WO/2016/063359 IMAGE PROCESSING DEVICE||WO||28.04.2016|
||PCT/JP2014/077987||KABUSHIKI KAISHA TOKYO KIKAI SEISAKUSHO ||NAKAYAMA, Sadatsugu |
This image processing device is provided with: a main memory 14 which stores image data having a peripheral region 44 that is set to a predetermined value, and a CPU 12 which performs grayscale conversion processing on the image data. The CPU 12 comprises: a plurality of cores 16 which have a parallel processing function using a plurality of threads 18 and perform grayscale conversion processing in a parallel manner; and data cache memories 22 and program cache memories 20, each data cache memory 22 and each program cache memory 20 being provided to be associated with a respective one of the plurality of threads 18. Each core 16 specifies, as a region 48 to be operated on, a region of the image data that is smaller in size than the data cache memories 22 associated with the core 16, causes these data cache memories 22 to acquire, from the main memory 14, the image data constituting the region 48 to be operated on, and performs grayscale conversion processing on the entire portion of the region 48 to be operated on, without differentiating between the portion of a central region 42 and the portion of the peripheral region 44 that constitute the region 48 to be operated on.
WO/2016/063419 SURVEYING INSTRUMENT AND PROGRAM||WO||28.04.2016|
||PCT/JP2014/078390||NIKON-TRIMBLE CO., LTD ||TANAKA, Tomohiro |
A surveying instrument is provided with a surveying unit for surveying a survey subject, an imaging unit including a first imaging unit for collimation in relation to the survey subject and a second imaging unit having a wider angle of view than that of the first imaging unit, a horizontal angle drive unit for rotationally driving the surveying unit and imaging unit around the vertical axis of the surveying instrument, a vertical angle drive unit for rotationally driving the surveying unit and imaging unit around the horizontal axis of the surveying instrument, a storage unit for storing design data, an angle detection unit for detecting the angles of the collimation direction in relation to a standard direction, and a control unit for, on the basis of the design data stored by the storage unit and the angles detected by the angle detection unit, displaying together on a display unit an image based on the image data generated through the imaging of the first imaging unit or second imaging unit, a design data object that is included in the image and indicates the position of design data, and a survey position object that is included in the image and indicates the survey position to be surveyed by the surveying unit in correspondence with the design data.
WO/2016/063426 SIMULATION METHOD, SIMULATION PROGRAM, AND SIMULATION DEVICE||WO||28.04.2016|
||PCT/JP2014/078416||FUJITSU LIMITED ||OHORI, Kotaro |
The invention forms a movement pathway in line with the actual state of an intruder. A simulation method uses a computer to simulate the motion of an intruder who has intruded into a secure area. The simulation method: refers to a storage unit which stores information relating to movement pathways included in the secure area, to create a model of the movement pathways; accepts an input of the location of a security guard, from among the locations in the model of the movement pathways; generates an agent of the intruder in any location in the model of the movement pathways; and forms the movement pathway of the agent of the intruder in accordance with the location of the security guard, if the security guard is present in a perception zone in which, when the motion of the generated agent of the intruder is simulated, the agent of the intruder perceives the agent.
WO/2016/063340 THRUST BEARING AND ROTATING MACHINE||WO||28.04.2016|
||PCT/JP2014/077915||MITSUBISHI HEAVY INDUSTRIES, LTD. ||FUTAE, Takaya |
In order to reduce bearing loss that originates in an insufficiently lubricated area on a pad facing a thrust collar, a thrust bearing according to at least one embodiment of the present invention is provided with a thrust collar, and at least one bearing pad provided along the circumferential direction on a bearing surface, the bearing pad having a tapered part and a land part. Each of the bearing pads is formed so that a peripheral part on the radially outer side draws near to the radially inner side as the peripheral part progresses upstream in the rotational direction.
WO/2016/063390 VALVE DEVICE FOR FUEL INJECTION VALVE||WO||28.04.2016|
||PCT/JP2014/078168||MITSUBISHI ELECTRIC CORPORATION ||WATANABE Kyosuke |
A valve device for a fuel injection valve (1), wherein the intersection point (13c) between the center line Z of the valve seat (11) and the apex of a hypothetical cone (13b) formed by extending a seating surface (13) toward the downstream side is positioned inside an aperture (15). Thus, after most of the fuel that has passed through a seat part (13a) converges at the aperture (15), the fuel reaches the upper surface of an injection hole plate (22) and smoothly changes to a flow toward the outer circumferential side, thereby minimizing the fuel pressure loss in this interval. Therefore, in this valve device for the fuel injection valve (1), a decrease in the fuel speed in the section (22b) directly above the injection hole is reduced, and atomization of the fuel spray is promoted.
WO/2016/063403 DATA ANALYSIS SYSTEM, DATA ANALYSIS METHOD, AND DATA ANALYSIS PROGRAM||WO||28.04.2016|
||PCT/JP2014/078248||UBIC, INC. ||MORIMOTO Masahiro |
The present invention is a data analysis system provided with: a classification information reception unit which receives classification information indicating a classification of data from a user via a predetermined input device; a data classification unit which associates the classification information with data to be classified included in a group of data, thereby classifying the data to be classified; an unclassified data evaluation unit which evaluates the relation between the classification information and unclassified data included in the group of data on the basis of the classification results; a tendency data selection unit which selects unclassified data matching the classification tendency of the user from the group of data in accordance with the evaluation results, said selected unclassified data being designated as tendency data; and a user presentation unit which, via a predetermined output device, presents the user with other users associated with the tendency data.
WO/2016/063310 LOCKING AND UNLOCKING CONTROL UNIT, LOCKING AND UNLOCKING SYSTEM, AND LOCKING AND UNLOCKING DEVICE CONTROL METHOD||WO||28.04.2016|
||PCT/JP2014/005310||NISSAN MOTOR LIGHT TRUCK CO.,LTD. ||TOGANO, Masaki |
The purpose of the invention is to easily prevent one door and another door from a plurality of vehicle doors from being unlocked at the same time. A locking and unlocking control unit (40) comprises: an unlock operation detecting unit (41) that detects an unlocking operation to unlock a door (20) from among a plurality of doors (10, 20, 30) of a vehicle (1); an unlocked door detecting unit (44) that detects another door (10) that is unlocked; a lock signal outputting unit (46) that outputs a lock signal to a first locking and unlocking device (13) for the other door (10) that is unlocked when an unlock operation is detected; and an unlock signal outputting unit (47) that outputs an unlock signal to a second locking and unlocking device (23) of one of the doors (20) after the other door (10) is locked by way of the lock signal.
WO/2016/063317 GRAIN-ORIENTED ELECTROMAGNETIC STEEL SHEET AND PROCESS FOR PRODUCING SAME||WO||28.04.2016|
||PCT/JP2014/005395||JFE STEEL CORPORATION ||TAKAJO, Shigehiro |
Provided is a grain-oriented electromagnetic steel sheet which gives a transformer excellent in terms of iron loss and building factor and in which the tensile-strength coating film is inhibited from being damaged. The grain-oriented electromagnetic steel sheet, which includes a tensile-strength coating film, has a surface current of 0.15 A or less, has a plurality of linear strains formed therein and extending in a direction crossing the rolling direction, the plurality of linear strains having a rolling-direction line spacing of 15 mm or less, and has, formed in the strain parts, closure domains that have a sheet-thickness-direction length d of 65 µm or greater and a rolling-direction length w of 250 µm or less.
WO/2016/063351 CHARGE/DISCHARGE MANAGEMENT DEVICE||WO||28.04.2016|
||PCT/JP2014/077973||TOSHIBA MITSUBISHI-ELECTRIC INDUSTRIAL SYSTEMS CORPORATION ||HANADA, Masato |
This charge/discharge management device is provided in equipment including a storage battery system. The storage battery system comprises a plurality of PCS groups. Each PCS group comprises a storage battery, a BMU, and a PCS. The charge/discharge management device comprises an operation SOC calculation unit, a stopped SOC estimation unit, and an initial SOC re-setting unit. The operation SOC calculation unit calculates, for each of the plurality of PCS groups, an operation SOC being an SOC on the basis of the cumulative value for current values supplied from the BMU added to the initial SOC for the storage battery. The stopped SOC estimation unit stops the charge/discharge of some of the groups and then estimates the stopped SOC for the storage batteries on the basis of the voltage values supplied from the BMU for said some groups, when stop conditions have been fulfilled. The initial SOC re-setting unit re-sets the initial SOC of the operation SOC calculation unit, using the stopped SOC, and also resets the cumulative value of the operation SOC calculation unit.
WO/2016/063374 REMOTE INTEGRATED MONITORING OPERATION SYSTEM||WO||28.04.2016|
||PCT/JP2014/078070||MITSUBISHI ELECTRIC CORPORATION ||HIRAHATAKE Masashi |
A remote integrated monitoring operation system (100) according to the present invention is provided with: a unit integration database (DB1) for sequentially storing the names of plant units (20a-20c), parameters representing events occurring in the plant units, states of the parameters, and alarm classifications indicated by the parameters and states; an inter-unit degree of influence evaluation database (DB2) for storing the influences of the events on other plant units; a restoration action guidance database (DB4) for defining actions for the events; a per-unit degree of urgency determining unit (11) for determining the degree of urgency for each plant unit; an inter-unit degree of influence determining unit (12) for evaluating the degrees of influence of the events on other plant units; and a priority determining unit (13) for determining priorities among the plant units from the degrees of urgency and influence.