Kamada, Tokyo
Keisuke Kamada, Tokyo JP
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20150161088 | DETECTING INFLUENCE CAUSED BY CHANGING THE SOURCE CODE OF AN APPLICATION FROM WHICH A DOCUMENT OBJECT MODEL TREE AND CASCADING STYLE SHEET MAY BE EXTRACTED - One embodiment is a computer-implemented method for detecting an influence caused by changing a source code of an application from which a document object model (DOM) tree and cascading style sheets (CSSs) are extracted. The method includes saving one or more input operations of a user of the application, a DOM tree, and a CSS for each of one or more times that an instruction is received to check a screen state. After the source code is changed, the one or more input operations are emulated in an operation order, for each of the one or more times. A DOM tree and CSS are acquired for each of the one or more times. The saved DOM tree and CSS are compared with the acquired DOM tree and CSS for each of the one or more times. A result of the comparison is output. | 06-11-2015 |
Ko Kamada, Tokyo JP
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20160058285 | MEDICAL DEVICE SYSTEM AND MEDICAL DEVICE - A medical device system includes a first medical device and a second medical device. The first medical devices includes a first measuring unit that acquires measurement data of vital signs of a patient and a first communication unit that transmits the measurement data acquired by the first measuring unit to the second medical device. The second medical device includes a second communication unit that receives the measurement data from the first communication unit. The first and second medical devices are configured so that if certification processing succeeds, the measurement data is permitted to be used in the second medical device. | 03-03-2016 |
Rui Kamada, Tokyo JP
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20130113437 | CONTROL APPARATUS, CONTROL METHOD AND CONTROL SYSTEM - Disclosed herein is a control apparatus, including: a discrimination section configured to discriminate a plurality of battery units which are to share and output electric power required by a load; and a control section configured to carry out discharge control for the battery units in response to a situation of each of batteries which the battery units individually have. | 05-09-2013 |
20140285147 | CONTROL SYSTEM, CONTROL DEVICE, AND CONTROL METHOD - A control system includes a first device configured to receive a first voltage, and convert the first voltage to a second voltage that varies according to a variation of the received first voltage. The control system also includes a second device configured to receive the second voltage and to change a charging rate of an energy storage device according to a variation of the received second voltage. | 09-25-2014 |
20160059730 | POWER STORAGE DEVICE, POWER STORAGE SYSTEM, AND ELECTRIC VEHICLE - A power storage device includes a power storage unit including one or a plurality of cells, a first controller for performing control relating to the power storage unit, a first power line for supplying a first power to be output from the power storage unit to a load, a second power line for supplying a second power smaller than the first power to a second controller included in an external device, and a communication line used by the first and second controllers to communicate with each other. | 03-03-2016 |
Ryuji Kamada, Tokyo JP
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20160139492 | SHUTTER HOLDING MECHANISM - A shutter holding mechanism includes: a shutter substrate which is provided inside a camera body and in which a focal-plane type shutter unit is fixed; a pressing unit arranged between the camera body and a side of one end portion of the shutter substrate, the pressing unit pressing the shutter substrate to a side of another end portion of the shutter substrate relative to the camera body; and a damper unit arranged in a part on a side of the camera body corresponding to the side of the other end portion of the shutter substrate, which is a side opposite to a part where the pressing unit is arranged, in a direction along a travel direction of a shutter blade of the shutter unit, the damper unit absorbing movement of the shutter substrate pressed by the pressing unit. | 05-19-2016 |
Toshiya Kamada, Tokyo JP
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20140116583 | Cu-Ni-Co-Si BASED COPPER ALLOY SHEET MATERIAL AND METHOD FOR PRODUCING THE SAME - A Cu—Ni—Co—Si based copper alloy sheet material has second phase particles existing in a matrix, with a number density of ultrafine second phase particles is 1.0×10 | 05-01-2014 |
20140283963 | Cu-Ti BASED COPPER ALLOY SHEET MATERIAL AND METHOD FOR PRODUCING THE SAME, AND ELECTRIC CURRENT CARRYING COMPONENT - A Cu—Ti based copper alloy sheet material contains, in mass %, from 2.0 to 5.0% of Ti, from 0 to 1.5% Ni, from 0 to 1.0% Co, from 0 to 0.5% Fe, from 0 to 1.2% Sn, from 0 to 2.0% Zn, from 0 to 1.0% Mg, from 0 to 1.0% Zr, from 0 to 1.0% Al, from 0 to 1.0% Si, from 0 to 0.1% P, from 0 to 0.05% B, from 0 to 1.0% Cr, from 0 to 1.0% Mn, and from 0 to 1.0% V, the balance substantially being Cu. The sheet material has a metallic texture wherein in a cross section perpendicular to a sheet thickness direction, a maximum width of a grain boundary reaction type precipitate is not more than 500 nm, and a density of a granular precipitate having a diameter of 100 nm or more is not more than 10 | 09-25-2014 |
20150357074 | HIGH STRENGTH Cu-Ni-Co-Si BASED COPPER ALLOY SHEET MATERIAL AND METHOD FOR PRODUCING THE SAME, AND CURRENT CARRYING COMPONENT - A copper alloy sheet material comprises (by mass %) from 2.50 to 4.00% in total of Ni and Co, from 0.50 to 2.00% of Co, from 0.70 to 1.50% of Si, from 0 to 0.50% of Fe, from 0 to 0.10% of Mg, from 0 to 0.50% of Sn, from 0 to 0.15% of Zn, from 0 to 0.07% of B, from 0 to 0.10% of P, from 0 to 0.10% of REM, from 0 to 0.01% in total of Cr, Zr, Hf, Nb and S, the balance Cu and unavoidable impurities. A number density of coarse secondary phase particles (particle diameter of 5 mm or more) is 10 per mm | 12-10-2015 |
Yusuke Kamada, Tokyo JP
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20150330881 | ANALYZING METHOD OF SPOT WELDED PORTION, ANALYZING PROGRAM OF SPOT WELDED PORTION, RECORDING MEDIUM AND ANALYZING APPARATUS OF SPOT WELDED PORTION - An analyzing method of a spot welded portion, includes: acquiring bar elements as the spot welded portion; extracting other bar elements existing at a periphery of a target bar element which is targeted among the acquired bar elements; determining whether or not there is a bar element which shares the same end point with the target bar element among the extracted bar elements; determining that the target bar element and the bar element which shares the same end point with the target bar element are a three-layer spot welded portion when it is determined that there is the bar element which shares the same end point with the target bar element; and determining whether or not there is a bar element whose distance between elements with the target bar element is within a predetermined distance among the extracted bar elements when it is determined that there is not the bar element which shares the same end point with the target bar element, and determining that the target bar element and the extracted bar element are not the three-layer spot welded portion when it is determined that there is not the bar element within the predetermined distance. | 11-19-2015 |
Yuudai Kamada, Tokyo JP
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20160091524 | INERTIAL SENSOR - A low-noise and high-sensitivity inertial sensor is provided. | 03-31-2016 |
20160091525 | ACCELERATION SENSOR - An acceleration sensor that achieves a simultaneous operation method of a signal detection and a servo control is provided as an alternative to a time-division processing method. The acceleration sensor is a MEMS capacitive acceleration sensor. The acceleration sensor includes signal detection capacitor pairs | 03-31-2016 |