WO/2016/113900 BLOWER AND AIR CONDITIONER USING SAME||WO||21.07.2016|
||PCT/JP2015/051069||MITSUBISHI ELECTRIC CORPORATION||KURIHARA, Makoto|
This blower is provided with an impeller 100 having a main plate fixed to a rotary shaft of a drive device, a shroud 1 having an air suctioning port 1a, and n number of blades 2 having leading edge front ends 2a arranged along a circle centered on the rotary shaft and between the main plate 3 and the shroud 1. When the angle formed by the leading edge front ends 2a of two adjacent blades 2 and the rotary shaft is assumed to be an installation pitch angle, the blades 2 are arranged such that all of the installation pitch angles α are different angles, and the installation pitch angles on both neighboring sides of an installation pitch angle αm, among the installation pitch angles α, become a combination other than a combination of an installation pitch angle αm-1 that is the next smallest with respect to the installation pitch angle αm and an installation pitch angle αm+1 that is the next largest with respect to the installation pitch angle αm.
WO/2016/113904 THREE-DIMENSIONAL-INFORMATION-CALCULATING DEVICE, METHOD FOR CALCULATING THREE-DIMENSIONAL INFORMATION, AND AUTONOMOUS MOBILE DEVICE||WO||21.07.2016|
A three-dimensional-information-calculating device is provided with: a first image input unit for successively acquiring a plurality of images from a first imaging unit; a second image input unit for successively acquiring a plurality of images from a second imaging unit; an object-candidate-region-extracting unit for using two or more images acquired by the first image input unit at different times to extract object candidate regions in which objects are present; a region-future-estimating unit for estimating a future position of the object candidate region with respect to an imaging area of the first imaging unit on the basis of the positions of the extracted object candidate regions in a plurality of images; and a three-dimensional-information-calculating unit for calculating three-dimensional information based on a corresponding point of the object candidate region in the images acquired by the first image input unit and the second image input unit, for an object candidate region that requires three-dimensional information based on the future position estimated by the region-future-estimating unit.
WO/2016/113908 DISPLAY MODULE||WO||21.07.2016|
||PCT/JP2015/051087||MITSUBISHI ELECTRIC CORPORATION||TSUKAHARA, Rei|
A display module (3) is provided with: display panels (3a-1, 3b-1); intermediate frames (5a, 5b), which are disposed on the rear surface side of the display panels (3a-1, 3b-1); and a rear frame (4), which is disposed on the rear surface side of the intermediate frames (5a, 5b), and has frame openings integrally formed therein, said frame openings corresponding to the display panels (3a-1, 3b-1), respectively.
WO/2016/113910 SYSTEM FOR EVALUATING MONITORING PLAN, AND METHOD FOR EVALUATING MONITORING PLAN||WO||21.07.2016|
||PCT/JP2015/051090||MITSUBISHI HEAVY INDUSTRIES, LTD.||HIURA Ryota|
This system for evaluating a monitoring plan is provided with: a vehicle monitoring information acquisition unit for acquiring vehicle monitoring information that represents the results of monitoring a vehicle, the vehicle monitoring information including monitoring execution condition information that represents the monitoring location and/or the monitoring time for the vehicle, and information about the vehicle to be monitored in said monitoring location or monitoring time; a movement information acquisition unit for acquiring vehicle movement information pertaining to the movement of each of a plurality of vehicles; and a traffic degree information generation unit for generating, on the basis of the vehicle movement information and the vehicle monitoring information, traffic degree information that represents the degree of traffic for the vehicles to be monitored under conditions that represent monitoring execution condition candidates comprising the location and/or time for monitoring the vehicle.
WO/2016/113911 DATA ASSESSMENT DEVICE, DATA ASSESSMENT METHOD, AND PROGRAM||WO||21.07.2016|
||PCT/JP2015/051108||MITSUBISHI ELECTRIC CORPORATION||YAMAGUCHI, Teruyoshi|
Provided is a data assessment device, comprising: a state transition model storage unit (130) which stores a state transition model (1031) which represents state transitions; a state management unit (103) which retains operating states of the present device on the basis of the state transition model; a communication permission list storage unit (105) which stores as a communication permission list (114) communication permitted data for which communication is permitted in each operating state; a communication unit (107) which acquires communication data to be assessed (109); and an assessment unit (106) which, using the current operating state (113) and the communication permission list (114), assesses whether the communication data to be assessed (109) is the communication permitted data for which communication is permitted in the current operating state (113).
WO/2016/113877 GAS EXCHANGE DEVICE||WO||21.07.2016|
||PCT/JP2015/050926||KABUSHIKIKAISHA DAIEISEISAKUSHO||ITO Norihito|
[Problem] To be able to execute exhaust of a gas exchange device in a reliable manner. [Solution] This gas exchange device 1 is provided with a receptacle main unit 2, an exchange gas supply pipe 3, a gas discharge pipe 4, a liquid supply pipe 5, and a liquid discharge pipe 6. Ring-shaped baffle pates 11-13 are attached to the inner wall of the receptacle main unit. The gas discharge pipe 4 is passed through the side wall and drawn in horizontally so that an intake duct 4a is facing directly below the bottom surface of the uppermost baffle plate 11. An obstructing member 7 constituted by a curved plate having an upwardly convex curved surface is installed on the upper part of the liquid supply pipe 5, and the exchange gas supply pipe 3 is inserted from the center of a ceiling part and installed so that an ejection port 3a faces the center of the top surface of the obstructing member 7.
WO/2016/113842 TWO-DIMENSIONAL CODE GENERATION DEVICE, TWO-DIMENSIONAL CODE GENERATION METHOD, AND PROGRAM||WO||21.07.2016|
||PCT/JP2015/050652||A.T COMMUNICATIONS CO., LTD.||TOYOIZUMI Hiroshi|
In this two-dimensional code generation device (100), a white point determination unit (111) determines a white point in an environment in which a two-dimensional code is to be output. A threshold value acquisition unit (112) obtains a lightness threshold value which is expressed in a device-independent color space using, as a reference, the white point determined by the white point determination unit (111), and which is used by a reader device to read a plurality of cells as binary. A two-dimensional code generation unit (113) generates a two-dimensional code that represents information using a distributed pattern of a plurality of cell dots that are formed by coloring a plurality of cells with colors having a lightness equal to or greater than, and with colors having a lightness less than, the threshold value obtained by the threshold value acquisition unit (112).
WO/2016/113851 REFRIGERATION CYCLE DEVICE||WO||21.07.2016|
||PCT/JP2015/050697||MITSUBISHI ELECTRIC CORPORATION||TAKENAKA, Naofumi|
An air conditioning device 100 comprises: a selecting means 31 for selecting a reverse defrost operating mode to stop heating operations and defrost all parallel heat exchangers 50 or a simultaneous heat and defrost operating mode to defrost each parallel heat exchanger 50 in order while continuing heat operations; and a determining means 32 for determining whether to start defrost operations. The determining means 32 is configured to start defrost operations in a state when the amount of frost formed on the parallel heat exchanger 50 is less when the simultaneous heat and defrost operating mode is selected than when the reverse defrost operating mode is selected.
WO/2016/113897 COMMUNICATION SYSTEM AND COMPARISON METHOD||WO||21.07.2016|
||PCT/JP2015/051061||AUTONETWORKS TECHNOLOGIES, LTD.||WATANABE, Masashi|
Provided are a communication system and a comparison method which make it possible to secure a communication path via a terminal device of a legitimate user.
Vehicle-mounted communication equipment transmits an equipment ID for identifying the equipment itself to a terminal device, acquires a terminal ID from the terminal device connected thereto, and transmits the equipment ID and the terminal ID acquired from the terminal device to a central device via the terminal device. The terminal device transmits a terminal ID for identifying the device itself to the vehicle-mounted communication equipment, acquires an equipment ID transmitted from the vehicle-mounted communication equipment, and transmits the terminal ID and the equipment ID acquired from the vehicle-mounted communication equipment to the central device. The central device receives the equipment ID and terminal ID transmitted from each of the vehicle-mounted communication equipment and the terminal device, and compares the equipment ID and terminal ID received from the vehicle-mounted communication equipment and the equipment ID and terminal ID received from the terminal device.
WO/2016/113886 RANDOM NUMBER EXPANDING DEVICE, RANDOM NUMBER EXPANDING METHOD, AND RANDOM NUMBER EXPANDING PROGRAM||WO||21.07.2016|
||PCT/JP2015/050979||MITSUBISHI ELECTRIC CORPORATION||SUGAWARA, Takeshi|
A random number expanding device (100) is provided with an expanding unit (120) that, using a logic operation obtained by multiplication of one matrix of an M × N sized inspection matrix determined from (N, N-M, D) linear codes for error correction or an M × N sized generator matrix and a vector of which M component comprises a random number r(M), the multiplication having addition as an exclusive OR, expands the random number r(M) to an N-bit random number s(N). Because the random number expanding device (100) is provided with the expanding unit (120), the number of bits of the random number used can be reduced, and multiple beams of laser irradiation attack can be countered.