Taketa
Bryan Taketa, San Jose, CA US
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20090106110 | Method and system for promoting and transferring licensed content and applications - In accordance with the invention, digital content is able to be better promoted on mobile phones and other electronic devices. The digital content and/or references to the digital content are stored on a server device which is accessible by the mobile phones or electronic devices. In operation, a user of a mobile device acquires digital content. When the user obtains a second mobile device, to facilitate and promote the same or similar digital content on the second mobile device, the digital content or references stored on a server device are able to be used to present the possibility of acquisition of the digital content for the second mobile device. | 04-23-2009 |
20110269424 | DATA TRANSFER AND SYNCHRONIZATION SYSTEM - The invention relates to the transference of data between two systems independent of the form in which the data is kept on the respective systems, and in particular to providing an efficient means of communicating data between systems and devices. It further relates to a system for allowing users to provide other individuals with a personalized representation of the user in a network environment, such as a cellular telephone network and the backup and restoration of data stored in a wireless telephone, and in particular a mobile telephone having data storage capabilities. | 11-03-2011 |
Ichiro Taketa, Ehime JP
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20100028593 | PREPREG BASE MATERIAL, LAYERED BASE MATERIAL, FIBER-REINFORCED PLASTIC, PROCESS FOR PRODUCING PREPREG BASE MATERIAL, AND PROCESS FOR PRODUCING FIBER-REINFORCED PLASTIC - A prepreg base material includes reinforcing fibers arranged substantially in one direction and a matrix resin between the reinforcing fibers, wherein the prepreg base material has substantially throughout its entire surface incisions, each incision extending in a direction substantially crossing the reinforcing fibers, wherein substantially all of the reinforcing fibers are divided by the incisions, a length (L) of each of reinforcing fiber segments formed by the incisions is in the range of 10 to 100 mm, a thickness H of the prepreg base material is in the range of 30 to 300 μm, and a fiber volume content by Vf of the reinforcing fibers is in the range of 45 to 65%. | 02-04-2010 |
20100028616 | FIBER-REINFORCED PLASTIC AND PROCESS FOR PRODUCTION THEREOF - A fiber-reinforced plate-like plastic having a plate and a protrusion rising on the plate, wherein the plate and the protrusion each contain a laminated structure composed of plural reinforcing fiber sheets which each include many fibers of 10 to 100 mm in fiber length arranged in a fixed direction and at least two of the layers constituting the laminated structure are different in the direction of arrangement of reinforcing fibers and wherein at least part of the reinforcing fibers extend continuously from the plate to the protrusion and at least one of the layers constituting the laminated structure of the protrusion has a shape similar to the shape of the protrusion; and a process for the production of fiber-reinforced plastic which includes cutting a unidirectional prepreg sheet composed of many reinforcing fibers arranged in a fixed direction and a matrix resin into prepreg base material sheets with the above fiber length, laminating the prepreg base material sheets with the directions of arrangement of reinforcing fibers of the base material sheets being different from each other to form a prepreg laminate, and heating and pressure-molding this laminate in a mold provided with a recess for forming the production. | 02-04-2010 |
20100092770 | PROCESS FOR PRODUCING COMPOSITE PREPREG BASE, LAYERED BASE, AND FIBER-REINFORCED PLASTIC - A composite prepreg base which includes a raw prepreg base comprising a fiber sheet comprising discontinuous reinforcing fibers arranged in one direction and having a fiber length of 1-300 mm and a matrix resin infiltrated into the fiber sheet; and an additional resin layer formed on at least one surface of the raw prepreg base. The composite prepreg base is produced by a process including (i) the step of preparing the raw prepreg base and (ii) the step of forming an additional resin layer on at least one surface of the raw prepreg base prepared. Also provided are: a layered base including two or more sheets of the composite prepreg base which have been superposed so that the additional resin layer is present on at least one surface; and a fiber-rein-forced plastic formed by heating and pressing the layered base. | 04-15-2010 |
20100178495 | CHOPPED FIBER BUNDLE, MOLDING MATERIAL, AND FIBER REINFORCED PLASTIC, AND PROCESS FOR PRODUCING THEM - A chopped fiber bundle includes a large number of unidirectionally arranged reinforced fibers. The length of each of the reinforced fibers is in the range of 5 to 100 mm. The chopped fiber bundle has a transition segment in which the number of the reinforced fibers increases toward the central part of the chopped fiber bundle in the aligned direction of the reinforced fibers with both ends in the aligned of the reinforced fibers in the chopped fiber bundle being a starting point. The level of a change in total sectional area of the large number of reinforced fibers is not more than 0.05 mm | 07-15-2010 |
20130095282 | PREPREG BASE MATERIAL, LAYERED BASE MATERIAL, FIBER-REINFORCED PLASTIC, PROCESS FOR PRODUCING PREPREG BASE MATERIAL, AND PROCESS FOR PRODUCING FIBER-REINFORCED PLASTIC - A laminated base material includes a lamination and integration of prepreg base materials each of which includes many reinforcing fibers arranged substantially in one direction and a matrix resin adhered to the reinforcing fibers, wherein at least one of the laminated prepreg base materials is formed with a prepreg base material having, throughout its whole surface, many incisions each extending in a direction crossing the reinforcing fibers, substantially all of the reinforcing fibers divided by incisions, and wherein a length L of each of reinforcing fiber segments formed by the incisions is 10 to 100 mm, a thickness H of the prepreg base material is 30 to 300 μm, and a fiber volume content Vf of the reinforcing fibers is 45 to 65% and arranging directions of the reinforcing fibers between one and another laminated prepreg base materials have at least two directions different each other. | 04-18-2013 |
20130122241 | PROCESS FOR PRODUCING COMPOSITE PREPREG BASE, LAYERED BASE, AND FIBER-REINFORCED PLASTIC - A composite prepreg base includes a raw prepreg base comprising a fiber sheet including discontinuous reinforcing fibers arranged in one direction and having a fiber length of 1-300 mm and a matrix resin infiltrated into the fiber sheet; and an additional resin layer formed on at least one surface of the raw prepreg base. The composite prepreg base is produced by a process including (i) the step of preparing the raw prepreg base and (ii) the step of forming an additional resin layer on at least one surface of the raw prepreg base prepared. A layered base includes two or more sheets of the composite prepreg base which have been superposed so that the additional resin layer is present on at least one surface; and a fiber-reinforced plastic formed by heating and pressing the layered base. | 05-16-2013 |
Kaoru Taketa, Tottori JP
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20130194239 | IMAGE PICKUP DEVICE, METHOD OF MANUFACTURING THE SAME, AND IMAGE PICKUP DISPLAY SYSTEM - An image pickup device includes a sensor substrate. The sensor substrate includes: plural photoelectric conversion elements and driving elements for the plural photoelectric conversion elements which are formed on a substrate; wirings electrically connected to the driving elements; and a shield electrode disposed in a region between the plural photoelectric conversion elements and the wirings in a layer different from that of the wirings. | 08-01-2013 |
Kazuhiko Taketa, Osaka JP
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20090208122 | IMAGE CODING METHOD AND APPARATUS, AND IMAGE DECODING METHOD AND APPARATUS - In an image coding apparatus | 08-20-2009 |
Kazuhiko Taketa, Anpachi-Gun JP
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20110206286 | IMAGE CODING APPARATUS, IMAGE DECODING APPARATUS, IMAGE DISPLAY APPARATUS AND IMAGE PROCESSING APPARATUS - A wavelet transform unit performs a wavelet transform on original images and a quantization unit quantizes wavelet transform coefficients. A ROI selector selects a region of interest or regions of interest in the original image, and a ROI mask generator generates ROI masks with which the wavelet transform coefficients (which are also called ROI transform coefficients) corresponding to the regions of interest are specified. By referring to the ROI masks, a lower-bit zero substitution unit substitutes low-order bits of non-ROI transform coefficients with zeros. An entropy coding unit entropy-codes the wavelet transform coefficients sequentially from high-order bit-planes, after the substitution. A coded data generator turns coded data into streams together with parameters and then outputs coded images. | 08-25-2011 |
Kazunobu Taketa, Kanagawa JP
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20100021097 | Rolling Device - A rolling device in which rust development or damage on a raceway surface or rolling surface is hard to occur even if water and the like intrude is provided. A self-aligning roller bearing comprises an inner ring | 01-28-2010 |
Shin Taketa, Okayama JP
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20120030784 | BETA-GLUCAN-DEFICIENT GENE IN BARLEY, SYNTHETIC GENE, AND USE OF SAME - A Genomic DNA and a cDNA of a β-glucan-deficient gene in a barley and of a β-glucan synthesis gene in a barley, a barley having the genomic DNA of a β-glucan-deficient gene and a method for breeding the same, a method for producing an alcohol or a fermented food using barley kernels decreasing or deficient in β-glucan, and an animal feed composition are provided. A Genomic DNA of a β-glucan-deficient gene consisting of a base sequence having 90% or more homology to the base sequence of SEQ ID NO: 1 and producing a protein lacking a β-glucan synthesis activity when transcribed and translated, and a breeding method comprising a step of selecting a barley by determining the barley as having a β-glucan-deficient gene when the base corresponding to position 4,275, or corresponding to position 2,385, of the gene consisting of the base sequence of SEQ ID NO: 4 located near the centromere of chromosome 7H of the barley is mutated from G to A. | 02-02-2012 |
Suijin Taketa, Kawasaki JP
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20140082280 | STORAGE APPARATUS AND CONTROL METHOD - A storage apparatus is disclosed, including a first storage area, a second storage area, and a controller. The controller writes data to the first storage area based on a write request. When the data are written in the first storage area, the controller sequentially writes the data to the second storage area from a beginning of a physical address thereof. The controller outputs the data to a backup apparatus by sequentially reading out the data being written in the second storage area from the beginning of the physical address. | 03-20-2014 |
20150046394 | STORAGE SYSTEM, STORAGE CONTROL DEVICE, AND STORAGE MEDIUM STORING CONTROL PROGRAM - When a master name node has created a file, the master name node performs meta-information synchronization with only a slave name node, and does not perform the meta-information synchronization with a dummy name node. The master name node performs the meta-information synchronization with the dummy name node asynchronously with file creation. Furthermore, the slave name node stores the same meta-information as that stored in the master name node, and the file is stored in a data node placed in the same node as the slave name node and a data node placed in the same node as the master name node. | 02-12-2015 |
Youhei Taketa, Kanagawa JP
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20110188900 | URETHANE FOAM AND TONER-CONVEYING ROLLER USING THE SAME - Provided are urethane foam: which heightens toner charge amount (Q/M); by which toner is sufficiently absorbed in the surface layer of a toner-conveying roller to give a sufficient toner conveying ability; and by which a good image can be obtained with a low cost, and a toner-conveying roller using the same. | 08-04-2011 |