Tsuneda
Hidetoshi Tsuneda, Yamato-Shi JP
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20150303945 | CHIEN SEARCH DEVICE, STORAGE DEVICE, AND CHIEN SEARCH METHOD - According to one embodiment, a chien search device includes n operation units configured to perform exclusive-OR operations, for each coefficient. Further, the chien search device includes first register configured to hold operation results of the highest order operation unit, for each coefficient. Furthermore, the chien search device includes exclusive-OR operation unit configured to perform exclusive-OR operations of the operation results of the highest order operation unit, for each coefficient. Moreover, the chien search device includes second register configured to hold operation results of the exclusive-OR operation unit, for each coefficient. The respective operation units reduce the number of stages of exclusive-OR operations by using the second register values, which are obtained from the second register, and perform operations. | 10-22-2015 |
Masayuki Tsuneda, Toyama JP
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20090130331 | Method of Forming Thin Film and Method of Manufacturing Semiconductor Device - A thin film is deposited on a substrate to be processed by continuously performing: forming an amorphous thin film composed of Ti, N, C, and H as principal components; oxidizing a surface of the thin film; removing C and H, which are impurities in the thin film, by a plasma treatment, and increasing the density of the thin film; and removing a TiO thin film from a surface of the thin film. | 05-21-2009 |
20110065283 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD AND SUBSTRATE PROCESSING APPARATUS - Provided are a semiconductor device manufacturing method and a substrate processing apparatus. The method comprise: a first process of forming a film containing a predetermined element on a substrate by supplying a source gas containing the predetermined element to a substrate processing chamber in which the substrate is accommodated; a second process of removing the source gas remaining in the substrate processing chamber by supplying an inert gas to the substrate processing chamber; a third process of modifying the predetermined element-containing film formed in the first process by supplying a modification gas that reacts with the predetermined element to the substrate processing chamber; a fourth process of removing the modification gas remaining in the substrate processing chamber by supplying an inert gas to the substrate processing chamber; and a filling process of filling an inert gas in a gas tank connected to the substrate processing chamber. | 03-17-2011 |
Masayuki Tsuneda, Toyama-Shi JP
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20090253269 | SEMICONDUCTOR MANUFACTURING APPARATUS AND SEMICONDUCTOR DEVICE MANUFACTURING METHOD - A semiconductor manufacturing apparatus comprises: a substrate process chamber accommodating a substrate; a member heating the substrate, wherein the semiconductor manufacturing apparatus is a substrate processing apparatus for forming a film on the substrate by alternately supplying at least two process gases that react with each other to the substrate process chamber; gas supply units configured to supply the process gases independently; a cleaning gas supply source containing a cleaning gas for supplying the cleaning gas through the gas supply units; an exhaust control unit exhausting gas from the substrate process chamber through an exhaust pipe; an exhaust pipe heating unit heating the exhaust pipe; and a control unit controlling the exhaust pipe heating unit to keep the exhaust pipe higher than a predetermined temperature while a cleaning gas is exhausted from the substrate process chamber through the exhaust pipe by the exhaust control unit after the substrate is processed. | 10-08-2009 |
20120073500 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD AND SUBSTRATE PROCESSING APPARATUS - Provided is a semiconductor device manufacturing method and a substrate processing apparatus. The method comprise: a first process of forming a film containing a predetermined element on a substrate by supplying a source gas containing the predetermined element to a substrate processing chamber in which the substrate is accommodated; a second process of removing the source gas remaining in the substrate processing chamber by supplying an inert gas to the substrate processing chamber; a third process of modifying the predetermined element-containing film formed in the first process by supplying a modification gas that reacts with the predetermined element to the substrate processing chamber; a fourth process of removing the modification gas remaining in the substrate processing chamber by supplying an inert gas to the substrate processing chamber; and a filling process of filling an inert gas in a gas tank connected to the substrate processing chamber. | 03-29-2012 |
Satoshi Tsuneda, Tokyo JP
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20080280352 | Method and equipment for cultivating anaerobic ammonium-oxidizing bacteria - The present invention can feed substrates without waste to generate seed sludge with high bacterial cell concentrations and can start up operation within a short time, in cultivating anaerobic ammonium oxidizing bacteria with ammonium and nitrite as substrates. Equipment for cultivating anaerobic ammonium-oxidizing bacteria, which cultivates, in a cultivation tank, novel anaerobic ammonium-oxidizing bacteria that anaerobically denitrify nitrite and ammonium used as substrates, comprises an ammonium feed device which feeds ammonium at a given concentration into the cultivation tank, a nitrite feed device which feeds nitrite at a given concentration into the cultivation tank, and a control device which controls a feed rate Y of the substrate. | 11-13-2008 |
20100015719 | NOVEL MIXTURES FOR ASSAYING NUCLEIC ACID, NOVEL METHOD OF ASSAYING NUCLEIC ACID WITH THE USE OF THE SAME AND NUCLEIC ACID PROBE TO BE USED THEREFOR - [Problems] To provide a novel mixture for assaying a target nucleic acid, characterized by enabling a nucleic acid assay while: 1) requiring no step of diluting the target nucleic acid; 2) requiring no procedure of changing a probe concentration depending on a concentration of the target nucleic acid. | 01-21-2010 |
20110212442 | UNIVERSAL NUCLEIC ACID PROBE SET AND METHOD FOR UTILIZATION THEREOF - A nucleic acid probe set includes (A) a fluorescent probe and (B) a binding probe. The fluorescent probe (A) is formed of an oligonucleotide, which includes (a) a nucleotide unit labeled with (d) a fluorescent substance. The binding probe (B) is formed of an oligonucleotide having (b | 09-01-2011 |
20110224417 | NOVEL MIXTURES FOR ASSAYING NUCLEIC ACID, NOVEL METHOD OF ASSAYING NUCLEIC ACID WITH THE USE OF THE SAME AND NUCLEIC ACID PROBE TO BE USED THEREFORE - [Problems] To provide a novel mixture for assaying a target nucleic acid, characterized by enabling a nucleic acid assay while: 1) requiring no step of diluting the target nucleic acid; 2) requiring no procedure of changing a probe concentration depending on a concentration of the target nucleic acid. | 09-15-2011 |
20130065237 | NOVEL MIXTURES FOR ASSAYING NUCLEIC ACID, NOVEL METHOD OF ASSAYING NUCLEIC ACID WITH THE USE OF THE SAME AND NUCLEIC ACID PROBE TO BE USED THEREFOR - [Problems] To provide a novel mixture for assaying a target nucleic acid, characterized by enabling a nucleic acid assay while: 1) requiring no step of diluting the target nucleic acid; 2) requiring no procedure of changing a probe concentration depending on a concentration of the target nucleic acid. | 03-14-2013 |
20140178876 | UNIVERSAL NUCLEIC ACID PROBE SET AND METHOD FOR UTILIZATION THEREOF - A nucleic acid probe set includes (A) a fluorescent probe and (B) a binding probe. The fluorescent probe (A) is formed of an oligonucleotide, which includes (a) a nucleotide unit labeled with (d) a fluorescent substance. The binding probe (B) is formed of an oligonucleotide having (b1) a fluorescent probe binding region, which can hybridize to the fluorescent probe (A), and (b2) a target nucleic acid binding region, which can hybridize to a target nucleic acid sequence (C). The fluorescent substance (d) is a fluorescent substance which changes in fluorescent character upon interaction with guanine. At least one of nucleotide units which constitute the fluorescent probe (A) is an artificial nucleotide unit having a function to raise a dissociation temperature between the probe (A) and the fluorescent probe binding region (b1). The nucleic acid probe is provided with an improved fluorescence quenching efficiency. | 06-26-2014 |
Takayuki Tsuneda, Yokohama-Shi JP
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20120294175 | CONTROL DEVICE AND MOBILE COMMUNICATION METHOD - A control device | 11-22-2012 |
20120329504 | MOBILE COMMUNICATION SYSTEM, NETWORK APPARATUS, MOBILE COMMUNICATION METHOD - A network apparatus | 12-27-2012 |
20130045746 | MOBILE COMMUNICATION SYSTEM, NETWORK APPARATUS, AND MOBILE COMMUNICATION METHOD - A specific network apparatus | 02-21-2013 |
Takayuki Tsuneda, Chiyoda-Ku JP
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20130045768 | MOBILE COMMUNICATION SYSTEM, NETWORK APPARATUS, AND MOBILE COMMUNICATION METHOD - A mobile communication system | 02-21-2013 |
20130065586 | MOBILE COMMUNICATION TERMINAL, MOBILE COMMUNICATION SYSTEM, AND MOBILE COMMUNICATION METHOD | 03-14-2013 |