||WO||WO/2015/008337 - INFORMATION PROCESSING DEVICE, PORT CONTROL PROGRAM, AND PORT CONTROL METHOD||22.01.2015||
||PCT/JP2013/069328||FUJITSU LIMITED||IWASHITA, Naoya|
An information processing device (1) comprises a plurality of replaceable FC cards (14, 21) which respectively have a plurality of ports (18, 20, 25, 27). The information processing device (1) specifies the non-faulty in-use ports of FC cards (14, 21) with faulty in-use ports. Then, the information processing device (1) switches the specified in-use ports to standby ports. Thereafter, it would be permissible for the information processing device (1) to have LEDs of the FC cards (14, 21) with the standby ports blink in prescribed patterns.
||WO||WO/2015/008350 - VASCULAR PULSE WAVE MEASUREMENT SYSTEM||22.01.2015||
||PCT/JP2013/069415||AME CO., LTD.||TAKAHASHI, Shinichi|
A vascular pulse wave measurement system comprises: a MEMS pressure sensor (30) which is provided via the skin above a blood vessel and detects a pressure change in pulse waves that flow through the blood vessel as a change in resistance value; a Wheatstone bridge circuit (15) which is configured by connecting the MEMS pressure sensor (30) and three resistances (R1-R3) in the form of a bridge having four connection points, and which applies direct current voltage to two connection points that face each other out of the four connection points and outputs output voltage from the other two connection points; and a device controller (50) of a measurement unit that measures the output voltage signal as a vascular pulse wave signal.
||WO||WO/2015/008367 - DISTRIBUTED PROCESSING METHOD, SYSTEM AND DISTRIBUTED PROCESSING PROGRAM||22.01.2015||
||PCT/JP2013/069567||FUJITSU LIMITED||OTOMO, Toshiya|
The present invention efficiently performs distributed processing using a plurality of communication devices that operate using power generated using energy obtained according to the environment. At a time (t1), a slave (#a_N) sends first processing results to a master (#1), and stops operating because there is no more remaining power. At a time from the time (t1) to a time (t2), the master (#1) executes a prescribed processing on the basis of the first processing results. Then, the master (#1) determines whether a prescribed amount of time has elapsed since the first processing results were received. At the time (t2), in a case where it is determined that the prescribed amount of time has elapsed, the master (#1) sends the prescribed processing results to the slave (#a_N).
||WO||WO/2015/008395 - CONTROL DEVICE FOR HYBRID VEHICLE||22.01.2015||
||PCT/JP2013/071072||TOYOTA JIDOSHA KABUSHIKI KAISHA||TABATA, Atsushi|
Provided is a control device for a hybrid vehicle having an engine and a plurality of motors as propulsion sources for outputting torque in order to drive the vehicle, the device being designed to select, in response to the propelling force demanded of the vehicle, either a first driving mode in which the vehicle is driven by the output of the engine, a second driving mode in which the vehicle is driven by the output of the plurality of motors, and a third driving mode in which the vehicle is driven by the output of any one of the motors, wherein the device is furnished with a detection means for calculating the magnitude of the output of the propulsion sources (step S3), and a setting means for modifying the likelihood of selecting the second driving mode according to the magnitude of the output (step S5-S7).
||WO||WO/2015/008377 - STATE RESTORATION PROGRAM, DEVICE, AND ASSISTANCE METHOD||22.01.2015||
||PCT/JP2013/069622||FUJITSU LIMITED||SEKIGUCHI, Atsuji|
The purpose of the present invention is to keep storage capacity to a minimum while accomplishing faster restoration. A storage unit (1a) stores information indicating the generation sequence of a plurality of states of an information processing device (3), the time needed for respective execution of a plurality of commands to generate transitions among states in a forward direction or reverse direction, and the time needed to bring about restoration to a given state from among the plurality of states, for which state a snapshot has been acquired, and for which restoration the snapshot in question is used. On the basis of the information stored in the storage unit (1a), a computing unit (1b) calculates, for each other state, the shortest procedure to restore the information processing device (3) to some other state from the state at the starting point of restoration, and selects for deletion snapshots that cannot be used in any of the shortest procedures.
||WO||WO/2015/008393 - SENSE-OF-FORCE SENSOR||22.01.2015||
||PCT/JP2013/069962||WACOH CORPORATION||OKADA, Kazuhiro|
In the present invention, a cylindrical annular detection body (130) is disposed at the periphery of a columnar body (110) that is fixed to an upper-surface central section of a support substrate (210). The columnar body (110) and the cylindrical annular detection body (130) are connected by a thin flexible connection member (120) (diaphragm). On the upper surface of the support substrate (210), washer-shaped insulation substrates (300) are disposed, and on the upper surface thereof individual fixed electrodes (E1-E5) are formed and constitute a capacitor element together with displacement electrodes composed of the lower surface of the annular detection body (130). When an outside force acts on the annular detection body (130), displacement arises due to deflection of the flexible connection member (120), and the displacement is detected as a capacity value change of the capacitor element. An upper part of the outer circumferential portion of the annular detection body (130) constitutes an outward projection section (140) that projects to the outside. Below the outward projection section, provided is a displacement control section (220) that projects upward from an upper-surface peripheral section of the support substrate (210). The displacement of the annular detection body (130) is restricted so as to be within the range of a vertical gap (Sz) and a horizontal gap (Sr) formed between the annular detection body and the displacement control section (220).
||WO||WO/2015/008335 - SEMICONDUCTOR DEVICE||22.01.2015||
||PCT/JP2013/069320||MITSUBISHI ELECTRIC CORPORATION||SUGAWARA, Takeshi|
This semiconductor device is provided with: an enable signal generation circuit (10) for generating an enable signal which is a pulse train synchronized to a clock signal, and presenting the enable signal to a protected circuit (30); and a first abnormality detection circuit (20) for detecting, on the basis of a comparison of the clock signal and the enable signal generated by the enable signal generation circuit, a clock timing abnormality due to introduction of a spike into the clock signal, whereby a device with which it is possible to detect localized clock abnormalities is obtained.
||WO||WO/2015/008328 - WIRELESS COMMUNICATION DEVICE AND WIRELESS COMMUNICATION CONTROL METHOD||22.01.2015||
||PCT/JP2013/069287||MITSUBISHI ELECTRIC CORPORATION||NAKANO, Hisao|
A wireless communication device (1) which performs wireless communications of different wireless communication systems using antennas independent of each other is switched to a simultaneous operation in which wireless LAN and Bluetooth wireless communications are performed in parallel when a communication partner is determined to be a wireless communication device of a single antenna system, and is switched to a time division operation in which the wireless LAN and Bluetooth wireless communications are performed on a time division basis when the communication partner is determined not to be the wireless communication device of the single antenna system.
||WO||WO/2015/008354 - DATA TRANSFER SYSTEM, DATA TRANSFER METHOD, AND INFORMATION PROCESSING DEVICE||22.01.2015||
||PCT/JP2013/069435||FUJITSU LIMITED||OGAMI, Shogo|
The present invention is equipped with: a determination section (19) which, upon receiving a data acquisition request from an input/output control device (34) disposed at an input/output bus, compares a copy of first data size information corresponding to that input/output control device (34) with second data size information (MPS setting value) that can be processed by a data transfer device (50) and determines a response data size for the data acquisition request on the basis of the smaller of the pieces of data size information, said copy of first data size information being read from a storage section (51) for storing copies of first data size information that can be processed by input/output control devices (34); and a generation section (20) which generates response data on the basis of the response data size determined by the determination section (19). The above configuration allows data transfer efficiency to be improved.
||WO||WO/2015/008363 - INFORMATION PRESENTATION DEVICE AND INFORMATION PRESENTATION METHOD||22.01.2015||
||PCT/JP2013/069520||MITSUBISHI ELECTRIC CORPORATION||NISHIMURA, Hiroshi|
This information presentation device comprises: a closely-watched-time measurement unit (4) that specifies a closely watched area from the line of sight of a user, and that measures a closely watched time (T) which is the time during which said closely watched area overlaps a display area indicated by presentation information acquired by a presentation information acquisition unit (3); a unit (6) for specifying, from the type of presentation object indicated by said presentation information, the minimum necessary-for-comprehension time (Tmin) which is the minimum time necessary to comprehend the content of said presentation object; a user recognition degree determination unit (7) that compares said closely watched time (T) and said minimum necessary-for-comprehension time (Tmin), and that determines, from the comparison result, the user's degree of recognition of said presentation object; and a presentation form selection unit (8) that presents said presentation object in a presentation form corresponding to the degree of recognition determined by said user recognition degree determination unit (7).