A method for aligning a multilayer component according to the present disclosure comprises: a preparation step for preparing a multilayer component that has a plurality of magnetic layers and a plurality of dielectric layers, which are alternately stacked; a housing step for preparing a housing member that has a first recessed part which has an arc-like bottom when viewed in cross section, and housing the multilayer component in the first recessed part; and a rolling step for rolling the multilayer component by applying a magnetic field thereto.
H01G 13/00 - Apparatus specially adapted for manufacturing capacitors; Processes specially adapted for manufacturing capacitors not provided for in groups
This imaging device comprises a housing and a plurality of imaging units. The housing holds a substrate at a first portion that demarcates a first surface. The plurality of imaging units are located in the housing. An extended surface of the substrate intersects the first surface.
This bonded ceramic object comprises: a first member and a second member, which each comprise aluminum nitride crystals and a grain boundary phase; and a bonding layer located between the first member and the second member. When the interface between the first member and the bonding layer is a first interface; the interface between the second member and the bonding layer is a second interface; the amount of the grain boundary phase in a first region of the first member which is located at least 1 mm apart from the first interface is a first grain boundary phase amount; the amount of the grain boundary phase in a second region of the second member which is located at least 1 mm apart from the second interface is a second grain boundary phase amount; the distance from the first interface over which a component of the bonding layer has diffused in the first member is a first diffusion distance; and the distance from the second interface over which the component of the bonding layer has diffused in the second member is a second diffusion distance, then the first grain boundary phase amount is larger than the second grain boundary phase amount, and the ratio X of the first diffusion distance to the second diffusion distance is 1
An optical power supply system according to the present invention comprises: a first power supply device and a second power supply device which each have a light-emitting unit that outputs power supply light of laser light; and a power reception device which has a light-receiving unit that converts the power supply light to electricity. The content of handover processing for switching power supply to the power reception device from power supply from the first power supply device to power supply from the second power supply device is changed on the basis of a laser detection type of the light-receiving unit.
H04B 10/80 - Optical aspects relating to the use of optical transmission for specific applications, not provided for in groups , e.g. optical power feeding or optical transmission through water
A target for DLC (diamond-like carbon) film deposition comprises a disc-shaped body containing carbon. The body has a use surface that evaporates during film deposition. The diameter of the use surface is 50 to 150 (mm).
The present invention provides a communication method for wirelessly communicating, by a user equipment, with a master node and a plurality of secondary nodes in a mobile communication system, the communication method comprising: a step of executing, by the master node, processing of transferring, to at least one of the plurality of secondary nodes, control authority for executing, for the user equipment, configuration and/or control relating to coordinated operation among the plurality of secondary nodes; and a step of executing for the user equipment, by the secondary node(s) having the transferred control authority, the configuration and/or the control relating to the coordinated operation.
In this capacitor, a dielectric layer has a rectangular shape including a first edge extending from a first side to a second side. A first electrode and a second electrode face each other across the dielectric layer in the thickness direction and each have a rectangular shape with four edges parallel to the four edges of the dielectric layer. First wiring extends from the first electrode to an end portion on the first side of the first edge. Second wiring extends from the second electrode to an end portion on the second side of the first edge. A first edge portion on the second side of the first wiring is inclined with respect to the first edge in a first direction located on the second side toward the first electrode. A second edge portion on the first side of the second wiring is inclined with respect to the first edge in a second direction located on the first side toward the second electrode.
This electromagnetic wave detection device (10) is provided with: an emission unit (12) that outputs an electromagnetic wave that is to be emitted to a region including a first region; a first detection unit (20) that detects a reflected wave of the electromagnetic wave reflected on the first region; and a control unit (14) that executes specific position calculation processing of calculating, on the basis of a distance acquired on the basis of the detected reflected wave, a direction toward which the electromagnetic wave is emitted, and a factor that affects the reflectance relating to the electromagnetic wave in the first region, a specific position in the first region corresponding to the distance.
This composite resonator includes a resonant structure including: a dielectric layer; a resonator extending over a first surface provided on the dielectric layer; and a reference conductor facing the resonator via the dielectric layer. The resonator has a curve on at least a part of the side surface.
This invention involves a first insulating layer (21) having a first surface (211) and a second surface (212) positioned on the opposite side from the first surface, a through-hole (20) penetrating the first insulating layer from the first surface to the second surface, a through-hole conductor (2a) positioned on the inner wall surface of the through-hole, a first wiring conductor (31) positioned on the first surface and electrically connected to the through-hole conductor, and a second wiring conductor (32) positioned on the second surface and electrically connected to the through-hole conductor. The through-hole conductor includes a first portion (2a1) positioned over the entire circumference of the inner wall surface, and a second portion (2a2) connecting the first portion and the first wiring conductor. The first portion has a first end portion located on the first surface side and a second end portion located on the second surface side in the thickness direction of the first insulating layer. The first end portion is located closer to the second surface side than the first surface in the thickness direction. The second portion is connected to a first region constituting part of the first end portion, and is positioned from the first region to the first surface in the thickness direction.
A communication system comprising a first radio wave control plate and a second radio wave control plate, wherein the first radio wave control plate deflects or reflects radio waves transmitted from a transmission device in the direction of the second radio wave control plate, and the second radio wave control plate deflects or reflects the radio waves emitted from the first radio wave control plate in the direction of a reception device or the direction of a third radio wave control plate.
A heater unit according to the present disclosure is mounted on a heating device for an electric vehicle, and comprises: a ceramic heater provided with a heating element; a heat dissipation body including a first surface on a side facing the ceramic heater and a second surface which is different from the first surface and which has a heat dissipation surface; and a heat conduction member disposed between the first surface of the heat dissipation body and the ceramic heater and in contact with both the ceramic heater and the first surface. The heat conduction member has at least one of elasticity, ductility, and malleability higher than that of the ceramic heater and the heat dissipation body.
This processing device is provided with a detection unit. The detection unit detects a partial surface included in a surface of an object on the basis of: surface information for the surface of the object acquired on the basis of information on the distance to the object; and color information indicated by a color image or a gray scale image in which the object and the periphery of the object appear.
This package for mounting an optical element has a body provided with an insulating frame body, a base body which is positioned to close a lower end of the frame body and has a thermal conductivity higher than that of the frame body, and a protruding part that protrudes from an upper surface of the base body relative to a recessed part surrounded by the frame body and the base body. The frame body has, on the upper surface side opposite to the lower end, a mounting surface to which a lid body having a translucent flat plate can be joined. The protruding part has a mounting surface that intersects the upper surface and on which an edge-emitting optical element can be mounted. The protruding part may be structured integrally with at least a part of a heat transfer body, and the integral structure portion may penetrate the heat transfer body.
This solid electrolyte layer includes: a plurality of electrolyte particles containing an oxide; and a plurality of pores. The plurality of electrolyte particles include first particles and second particles. The plurality of pores include first pores and second pores. The first pores contact the first particles. The second pores are inside the second particles.
H01M 8/1246 - Fuel cells with solid electrolytes operating at high temperature, e.g. with stabilised ZrO2 electrolyte characterised by the process of manufacturing or by the material of the electrolyte the electrolyte consisting of oxides
C25B 9/00 - Cells or assemblies of cells; Constructional parts of cells; Assemblies of constructional parts, e.g. electrode-diaphragm assemblies; Process-related cell features
C25B 9/19 - Cells comprising dimensionally-stable non-movable electrodes; Assemblies of constructional parts thereof with diaphragms
C25B 13/02 - Diaphragms; Spacing elements characterised by shape or form
H01M 8/04 - Auxiliary arrangements, e.g. for control of pressure or for circulation of fluids
H01M 8/12 - Fuel cells with solid electrolytes operating at high temperature, e.g. with stabilised ZrO2 electrolyte
H01M 8/2475 - Enclosures, casings or containers of fuel cell stacks
16.
ELECTROCHEMICAL CELL, ELECTROCHEMICAL CELL DEVICE, MODULE, AND MODULE HOUSING DEVICE
An electrochemical cell according to the present invention comprises an element part and a passage member. The passage member has a first flat part that is opposite the element part and a plurality of protrusions that protrude from the first flat part toward the element part. The plurality of protrusions include at least two first protrusions that have a first length in a first direction that runs along the first flat part and are aligned in the first direction.
H01M 8/0258 - Collectors; Separators, e.g. bipolar separators; Interconnectors characterised by the configuration of channels, e.g. by the flow field of the reactant or coolant
C25B 9/00 - Cells or assemblies of cells; Constructional parts of cells; Assemblies of constructional parts, e.g. electrode-diaphragm assemblies; Process-related cell features
C25B 9/19 - Cells comprising dimensionally-stable non-movable electrodes; Assemblies of constructional parts thereof with diaphragms
C25B 13/02 - Diaphragms; Spacing elements characterised by shape or form
H01M 8/04 - Auxiliary arrangements, e.g. for control of pressure or for circulation of fluids
H01M 8/12 - Fuel cells with solid electrolytes operating at high temperature, e.g. with stabilised ZrO2 electrolyte
H01M 8/2475 - Enclosures, casings or containers of fuel cell stacks
A film formation method according to one non-limiting aspect of the present disclosure comprises: a first step for preparing a film formation jig in which a holder having a plate-shaped body rotatable around a first central axis and a plurality of holding parts provided at equal intervals in the circumferential direction around the first central axis on an upper surface of the body and capable of holding a rod-shaped tool is laminated in two or more stages at intervals in the direction along the first central axis; a second step for accommodating the film formation jig inside a vacuum chamber in a state in which the tool is held by each of the plurality of holding parts; and a third step for forming a coating layer on the surface of the tool by a physical vapor deposition method while rotating the body around the first central axis. With L (mm) being the outer diameter of the tool and D (mm) being the distance from the tip of the tool to the lower surface of the body positioned above the tool, L and D are related such that D is greater than 1.5 L and smaller than 1.5 L +40, and D > 15.
This fuel battery apparatus has a fuel battery, a supply device, a combustion unit, a reformer, and a control device. The control device executes first control for reducing the amount of fuel gas supplied to the fuel battery when the temperature of the combustion unit is equal to or higher than a first temperature. The control device executes, in preference to the first control, second control for increasing the amount of fuel gas to be supplied to the fuel battery when the temperature of the fuel battery is lower than a second temperature or expected to drop to lower than or equal to the second temperature.
H01M 8/0606 - Combination of fuel cells with means for production of reactants or for treatment of residues with means for production of gaseous reactants
H01M 8/04225 - Auxiliary arrangements, e.g. for control of pressure or for circulation of fluids during start-up or shut-down; Depolarisation or activation, e.g. purging; Means for short-circuiting defective fuel cells during start-up
H01M 8/04302 - Processes for controlling fuel cells or fuel cell systems applied during specific periods applied during start-up
H01M 8/04313 - Processes for controlling fuel cells or fuel cell systems characterised by the detection or assessment of failure or abnormal function
This fuel cell system comprises a fuel cell and a control device. The control device determines a temperature band for controlling the temperature of the fuel cell for each of a plurality of levels corresponding to states of the fuel cell and, with the current change speed determined for the temperature band being used as an upper limit, changes a current outputted by the fuel cell. The level is determined so that the level advances as a discretionary state of the fuel cell advances in one direction. The temperature band is determined so as to increase as the level advances.
This processing device comprises a control unit that detects, from a force detection signal output from a sensor device, an external force being exerted on an end effector. The control unit has an acquisition unit. The acquisition unit acquires an external force being exerted on the end effector on the basis of a plurality of first decomposition components of the gravity of the end effector itself that is exerted on the end effector in a first pose, which is a pose at the time of reference setting of the sensor device, a plurality of second decomposition components of the gravity of the end effector itself that is exerted on the end effector in a second pose, which is a pose at the time of the exertion of the external force on the end effector, and a force detection signal at the time of the exertion of the external force on the end effector.
A radio wave control plate according to the present invention comprises a plurality of unit structures arranged on a surface. The unit structures each comprise a plurality of resonators aligned in a first direction perpendicular to the surface, and dielectric layers positioned between the plurality of resonators. At least one of the plurality of resonators is formed so that at least a section of a peripheral part become thinner towards the end thereof.
A communication method executed by a user device in a mobile communication system that provides a multicast/broadcast service (MBS) comprises: a step for receiving, from a first public land mobile network (PLMN), configuration information for configuring wireless environment measurement for broadcast reception from a second PLMN different from the first PLMN; a step for carrying out wireless environment measurement for the broadcast reception from the second PLMN, on the basis of the configuration information, when performing the broadcast reception; and a step for transmitting measurement information, including a measurement result of the wireless environment measurement, to the first PLMN.
H04W 4/06 - Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
The present invention reduces variation in temperature during heating of a wafer. This element manufacturing method includes: a step for causing a gas to flow into a chamber which is capable of housing a wafer; and a step for heating the wafer by conductive heat transfer via the gas, while floating the wafer by using air pressure of the gas in the vertical upward direction.
H01L 21/02 - Manufacture or treatment of semiconductor devices or of parts thereof
H01L 21/027 - Making masks on semiconductor bodies for further photolithographic processing, not provided for in group or
H01L 21/683 - Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components for supporting or gripping
H03H 3/08 - Apparatus or processes specially adapted for the manufacture of impedance networks, resonating circuits, resonators for the manufacture of electromechanical resonators or networks for the manufacture of resonators or networks using surface acoustic waves
24.
SOLAR BATTERY ELEMENT AND SOLAR BATTERY ELEMENT MANUFACTURING METHOD
NATIONAL INSTITUTE OF ADVANCED INDUSTRIAL SCIENCE AND TECHNOLOGY (Japan)
KYOCERA CORPORATION (Japan)
Inventor
Tachibana Tomihisa
Shirasawa Katsuhiko
Fukuchi Kenji
Irie Yuta
Takahashi Hiroaki
Yamashita Teppei
Yuasa Yuuki
Ito Norikazu
Niira Koichiro
Abstract
A solar battery element (1) is provided with a substrate (2), an oxide film (3), and a polysilicon layer (4). The substrate (2) has a first region (21) which is a semiconductor region of a first conductivity type. The oxide film (3) is in contact with the first region (21). The polysilicon layer (4) is in contact with a surface of the oxide film (3) on the side opposite to the first region (21). The polysilicon layer (4) contains a dopant. The polysilicon layer (4) includes a second region (41). The second region (41) is an oxide film-side region of the polysilicon layer (4) in contact with the oxide film (3). In a region from the second region (41) to the first region (21) through the oxide film (3), the distribution of the dopant concentration in the polysilicon layer (4) in a direction from a surface on the side opposite to the substrate (2) toward the substrate (2) has a maximum first peak (Pk1) and a maximum second peak (Pk2). In the distribution of the dopant concentration, the second peak (Pk2) is located at a distance of 3 nm or more from a position indicating the first peak (Pk1) in a direction from the first region (21) to the second region (41) through the oxide film (3). The dopant is of the first conductivity type or a second conductivity type different from the first conductivity type.
H01L 31/068 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof adapted as photovoltaic [PV] conversion devices characterised by at least one potential-jump barrier or surface barrier the potential barriers being only of the PN homojunction type, e.g. bulk silicon PN homojunction solar cells or thin film polycrystalline silicon PN homojunction solar cells
H01L 31/18 - Processes or apparatus specially adapted for the manufacture or treatment of these devices or of parts thereof
H01L 31/0745 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof adapted as photovoltaic [PV] conversion devices characterised by at least one potential-jump barrier or surface barrier the potential barriers being only of the PN heterojunction type comprising a AIVBIV heterojunction, e.g. Si/Ge, SiGe/Si or Si/SiC solar cells
This communication method, which is executed by a user device in a mobile communication system that provides a multicast/broadcast service (MBS), includes: a step for receiving, from a network, information for setting a resume condition relating to multicast reception quality, the condition being a condition for starting an RRC connection resume at the time of multicast reception in a radio resource control (RRC) inactive state; a step for evaluating whether the multicast reception quality satisfies the resume condition when performing multicast reception in the RRC inactive state; a step for retaining log information relating to the multicast reception on the basis of the multicast reception quality satisfying the resume condition; and a step for transmitting the log information to the network after transitioning from the RRC inactive state to an RRC connected state.
H04W 76/27 - Transitions between radio resource control [RRC] states
H04W 4/06 - Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
This radio wave control plate includes a plurality of unit structures which are arrayed on a first plane. Each of the unit structures includes: a plurality of resonators that are disposed in a first direction perpendicular to the first plane, and that include first resonators provided on the upper surface of the unit structure and second resonators provided on the lower surface of the unit structure; a dielectric layer that is positioned between the plurality of resonators; and an adjustment layer that is provided so as to cover at least a portion of the first resonators and/or the second resonators, and that has a dielectric loss tangent greater than that of the dielectric layer.
This cell comprises a support, a first electrode, a solid electrolyte layer, and a second electrode. The support is internally provided with a flow path that extends in a first direction, and the support has a first surface, a second surface that is on the reverse side of the first surface, and a pair of side surfaces that connect the first surface and the second surface to each other. The first electrode is on the first surface, the second surface, and the pair of side surfaces. The solid electrolyte layer covers the first electrode. The second electrode is on the solid electrolyte layer. The second electrode has a first end and a second end that is separated from the first end by a boundary part which extends in the first direction.
C25B 1/042 - Hydrogen or oxygen by electrolysis of water by electrolysis of steam
C25B 9/00 - Cells or assemblies of cells; Constructional parts of cells; Assemblies of constructional parts, e.g. electrode-diaphragm assemblies; Process-related cell features
C25B 9/23 - Cells comprising dimensionally-stable non-movable electrodes; Assemblies of constructional parts thereof with diaphragms comprising ion-exchange membranes in or on which electrode material is embedded
C25B 9/63 - Holders for electrodes; Positioning of the electrodes
C25B 9/77 - Assemblies comprising two or more cells of the filter-press type having diaphragms
C25B 11/02 - Electrodes; Manufacture thereof not otherwise provided for characterised by shape or form
C25B 13/04 - Diaphragms; Spacing elements characterised by the material
28.
METHODS, APPARATUSES AND SYSTEMS FOR DEEP LEARNING MIMO CHANNEL ESTIMATION FOR INTELLIGENT REFLECTION SURFACE INSTALLED USER EQUIPMENT
Methods, apparatuses and systems for deep learning multiple-input and multiple- output (MIMO) channel estimation for intelligent reflecting surface (IRS) installed user equipment (UE), wherein a wireless communication device includes: a transceiver configured to receive a first signal at a first frequency from a wireless communication node; and an IRS configured to reflect the first signal to generate a reflected first signal back to the wireless communication node, wherein the reflected first signal is used for a channel estimation at a second frequency, wherein the first frequency and the second frequency are different, wherein the channel estimation is performed by estimating channel measurements on an uplink channel at the second frequency, wherein the channel measurements on the uplink channel at the second frequency are estimated using a neural network (NN) model.
H04B 7/04 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
H04L 5/00 - Arrangements affording multiple use of the transmission path
User equipment according to the present invention uses carrier aggregation to perform wireless communication with a node as part of a mobile communication system and comprises: a reception unit that receives, from the node, information that indicates a wireless quality condition that is to be met for the user equipment to execute deactivation processing for a secondary cell configured for the user equipment; and a control unit that measures wireless quality and evaluates whether the wireless quality condition has been met. The control unit executes the deactivation processing for the secondary cell in response to the wireless quality condition being met.
Provided is a communication method executed by a relay device which has a relay that performs a relay operation for relaying a wireless signal which is transmitted between a network and a user device and a control terminal that receives, from the network, a control signal which is used for control of the relay, said communication method comprising: a step for measuring a wireless environment which is related to the relay device; and a step for transmitting, from the control terminal to the network, measurement information which has been obtained by the measurement.
The present invention provides a user equipment that performs wireless communication with a master node and a secondary node using dual connectivity in a mobile communication system, the user equipment comprising: a reception unit that receives, from the master node, information indicating a wireless quality condition that is to be satisfied for the user equipment to perform a deactivation process for a secondary cell group of the secondary node; and a control unit that measures the wireless quality for the secondary cell group and evaluates whether or not the wireless quality condition is satisfied. The control unit performs the deactivation process for the secondary cell group in response to the satisfaction of the wireless quality condition.
This antenna device includes: a phased array antenna including a plurality of antenna elements; and a control unit that is provided in the transmission direction of a transmission radio wave transmitted by the phased array antenna, that is formed so that the transmission phase differs depending on the position where the transmission radio wave is incident, and that controls the transmission radio wave so as to form a prescribed beam pattern. The antenna elements are arranged at an interval wider than the half wavelength of the transmission radio wave.
H01Q 19/06 - Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic using refracting or diffracting devices, e.g. lens
H01Q 21/08 - Arrays of individually energised antenna units similarly polarised and spaced apart the units being spaced along, or adjacent to, a rectilinear path
33.
RADIO WAVE CONTROL DEVICE AND HOUSING FOR RADIO WAVE CONTROL PLATE
The purpose of the present invention is to provide: a radio wave control device with which it is possible to easily adjust the angle of a radio wave control plate; and a housing for a radio wave control plate. A radio wave control device according to the present disclosure comprises: a radio wave control plate that reflects or deflects radio waves; a first housing that accommodates the radio wave control plate on the interior thereof; and a second housing that accommodates the first housing on the interior thereof, wherein the first housing and the second housing constitute a housing for the radio wave control plate, and the first housing is capable of rotating in an in-plane direction with respect to the second housing.
An aerial image display device according to the present disclosure comprises: a display unit; and an optical system that forms an image of image light emitted from the display unit as an aerial image of a real image. In the aerial image display device, when an area obtained by integrating a first modulation transfer function of the aerial image formed by the optical system on a spatial frequency axis is denoted by S1, the optical system is an ideal optical system having a diffraction-limited resolution, and an area obtained by integrating a second modulation transfer function of an ideal aerial image formed by the ideal optical system is denoted by S2, the ratio S1/S2 of the area S1 to the area S2 is 0.58 or more.
G02B 30/56 - Optical systems or apparatus for producing three-dimensional [3D] effects, e.g. stereoscopic images the image being built up from image elements distributed over a 3D volume, e.g. voxels by projecting aerial or floating images
G02B 17/00 - Systems with reflecting surfaces, with or without refracting elements
An aerial image display device according to the present disclosure comprises a display unit and an optical system that forms an image of image light emitted from the display unit as an aerial image of a real image, the ratio of the half-value width to the quarter-value width of a peak value in the luminance distribution waveform of the aerial image being 0.5 or greater.
G02B 30/56 - Optical systems or apparatus for producing three-dimensional [3D] effects, e.g. stereoscopic images the image being built up from image elements distributed over a 3D volume, e.g. voxels by projecting aerial or floating images
H04N 13/302 - Image reproducers for viewing without the aid of special glasses, i.e. using autostereoscopic displays
36.
IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, AND OPERATION DEVICE CONTROLLER
This image processing device comprises a communication unit and a control unit. The communication unit acquires a first image. The control unit determines similarity between at least a part of the first image and a second image. The second image is generated on the basis of a training image group. The training image group includes a plurality of detection target images different from the first image. The control unit can re-generate the second image. The control unit regenerates the second image on the basis of the training image group, which includes more unused images than used images that were used to generate the second image.
This joined body has a metal member, an insulation member, and a joined member in which the metal member and the insulation member are joined. When a section of the surface of the metal member that is in contact with the joining member is defined as a joining section, the average crystal grain size in a surface layer of the metal member in the joining section is smaller than the average crystal grain size inside the metal member. The joined body is for use in an airtight terminal, or the like.
An ink set for inkjet textile printing according to one aspect of the present invention comprises a pretreatment liquid, an ink, and a post-treatment liquid. The static surface tension of the pretreatment liquid is higher than the static surface tension of either the ink or the post-treatment liquid.
B41M 5/00 - Duplicating or marking methods; Sheet materials for use therein
C09D 11/54 - Inks based on two liquids, one liquid being the ink, the other liquid being a reaction solution, a fixer or a treatment solution for the ink
D06B 11/00 - Treatment of selected parts of textile materials, e.g. partial dyeing
This printed material has a treatment agent containing a pigment, binder resin particles, and a silicone component attached thereto, wherein the silicone component is present on both the surface on the front side and the surface on the back side of the printed material, and the amount of the silicone component is smaller on the surface on the back side than the surface on the front side.
Provided is a housing for a radio wave control plate, the housing having no influence on a reflected wave and a refracted wave from the radio wave control plate. A housing for a radio wave control plate according to the present disclosure houses a radio wave control plate for reflecting or refracting radio waves. The housing for the radio wave control plate has no structure constituting the housing for the radio wave control plate within a maximum angle θ of radio wave traveling direction control of the radio wave control plate.
A printing device (1) comprises a conveyance member (31) that conveys a medium (M), a printing unit (4) that is positioned above the conveyance member (31), a liquid tank unit (5) that is positioned below the conveyance member (31), and a recovery unit (6) that is positioned below a liquid tank (51) of the liquid tank unit (5). The recovery unit (6) has a circulation flow path part (6A) that forms a flow path through which a liquid (L) stored in the liquid tank (51) circulates via the liquid tank (51), and recovery members (62, 63) that can recover adhesions (A) contained in the liquid (L) flowing through the circulation flow path part (6A).
This liquid supply device comprises: a supply tank for storing a liquid to be supplied to a liquid ejecting head; and a pressure applying device for supplying positive pressure to the supply tank by way of a gas such that the inside of the supply tank assumes a positive pressure that is higher than atmospheric pressure. The pressure applying device includes: a supply-side regulator that reduces the pressure of the gas arriving from a pressure source; a pressure application pipe that connects the supply-side regulator and the supply tank such that the gas after pressure reduction by the supply-side regulator is sent to the supply tank; and a branch pipe that branches and extends from midway along the pressure application pipe and that has a terminal end open to the atmosphere.
This light-emitting element is provided with: a first nitride semiconductor unit having a first surface perpendicular to a first crystal orientation; and a second nitride semiconductor unit having a second surface perpendicular to a second crystal orientation different from the first crystal orientation and a light-emitting layer positioned above the second surface, the second nitride semiconductor unit being positioned above the first surface.
H01S 5/183 - Surface-emitting [SE] lasers, e.g. having both horizontal and vertical cavities having only vertical cavities, e.g. vertical cavity surface-emitting lasers [VCSEL]
H01L 33/10 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof characterised by the semiconductor bodies with a light reflecting structure, e.g. semiconductor Bragg reflector
H01L 33/16 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof characterised by the semiconductor bodies with a particular crystal structure or orientation, e.g. polycrystalline, amorphous or porous
H01L 33/32 - Materials of the light emitting region containing only elements of group III and group V of the periodic system containing nitrogen
H01S 5/343 - Structure or shape of the active region; Materials used for the active region comprising quantum well or superlattice structures, e.g. single quantum well [SQW] lasers, multiple quantum well [MQW] lasers or graded index separate confinement heterostructure [GRINSCH] lasers in AIIIBV compounds, e.g. AlGaAs-laser
This ink jet printer comprises: a processing liquid head for discharging a processing liquid; an ink head for discharging an ink; a first member for cleaning a nozzle placement surface of the processing liquid head; and a second member for cleaning a nozzle placement surface of the ink head, the second member differing from the first member in constituent material, cleaning method, or properties.
This ink jet printer comprises: a processing liquid head for discharging a processing liquid; an ink head for discharging ink; a first wiping member for wiping a nozzle arrangement surface of the processing liquid head; and a second wiping member for wiping a nozzle arrangement surface of the ink head, the second wiping member being different from the first wiping member.
This liquid supply unit comprises: a supply tank for storing a liquid to be supplied to a supply destination; a recovery tank for storing the liquid to be recovered from the supply destination; and a support body that supports the supply tank and the recovery tank and is detachably mounted to a device body including the supply destination.
A notification device (10) is mounted in a vehicle, said notification device comprising a control unit which acquires traffic information from a traffic information provision device (5) and which, on the basis of the traffic information, issues, within a prescribed period, a notification of a target that may become an obstacle to passage of the vehicle by a violation of traffic rules. In the notification device (10), the control unit may issue a notification of a target that is present in a blind spot to an occupant of the vehicle and that may become an obstacle to passage.
This printed material has a treatment agent containing a pigment, binder resin particles, and a silicone component attached thereto, wherein the silicone component is present on both the surface on the front side and the surface on the back side of the printed material, and the amount of the silicone component is smaller on the surface on the back side than the surface on the front side.
This teaching data generation device is provided with a teaching data generation unit for generating teaching data which is used to control a robot system and corresponds to at least one robot system task that is required in order to execute the work to be executed by the robot system. According to each task, the teaching data generation unit generates teaching data by obtaining basic control knowledge representing a basic control executed by an executing entity for each task, and environment knowledge representing the execution environment for each task and/or configuration knowledge representing the configuration of the executing entity required to execute each task.
G05B 19/42 - Recording and playback systems, i.e. in which the programme is recorded from a cycle of operations, e.g. the cycle of operations being manually controlled, after which this record is played back on the same machine
A printing device (1) comprises: a conveyance member (31) that conveys a medium (M); an ink head (421) that causes ink to adhere to the medium (M) supported by a support surface (311) of the conveyance member (31); a guide member (6) that guides the medium (M) to the support surface (311) of the conveyance member (31); a recovery member (7) that recovers liquid (L) present on the conveyance member (31); and a support unit (8). The support unit (8) supports the guide member (6) and the recovery member (7) such that the guide member (6) is positioned below the support surface (311) and the recovery member (7) is positioned between the support surface (311) and the guide member (6).
This multilayer substrate comprises a first layer and a metal layer. The first layer is composed of an organic resin. The metal layer is exposed on a front surface of the first layer. The first layer has a black-based color tone, and the metal layer has any one of a gold-based, a yellow-based, a white-based, and a brown-based color tones.
This electrochemical cell comprises a first electrode layer, a second electrode layer, and a solid electrolyte layer. The solid electrolyte layer is positioned between the first electrode layer and the second electrode layer. The solid electrolyte layer contains a first element. The first electrode layer includes a second element the valency of which is less likely to vary than the first element.
H01M 8/1213 - Fuel cells with solid electrolytes operating at high temperature, e.g. with stabilised ZrO2 electrolyte characterised by the electrode/electrolyte combination or the supporting material
C25B 1/04 - Hydrogen or oxygen by electrolysis of water
C25B 9/00 - Cells or assemblies of cells; Constructional parts of cells; Assemblies of constructional parts, e.g. electrode-diaphragm assemblies; Process-related cell features
C25B 9/23 - Cells comprising dimensionally-stable non-movable electrodes; Assemblies of constructional parts thereof with diaphragms comprising ion-exchange membranes in or on which electrode material is embedded
H01M 8/04 - Auxiliary arrangements, e.g. for control of pressure or for circulation of fluids
H01M 8/12 - Fuel cells with solid electrolytes operating at high temperature, e.g. with stabilised ZrO2 electrolyte
H01M 8/124 - Fuel cells with solid electrolytes operating at high temperature, e.g. with stabilised ZrO2 electrolyte characterised by the process of manufacturing or by the material of the electrolyte
H01M 8/2475 - Enclosures, casings or containers of fuel cell stacks
This printing device comprises: a conveyance unit that conveys a printing medium along a conveyance direction; a printing unit that prints a cutting indication line on the printing medium; a cutting unit that cuts the printing medium along a cutting direction which intersects the conveyance direction; and a control unit that controls the printing unit so as to print the cutting indication line along a direction which differs from the cutting direction.
B41J 29/38 - Drives, motors, controls, or automatic cut-off devices for the entire printing mechanism
B41J 11/70 - Applications of cutting devices cutting perpendicular to the direction of paper feed
B41J 25/20 - Auxiliary type mechanisms for printing distinguishing marks, e.g. for accenting, using dead or half-dead key arrangements, for printing marks in telegraph printers to indicate that machine is receiving
54.
ISOLATOR, OPTICAL SWITCH, OPTICAL TRANSCEIVER, DATA CENTER, AND METHOD FOR PRODUCING ISOLATOR
This isolator comprises a substrate, waveguides, an insulating layer, and non-reciprocal members. The insulating layer includes recesses. The recesses are positioned so as to overlap at least part of the waveguides. The non-reciprocal members are positioned in the recesses. The waveguides include a first waveguide and a second waveguide. The recesses include a first recess and a second recess. The non-reciprocal members include a first non-reciprocal member positioned in the first recess and a second non-reciprocal member positioned in the second recess. The propagation direction of electromagnetic waves in a part of the first waveguide overlapping the first non-reciprocal member is different from the propagation direction of electromagnetic waves in a part of the second waveguide overlapping the second non-reciprocal member.
G02B 27/28 - Optical systems or apparatus not provided for by any of the groups , for polarising
G02B 6/12 - Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings of the optical waveguide type of the integrated circuit kind
23233 layer is located further apart from the base than the Ti-based coating layer. In at least a rake face, a plurality of regions surrounded by cracks are present in the uppermost surface of the coating layer. The number of the regions is 25-60 per one field of view, and the regions have an average area of 2,500-4,500 μm2.
23233 layer is located farther from the base than the Ti-based coating layer and includes the outermost surface of the coating layer. In a blade edge ridgeline part and/or a rake face, a crack extending from the outermost surface toward the substrate is present in the coating layer. The crack is open on the outermost surface. The width of the crack from the outermost surface to -0.2 μm is 1-30 μm.
This power supply device comprises a first light-emitting unit that outputs a first laser beam of a prescribed short wavelength, said first laser beam being power supply light; a second light-emitting unit that outputs a second laser beam having a longer wavelength than the first laser beam; and a control unit. The control unit causes the second laser beam to be output around the first laser beam.
H02J 50/30 - Circuit arrangements or systems for wireless supply or distribution of electric power using light, e.g. lasers
H02J 50/60 - Circuit arrangements or systems for wireless supply or distribution of electric power responsive to the presence of foreign objects, e.g. detection of living beings
H02J 50/80 - Circuit arrangements or systems for wireless supply or distribution of electric power involving the exchange of data, concerning supply or distribution of electric power, between transmitting devices and receiving devices
58.
MULTILAYER ELECTRONIC COMPONENT AND METHOD FOR MANUFACTURING SAME
31-xx31-xx31-x-yxy33 (BCST). The BT ratio in the side margin portion is lower than the BT ratio in the effective portion, where the BT ratio is the ratio of the amount of BT particles to the amount of BT-based particles.
This radio wave control plate comprises a plurality of unit structures that are arranged on a first surface, and a plurality of attachment parts that are for fixation to an installation member using fasteners.
This printing device (1) comprises: a carrier member (31) that carries a medium (M); an ink head (421) that deposits ink onto the medium (M) on a carrying surface (311) of the carrier member (31); and a guide unit (5) that guides the medium (M) fed to the carrier member (31) to the carrying surface (311). The guide unit (5) includes a branching part (51) where the feeding path of the medium (M) to the carrying surface (311) branches into a first feeding path (5R1) and a second feeding path (5R2). The first feeding path (5R1) changes the feeding direction of the medium (M) that has passed through the branching part (51) at acute first angles of change (α11, α12). The second feeding path (5R2) changes the feeding direction of the medium (M) that has passed through the branching part (51) at a second angle of change (α2) that is greater than the first angles of change (α11, α12).
The present invention realizes an elastic wave device for which there are few spurious components and Δf is wide. This elastic wave device comprises: a piezoelectric body; a first IDT electrode positioned on a first surface side of the piezoelectric body; and a second IDT electrode positioned on a second surface side, opposite to the first surface, of the piezoelectric body. The piezoelectric body has a thickness that is not more than twice the pitch of the electrode fingers of the first IDT electrode. At least a portion of the first IDT electrode is positioned on the inside of a groove formed on the first surface side, and at least a portion of the second IDT electrode is positioned on the inside of a groove formed on the second surface side.
Provided is an inkjet recording device, wherein when the distance between a center position in a conveyance direction of a discharge region R of a preprocessing head (5) and an axis position of an upstream-side support roller (25) is a first reference distance (d1), and the distance between a center position in the conveyance direction of a discharge region (R) of a post-processing head (6) and an axis position of a downstream-side support roller (26) is a second reference distance (d2), a reference distance (the second reference distance (d2) in Fig . 7) of one (the post-processing head (6) in Fig. 7) having a smaller amount of a discharged liquid among the pre-processing head (5) and the post-processing head (6) is set to be shorter than a reference distance (the first reference distance (d1) in Fig. 7) of the other having a larger amount of the discharged liquid.
This adjustment method comprises a one-side adjustment step and an other-side adjustment step that are performed in a state in which first to fourth measurement instruments (511, 512, 513, 514), capable of measuring the distance in the height direction from a conveying surface (21a) of a conveyor belt (21a) or a correlated distance correlated with the distance, are attached to a head support plate (31) of a carriage (3). In the one-side adjustment step, the parallelity between the conveying surface (21a) of the conveying belt (21) and a reference surface K at a portion near one side of the head support plate 31 is adjusted on the basis of measurement values acquired by the first and second measurement instruments (511, 512) located on one side in a main scanning direction. In the other-side adjustment step, the height and slope of an edge portion on the other side of the head support plate (31) are adjusted on the basis of a comparison of the measurement values acquired by the first and second measurement instruments (511, 512) and the measurement values acquired by the third and fourth measurement instruments (513, 514) located on the other side.
This droplet ejection head comprises a flow path member, a base film (21J), and a water-repellent film (21M). The flow path member has a plurality of ejection holes (163) in a first surface. The base film (21J) is located on the first surface. The water-repellent film (21M) is located on the base film (21J). The base film (21J) located in an edge area (80) including the edge (100) of each ejection hole (163) decreases in film thickness toward the edge (100).
This electroconductive member comprises a metal plate, a first porous layer, and a second porous layer. The metal plate has a first surface and a second surface positioned on the opposite side of the first surface, and gas can flow between the first surface and the second surface. The first porous layer is positioned on the first surface. The second porous layer is positioned on the second surface. When the thermal expansion coefficient of the metal plate is α0, the thermal expansion coefficient of the first porous layer is α1, and the thermal expansion coefficient of the second porous layer is α2, α1<α0 and α2<α0, or α1>α0 and α2>α0 are satisfied.
H01M 8/1226 - Fuel cells with solid electrolytes operating at high temperature, e.g. with stabilised ZrO2 electrolyte characterised by the electrode/electrolyte combination or the supporting material characterised by the supporting layer
C25B 1/04 - Hydrogen or oxygen by electrolysis of water
C25B 9/00 - Cells or assemblies of cells; Constructional parts of cells; Assemblies of constructional parts, e.g. electrode-diaphragm assemblies; Process-related cell features
In the present invention, temperature characteristics of an elastic wave device is improved. This elastic wave device comprises: a piezoelectric layer; and an IDT electrode positioned on the piezoelectric layer. When an electrode finger pitch of the IDT electrode is denoted as p, the thickness of the piezoelectric layer is 2p or less. The IDT electrode has a first layer containing Al and a second layer containing a metal higher in density than Al. The IDT electrode is configured to excite a plate wave or a bulk wave.
This method for producing a multilayer ceramic electronic component comprises a preparation step, an arrangement step, and an attachment step. In the preparation step, a first laminate and a second laminate are prepared. The first laminate is configured such that a distance between a pair of first main surfaces is smaller than a distance between a pair of first side surfaces, and a plurality of first conductor layers are exposed from the first side surfaces. The second laminate is configured such that a distance between a pair of second main surfaces is smaller than a distance between a pair of second side surfaces, and a plurality of second conductor layers are exposed from the second side surfaces. In the arrangement step, the first laminate and the second laminate are arranged such that the first side surfaces and the second side surfaces are open surfaces, and a direction orthogonal to the first main surfaces and a direction orthogonal to the second main surfaces intersect each other. In the attachment step, functional members are attached to the first side surfaces and the second side surfaces, which are open surfaces.
H01C 7/02 - Non-adjustable resistors formed as one or more layers or coatings; Non-adjustable resistors made from powdered conducting material or powdered semi-conducting material with or without insulating material having positive temperature coefficient
H01C 7/04 - Non-adjustable resistors formed as one or more layers or coatings; Non-adjustable resistors made from powdered conducting material or powdered semi-conducting material with or without insulating material having negative temperature coefficient
H01C 7/06 - Non-adjustable resistors formed as one or more layers or coatings; Non-adjustable resistors made from powdered conducting material or powdered semi-conducting material with or without insulating material including means to minimise changes in resistance with changes in temperature
H01F 41/04 - Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils or magnets for manufacturing coils
68.
ELECTRONIC COMPONENT STORAGE PACKAGE AND ELECTRONIC MODULE USING SAME
This electronic component storage package comprises a substrate, a frame, and a base. The substrate has a first upper surface, a first lower surface opposite to the first upper surface, and a substrate through-hole. The substrate through-hole penetrates from the first upper surface to the first lower surface. The substrate is composed of a first metal material. The frame is disposed on the first upper surface. The frame surrounds the substrate through-hole. The frame has a frame through-hole. The frame through-hole penetrates the frame from the inside to the outside. The frame is composed of a ceramic material. The base is disposed on the first upper surface. The base overlaps the substrate through-hole in a plan view. The base has a second lower surface and a first protrusion. The second lower surface faces the first upper surface. The first protrusion protrudes from the second lower surface. At least a portion of the first protrusion is disposed within the substrate through-hole.
H01L 23/06 - Containers; Seals characterised by the material of the container or its electrical properties
H01L 23/08 - Containers; Seals characterised by the material of the container or its electrical properties the material being an electrical insulator, e.g. glass
H01L 31/02 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof - Details
H01S 5/02208 - Mountings; Housings characterised by the shape of the housings
H01S 5/02218 - Material of the housings; Filling of the housings
69.
DEVICE, ELECTRICAL DEVICE, SUBSTRATE, AND PRODUCTION METHOD FOR DEVICE
The present invention ensures sufficient interfacial strength at a solder joint portion, even after a high-temperature process such as reflow joining. A device according to the present invention has a base body that has a first surface, an electrode that is positioned on the first surface of the base body, and a junction part that is positioned on the electrode. The junction part includes a first layer, a second layer, and a third layer in order from the electrode side. The first layer includes Mo as a principal component. The second layer includes β-Sn as a principal component. The third layer includes solder.
This radio wave control plate comprises a substrate and a plurality of unit structures arranged in a first surface direction of the substrate. The substrate has warpage with respect to the first surface direction.
This terminal device is provided with a display and a control unit. The control unit determines, on the basis of information of a second operator and information of a first operator in a hover state with respect to the display, an instruction of a user with respect to an object displayed on the display.
G06F 3/04842 - Selection of displayed objects or displayed text elements
G06F 3/041 - Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
G06F 3/0488 - Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
72.
LIQUID STORAGE TANK, LIQUID CIRCULATION DEVICE, RECORDING DEVICE EQUIPPED WITH SAME, AND LIQUID STORAGE TANK GROUP
This liquid storage tank includes: a tank main body for storing a liquid; and a bubble detecting unit for detecting bubbles of the liquid above a liquid surface of the liquid in the tank main body. The tank main body communicates with a liquid functional unit having a predetermined function with respect to the liquid, and the tank main body is set to a negative pressure with respect to the liquid functional unit.
This radio wave control plate includes a plurality of unit structures arranged in a first planar direction. Each unit structure comprises: a plurality of resonators that extend in the first planar direction; coupling conductors that adjust a coupling coefficient between the plurality of resonators; and connecting portions that change the structure in accordance with a coupling matrix of the unit structures.
Disclosed is a light emitting element which is provided with a plurality of light emitting units, wherein the plurality of light emitting units are each provided with a first electrode unit and a second electrode unit that are at mutually different positions in a plan view, and an active layer that is disposed between the first electrode unit and the second electrode unit. The plurality of light emitting units include a first group that is arranged in a first direction in a plan view, a second group that is parallel to the first group, and a third group that is at an end between the first group and the second group. First light emitting units belonging to the first group and second light emitting units belonging to the second group are at positions that do not overlap each other in a second direction that intersects the first direction, and third light emitting units belonging to the third group include a third light emitting unit in which the direction of a current path in a plan view is different from those of both the first light emitting units and the second light emitting units.
H01L 33/08 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof characterised by the semiconductor bodies with a plurality of light emitting regions, e.g. laterally discontinuous light emitting layer or photoluminescent region integrated within the semiconductor body
H01L 33/38 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof characterised by the electrodes with a particular shape
H01L 33/44 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof characterised by the coatings, e.g. passivation layer or anti-reflective coating
A solar cell module (1) comprises: a solar cell unit (2); a first substrate (10); a filler (60); and an outer peripheral surface (Fem) including a light-receiving surface (Fr1), a reverse surface (Fr2), a first side surface (Fr3), and a second side surface (Fr4). In the solar cell module (1): the light-receiving surface (Fr1) is located at the end of a first A direction; the reverse surface (Fr2) is located at the end of a first B direction inverse to the first A direction; the first side surface (Fr3) is located at the end of a second A direction orthogonal to the first A direction and connects the light-receiving surface (Fr1) and the reverse surface (Fr2); and the second side surface (Fr4) is located at the end of a second B direction inverse to the second A direction and connects the light-receiving surface (Fr1) and the reverse surface (Fr2). The first substrate (10) is constituted of a single material that is translucent, and includes a light-receiving surface-side first portion (P1), a reverse surface-side second portion (P2), a first side surface-side third portion (P3), and a second side surface-side fourth portion (P4). The solar cell module (1) has a first space (IS) surrounded by the first portion (P1), the second portion (P2), the third portion (P3), and the fourth portion (P4). The solar cell unit (2) and the filler (60) are located in the first space (IS). The solar cell unit (2) includes one or more solar cell elements (3) each located along a second portion (P2)-side surface of the first portion (P1).
H10K 39/10 - Organic photovoltaic [PV] modules; Arrays of single organic PV cells
H10K 30/40 - Organic devices sensitive to infrared radiation, light, electromagnetic radiation of shorter wavelength or corpuscular radiation comprising a p-i-n structure, e.g. having a perovskite absorber between p-type and n-type charge transport layers
This solar cell module (1) comprises: a front substrate (10) having a first surface (F1) and a second surface (F2); a back substrate (80) having a third surface (F3) that faces the second surface (F2) and having a fourth surface (F4); a solar cell part (2) including a plurality of power generation parts (30) that are arranged in a first direction following the second surface (F2) and generate power in response to incidence of light; and a first extraction electrode (50f) for extracting electricity generated in the plurality of power generation parts (30) to the exterior of the solar cell module (1). The first extraction electrode (50f) includes a first A portion (P1f) including a first connection part (PCf) exposed on the exterior of the solar cell module (1) and having a conductor wire connected thereto, and a second A portion (P2f) that electrically connects the solar cell part (2) and the first A portion (P1f). The solar cell part (2) and a portion of the first extraction electrode (50f) other than the first connection part (PCf) are positioned between the front substrate (10) and the back substrate (80). The first A portion (P1f) includes a region positioned between the solar cell part (2) and the back substrate (80) in both the first direction that follows the second surface (F2) and a second direction. In the first direction, the width of a first A electrode surface (Fe1f) of the first A portion (P1f) and facing the third surface (F3) is greater than the width of a second A electrode surface (Fe2f) of the second A portion and facing the second surface.
H10K 30/40 - Organic devices sensitive to infrared radiation, light, electromagnetic radiation of shorter wavelength or corpuscular radiation comprising a p-i-n structure, e.g. having a perovskite absorber between p-type and n-type charge transport layers
Provided is a communication method which is carried out by a relay device comprising a relay that carries out a relay operation for relaying a radio signal transmitted between a base station and a user device, and a control terminal that receives, from the base station, a control signal for use in control of the relay, said method comprising: a step for receiving, from a first cell, setting information pertaining to the relay operation; a step for using the setting information to carry out the relay operation when the control terminal is in a radio resource control (RRC) inactive state in the first cell; a step for stopping the relay operation when cell re-selection from the first cell to a second cell is carried out; and a step for re-starting the relay operation using the setting information when cell re-selection to the first cell is carried out within a prescribed time after the cell re-selection to the second cell has been carried out.
Provided is a communication control method for a mobile communication system. The communication control method comprises a step in which a model management entity manages model change information indicating whether model learning has been performed on a trained first AI/ML model.
This communication method, which is performed by a user device in a mobile communication system that provides a multicast/broadcast service (MBS), comprises: a step for receiving, in a radio resource control (RRC) inactive state and from a base station, a paging message including a first list, which is a list of user device identifiers, and a second list, which is a list of MBS session identifiers; a step for commencing RRC connection resumption for transitioning from the RRC inactive state to an RRC connected state, on the basis of a user device identifier of the user device being included in the first list; and a step for recognizing activation of a joined multicast session which the user device has joined and for maintaining the RRC inactive state, on the basis of the MBS session identifier of the joined multicast session being included in the second list.
H04W 4/06 - Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
H04W 68/00 - User notification, e.g. alerting or paging, for incoming communication, change of service or the like
H04W 76/27 - Transitions between radio resource control [RRC] states
80.
COMMUNICATION METHOD, USER EQUIPMENT, AND NETWORK NODE
Provided is a communication method executed by user equipment in a mobile communication system that provides a multicast/broadcast service (MBS), the method comprising the steps of: receiving, from a base station, information on whether or not to permit execution of session participation processing of a multicast session using a small data transmission (SDT) technology for communicating with the base station while maintaining a radio resource control (RRC) inactive state; and executing the session participation processing using the SDT technology while maintaining the RRC inactive state, on the basis of the information indicating permission of the execution of the session participation processing using the SDT technology.
H04W 4/06 - Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
H04W 4/20 - Services signalling; Auxiliary data signalling, i.e. transmitting data via a non-traffic channel
A communication control method according to one aspect is used in a cellular communication system. The communication control method comprises a step for transmitting, by a target donor node, a handover command to user equipment via a source cell, the handover command including index information related to an index of a synchronization signal block (SSB). The communication control method also comprises a step for receiving, by the user equipment, the handover command. The communication control method further comprises a step for transmitting, by the user equipment using a resource associated with the index of the synchronization signal block, an RRCReconfigurationComplete message to a target cell.
A communication method which is executed by a relay device comprising a relay device for performing a relay operation for relaying a radio signal transmitted between a base station and a user device, and a control terminal for receiving a control signal used for control of the relay device from the base station, the communication method comprising: a step for starting a timer for limiting the start of a procedure for radio resource control (RRC) connection establishment for transitioning to an RRC connected state, when the control terminal has transitioned from the RRC connected state to an RRC idle state; a step for putting a limitation in place so as not to start the procedure in response to the cause of the RRC connection establishment not being a predetermined cause during the operation of the timer; and a step for starting the procedure in response to the cause of the RRC connection establishment being the predetermined cause during the operation of the timer.
A communication control method according to one aspect of the present invention is used in a mobile communication system. The communication control method includes a step in which a model management entity transmits timing information indicating the timing for the execution of a prescribed operation to a model-training entity. The communication control method also includes a step in which the model-training entity executes the prescribed operation at the execution timing. The prescribed operation is at least one of: transmitting, to the model management entity, model training history information indicating a history of training a first AI/ML model; transmitting, to the model management entity, a second AI/ML model following training of the first AI/ML model; and updating model identification information for identifying the second AI/ML model.
A communication method performed by user equipment in a mobile communication system providing a multicast/broadcast service (MBS) comprises the steps of: receiving, from a network, information for setting a condition for starting RRC connection resume during multicast reception in a radio resource control (RRC) inactive state, the condition being a resume condition related to multicast reception quality; receiving, from the network, information for setting an area condition related to an area in which the RRC connection resume based on the resume condition is permitted or prohibited; and starting the RRC connection resume when the resume condition is satisfied and the area condition is satisfied during multicast reception in the RRC inactive state.
H04W 76/27 - Transitions between radio resource control [RRC] states
H04W 4/06 - Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
H04W 24/02 - Arrangements for optimising operational condition
This communication method is executed by a user device in a mobile communication system that provides a multicast/broadcast service (MBS), the method including: a step for, in a radio resource control (RRC) inactive state, receiving a multicast session from a network by using a first multicast radio bearer (MRB) for the RRC inactive state; a step for maintaining the first MRB until a predetermined condition is satisfied even when transitioning from the RRC inactive state to an RRC connected state; and a step for, in the RRC connected state, receiving, from the network, a point-to-multipoint (PTM) setting including a setting of a second MRB for receiving the multicast session in the RRC state. The predetermined condition includes the receipt of the PTM setting by the user device from the network.
Methods, apparatuses and systems for intelligent reflection surface (IRS) installed user equipment (UE) channel quality index determination. In one embodiment, a wireless communication device includes: a transceiver configured to receive a zero-power reference signal (ZP-RS) and a first signal from a wireless communication node; and an IRS configured to reflect the ZP-RS and the first signal to generate a reflected ZP-RS and a reflected first signal back to the wireless communication node, wherein the reflected ZP-RS and the reflected first signal are used to determine a channel quality index (CQI) for a transmission between the wireless communication node and the wireless communication device.
H04B 7/04 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
H04B 7/06 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
Methods, apparatuses and systems for intelligent reflection surface (IRS) installed user equipment (UE) channel estimation. In one embodiment, a wireless communication device includes: a transceiver configured to: transmit a first signal to a wireless communication node, wherein the first signal comprises a capability message, wherein the capability message comprises in indication to indicate: a first number of a plurality of reconfigurable elements in an Intelligent Reflecting Surface (IRS) coupled to the wireless communication device, and a second number of at least one antenna that can be supported by the IRS, wherein each of the at least one antenna comprises at least one of the plurality of reconfigurable elements; and receive a second signal from the wireless communication node, wherein the second signal comprises a configuration message, wherein the configuration message comprises a plurality of parameters to be configured in the IRS.
H04B 7/04 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
88.
DRILL AND MANUFACTURING METHOD OF CUTTING WORKPIECE
Provided is a drill of which chip-discharge performance is improved, while an influence on an inner peripheral surface of a processed hole is suppressed. The drill (1) has a main body (3) extending from a tip end (3a) toward a rear end (3b) along a rotation axis (O1). The main body has a first cutting blade (13) and a first discharge groove having a first portion and a second portion. In a cross section of the first discharge groove orthogonal to the rotation axis, assuming that an angle formed by a virtual straight line connecting the rotation axis and a front end part and a virtual straight line connecting the rotation axis and a return end part is set as a return amount, the return amount in the first portion is larger than the return amount in the second portion.
An information processing device has a control unit. The control unit controls transmission of first position information to a first communication device on the basis of a first observation target and a second observation target. The first observation target is an observation target present in the periphery. The first observation target is detected by a mounted sensor. The second observation target is included in the information received from the first communication device. The first communication device is a wireless communication partner. The first position information indicates the position of the first observation target.
This information processing device comprises a control unit. The control unit transmits first information indicating the position of a specific location common among a plurality of detected objects.
This radio wave control plate comprises a plurality of unit structures arranged in a first planar direction. The unit structures are provided with a dielectric layer, and a resonator that is disposed on the dielectric layer and extends in the first planar direction. The dielectric layer is formed from glass fibers and includes a glass fiber layer that extends in the first planar direction.
H01Q 15/10 - Refracting or diffracting devices, e.g. lens, prism comprising three-dimensional array of impedance discontinuities, e.g. holes in conductive surfaces or conductive discs forming artificial dielectric
This liquid supply device comprises: at least one pump having a suction port for receiving a liquid, a chamber that accommodates the received liquid together with a stagnant gas, and a delivery port for delivering the liquid accommodated in the chamber; and a gas supply mechanism capable of supplying gas to the chamber.
The present invention relates to a system using a distributed ledger technology. This communication system includes a plurality of nodes constituting a group that manages a ledger. When the group is divided into a plurality of sub-groups, the plurality of nodes newly manage sub-ledgers individually provided for each sub-group. A chain ID of the sub-ledger of each subgroup is the same as a chain ID of the ledger.
H04L 9/32 - Arrangements for secret or secure communications; Network security protocols including means for verifying the identity or authority of a user of the system
The purpose of the present invention is to obtain a wiring board which has a high thermal shock resistance and in the side face of which delamination or cracking is difficult to occur. A wiring board (100) comprises: an insulating substrate (10); and conductor layers (20). In the insulating substrate (10), a plurality of ceramic insulating layers (1) are laminated and integrated. The insulating substrate (10) has an inorganic coating film (30) on the peripheral edge of the insulating substrate (10).
A droplet discharge head according to the present disclosure is provided with a flow path member, a reservoir, a tube, and an auxiliary member. The flow path member has a plurality of discharge holes from which droplets are discharged. The reservoir is positioned above the flow path member, supplies a liquid to the flow path member, and has a boss part made of resin into which the tube is inserted and fitted. The tube supplies a liquid to the reservoir. The auxiliary member has a first through-hole that surrounds, via a gap, the tube inserted and fitted into the boss part.
This portable terminal device comprises: a communication unit that communicates with an image processing device which performs image processing; a control unit that can execute a plurality of applications including a first application relating to image processing and a second application not relating to image processing; and a display unit that displays an image corresponding to an application being executed among the plurality of applications. The first application includes an operation application that is used for operation of image processing. The control unit restricts display of an image corresponding to the second application in a communication state in which a communication connection is established between the communication unit and the image processing device.
G06F 21/84 - Protecting input, output or interconnection devices output devices, e.g. displays or monitors
B41J 29/00 - TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS - Details of, or accessories for, typewriters or selective printing mechanisms not otherwise provided for
H04N 1/00 - PICTORIAL COMMUNICATION, e.g. TELEVISION - Details thereof
This drill has a body extending from the tip end to the base end along an axis of rotation. The body includes: a rake face; a cutting edge; and a discharge groove. An inner cutting edge located along a first rake face includes: a chisel edge; and a first cutting edge extending from the chisel edge toward the outer circumference. A central cutting edge located along a second rake face has a concave curved shape. An outer cutting edge located along a third rake face includes a second cutting edge having a concave curved shape extending toward the outer circumference.
For the automation of insert replacement, there is a need for an insert that can be stably held. A cutting insert (1) based on an aspect of the present disclosure includes a body (3) that is detachably attached to a holder. The body includes: an upper surface (5); a lower surface (7) that is positioned opposite the upper surface; side surfaces (9) that are connected to the upper surface and the lower surface; a cutting edge (11) that is positioned at the intersection between the upper surface and the side surfaces; a fixing hole (17) that opens to the upper surface and the lower surface, and into which a fixing member for fixing the body to the holder can be inserted; and a plurality of through openings (19) that open to the upper surface and the lower surface, and are positioned away from the fixing hole.
There is a need for a cutting tool that has a configuration in which chips can be easily removed during insert replacement work. A cutting tool based on one aspect of the present disclosure has: a holder that has a pocket; an insert that is attached to the holder; and a fixing screw that fixes the insert to the holder. The fixing screw has a shaft and a head. The head has a hexalobular hole and a slit that extends from one lobe of the hexalobular hole to the outer edge of the head.
B23Q 11/00 - Accessories fitted to machine tools for keeping tools or parts of the machine in good working condition or for cooling work; Safety devices specially combined with or arranged in, or specially adapted for use in connection with, machine tools
100.
ELECTRONIC DEVICE, METHOD FOR CONTROLLING ELECTRONIC DEVICE, AND PROGRAM
This electronic device is provided with a signal processing unit that detects a monitoring target on the basis of a transmitted signal that is transmitted as a transmitted wave and a received signal that is received as a reflected wave generated by reflection of the transmitted wave by the monitoring target. The signal processing unit performs non-negative matrix factorization on time-frequency analysis information, which is calculated on the basis of the transmitted wave and the reflected wave, by using basis information relating to a heart sound waveform obtained in advance, to thereby generate a heart sound waveform to be monitored.
G01S 13/52 - Discriminating between fixed and moving objects or between objects moving at different speeds
A61B 5/11 - Measuring movement of the entire body or parts thereof, e.g. head or hand tremor or mobility of a limb
G01S 13/34 - Systems for measuring distance only using transmission of continuous waves, whether amplitude-, frequency-, or phase-modulated, or unmodulated using transmission of continuous, frequency-modulated waves while heterodyning the received signal, or a signal derived therefrom, with a locally-generated signal related to the contemporaneously transmitted signal