||WO||WO/2014/057520 - MIGRATION-DESTINATION FILE SERVER AND FILE SYSTEM MIGRATION METHOD||17.04.2014||
||PCT/JP2012/006536||HITACHI, LTD.||YAMADA, Kumiko|
A migration-destination file server is coupled to a migration-source file server that provides a migration-source file system, and provides a migration-destination file system. The migration-destination file server comprises a storage device and a controller. When migrating a first hard-linked file, which is included in multiple hard-linked files referencing the same file management information in the migration-source file system, to the migration-destination file system, the controller stores data related to the first hard-linked file in the storage device, creates the first hard-linked file in the migration-destination file system, and creates a dummy hard-linked file for referencing the same file management information as the first hard-linked file in the migration-destination file server, and when migrating a second hard-linked file included in the multiple hard-linked files, the controller renames the dummy hard-linked file as a pathname of the second hard-linked file in the migration-destination file system.
||WO||WO/2014/057538 - IN-VEHICLE ELECTRICAL STORAGE DEVICE AND CONTROL METHOD THEREOF||17.04.2014||
||PCT/JP2012/076195||MITSUBISHI ELECTRIC CORPORATION||YAMAGUCHI Shingo|
[Problem] To provide an in-vehicle electrical storage device and control method thereof in which a battery is discharged when an impact to the vehicle is detected or anticipated, and discharge of the battery is stopped in a charge state in which over-discharge has not yet been reached. [Solution] An in-vehicle electrical storage device provided with a battery (3) mounted in a vehicle, a battery charge state detection means for detecting the charge state of the battery (3), and a discharge load (4) for causing the battery (3) to discharge, wherein the in-vehicle electrical storage device is further provided with a control device (5) comprising a battery charge state detection means for detecting the charge state of the battery (3), a battery discharge means for causing the battery (3) to discharge through the load (4) when an impact to the vehicle is detected or anticipated, and a battery discharge stop means for stopping discharge of the battery (3) by the battery discharge means when the charge state of the battery (3) detected by the battery charge state detection means is at or below a prescribed threshold value at which over-discharge has not yet been reached.
||WO||WO/2014/057617 - HUMIDITY CONTROL AND VENTILATION DEVICE||17.04.2014||
||PCT/JP2013/005624||DAIKIN INDUSTRIES, LTD.||EGUCHI, Akihiro|
A humidity control and ventilation device (10) is provided with: a determination unit (103) which, if the amount of change in increase in the rotational speed of either an air supply fan (26) and/or an air discharge fan (25) exceeds a predetermined value while the air supply fan (26) and the air discharge fan (25) are subjected to constant air flow rate control, determines that the remaining ventilation devices (80, 90) of a space (S) to be ventilated are in an ON state; and an air flow rate control unit (101) which, when the determination unit (103) determines that the remaining ventilation devices (80, 90) are in the ON state, reduces the rotational speed of the air supply fan (26) or the air discharge fan (25) so that the total amount of air supplied to the space (S) to be ventilated and the total amount of air discharged therefrom balance each other.
||WO||WO/2014/057630 - HANDHELD TERMINAL, WIRELESS COMMUNICATION SYSTEM, AND LOCATOR-POSITION ANNUNCIATION METHOD||17.04.2014||
||PCT/JP2013/005882||PANASONIC CORPORATION||HOKAZONO, Shinya|
A handheld terminal that makes it easy to identify the position of a locator. Said handheld terminal (100) is provided with the following: a wireless unit (130) that receives a wireless signal transmitted by the locator; an RSSI detection unit (150) that measures the strength of the received wireless signal; a distance-information determination unit (211) that, on the basis of the measured received signal strength, determines distance information that indicates a distance level between the wireless unit (130) and the locator; and an annunciation unit (240) that outputs the determined distance information.
||WO||WO/2014/057725 - DEVICE FOR CONTROLLING OUTBOARD MOTOR, METHOD FOR CONTROLLING OUTBOARD MOTOR, AND PROGRAM||17.04.2014||
||PCT/JP2013/070189||SUZUKI MOTOR CORPORATION||MORIKAMI, Tadaaki|
In this device that is for controlling outboard motors (3L, 3R) and that, in accordance with operations by means of an operation lever (9) that can be caused to incline in all directions from a neutral state, controls two outboard motors (3L, 3R) attached to a ship (1), when the operation lever (9) has been moved to a different zone, until the operation lever (9) has been determined to be in the neutral state by a determination means, a steering control means controls the steering specification and shift position of the two outboard motors (3L, 3R) in accordance with the initial zone of operation, and so even when an operation has been performed that moves through a zone, steering that easily reflects the intentions of a ship operator is possible and an increase in steering efficiency is possible.
||WO||WO/2014/057753 - USER TERMINAL, WIRELESS BASE STATION, WIRELESS COMMUNICATION SYSTEM, AND WIRELESS COMMUNICATION METHOD||17.04.2014||
||PCT/JP2013/074409||NTT DOCOMO, INC.||TAKEDA, Kazuaki|
To enable 1CC transmission when a first component carrier used in a macro cell and a second component carrier used in a small cell are integrated and carrier aggregation is performed. This user terminal: receives duration setting information indicating a first duration, in which communication is performed with a macro base station using the first component carrier, and a second duration, in which communication is performed with a small base station using the second component carrier; sets the first duration and the second duration on the basis of the duration setting information; transmits an uplink signal to the macro base station using the first component carrier in the first duration; and transmits an uplink signal to the small base station using the second component carrier in the second duration.
||WO||WO/2014/057765 - SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME||17.04.2014||
||PCT/JP2013/074712||SUMITOMO ELECTRIC INDUSTRIES, LTD.||NOTSU Hiroshi|
Provided are a semiconductor device having improved reliability, and a method for manufacturing the semiconductor device. According to one embodiment of the present invention, a semiconductor device (10) is provided with a semiconductor element (12), a substrate (20), a case (40), and a sealant application path (50). The semiconductor element (12) is mounted on the substrate (20). The case (40) houses the substrate (20), and has a sealant applied to the inside thereof, said sealant sealing the semiconductor element (12). The sealant application path (50) is formed in the case (40) for the purpose of applying the sealant to the inside of the case (40). A sealant inlet of the sealant application path (50), said inlet being positioned inside of the case (40), is positioned on the substrate (20) side in a sealant application region (44) inside of the case (40).
||WO||WO/2014/057862 - PROCESS FOR MANUFACTURING CONDUCTIVE POLYIMIDE FILM||17.04.2014||
||PCT/JP2013/076942||KANEKA CORPORATION||OKU Satoshi|
According to the present invention, a conductive polyimide film which exhibits excellent film strength and a desired resistivity can be manufactured with good productivity by subjecting a coating to drying and imidization, said coating comprising (A) a polyamic acid obtained by reacting a tetracarboxylic dianhydride component that contains pyromellitic dianhydride with a diamine component that contains a dimamine having three or more aromatic rings in one molecule, (B) a conductivity -imparting agent, and (C) an imidization accelerator.
||WO||WO/2014/057890 - COVER GLASS FOR SOLAR CELL||17.04.2014||
||PCT/JP2013/077139||ASAHI GLASS COMPANY, LIMITED||KAMBE, Mika|
Provided is a cover glass for solar cells which has a volume resistivity of 1.0×108.3 Ω·cm or higher and in which the surface layer to be disposed on the solar-cell side has a sodium concentration in the range of 0.01-13 mass% in terms of Na2O.
||WO||WO/2014/057934 - COMMUNICATION METHOD, COMMUNICATION SYSTEM, AND COMMUNICATION APPARATUS||17.04.2014||
||PCT/JP2013/077339||NATIONAL UNIVERSITY CORPORATION KYOTO INSTITUTE OF TECHNOLOGY||UMEHARA, Daisuke|
Provided are a communication method, a communication system, and a communication apparatus realizing full duplex communication through a single transmission channel. In order to realize full duplex communication, signals received by transmission data terminals (TX2, TX3) are converted into positive/negative pulse signals, added by adders (26, 36), and sent to a twisted pair cable (1). Determining/demodulating devices (28, 38) simultaneously determine whether or not the state of communication in the twisted pair cable (1) is such that the transmission data signal and the reception data signal are in the same state, and output the result. In EX-OR circuits (23, 33), the transmission data signal is replicated or inverted on the basis of the determination result, demodulated as a reception data signal, and outputted to reception data terminals (RX2, RX3).