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Ichinomiya, JP
Hideo Ichinomiya, Kanagawa-Ken JP
| Patent application number | Description | Published |
|---|---|---|
| 20100106436 | POWER CONSUMPTION CALCULATION FACILITY - Embodiments of the invention include an apparatus for calculating an index value indicating power consumption, processing cost, or environmental load in a system having hardware components used by multiple processes or users. The apparatus may include an index acquisition part for acquiring an index value of a hardware component. The index value may indicate power consumption of the hardware component. The apparatus may further include an observation value acquisition part for acquiring one or more observation values for multiple processes. The observation value for each process may vary depending on use of the hardware component by the process. Finally, a calculation part may calculate, based on the observation value, a use amount of the hardware component by each process. The calculation part may further calculate the index value for a process using the hardware component by distributing the index value according to the use amount. | 04-29-2010 |
Hideo Ichinomiya, Kanagawa JP
| Patent application number | Description | Published |
|---|---|---|
| 20120069406 | DETERMINING SCAN PRIORITY OF DOCUMENTS - When a group of documents are received, the scan priority of the documents may be determined, according to one embodiment, by acquiring contexts about each of the documents and calculating a scan priority of each of the documents according to a combination of the contexts of the document. Then, each of the documents may be stored to a queue corresponding to the scan priority of the document, such that documents stored in a higher priority queue are processed before documents stored to a lower priority queue. Also, a confidentiality label may be assigned to each of the documents, starting with the documents in the highest priority queue first, based on content acquired from each of the individual documents. | 03-22-2012 |
| 20120072969 | DETERMINING A SENSITIVITY LABEL OF DOCUMENT INFORMATION IN REAL TIME - A sensitivity label for document information in a document may be determined in real time, according to one embodiment, by flexibly and dynamically determining a sensitivity label for the document based on content included in information within the document. Information within a document varies from day to day, for example, document information may decrease in importance with time, increase in importance due to an event, etc. Therefore, the sensitivity label of the document, according to embodiments described herein, may also change dynamically in accordance with document content, information, etc. | 03-22-2012 |
Kenji Ichinomiya, Koshi JP
| Patent application number | Description | Published |
|---|---|---|
| 20100128417 | PLUG-IN UNIT - A plug-in unit includes a breaker electrically connected with a busbar at a power supply side and an electric device electrically connected with the breaker. Joint surfaces making contact with each other are formed at the breaker and the electric device, respectively. The breaker includes a terminal metal fitting connecting the busbar thereto and a plug-in terminal metal fitting installed at the joint surface of the breaker, and the electric device includes a plug terminal, which is installed at the joint surface thereof and capable of being connected with the plug-in terminal metal fitting. The breaker is detachably joined with the electric device by an engaging member including an engaging unit and an engagement receiving unit. The engaging unit and the engagement receiving unit are installed at the joint surfaces of the breaker and the electric device, respectively, and detachably engaged with each other. | 05-27-2010 |
Masayuki Ichinomiya, Abiko-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20110207177 | SUGAR PRODUCTION PROCESS AND ETHANOL PRODUCTION PROCESS - The present invention provides a pretreatment method which enables the promotion of the enzymatic glycosylation of lignocellulose under relatively mild conditions by using a tree bark as a raw material with less energy. Specifically the present invention provides a step for producing a sugar from a tree bark, which is characterized by having the following steps: an alkali treatment step of immersing the tree bark in an alkali compound solution; a refining treatment step of refining the alkali treated tree bark mechanically into fine pieces; and an enzymatic glycosylation step of glycosylating the refined tree bark with an enzyme. The present invention also provides a method of producing an ethanol. | 08-25-2011 |
Noritaka Ichinomiya, Nara JP
| Patent application number | Description | Published |
|---|---|---|
| 20090021246 | ROTATION ANGLE DETECTION DEVICE AND ROTATION ANGLE CORRECTION METHOD - A device for detecting an absolute rotation angle of multiple rotation with a high accuracy and high resolution by using a target connected to the rotation axis and having an outer circumferential surface to which magnetic poles of alternate polarities are magnetized. The device includes: a first rotor holding a target connected to an input axis and having an outer circumferential surface to which magnetic poles of alternate polarities are magnetized at an identical interval and having a multi-rotatable gear; a second rotor connected to the gear of the first rotor, rotated at a low speed by the first rotor, and having a magnet at the center portion; a first detection unit and a second detection unit for detecting the rotation angles of them. With a simple configuration, it is possible to detect an absolution rotation angle with a high accuracy and a high resolution. | 01-22-2009 |
| 20090320613 | ROTATION ANGLE AND TORQUE DETECTION DEVICE - A detection device includes a first rotating body, a first target fixed to the first rotating body, a first gear fixed to the first rotating body, a first magnetic detector element for detecting a rotation angle of the first rotating body, a second gear engaged with the first gear, a second rotating body having the second gear fixed thereto, a magnet provided at the second rotating body, a second magnetic detector element for detecting a rotation angle of the second rotating body, a third rotating body, a second target fixed to the third rotating body, a third magnetic detector element for detecting a rotation angle of the third rotating body, a torsion bar connected between the first rotating body and the second rotating body, and a controller operable to determine the rotation angle of the first rotating body and a torque applied to the torsion bar based on signals output from the first, second, and third magnetic detector element. The detection device detects an absolute rotation angle of plural turns and a torque. | 12-31-2009 |
Takahiro Ichinomiya, Osaka JP
| Patent application number | Description | Published |
|---|---|---|
| 20090106721 | METHOD OF DESIGNING SEMICONDUCTOR INTEGRATED CIRCUIT IN WHICH FAULT DETECTION CAN BE EFFECTED THROUGH SCAN-IN AND SCAN-OUT - A method of designing a semiconductor integrated circuit includes steps of selecting a pair of scan registers to be connected as a scan chain and calculating a beeline distance on hardware from each output terminal of the scan register at the front stage to a scan data input terminal of the scan register at the rear stage. The method further includes steps of selecting the output terminal of the scan register at the front stage having a minimum beeline distance on the basis of the above calculation; determining to connect the selected output terminal with the scan data input terminal of the scan register at the rear stage; and forming the scan chain by connecting each pair of scan registers by using the output terminal determined in the previous step. | 04-23-2009 |
| 20090115452 | LOGIC BLOCK CONTROL SYSTEM AND LOGIC BLOCK CONTROL METHOD - The number of blocks that can be stopped when performing target processing in a programmable logic unit is obtained, and a stop rate of each of a plurality of logic blocks included in the programmable logic unit is calculated. The same number of logic blocks as the blocks that can be stopped are selected from among the plurality of logic blocks in ascending order of a stop rate, the selected logic blocks are determined as logic blocks whose operations are to be stopped, and the operations are stopped. As a technique of stopping an operation of a logic block, a gated clock technique, a power-off technique, or the like is used. | 05-07-2009 |
| 20090273366 | SEMICONDUCTOR INTEGRATED CIRCUIT, SEMICONDUCTOR INTEGRATED CIRCUIT CONTROL METHOD, AND TERMINAL SYSTEM - A semiconductor integrated circuit | 11-05-2009 |
| 20090327653 | RECONFIGURABLE COMPUTING CIRCUIT - A reconfigurable computing circuit for reducing amount of dummy data to be stored in data registers, which is required when the wiring is shared by the configuration information bus and scan chain. When data is to be stored in data registers and configuration registers constituting the scan chain in reconfig computing block | 12-31-2009 |
| 20100100219 | FABRICATION SYSTEM OF SEMICONDUCTOR INTEGRATED CIRCUIT, FABRICATION DEVICE, FABRICATION METHOD, INTEGRATED CIRCUIT AND COMMUNICATION SYSTEM - A manufacturing system which can restrain the margin of a semiconductor integrated circuit. | 04-22-2010 |
Toshimichi Ichinomiya, Tokyo JP
| Patent application number | Description | Published |
|---|---|---|
| 20090071378 | Ultra high strength fiber-reinforced cement composition, ultra high strength fiber-reinforced mortar or concrete and ultra high strength cement additives - Therefore, the problem to be solved by the present invention is to provide highly general purpose ultra high strength fiber-reinforced mortar or concrete that shows a higher fluidity (workability) at the fresh state, a higher bending strength with a less content of metal fiber by enhancing both the absolute value of the compressive strength of mortar -matrix excluding metal fiber and the ratio of the bending strength relative to the compressive strength simultaneously at the hardened state, and acceptability of fine aggregate being used in ordinary ready-mixed concrete. An ultra high strength fiber-reinforced cement composition is characterized in that it contains cement, silica fume, coal gasification fly ash, gypsum and metal fiber and that the mass ratio of silica fume : coal gasification fly ash is 95 through 50 portions: 5 through 50 portions. Ultra high strength fiber-reinforced mortar or concrete contains such a cement composition and fine aggregate. An ultra high strength cement additives is characterized in that it contains silica fume, coal gasification fly ash and gypsum as principal ingredients and the mass ratio of silica fume: coal gasification fly ash is 95 through 50 portions: 5 through 50 portions. | 03-19-2009 |