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Bandoh, JP
Akira Bandoh, Chiba JP
| Patent application number | Description | Published |
|---|---|---|
| 20080230800 | N-Type Group III Nitride Semiconductor Layered Structure - An object of the present invention is to provide a low-resistance n-type Group III nitride semiconductor layered structure having excellent flatness and few pits. The inventive n-type group III nitride semiconductor layered structure comprises a substrate and, stacked on the substrate, an n-type impurity concentration periodic variation layer comprising an n-type impurity atom higher concentration layer and an n-type impurity atom lower concentration layer, said lower concentration layer being stacked on said higher concentration layer. | 09-25-2008 |
Kazuhiko Bandoh, Kyoto JP
| Patent application number | Description | Published |
|---|---|---|
| 20110233821 | COMPRESSION RESIN SEALING AND MOLDING METHOD FOR ELECTRONIC COMPONENT AND APPARATUS THEREFOR - A compression resin sealing apparatus includes cooling means ( | 09-29-2011 |
Kenichi Bandoh, Kanagawa JP
| Patent application number | Description | Published |
|---|---|---|
| 20100100217 | Control System and Method for Controlled Object in Time Variant System With Dead Time, Such As Single Crystal Production Device by Czochralski Method - To accurately control controlled object in a time variant system with a dead time such as a Czochralski method single crystal production device (CZ equipment). The dead time, the time constant, and the process gain value of a controlled object (CZ equipment) ( | 04-22-2010 |
Kenichi Bandoh, Hiratsuka-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20100133256 | STAGE FOR SUBSTRATE TEMPERATURE CONTROL APPARATUS - A stage for a substrate temperature control apparatus having high responsibility at low cost by preventing thermal deformation of a plate while employing a material other than ceramics as a material of the plate. The stage for a substrate temperature control apparatus is a stage to be used for mounting a substrate in the substrate temperature control apparatus for controlling a temperature of the substrate, and the stage includes: a plate having a first surface facing the substrate and a second surface opposite to the first surface; and a planar heater bonded to the second surface of the plate, wherein surface treatment is performed in a first thickness on the first surface of the plate, and the surface treatment is performed in a second thickness thinner than the first thickness or no surface treatment is performed on a predetermined area of the second surface of the plate. | 06-03-2010 |
| 20100271603 | STAGE FOR SUBSTRATE TEMPERATURE CONTROL APPARATUS - A stage for substrate temperature control apparatus in which an extent of a transient temperature distribution that occurs when a substrate is heated or cooled can be reduced in comparison with the conventional one. The stage for substrate temperature control apparatus is a stage to be used for mounting a substrate having a predetermined diameter in a predetermined position in a substrate temperature control apparatus for controlling a temperature of the substrate, and includes: a plate formed with a step part, which is lower than a center part, on a first surface facing the substrate in a region including a position corresponding to an edge of the substrate; and a temperature control unit provided on a second surface opposite to the first surface of the plate. | 10-28-2010 |
Shunichi Bandoh, Gifu JP
| Patent application number | Description | Published |
|---|---|---|
| 20080234833 | Method of Designing and Manufacturing Artificial Joint Stem with Use of Composite Material - The method of designing and manufacturing the artificial joint stem, comprising steps of performing analysis of the internal stress of the artificial joint stem and bone and the adhesive stress of the artificial stem and bone, using the computer, based on the three dimension data indicating the structure of the bone formed by using plural tomographic images of the bone, the design condition involving the form and stiffness of the artificial joint stem configured by using at least one of the tomographic images and the three dimension data, wherein if the result of the analysis does not satisfy the design condition, the condition is changed to have the computer reanalyze and if the result of the analysis satisfies the design condition, the artificial joint stem is designed and manufactured with the stem data based on the result of analysis and the design condition. | 09-25-2008 |
Takeshi Bandoh, Ehime-Ken JP
| Patent application number | Description | Published |
|---|---|---|
| 20110303663 | OPENABLE AND CLOSABLE CONTAINER - An openable and closable container that includes: a container body having a take-out opening, and an opening-closing lid provided on the container body swingably about a swing axis on a base end side, the opening-closing lid opening and closing the take-out opening. Plate rubber (an elastic member) is provided between the container body and the opening-closing lid. The container body has a housing portion housing one end of the plate rubber in a horizontal direction. The rear surface of an upper plate of the container body is generally made flat for allowing a sealed bag storing wet tissue paper to adhere to the rear surface of the upper plate. | 12-15-2011 |
Takeshi Bandoh, Kagawa JP
| Patent application number | Description | Published |
|---|---|---|
| 20100300915 | WET SHEET FLEXIBLE PACKAGE AND LABEL FOR THE WET SHEET FLEXIBLE PACKAGE - The present invention relates to a wet sheet flexible package | 12-02-2010 |
| 20110240514 | DISPENSING CONTAINER FOR WET SHEETS - A dispensing container for wet sheets includes a container body having an opening through which wet tissue sheets are pulled out and a lid adapted to seal and unseal the opening. The lid is formed with an annular ridge. The ridge is put in pressure contact with a corner edge of an elastically deformable packing provided on a top surface of the container body to seal the opening. | 10-06-2011 |
| 20110262512 | CHEMICAL LIQUID FOR ALCOHOL STERILIZATION SHEET AND ALCOHOL STERILIZATION SHEET CONTAINING SAME - The liquid composition of the present invention contains 0.01 to 1 wt % of a nonionic surfactant (a), 0.05 to 1 wt % of a dihydric alcohol having 2 to 4 carbon atoms (b), and 30 to 70 wt % of ethanol (c), the nonionic surfactant (a) is at least one selected from the group consisting of alkyl ether type nonionic surfactants and polyoxyethylene hydrogenated castor oil type nonionic surfactants, the mole number of ethylene oxide per mole of the nonionic surfactant (a) being 20 to 100, and the HLB value of the nonionic surfactant (a) being 13 to 20. According to the present invention, a liquid composition for obtaining an alcohol sterilization sheet, that wipes smoothly, removes grime well, dries quickly after wiping, does not leave wipe marks, does not result in uneven wipe, and does not have a strong alcohol odor, can be obtained | 10-27-2011 |
Takeshi Bandoh, Kagawa-Ken JP
| Patent application number | Description | Published |
|---|---|---|
| 20110095042 | STACK OF SHEETS AND SHEET CONTAINER - It is an object of the invention to provide a technique for taking out folded sheets without increasing the height of a stack of sheets in a stacking direction. A representative stack of sheets includes first sheet bodies | 04-28-2011 |
| 20110101592 | STACK OF SHEETS AND SHEET CONTAINER - A representative stack of sheets including sheet bodies each of which is formed by folding a sheet and has a plurality of pieces between both ends of the sheet body. The sheet bodies are stacked one on another in such a manner that one of the plurality of pieces of each of the sheet bodies on one side in a stacking direction and another piece on the other side are inserted between pieces of an adjacent sheet body on one side in the stacking direction with respect to the sheet body and between pieces of an adjacent sheet body on the other side in the stacking direction, respectively, wherein an auxiliary piece is formed by folding an end of the piece of the sheet body. | 05-05-2011 |
| 20110155738 | CONTAINER ARRANGEMENT - It is an object of the invention to provide a technique for taking out an article from a package housed within a container. Wet tissues are stored in a package, and the package is housed within a container. The package has an opening-closing portion formed by a laminated portion of a first sheet and a second sheet, and a proximal portion formed by a portion of the second sheet which protrudes from the first sheet. One side of the first sheet is removably bonded to the top of the body by a first adhesive. One side of the second sheet is bonded to the other side of the first sheet and also to the top of the body by a second adhesive. The package is housed within the container in the state in which the opening-closing portion of the lid is peeled off the top of the body, turned over and bonded to the back of the body by the first adhesive. | 06-30-2011 |
Yukihiro Bandoh, Yokosuka-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20100067579 | VIDEO ENCODING METHOD AND DECODING METHOD, APPARATUSES THEREFOR, PROGRAMS THEREFOR, AND STORAGE MEDIA FOR RECORDING THE PROGRAMS - A video encoding method, in which a video signal consisting of two or more signal elements is targeted to be encoded, includes a step of setting a downsampling ratio is set for a specific signal element in a frame, in accordance with the characteristics in the frame; and a step of generating a target video signal to be encoded, by subjecting the specific signal element in the frame to downsampling in accordance with the set downsampling ratio. The frame may be divided into partial areas in accordance with localized characteristics in the frame; and a downsampling ratio for a specific signal element in these partial areas may be set in accordance with the characteristics in each partial area. | 03-18-2010 |
| 20100215095 | VIDEO SCALABLE ENCODING METHOD AND DECODING METHOD, APPARATUSES THEREFOR, PROGRAMS THEREFOR, AND RECORDING MEDIA WHERE PROGRAMS ARE RECORDED - A video scalable encoding method calculates a weight coefficient which includes a proportional coefficient and an offset coefficient and indicates brightness variation between an encoding target image region and a reference image region in an upper layer, calculates a motion vector by applying the weight coefficient to an image signal of a reference image region as a search target and executing motion estimation, and generates a prediction signal by applying the weight coefficient to a decoded signal of a reference image region indicated by the motion vector and executing motion compensation. Based on encoding information of an immediately-lower image region in an immediately-lower layer, which is present at spatially the same position as the encoding target image region, a data structure of the weight coefficient is determined. When the immediately-lower image region performed interframe prediction in the immediately-lower layer, the method identifies an immediately-lower layer reference image region that the immediately-lower image region used as a prediction reference for motion prediction, and calculates the weight coefficient by applying a weight coefficient that the immediately-lower image region used in weighted motion prediction to a DC component of an image region in the upper layer, which is present at spatially the same position as the immediately-lower layer reference image region, and assuming a result of the application as a DC component of the immediately-lower image region. | 08-26-2010 |
| 20100329344 | SCALABLE VIDEO ENCODING METHOD AND DECODING METHOD, APPARATUSES THEREFOR, PROGRAMS THEREFOR, AND STORAGE MEDIA WHICH STORE THE PROGRAMS - A scalable video encoding method of performing encoding by predicting an upper-layer signal having a relatively high spatial resolution by means of interpolation using an immediately-lower-layer signal having a relatively low spatial resolution. The method computes a first weighting coefficient for each image area of a predetermined unit size in a search for estimating a motion between an encoding target image area in an upper layer and a reference image area, where the first weighting coefficient is computed based on a brightness variation between an image area, which belongs to an immediately-lower layer and has the same spatial position as the encoding target image area, and the reference image area; and performs a motion estimation using a signal which is obtained by correcting a decoded signal of the reference image area by the first weighting coefficient and functions as an estimated signal in the motion estimation, so as to compute a motion vector. Then the method computes a second weighting coefficient based on a brightness variation between a reference image area indicated by the motion vector and the image area which belongs to the immediately-lower layer and has the same spatial position as the encoding target image area; and determines a signal, which is obtained by correcting a decoded signal of the reference image area by using the second weighting coefficient, to be a compensated signal in motion compensation, which functions as a predicted signal of the encoding target image area. | 12-30-2010 |
| 20110194599 | SCALABLE VIDEO ENCODING METHOD, SCALABLE VIDEO ENCODING APPARATUS, SCALABLE VIDEO ENCODING PROGRAM, AND COMPUTER READABLE RECORDING MEDIUM STORING THE PROGRAM - In scalable video encoding, incidence rates of combinations of optimum prediction modes to be selected for spatially corresponding blocks of an upper layer and a lower layer are determined based on an optimum prediction mode that was selected in a conventional encoding, and then a correspondence table that describes relationships therebetween is created. Subsequently, the combinations of the selected optimum prediction modes described in the correspondence table are narrowed down based on the value of the incidence rate so as to create prediction mode correspondence information that describes the combinations of the optimum prediction mode narrowed down. When encoding the upper layer block, the prediction mode search candidate that is to be searched in the encoding is decided by referring to the prediction mode correspondence information using as a key the optimum prediction mode selected in the encoding of the spatially corresponding lower layer block and thereby reducing the number of the prediction mode search candidates. | 08-11-2011 |