. Both de-quantization and re-quantization may be combined when the input quantized transform coefficients and output quantized transform coefficients are desired. | 03-05-2009 |
20090141991 | System and article of manufacture for using a reentry data stet to decode compressed data - Provided are a method, system, and program for decoding compressed data. Compressed data is received and decoded. An error is detected while decoding a first location in the compressed data. A reentry data set is accessed having a pointer to a second location in the compressed data following the first location and decoding information that enables decoding to start from the second location. The second location in the compressed data is accessed and the decoding information in the accessed reentry data set is used to continue decoding the compressed data from the second location. | 06-04-2009 |
20100045722 | CORRECTION OF PRINT ENGINE ARTIFACTS USING AN ITERATIVE HALFTONING SEARCH ALGORITHM - Methods and systems herein provide for reducing artifacts during printing. One printing system is operable to prepare a continuous tone image (CTI) for printing onto a print medium by generating an initial half tone image (HTI) based on the CTI. The printing system includes a printer and a print controller. The print controller filters the initial HTI and the CTI with a perceptual filter and determines an error between the filtered CTI and the filtered HTI. The print controller prints the HTI via the printer to determine printer artifacts and processes a scanned version of the printed HTI to determine an error between the filtered CTI and the scanned and filtered HTI. This processing updates the initial HTI and reduces the error between the filtered CTI and the filtered HTI. | 02-25-2010 |
20100053665 | Print optimization mechanism - A method is disclosed. The method includes receiving a print file, removing images from the print file, replacing each image with a reference to the image, storing each image removed from the print file; and printing the print file. Each image is retrieved from storage to be printed upon encountering a reference to the image during printing of the print file. | 03-04-2010 |
20100123910 | COLOR CONVERSIONS IN THE REAL DOMAIN - Methods and systems herein provide for color conversion in the real domain from an input color space to an output color space using a color conversion table that includes color values defined in the output color space corresponding to color values in the input color space, a table of scaling factors, and a conversion engine operable to group the real domain image data into blocks of pixels. The conversion engine, for each block of pixels, converts a color value in the block of pixels from the input color space to the output color space according to the color conversion table, computes differences between the color value and color values of pixels in the block, scales the computed differences according to the table of scaling factors, and adds the scaled differences to the converted color values to convert the pixel color values to the output color space. | 05-20-2010 |
20100157358 | Distributed Global Object Cache - A method is disclosed. The method includes receiving an object at a first image transform within a control unit, the first image transform searching for the object in a local cache, retrieving the object from a second image transform upon a determination that the object been previously received at the control unit and processed at the second image transform; and the first image transform performing a raster image process on the object upon a determination that the object has not been previously received at the control unit. | 06-24-2010 |
20100157372 | OPTIMIZATION OF GRAY COMPONENT REPLACEMENT - Methods and systems herein provide for color conversion. Such color conversion includes a method of optimizing gray component replacement in a color image that includes receiving a color image from an input imaging device (e.g., a digital camera, scanner, etc), determining a color gamut of an output imaging device, such as a printer, and generating a CIELab to CMY numerical model to convert the color image to a color space within the color gamut of the output imaging device. The method also includes generating a CMYK to CIELab numerical conversion model, removing a portion of CMY color values generated from the CIELab to CMY numerical conversion model, and replacing the removed portion of the CMY color values with black color values. The method also includes optimizing CMYK color values via a multidimensional optimization using the CMYK to CIELab numerical model. | 06-24-2010 |
20100171989 | Halftone Mechanism - A printing system is disclosed. The printing system includes an image processor to rasterize a received print job and to perform a halftone by comparing a first threshold value from a threshold matrix to a first image component sample, comparing the first threshold value to a first number of sequential image component samples neighboring the first sample if the first threshold value is less than the first sample and comparing the first threshold value to a second number of sequential image component samples neighboring the first sample if the first threshold value is greater than or equal to the first sample. | 07-08-2010 |
20100313121 | AUTOMATED IDENTIFICATION OF A CUSTOMER'S DOCUMENT BY CUSTOMER SUPPORT - Customer support systems and associated methods are disclosed. A customer wishes to inquire about a particular document individualized for the customer and sends a support request to a customer support system using a client device. The support request includes identification information of the customer and image information based on an image captured by the customer from a copy of the particular document. The customer support system is operable to receive the support request and to select a subset of documents for the customer from a plurality of documents for a plurality of documents based on the identification information. The customer support system is further operable to identify the document from the subset of documents based on the image information, and to initiate a response to the support request using information from the document. | 12-09-2010 |
20110063633 | COLOR PRINTER CALIBRATION FOR MULTIPLE MEDIUMS - Methods and systems herein provide for calibrating for a plurality of different paper types. In one embodiment, a system for calibrating a printer includes a measurement module operable to detect colors printed on a first tangible medium by the printer and convert the detected colors to a detected color characterization. The system also includes a storage module operable to store a calibration file. The calibration file includes color characterizations of a plurality of different tangible mediums and each color characterization includes color measurements for one of the plurality of different tangible mediums obtained from the printer via the measurement module when the printer is calibrated. The system also includes a calibration module operable to compare the detected color characterization to at least two color characterizations of the calibration file and determine an adjustment to an output color scheme of the printer based on the comparison to calibrate the printer. | 03-17-2011 |
20110149308 | RED-GREEN-BLUE TO MONOCHROME COLOR CONVERSION - Systems and associated methods provide for converting an RGB color image to a grayscale image via a lookup table of correction values. The lookup table is generated and used to compensate for errors in converting the color image to the grayscale image. The lookup table is generated by generating a reference image having pixels with color values in the RGB color space, converting a first copy of the reference image to a grayscale reference image via interpolation, and converting a second copy of the reference image to an intermediate image. The intermediate image comprises chrominance and luminance values (e.g., YCbCR or YCgCo). The chrominance values are removed from the intermediate image. The intermediate image is then compared to the grayscale reference image to generate the correction values. The lookup table may then be applied to a grayscale image that has been converted from the RGB color image. | 06-23-2011 |
20110188763 | Image Header Compression Mechanism - A computer system is disclosed. The computer system includes a database to store image files and a compression unit to compress the image files. The compression unit includes a cache controller to control caching of header components of an image file common to two or more image files stored in the database. | 08-04-2011 |
20110235944 | DIGITAL IMAGE SCALING WITH NON INTEGER SCALING FACTORS - Non integer scaling of images to reduce artifacts is presented herein. One embodiment includes determining a scaling resolution based on a pixel resolution of the image and a pixel resolution of an output device (i.e., factors of the scaling resolution). The image is converted to the scaling resolution to change (e.g., increase) the pixels of the image by the first factor. A grid is generated to scale the converted image. The grid has a number of sections defined according to the second factor times the pixel resolution of an output device. The converted image is sectioned according to the grid. Each section of the grid includes an integer number of pixels of the converted image. The color values of the pixels of the converted image are averaged within each section of the grid to compute a single color value for each section of the grid and scale the image. | 09-29-2011 |
20130003092 | ESTIMATION OF INK/TONER COVERAGE WHEN PRINTING - In summary, the present invention provides a method, apparatus and program product for calculating an estimate of the amount of toner coverage required for printing print data defined in a compressed data stream. The estimate is obtained with reduced processing by obtaining coverage data from a partially decompressed formed of the data stream and using this to obtain the coverage estimate, thus removing the need to do a full de-compression of the data stream. For example the coverage data is a count of toned pixels for at least one intensity level. | 01-03-2013 |
20130003093 | ESTIMATION OF INK/TONER COVERAGE WHEN PRINTING - In summary, the present invention provides a method, apparatus and program product for calculating an estimate of the amount of toner coverage required for printing print data defined in a compressed data stream. The estimate is obtained with reduced processing by obtaining coverage data from a partially decompressed formed of the data stream and using this to obtain the coverage estimate, thus removing the need to do a full de-compression of the data stream. For example the coverage data is a count of toned pixels for at least one intensity level. | 01-03-2013 |
20130016401 | HALFTONING RUN LENGTH ENCODED DATASTREAMSAANM Rijavec; NenadAACI LongmontAAST COAACO USAAGP Rijavec; Nenad Longmont CO US - Methods and systems herein provide for halftoning of Run length (RL) encoded datastreams. In one embodiment, a print controller identifies a packet within a RL encoded datastream. The packing includes a header and a block of continuous tone data. The print controller identifies an array of conversion values for converting RL encoded data to halftone data, and indexes the array using one or more bytes of the block of bitmap data. The print controller then outputs halftone data from the conversion array based on the index to convert the RL encoded continuous tone data of the packet to halftone data for a print engine. | 01-17-2013 |
20130141767 | Print Verification Database Mechanism - A method is disclosed. The method includes reading image data from a print medium and performing image processing on the image data by querying a database to verify that each object to be included on the print medium appears on the medium in a manner in which it is supposed to appear. | 06-06-2013 |
20130293923 | PREDICTION OF PRINT QUALITY DEVIATIONS IN A PRINTING SYSTEM - Methods and systems herein provide for estimating when the print quality of a printer is expected to decrease below a threshold based on a function of change in the print quality of the printer. In one embodiment, a system calculates a plurality of print quality measurements based on pages printed by a printer. The system determines a function of change of the print quality of the printer that is based on changes in the print quality measurements. The system estimates when the print quality of the printer is expected to decrease below a threshold based on the function of change in the print quality of the printer. The system then provides the estimate to a print operator. | 11-07-2013 |
20140016156 | VERIFICATION OF A PRINTER CALIBRATION UTILIZING HAND-HELD MOBILE DEVICES - Methods and systems herein provide for verification of a calibration of a printer utilizing a hand-held mobile device. In one embodiment, a mobile device includes a camera that captures image data of a calibration target printed by a printing system. The image data is captured in an uncontrolled environment. The mobile device further includes a processor that determines a difference between the uncontrolled environment where the image data was captured and a controlled environment, and adjusts the image data based on the difference. The mobile device then determines whether the printing system is out of calibration based on the adjusted image data. | 01-16-2014 |