Patent application number | Description | Published |
20080280909 | NEW PHENYLALANINE DERIVATIVES - Phenylalanine derivatives of the following formula, analogues thereof and pharmaceutically acceptable salts thereof have an antagonistic activity to α4 integrin. They are used as therapeutic agents or preventive agents for various diseases concerning α4 integrin in which α4 integrin-depending adhesion process participates in the pathology, such as inflammatory diseases, rheumatoid arthritis, inflammatory bowel diseases, systemic lupus erythematosus, multiple sclerosis, Sjögren's syndrome, asthma, psoriasis, allergy, diabetes, cardiovascular diseases, arterial sclerosis, restenosis, tumor proliferation, tumor metastasis and transplantation rejection. | 11-13-2008 |
20090048236 | NEW PHENYLALANINE DERIVATIVES - Specific phenylalanine derivatives or pharmaceutically acceptable salts thereof have an antagonistic effect on the α4 integrins and, therefore, are usable as therapeutic agents or preventive agents for diseases in which α4 integrin-depending adhesion process participates in the pathology, such as inflammatory diseases, rheumatoid arthritis, inflammatory bowel diseases, systemic lupus erythematosus, multiple sclerosis, Sjögren's syndrome, asthma, psoriasis, allergy, diabetes, cardiovascular diseases, arterial sclerosis, restenosis, tumor proliferation, tumor metastasis and transplantation rejection. | 02-19-2009 |
20110065918 | NEW PHENYLALANINE DERIVATIVES - Specified phenylalanine derivatives and analogues thereof have an antagonistic activity to α4 integrin. They are used as therapeutic agents for various diseases concerning α4 integrin. | 03-17-2011 |
20120253041 | NEW PHENYLALANINE DERIVATIVES - Specified phenylalanine derivatives and analogues thereof have an antagonistic activity to α4 integrin. They are used as therapeutic agents for various diseases concerning α4 integrin. | 10-04-2012 |
Patent application number | Description | Published |
20090059248 | INKJET PRINTING APPARATUS AND PROCESSING METHOD THEREFOR - A printing apparatus prints by scanning a print head having the first nozzle array of a plurality of nozzles corresponding to the first dot size and the second nozzle array of a plurality of nozzles corresponding to the second dot size different from the first dot size. Each nozzle array has a plurality of groups each formed from a plurality of nozzles. The printing apparatus includes a print buffer for holding multi-valued data. A predetermined number of multi-valued data in the scanning direction of the print head are read out for each group from the print buffer. Dot data corresponding to a nozzle included in each nozzle array is generated from readout multi-valued data. The generated dot data is transferred to the print head. | 03-05-2009 |
20100149240 | PRINTING APPARATUS AND PRINTING METHOD - A printing apparatus which prints by discharging ink droplets from a first nozzle array and a second nozzle array based on print data using a printhead including the first nozzle array and the second nozzle array for discharging ink droplets of the same color and different discharge amounts, the apparatus comprising: a specifying unit configured to specify a discharge failure nozzle in the first nozzle array and the second nozzle array; and a controller configured to assign print data corresponding to the discharge failure nozzle specified by the specifying unit to a nozzle of a nozzle array different from a nozzle array to which the discharge failure nozzle belongs, out of the first nozzle array and the second nozzle array. | 06-17-2010 |
20100214613 | PRINTING APPARATUS AND PROCESSING METHOD THEREFOR - A printing apparatus which prints by scanning a printhead in two directions based on raster data containing multi-valued data, sequentially stores multi-valued data contained in each raster data in a print buffer in correspondence with a predetermined direction of the two directions, acquires for each raster data, identification information corresponding to the multi-valued data stored in the print buffer first and identification information corresponding to the multi-valued data stored in the print buffer lastly for each tone value based on initial values of identification information and the number of multi-valued data contained in each raster data, generates bitmap data from the multi-valued data using pattern data read out based on identification information selected based on a scanning direction of the printhead, and controls printing of the printhead based on the generated bitmap data. | 08-26-2010 |
20110032292 | RECORDING APPARATUS AND PROCESSING METHOD EXECUTED BY THE RECORDING APPARATUS - A recording apparatus configured to cause a recording head to move and scan in a reciprocating manner includes a buffer configured to store raster data including multivalued data, a table in which a plurality of dot patterns is defined for a value of the multivalued data and including a dot pattern corresponding to the value, a first information storage unit configured to store an initial value of the dot pattern according to a direction of scanning by the recording head and the value of the multivalued data, a second information storage unit configured to store information indicating an empty raster in which every multivalued data of a raster has a value of “0”, a determination unit configured to execute evaluation of the value of the multivalued data and determination as to whether a raster is the empty raster for each raster, a raster control unit configured to execute control for storing the initial value on the first information storage unit, control for storing the information on the second information storage unit, and control for storing multivalued data on the buffer according to a result of the evaluation and the determination by the determination unit, and a generation unit configured to, based on the initial value stored by the first information storage unit and the table, read the multivalued data from the buffer and generate a dot pattern based on the read multivalued data. | 02-10-2011 |
20130016369 | PRINTING APPARATUS AND PROCESSING METHOD THEREFOR - A printing apparatus which prints by scanning a printhead in two directions based on raster data containing multi-valued data, sequentially stores multi-valued data contained in each raster data in a print buffer in correspondence with a predetermined direction of the two directions, acquires for each raster data, identification information corresponding to the multi-valued data stored in the print buffer first and identification information corresponding to the multi-valued data stored in the print buffer lastly for each tone value based on initial values of identification information and the number of multi-valued data contained in each raster data, generates bitmap data from the multi-valued data using pattern data read out based on identification information selected based on a scanning direction of the printhead, and controls printing of the printhead based on the generated bitmap data. | 01-17-2013 |
Patent application number | Description | Published |
20120242869 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING SYSTEM AND IMAGE PROCESSING METHOD - According to one embodiment, an image processing device includes a motion vector generator, a correction amount generator, and a correcting module. The motion vector generator is configured to generate a horizontal direction motion vector and a vertical direction motion vector of an input video signal photographed in an order of scanning lines. The correction amount generator is configured to generate a horizontal direction correction amount based on the horizontal direction motion vector and the vertical direction motion vector by each scanning line, and generate a vertical direction correction amount based on the vertical direction motion vector by a scanning line. The correcting module is configured to correct the input video signal to generate an output video signal based on the horizontal direction correction amount and the vertical direction correction amount. | 09-27-2012 |
20130093926 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING SYSTEM AND IMAGE PROCESSING METHOD - According to one embodiment, an image processing system includes a pickup apparatus, a motion vector generator, a motion vector converter, a motion vector interpolator, a correction amount generator, and a correcting module. The pickup apparatus is configured to capture an image per scanning line and to generate an input video signal from the captured image. The motion vector generator is configured to generate a first horizontal direction motion vector and a first vertical direction motion vector indicative of a horizontal direction moving distance and a vertical direction moving distance respectively between frames in the input video signal. | 04-18-2013 |
20130243315 | IMAGE ENCODE CONTROLLER, IMAGE ENCODER AND COMPUTER IMPLEMENTED METHOD FOR ENCODING IMAGE DATA - According to one embodiment, an image encode controller includes a chroma component adjuster, a difference generator, a quantizer, an inverse-quantizer, and a variable codeword length encoder. The chroma component adjuster adjusts an original color component in accordance with a quantization coefficient to generate an adjusted chroma component. The difference generator generates a difference pixel component. The quantizer quantizes an output of the difference generator based on the quantization coefficient. The inverse-quantizer inversely quantizes an output of the quantizer based on the quantization coefficient. The variable codeword length encoder performs variable codeword length encoding with respect to an output of the quantizer to generate encoded data. The difference generator generates the difference pixel component based on a pixel component corresponding to an i-th pixel (where i denotes natural number), the adjusted chroma component, and an output of the inverse-quantizer corresponding to the (i−1)th pixel. | 09-19-2013 |
20130251255 | IMAGE COMPRESSOR, IMAGE PROCESSING SYSTEM, AND METHOD FOR COMPRESSING IMAGE - According to one embodiment, it is provided that an image compressor includes an image data controller, first to third encoders and an encoded data generator. The image data controller extracts first to third pixels. The first encoder encodes a target first pixel and generates a first encoded pixel. The second encoder encodes a target second pixel and generates a second encoded pixel. The third encoder encodes a target third pixel and generates a third encoded pixel. The encoded data generator combines the first to third encoded pixels and generates encoded data. | 09-26-2013 |
20140285505 | IMAGE PROCESSING APPARATUS AND IMAGE DISPLAY SYSTEM - According to one embodiment, an image processing apparatus includes a receiver, a write controller, and a transmission controller. The receiver is configured to receive image data which forms an image to be displayed on a display apparatus. The write controller is configured to control to divide the image data into a plurality of regions and write compressed image data obtained by compressing the image data for each region, to a frame memory. The transmission controller is configured to control to transmit, to the display apparatus, original image data, which is restored by reading the compressed image data from the frame memory and decompressing the compressed image data for each region. Each of the regions has an overlap portion which is overlapped by a part of an adjacent region. | 09-25-2014 |
20140334541 | VIDEO COMPRESSION DEVICE - With a video compression device configured to compress one pixel per cycle, a predictive pixel generation unit generates predictive pixel values of a plurality of predictive modes defined assuming local decode pixels read from predetermined positions of a line memory as upper reference pixels and an input original image pixel positioned on the left side of a pixel to be compressed as a left reference pixel for the pixel to be compressed. A predictive mode determination unit calculates a predictive error in a unit based on differential values between the pixel value to be compressed and the predictive pixel value, and selects a minimum predictive mode. A DPCM unit generates a minimum differential value between the minimum predictive pixel value and the pixel to be compressed assuming local decode pixels as upper reference pixels and a local decode pixel value one cycle before as a left reference pixel. | 11-13-2014 |