The devices, systems, and methods discussed herein involve a base station (e.g., gNB) that employs a broadcast technology such as the Multimedia Broadcast Multicast Service (MBMS) to relay hidden-node information to the neighboring user equipment (UE) devices. In some examples, a base station receives a report based on data acquired by at least one non-communication sensor of a first UE device. Based on the report, the base station assigns communication resources to a second UE device and a third UE device. The base station transmits one or more messages that collectively identify assignment of the first communication resources and the second communication resources.
H04W 72/51 - Allocation or scheduling criteria for wireless resources based on terminal or device properties
H04W 4/06 - Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
An optical circuit board of the present disclosure includes a wiring board and an optical waveguide. The wiring board includes a mounting region for an optical component on an upper surface of the wiring board. The optical waveguide is located in a region adjacent to the mounting region, and includes, over the upper surface of the wiring board, a lower cladding layer, a plurality of cores extending in a first direction, and an upper cladding layer in this order, and is provided with alignment marks on the lower cladding layer. The lower cladding layer includes a first region in which the plurality of cores are located, and two second regions located facing the first region across a groove at positions between which the plurality of cores are sandwiched. The optical waveguide includes a first surface facing the mounting region, and end surfaces of the plurality of cores are exposed thereon.
A pressure measurement device (1S) is for measuring the pressure of a plurality of pressure transmission paths for applying pressure to an object via a gas and comprises: at least one pressure measurement unit (1A) including a measurement path having an internal space capable of receiving the gas, and a pressure sensor (611) for detecting the pressure in the internal space; and at least one switching unit (63) capable of selectively switching the connection destination of the measurement path from among the plurality of pressure transmission paths.
This optical integrated circuit element is provided with a first waveguide and a second waveguide. At least a portion of the first waveguide and at least a portion of the second waveguide are positioned side by side along a first direction. The first waveguide has a first port configured to enable the input or output of an electromagnetic wave including a first polarization and a second polarization, and a second port configured to enable the output of the first polarization that has been separated or the input of the first polarization. The second waveguide has a third port configured to enable the output of the second polarization that has been separated or the second polarization that has been separated and rotated, or the input of the second polarization. Of at least one of the first waveguide and the second waveguide, the shape of a cross section to which the first direction is normal is not axi-symmetrical.
G02B 6/126 - 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 using polarisation effects
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
G02B 6/122 - Basic optical elements, e.g. light-guiding paths
An attractive-adhesion substrate according to the present disclosure has a base, an attractive-adhesion electroconductive layer, a lead section, and a recessed section. The base has a first surface that retains an article being processed, and a second surface that is positioned on the opposite side from the first surface. The base comprises an insulator. The attractive-adhesion electroconductive layer is positioned in the interior of the base and extends along the first surface. The lead section leads from the attractive-adhesion electroconductive layer to the second-surface side. The recessed section is positioned in the second surface. The lead section is exposed at the bottom surface of the recessed section. The attractive-adhesion electroconductive layer has a penetrating section in which the insulator penetrates through the inner side of the recess and/or the surroundings of the recess in plan view.
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
A light emitter includes a substrate including a first surface, a cladding on the first surface of the substrate, a core inside the cladding, a lid on the cladding, a first light-emitting element inside an element sealing area on the first surface, a second light-emitting element inside the element sealing area, and a light-receiving element inside the element sealing area.
An antenna includes a conductive patch. The patch includes, in a plan view, a first power feed-side edge and a first non-power feed-side edge positioned on opposite sides in a first direction in one-to-one relation, and a second power feed-side edge and a second non-power feed-side edge positioned on opposite sides in a second direction intersecting the first direction in one-to-one relation. The patch includes, in the plan view, a first power feed point positioned on a side nearer to the first power feed-side edge and a second power feed point positioned on a side nearer to the second power feed-side edge. In the plan view, at least a portion of the first power feed-side edge expands outward and forms a protrusion. A width of the protrusion in the second direction gradually decreases toward a top of the protrusion. The first power feed point is positioned nearer to the top of the protrusion than a middle of a hill slope of the protrusion in the first direction.
H01Q 13/08 - Radiating ends of two-conductor microwave transmission lines, e.g. of coaxial lines, of microstrip lines
H01Q 21/24 - Combinations of antenna units polarised in different directions for transmitting or receiving circularly and elliptically polarised waves or waves linearly polarised in any direction
Noise derived from electromagnetic coupling due to size reduction of an element mounting substrate is reduced. In an embodiment of the present disclosure, an element mounting substrate includes an insulation layer, an input wiring line and an output wiring line disposed on the insulation layer, and a ground layer disposed on the insulation layer, located around the input wiring line and the output wiring line, and including an exposed region where the insulation layer is exposed. The exposed region of the ground layer overlaps a region where the input wiring line and the output wiring line are close to each other. A SAW element is mounted on the element mounting substrate. With this configuration, the noise derived from the electromagnetic coupling generated between the input wiring line and the output wiring line can be reduced, and measurement accuracy can be improved.
This electronic device comprises: a transmitting unit for transmitting a transmitted wave; a receiving unit for receiving a reflected wave from a target of the transmitted wave; and a signal processing unit for detecting a distance position, direction, and speed of the target on the basis of a converted signal obtained after a beat signal of the transmitted wave and the reflected wave has been subjected to a Fourier transform. The signal processing unit is provided with an extracting unit for extracting heartbeat information of the target on the basis of the detected distance, direction and speed of the target. The extracting unit: uses a plurality of window functions to extract, from the converted signal, signal components corresponding to vibrations that accompany a heartbeat of the target; applies a learning classifier to the extracted signal components to select a most appropriate heart sound signal as a heart sound; performs envelope processing with respect to the most appropriate heart sound signal to select a most appropriate optimal signal as the heartbeat; acquires values indicating intervals between peak times from the optimal signal; and extracts a heartbeat interval of the target on the basis of a variance and a central value of the values indicating the intervals.
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
A61B 5/0245 - Measuring pulse rate or heart rate using sensing means generating electric signals
A61B 5/11 - Measuring movement of the entire body or parts thereof, e.g. head or hand tremor or mobility of a limb
G01S 13/88 - Radar or analogous systems, specially adapted for specific applications
10.
ELECTRONIC APPARATUS, METHOD FOR CONTROLLING ELECTRONIC APPARATUS, AND PROGRAM
This electronic apparatus comprises: a transmission unit which transmits a transmission wave; a reception unit which receives a reflection wave from a target of the transmission wave; and a signal processing unit which detects the distance, the direction, and the velocity of the target on the basis of transformed signals after beat signals of the transmission wave and the reception wave are Fourier-transformed. The signal processing unit: extracts, from the transformed signals, signal components corresponding to a heart sound vibration accompanying the heart beat of the target by means of a plurality of window functions; performs a frequency analysis on the envelope signal obtained by performing envelope processing on the signal components corresponding to the heart sound vibration; calculates a statistical result with respect to the frequency analysis result; and outputs, on the basis of the calculation result, time series data of the heart beat frequency of the target.
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
A61B 5/0245 - Measuring pulse rate or heart rate using sensing means generating electric signals
A61B 5/11 - Measuring movement of the entire body or parts thereof, e.g. head or hand tremor or mobility of a limb
G01S 13/88 - Radar or analogous systems, specially adapted for specific applications
11.
OPTICAL INTEGRATED CIRCUIT, AND OPTICAL TRANSCEIVER
This optical integrated circuit comprises: a first element having a function for separating each of a plurality of polarized waves from an electromagnetic wave including said plurality of polarized waves, or a function for separating each polarized wave from the electromagnetic wave including the plurality of polarized waves, and then rotating at least some of the polarized waves; and a second element having a function for separating a plurality of wavelength components contained in the electromagnetic wave into each wavelength component. The first element and the second element are connected in cascade.
G02B 6/126 - 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 using polarisation effects
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
G02B 6/122 - Basic optical elements, e.g. light-guiding paths
The optical integrated circuit according to the present disclosure includes wavelength multiplexing/demultiplexing elements (831-1 to 832-6) each having a directional coupler and a delay line. The wavelength multiplexing/demultiplexing elements are connected in a cascade-like manner on a plurality of stages.
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
This communication device comprises: a first communication unit that communicates with a power management server for managing distributed power supplies which are installed in facilities connected to a power system and are used for supply and demand adjustment control for maintaining the frequency of the power system; and a second communication unit that performs communication of commands with the distributed power supplies, said commands including an information element which designates a type of measurement method for a reference power referred in the control of the distributed power supplies.
H02J 13/00 - Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network
H02J 3/32 - Arrangements for balancing the load in a network by storage of energy using batteries with converting means
H02J 3/38 - Arrangements for parallelly feeding a single network by two or more generators, converters or transformers
14.
PROCESSING DEVICE, OUTPUT DEVICE, AND PROCESSING SYSTEM
This processing device comprises a control unit. When data of external sound, in which information of audible-range sound is contained in the components of inaudible-range sound, is acquired, sound in the audible range is detected according to the components of the inaudible-range sound.
This solar cell element comprises a solar cell portion (103), an electrode portion (101), and a first diffusion-reduction portion (102). The solar cell portion (103) has a light-receiving surface (F1). The first diffusion-reduction portion (102) is positioned between the solar cell portion (103) and the electrode portion (101). The first diffusion-reduction portion (102) has a first surface (F3) on the light-receiving surface (F1) side, and a second surface (F4) on the electrode portion (101) side. The first diffusion-reduction portion (102) is positioned to avoid at least a part of a region that does not overlap the electrode portion (101) when the light-receiving surface (F1) is viewed from above.
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
A user equipment (UE) device communicating with a peer UE device over an original sidelink communication path receives a sidelink path-switch criteria message from the peer UE device where the sidelink path-switch criteria message comprises sidelink path-switch criteria for establishing an alternate sidelink communication path between the UE device and the peer UE device. The alternate sidelink communication path may be a direct PCS link or a relay communication link through one or more alternate relay UE devices.
H04W 40/22 - Communication route or path selection, e.g. power-based or shortest path routing using selective relaying for reaching a BTS [Base Transceiver Station] or an access point
H04W 40/12 - Communication route or path selection, e.g. power-based or shortest path routing based on transmission quality or channel quality
An imaging apparatus comprises a third substrate including a third connector; a third shield portion configured to cover a side surface of at least portions of the third substrate; a leg portion formed at an end of the third shield portion on the side of a direction away from the third substrate; a fourth connector configured to be able to be fitted to the third connector; a third metal plate configured to abut the leg portion; and a second housing including the fourth connector and the third metal plate.
H04N 23/52 - Elements optimising image sensor operation, e.g. for electromagnetic interference [EMI] protection or temperature control by heat transfer or cooling elements
H04N 23/57 - Mechanical or electrical details of cameras or camera modules specially adapted for being embedded in other devices
H05K 1/18 - Printed circuits structurally associated with non-printed electric components
A communication method comprises receiving, by a user equipment from a base station, a message for transitioning a user equipment from a Radio Resource Control (RRC) connected state to a RRC inactive state, the message including a first parameter and a second parameter, which are applied in the RRC inactive state; applying, by the user equipment, the first parameter in response to satisfying a first condition; and applying, by the user equipment, the second parameter in response to not satisfying the first condition.
H04W 72/566 - Allocation or scheduling criteria for wireless resources based on priority criteria of the information or information source or recipient
An electronic device comprises at least one sensor configured to acquire a pulse wave on a measured part of a subject, and a controller configured to estimate glucose metabolism of the subject from an index based on the pulse wave acquired by the sensor. The controller estimates the glucose metabolism based on a first index related to a pulse wave acquired at a first time and a second index related to a pulse wave acquired at a second time after the first time.
A61B 5/145 - Measuring characteristics of blood in vivo, e.g. gas concentration, pH-value
A61B 5/00 - Measuring for diagnostic purposes ; Identification of persons
A61B 5/02 - Measuring pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography; Heart catheters for measuring blood pressure
A61B 5/1455 - Measuring characteristics of blood in vivo, e.g. gas concentration, pH-value using optical sensors, e.g. spectral photometrical oximeters
20.
COMMUNICATION CONTROL METHOD, WIRELESS TERMINAL, AND BASE STATION
A communication control method used in a mobile communication system including a gNB 200 and a UE performing wireless communication with the gNB 200, the communication control method including: establishing, by an RIS-UE 100B, a wireless connection with the gNB 200, the RIS-UE 100B controlling an RIS device 500 that changes a propagation direction of a radio wave incident from the gNB 200; and transmitting, by the RIS-UE 100B to the gNB 200 through wireless communication, RIS device information indicating at least one of a capability of the RIS device 500 and a control state of the RIS device 500.
This n-type silicon block contains a donor which is a group-15 element, an acceptor which is a group-13 element, carbon, and oxygen, and includes a first region in which the number of carbon atoms per unit volume is greater than the number of oxygen atoms per unit volume. In the n-type silicon block, the number of donor atoms per unit volume is greater than the number of acceptor atoms per unit volume. The segregation coefficient of the donor with respect to silicon is greater than the segregation coefficient of the acceptor with respect to silicon. Further, this n-type silicon substrate contains a donor which is a group-15 element, and an acceptor which is a group-13 element, carbon, and oxygen. In the n-type silicon substrate, the number of donor atoms per unit volume is greater than the number of acceptor atoms per unit volume, and the number of carbon atoms per unit volume is greater than the number of oxygen atoms per unit volume. The segregation coefficient of the donor with respect to silicon is greater than the segregation coefficient of the acceptor with respect to silicon.
C30B 11/02 - Single-crystal-growth by normal freezing or freezing under temperature gradient, e.g. Bridgman- Stockbarger method without using solvents
C30B 28/06 - Production of homogeneous polycrystalline material with defined structure from liquids by normal freezing or freezing under temperature gradient
22.
SOLAR CELL ELEMENT, SOLAR CELL MODULE, AND METHOD FOR MANUFACTURING SOLAR CELL ELEMENT
An embodiment of a solar cell element comprises a first electrode part (106), a photoelectric conversion unit (104), and a first carrier transport unit (105). The first carrier transport unit (105) is positioned between the first electrode part (106) and the photoelectric conversion unit (104). The first carrier transport unit (105) has a first surface (CF1) in contact with the photoelectric conversion unit (104) and a second surface (CF2) in contact with the first electrode part (106). In the first carrier transport unit (105), a first level (EL1), which is an energy level of the highest occupied molecular orbit of a first interface region (Ab1) along the first surface (CF1), is lower than a second level (EL2), which is an energy level of the highest occupied molecular orbit of a second interface region (Ab2) along the second surface (CF2).
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
H10K 30/86 - Layers having high hole mobility, e.g. hole-transporting layers or electron-blocking layers
A display device includes a display, an acquirer, and a controller. The display is configured to display a display image containing identification information of a purchase item to a reader of a cash register. The acquirer is configured to acquire external output information from the cash register. The controller is configured to control a display operation of the display on the basis of the external output information. When the controller determines, on the basis of external output information of a first purchase item from the cash register, that the cash register has identified the first purchase item, the controller causes the display to display a display image containing identification information of a second purchase item.
A three-dimensional display device includes a display panel that emits image light, a barrier panel overlapping the display panel in an optical path of the image light and including multiple shutter cells (S) switchable between a transmissive portion and a light-blocking portion, a position detector that detects a position of at least one of a first eye or a second eye of a viewer, and a controller that controls the display panel and the barrier panel. The controller calculates a cumulative error between a barrier pitch (Bp) and an image pitch (k) corresponding to positions of the first and second eyes of the viewer based on position detection information from the position detector, and controls, when a ratio of the calculated cumulative error to one dot is greater than a first ratio, the image pitch (k) to be greater by at least one dot to reduce the cumulative error.
To reduce the occurrence of scratches in a wide range of a surface of a protruding portion. Solder is firmly fixed to a first metal film. The first metal film has a surface inclined with respect to a first lower surface.
A communication apparatus includes: a first communicator capable of wireless-communicating using a cellular communication scheme; a second communicator capable of wireless-communicating with another communication apparatus using a first communication scheme (not the cellular communication scheme); and a controller controlling the first and second communicators to execute a first communication mode. The second communicator transmits a wireless connection request to the other communication apparatus in the first communication mode. The first communication mode is a communication mode in which the communication apparatus is a slave device for another communication apparatus (access point), communication through the cellular communication scheme and communication through the first communication scheme are relayed, and a wireless service is provided, via the other communication apparatus, to a terminal apparatus capable of wireless-communicating with the other communication apparatus through the first communication scheme.
A communication control method used in a mobile communication system including a gNB and a UE performing wireless communication with the gNB, the communication control method including: establishing, by an RIS-UE, a wireless connection with the gNB, the RIS-UE controlling an RIS device that changes a propagation direction of a radio wave incident from the gNB; and transmitting, by the gNB to the RIS-UE through the wireless communication, one or more pieces of RIS control information used to control the RIS device.
This charge management method executed in a charge management system comprises: a step for determining supply of a new ink cartridge to a user on the basis of the fact that an ink remaining amount of an ink cartridge installed in a printer used by a user registered in the charge management system has satisfied a prescribed condition; and a step for charging the user for an ink fee corresponding to an amount of ink used by the user within a prescribed period.
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
B41J 29/42 - Scales and indicators, e.g. for determining side margins
B41J 29/46 - Applications of alarms, e.g. responsive to approach of end of line
This control device controls the temperature of a heater in a casting furnace. The casting furnace is provided with a casting mold in which an inorganic raw material is placed and a heater which is located around the casting mold, in which the casting mold is heated by the heater to melt the inorganic raw material and then coagulate the melted inorganic raw material from the bottom, thereby producing an ingot. The heater is provided with an upper heater located above the casting mold, a side upper heater located above the side of the casting mold, and a side lower heater located below the side of the casting mold. The control device is provided with a heater control unit which controls the temperatures of the upper heater, the side upper heater and the side lower heater on the basis of at least one of a coagulation rate of the inorganic raw material and interface shape information about the shape of a solid-liquid interface of the inorganic raw material and a solidification rate of the inorganic raw material in a step for coagulating the inorganic raw material.
This ceramic structure comprises a first layer that comprises first crystal particles, and a second layer that is positioned on the first layer and comprises second crystal particles. The first crystal particles and the second crystal particles each contain one or more metal elements that are selected from among Al, Si, Ti, Cr, Zr and Y, and one or more non-metallic elements that are selected from among N, C and B. The first crystal particles and the second crystal particles are composed of a same compound. If W1 is the half width of the peak of Miller index at the maximum intensity of the first crystal particles in the X-ray diffraction of the first layer, and W2 is the half width of a peak identical with the Miller index of the second crystal particles in the X-ray diffraction of the second layer, (9 × W1) > W2 > W1 is satisfied.
C04B 35/581 - Shaped ceramic products characterised by their composition; Ceramic compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on borides, nitrides or silicides based on aluminium nitride
A light irradiator includes a light source including a plurality of light-emitting elements, a blower for blowing toward the light source, a heat sink coupled to the light source, a housing accommodating the light source, the blower, and the heat sink and having an outlet adjacent to the heat sink and an inlet adjacent to the blower, and a partition in the housing. The partition divides an internal space of the housing into an air blowing space between the blower and the heat sink and a remaining space excluding the air blowing space.
An origination device transmits a “received data signal” to a signal forwarding device. The “received data signal” comprises a first set of data. The origination device also transmits at least one “received control signal” to the signal forwarding device and to a destination device. The at least one “received control signal” comprises a first set of control information and a second set of control information. The first and second sets of control information are both associated with the first set of data. The first set of control information contains instructions pertaining to the signal forwarding device processing the first set of data. The second set of control information contains instructions pertaining to the destination device processing the first set of data. The signal forwarding device transmits a “forwarded signal” to the destination device. The “forwarded signal” contains forwarded data, based on the first set of data.
A communication control method according to a first aspect is used in a mobile communication system for providing a multicast broadcast service (MBS). The communication control method includes: receiving, by a user equipment in a Radio Resource Control (RRC) connected state, multicast data from a base station, the multicast data being MBS data transmitted in multicast; and transmitting, from the user equipment to the base station, state information indicating an RRC inactive state as an RRC state preferred by the user equipment, when the user equipment supports reception of the multicast data in the RRC inactive state.
A communication control method according to a first aspect is performed by a user equipment in a mobile communication system for providing a multicast service to the user equipment, the communication control method including monitoring a paging message transmitted from a base station. The monitoring includes: monitoring, when an early paging notification signal is received from the base station, a first paging message that calls one or more user equipments being targets of unicast communication; and monitoring, when the user equipment has joined or is interested in a multicast session, a second paging message that notifies that one or more multicast sessions have been activated even when the early paging notification signal has not been received.
In a first aspect, a communication control method is used in a cellular communication system. The communication control method includes calculating by a first relay node, a buffer size (BS) using a first calculation method among a plurality of calculation methods relating to the buffer size. The communication control method includes transmitting, by the first relay node to a parent node of the first relay node, a pre-emptive Buffer Status Report (BSR) including the buffer size.
This vibration device comprises a first substrate, a second substrate, an intermediate layer, and an excitation electrode. The first substrate has a first surface. The second substrate has a second surface facing the first surface. The intermediate layer is located between the first surface and the second surface. The first surface has a first recess. The intermediate layer has a vibrating portion and a frame portion. The vibrating portion has an excitation portion where the excitation electrode is located. The excitation portion faces the first recess. The frame portion surrounds the vibrating portion in plan view, and is bonded to the first surface and the second surface. The entire peripheral edge of the vibrating portion is separated from the frame portion. The vibrating portion is bonded to the peripheral area of the first recess of the first surface.
H03H 9/19 - Constructional features of resonators consisting of piezoelectric or electrostrictive material having a single resonator consisting of quartz
This image processing device comprises an image processing unit, a detecting unit, a first memory, a communication unit, and a control unit. The image processing unit includes at least one among a printer and a scanner. The detecting unit detects biometric information about a user. The first memory stores first biometric information and authentication information in association with each user. The communication unit transmits, to an external authentication device, information based on the authentication information stored in the first memory and associated with the first biometric information that matches second biometric information about a first user detected by the detecting unit. The control unit controls the undoing of limitations imposed on a function related to at least one among the image processing unit and the communication unit on the basis of an authentication result received from the external authentication device.
This vibration device comprises a first substrate, a second substrate, an intermediate layer, and an excitation electrode. The first substrate has a first surface. The second substrate has a second surface facing the first surface. The intermediate layer is located between the first surface and the second surface. The first surface has a first recess. The intermediate layer has a vibrating part and a frame part. The vibrating part has an excitation part in which the excitation electrode is located. The excitation part faces the first recess. The frame part surrounds the vibrating part in a plan view and is joined to the first surface and the second surface. The frame part includes a layer made of the same material as the layer included in the vibrating part. The outer edge of the vibrating part is separated from the frame part over the entire circumference thereof. The vibrating part is joined to the outer peripheral region of the first recess on the first surface.
H03H 9/19 - Constructional features of resonators consisting of piezoelectric or electrostrictive material having a single resonator consisting of quartz
This communication method used in a mobile communication system comprises: a step in which a relay device for changing the propagation state of a wireless signal, which is transmitted between a first cell and a user device, without demodulating and modulating the wireless signal relays the wireless signal; and a step in which a first network node corresponding to the first cell sends a message for connecting the relay device to a second cell to a second network node corresponding to the second cell on a network interface. The message includes information relating to the relay device.
This radio wave control plate includes a plurality of unit structures that are arranged in a first planar direction, and a reference conductor that serves as a reference potential of the plurality of unit structures. The plurality of unit structures include first and second resonant structures that are provided with a first resonator that widens in the first planar direction, and a second resonator that is formed in the same plane as the first resonator and is electrically connected to the reference conductor, the first and second resonant structures being rotationally symmetrical in the first planar direction. The first resonant structure and the second resonant structure are set apart in a first direction, so that the first resonator and second resonator of each structure face each other.
The present invention pertains to stably holding a holder using a holding block and improving workability with respect to the work of attaching the holder onto the holding block. A clamp member has a pressing unit that, in a state of being interposed between one inner surface of a groove of the holding block and the top surface of the holder, presses the holder to the other inner surface side of the groove. The pressing unit has a first projection that abuts a first inclined surface of a first notch section of the holder, and a second projection that is spaced apart from the first projection and that abuts a second inclined surface of a second notch section of the holder.
This lighting device comprises a casing, a light source that emits excitation light, an optical system that is located in an internal space within the casing, a first member, and a second member. The casing has a first opening that opens to the exterior and a first portion that is provided with a second opening that opens to the exterior. The first member has a conversion unit that emits fluorescence in response to irradiation with the excitation light, and a base part to which the conversion unit is fixed. The second member is fixed to the casing from the first-opening side, the second member having a third opening through which the fluorescence passes. The optical system includes a filter that guides the excitation light from the light source to the conversion unit and guides the fluorescence from the conversion unit to the first opening, and a lens optical system that includes one or more lenses positioned on the optical axis of the fluorescence from a wavelength conversion unit to the first opening. The base part covers the second opening from the exterior side, the base part being fixed to the casing in a state that allows the base part to be retrieved to the exterior. The optical system is sandwiched between the second member and the inner surface of the casing.
F21V 9/35 - Elements containing photoluminescent material distinct from or spaced from the light source characterised by the arrangement of the photoluminescent material at focal points, e.g. of refractors, lenses, reflectors or arrays of light sources
The present invention easily confirms a connection state. A receiving section is positioned at a frame section or an insulating substrate, and a conductive metal plate is positioned at an opening side of a recessed section. The conductive metal plate has a connecting section electrically connected to a second electrode from the upper direction, and a locking section which is locked to the receiving section. A cover body is electrically insulated from the conductive metal plate.
H01M 10/0585 - Construction or manufacture of accumulators having only flat construction elements, i.e. flat positive electrodes, flat negative electrodes and flat separators
H01M 50/216 - Racks, modules or packs for multiple batteries or multiple cells characterised by their shape adapted for button or coin cells
H01M 50/244 - Secondary casings; Racks; Suspension devices; Carrying devices; Holders characterised by their mounting method
H01M 50/262 - Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders with fastening means, e.g. locks
H01M 50/271 - Lids or covers for the racks or secondary casings
H01M 50/296 - Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders characterised by terminals of battery packs
H01M 50/50 - Current conducting connections for cells or batteries
H01M 50/55 - Terminals characterised by the disposition of the terminals on the cells on the same side of the cell
An imaging lens 10 according to the present disclosure comprises, in order from an object side: a first lens 110 having a negative refractive power; a second lens 120 having a negative refractive power; a third lens 130 having a positive refractive power; an aperture stop 170; a fourth lens 140 having a positive refractive power; a fifth lens 150 having a negative refractive power; and a sixth lens 160 having a positive refractive power, wherein the following conditional expressions are satisfied. (1): 0.6 <(R1+R2)/ (R1-R2) < 0.8 (2): -1.1 < (dN4/dT + dN6/dT) / f < -0.7
G02B 13/18 - Optical objectives specially designed for the purposes specified below with lenses having one or more non-spherical faces, e.g. for reducing geometrical aberration
This liquid ejection head comprises a flow passage member, a pressurizing part, a flexible substrate, a cover member, and a reservoir. The flow passage member has an ejection hole that ejects a liquid. The pressurizing part is positioned over the flow passage member. The flexible substrate is electrically connected to the pressurizing part. The reservoir has a slit through which the flexible substrate is inserted, and the reservoir supplies the liquid to the flow passage member. A protective sheet is positioned between the flexible substrate and an inner wall surface that faces the flexible substrate in the width direction of the slit.
This electrochemical cell device is provided with a plurality of electrochemical cells which are arranged in a first direction and include a first cell and a second cell. Each of the plurality of electrochemical cells comprises an element part, a support body and a fixation material. The support body supports the element part. The fixation material fixes the element part and the support body to each other. The first cell and the second cell are different from each other in the position of the fixation material when viewed in plan in the first direction.
H01M 8/2465 - Grouping of fuel cells, e.g. stacking of fuel cells - Details of groupings of fuel cells
H01M 8/0204 - Non-porous and characterised by the material
H01M 8/12 - Fuel cells with solid electrolytes operating at high temperature, e.g. with stabilised ZrO2 electrolyte
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
H01M 8/2432 - Grouping of unit cells of planar configuration
H01M 8/2475 - Enclosures, casings or containers of fuel cell stacks
This optical waveguide package is provided with: a substrate (9) that has a first surface (8); a cladding (12) that is located on the first surface, has a second surface (10) facing the first surface and a third surface (11) located on the reverse side from the second surface, and has an element mounting region (3) opening on the third surface; a core (5) that is located within the cladding and has an incidence surface (13) fronting on the element mounting region and an emission surface (15) exposed from an end surface of the cladding; and a sidewall (16a) that surrounds the element mounting region on the substrate. The sidewall is provided with a sidewall comprising a plurality of materials having elastic moduli different from each other.
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
G02B 6/42 - Coupling light guides with opto-electronic elements
48.
PRINTED WIRING BOARD AND METHOD FOR MANUFACTURING SAME
Provided are: a printed wiring board having a via conductor which is not easily extracted from an insulating layer; and a method for manufacturing the same. The printed wiring board comprises a core substrate and a buildup layer stacked on the core substrate. The buildup layer has an insulating layer stacked on the core substrate, a hole passing through the insulating layer in the thickness direction of the insulating layer, and a via conductor filled in the hole. The shape of the via conductor is cylindrical.
This communication method used in a mobile communication system comprises a step in which a first user device present in a first cell transmits, to a prescribed device, a request signal for requesting to provide broadcast control information for performing broadcasting to a second cell adjacent to the first cell. The prescribed device is a second user device existing in the second cell, a first base station for managing the first cell, or a second base station for managing the second cell.
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 76/40 - Connection management for selective distribution or broadcast
Provided is an adjustment device that reduces fluctuations in mounting angle of a detector. An adjustment device (10) includes a first member (11), a second member (12), an adjustment member (16), and an elastic member (22). The first member (11) includes a base (13) on which a detector is mountable. The first member (11) is attached to the second member (12) through a first shaft (15) such that the first member is rotatable in a first direction and a second direction. The adjustment member (16) is configured to restrict rotation of the first member (11) in the first direction and define a rotation range of the first member (11). The elastic member (22) urges the first member (11) in the first direction.
F16M 11/12 - Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand allowing pivoting in more than one direction
Provided are an observation device and an observation method that can issue an appropriate notification to a vehicle even when recognition results of multiple detection devices are different from each other. An observation device (5) is configured to issue a notification to a vehicle. The observation device (5) includes a first detection device (50-1), a second detection device (50-2), and a controller (53). The first detection device (50-1) is configured to recognize an object present in an observation area. The second detection device (50-2) is configured to recognize the object present in the observation area. The controller (53) is configured to determine a notification recognition result based on a combination of a recognition result for the object produced by the first detection device (50-1) and a recognition result for the object produced by the second detection device (50-2), the notification recognition result being a recognition result for the object to be included in the notification.
A communication control method according to a first aspect is a communication control method performed by a user equipment in a mobile communication system that provides a multicast broadcast service (an MBS). The communication control method includes receiving MBS data from a base station in a Radio Resource Control (an RRC) connected state; managing a timer that times a time when transmission and reception of data and signaling are not performed with the base station; and transitioning from the RRC connected state to an RRC idle state in response to expiration of the timer. The managing of the timer includes controlling not to start the timer even if the MBS data is received when the MBS data transmitted via multicast or broadcast is received.
A communication control method is performed by a user equipment in a mobile communication system providing a multicast service from a network to the user equipment and includes performing, in an RRC idle state or an RRC inactive state, processing of monitoring a group notification that is a notification indicating an enabled state of a multicast session where the user equipment is participating and that is transmitted from the network to a group where the user equipment belongs; performing, in response to receiving the group notification, processing of transitioning to an RRC connected state for reception of the multicast session; and performing control not to perform the processing of monitoring or the processing of transitioning when an interest in the multicast session is lost in the RRC idle state or the RRC inactive state.
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 76/27 - Transitions between radio resource control [RRC] states
H04W 76/40 - Connection management for selective distribution or broadcast
54.
VIRTUAL IMAGE SHARING METHOD AND VIRTUAL IMAGE SHARING SYSTEM
A virtual image sharing system 100 displays a first virtual image 30, which is positioned in a space and is operable by a first user U1 using one wearable terminal device (first display device) 20 and a second user U2 using another wearable terminal device (second display device) 20, on each of the one wearable terminal device 20 and the other wearable terminal device 20. Further, the virtual image sharing system 100 displays, on the one wearable terminal device 20, a second virtual image 40 that is positioned in the space, is operable by the first user U1, and is not displayed on the other wearable terminal device 20.
G06F 3/04815 - Interaction with a metaphor-based environment or interaction object displayed as three-dimensional, e.g. changing the user viewpoint with respect to the environment or object
In an image processing device according to the present invention, a control unit controls cancelling of functional limitations relating to an image processing unit on the basis of the result of authentication in which second biometric information input to an input unit is compared with first biometric information saved in a memory. The image processing device can also control cancelling of functional limitations relating to the image processing unit on the basis of the result of authentication in which first biometric information of a first user, imported from another image processing device in response to an input of information identifying the first user, is compared with second biometric information of the first user. Alternatively or in addition, the image processing device can also export second biometric information of a first user to another image processing device, receive the result of authentication based on the second biometric information of the first user from the other image processing device, and control cancelling of functional limitations relating to the image processing unit on the basis of the received authentication result.
This image processing device is provided with an image processing unit, a control unit, and an imaging unit. The image processing unit includes at least one of a printer and a scanner. The control unit re-activates a functional restriction of the image processing unit that has been released in response to the success of user authentication in accordance with the release of the authenticated state. The imaging unit images at least a part of the area surrounding the image processing device. The image processing device releases the authenticated state when release conditions have been satisfied, said release conditions including at least one of a state where the authorized user is absent and a state where another user is present, said states being identified on the basis of an image captured by the imaging unit during the authenticated state.
This information processing device comprises: an acquisition unit that acquires a captured image including a first article image that is an image of a first article; and a control unit that displays, on a display unit, the first article image and a recognition result for the first article. When a selection made for the first article image or the recognition result for the first article is received from an input unit, the control unit causes the other of the first article image and the recognition result for the first article that was not selected to be displayed with emphasis.
The present invention achieves both an improvement in the surface accuracy of a machined surface of a workpiece, and an improvement in the durability of a cutting insert. A main rake face has a linear shape that approaches a reference surface with increasing distance from a land surface in a cross-section perpendicular to an outer edge of an upper surface. The land surface has a first land surface positioned along a corner portion, and a second land surface positioned along a side portion. The first land surface has a first straight portion having a linear shape in a cross-section perpendicular to the corner portion, and the entire second land surface has a convex curved shape in a cross section perpendicular to the side portion.
This solar cell element comprises: a semiconductor substrate having first and second surfaces; and a first electrode on the first surface. The first electrode includes a busbar part (311b) positioned in a first direction, and a plurality of finger parts (311f) arranged side by side in the first direction. The busbar part (311b) includes first and second regions (A1, A2) different from each other in position in the first direction. The plurality of finger parts (311f) include a plurality of first fingers (311f1) connected to the first region (A1), and a plurality of second fingers (311f2) connected to the second region (A2). Each of the first fingers (311f1) includes a first part (P1) connected to the first region (A1), and a second part (P2) separated from the first region (A1). Each of the second fingers (311f2) includes a third part (P3) connected to the second region (A2), and a fourth part (P4) separated from the second region (A2). The first part (P1) is larger in width than the third part (P3).
A ceramic structure according to the present disclosure includes a substrate containing a plurality of ceramic particles. The substrate includes a base part having a recessed section. The recessed section includes inner-wall surfaces and a bottom surface. The recessed section is configured as follows: a porous layer is located at least on the surface of the inner-wall surfaces; and if a first thickness is the average value of the thickness of the porous layer on the inner-wall surfaces and a second thickness is the thickness of the porous layer on the bottom surface, then the second thickness is thinner than the first thickness.
H01L 21/677 - 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 conveying, e.g. between different work stations
A coated tool according to the present disclosure comprises a substrate, a first coating layer, a second coating layer, and a third coating layer. The first coating layer contains Al, Ti, Cr, and N. The second coating layer includes a first film and a second film. The first film contains Al, Ti, Cr, and N and has a Ti/Al ratio higher than that of the first coating layer. The second film contains Al, Ti, Cr, and N and has a Cr/Al ratio higher than that of the first coating layer. The third coating layer includes a third film and a fourth film. The third film contains Al, Ti, Cr, and N and has a Ti/Al ratio higher than that of the first film. The fourth film contains Al, Ti, Cr, and N and has a Cr/Al ratio higher than that of the second film.
This liquid ejection head comprises a first flow passage member, a second flow passage member, and an electroconductive part. The first flow passage member is electrically conductive and has a nozzle that ejects a liquid. The second flow passage member supplies the liquid to the first flow passage member. The electroconductive part has a positioning mechanism that determines the position of the nozzle. The electroconductive part is electrically connected to the first flow passage member and has higher electroconductivity than does the second flow passage member.
The coated tool according to the present disclosure comprises a base body and a coating layer. The coating layer contains a plurality of crystal grains. The plurality of crystal grains have a plurality of regions provided with mutually different crystal orientations. The value of D2/D1 is 0.55-0.95, where, when the crystal orientations of the plurality of crystal grains in the coating layer are analyzed from the planar direction of the coating layer using TEM electronic diffraction mapping and a first crystal grain map and a second crystal grain map are created, D1 is the average grain diameter of the crystal grains derived by taking a weighted average from the first crystal grain map according to area ratio, and D2 is the average grain diameter of the crystal grains derived by taking a weighted average from the second crystal grain map according to area ratio.
A communication method according to one aspect of the present invention is for a mobile communication system. The communication method has a step in which a data transmission entity derives a trained model with respect to a prescribed block on the basis of a signal received from a data reception entity. In addition, the communication method has a step in which the data transmission entity calculates output data with respect to input data, by using the prescribed block or the trained model. Further, the communication method has a step in which the data transmission entity performs a prescribed process when the likelihood of the input data and/or the likelihood of the output data is not more than a threshold value.
A wiring base includes a base, a signal conductor, and a ground conductor including a first ground conductor. The base includes a first surface, a first region, and a second region. The first region is located near an outer side of the first surface. An external board is mounted in the first region. The second region is other than the first region. The signal conductor extends through a region including the first region of the first surface in a first direction away from the outer side. The first ground conductor is located in the base at a distance from the signal conductor of less than ¼ of a wavelength of a high-frequency signal. The high-frequency signal is transmitted through the signal conductor. The first ground conductor includes a first grid portion at a first location overlapping the first region and at least a portion of the signal conductor.
A semiconductor substrate includes a heterogeneous substrate, a mask layer having an opening portion and a mask portion, a seed portion overlapping the opening portion, and a semiconductor layer including a GaN-based semiconductor and disposed on the seed portion and the mask portion. An upper surface of an effective portion of the semiconductor layer includes at least one low-level defective region with a size of 10 μm in a first direction along a width direction of the opening portion and 10 μm in a second direction orthogonal to the first direction, and a line defect is not measured by a CL method in the low-level defective region.
H01L 25/075 - Assemblies consisting of a plurality of individual semiconductor or other solid state devices all the devices being of a type provided for in the same subgroup of groups , or in a single subclass of , , e.g. assemblies of rectifier diodes the devices not having separate containers the devices being of a type provided for in group
H01L 33/12 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof characterised by the semiconductor bodies with a stress relaxation structure, e.g. buffer layer
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 5/02 - Structural details or components not essential to laser action
A connector (10), into and from which a connection object (70) is insertable and removable, includes an insulator (20) including an insertion portion (23) in which a connection object (70) can be inserted and a first contact (30) mounted on the insulator (20). The first contact (30) includes a contact piece (34) and a resiliently deformable resilient portion (33). The contact piece (34) includes a contact portion (35) configured to be connected to a signal line (73) of the connection object (70) in a fully inserted state where the connection object (70) is fully inserted in the insertion portion (23) and a removing portion (36) located closer to an insertion opening (23a) of the insertion portion (23) than the contact portion (35). The removing portion (36) is configured to be connected to the signal line (73) in a partially inserted state where the connection object (70) is partially inserted in the insertion portion (23). The removing portion (36) is configured to be apart from the connection object (70) when the resilient portion (33) is resiliently deformed in the fully inserted state.
H01R 12/79 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures connecting to rigid printed circuits or like structures
H01R 12/88 - Coupling devices connected with low or zero insertion force contact pressure producing means, contacts activated after insertion of printed circuits or like structures acting manually by rotating or pivoting connector housing parts
68.
INFORMATION PROCESSING DEVICE, INFORMATION PROCESSING METHOD, AND INFORMATION PROCESSING PROGRAM
An information processing device (200) comprises: a determination unit (242) that determines whether a first moving body group identified from a first image captured by a first camera and a second moving body group identified from a second image captured by a second camera are the same moving body group; and an output unit (243) that, on the basis of the movement mode of the first moving body group and the movement mode of the second moving body group when the first and second moving body groups have been determined to be the same moving body group, outputs installation relationship information by which the installation relationship between the first camera and the second camera can be identified.
This optical communication system comprises a base station device and a terminal device that performs optical communication with the base station device. At least one of the base station device and the terminal device performs a connection control to establish and/or maintain an optical communication connection between the terminal device and the base station device in such a way that the communication quality of the optical communication in an uplink is prioritized over the communication quality of the optical communication in a downlink.
H04B 10/11 - Arrangements specific to free-space transmission, i.e. transmission through air or vacuum
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
H04W 36/30 - Reselection being triggered by specific parameters by measured or perceived connection quality data
H04W 48/16 - Discovering; Processing access restriction or access information
This communication system includes a base station that is installed outdoors and configured to transmit and receive radio waves, a radio-wave-focusing plate that is configured to receive a radio wave transmitted from the base station and emit a radio wave using the boundary between the outdoors and indoors as a focal point, and a terminal device that is configured to receive the radio wave emitted from the radio-wave-focusing plate and communicate with the base station.
An insert may include a first surface, a second surface, a third surface located on a side opposite to the first surface, a cutting edge located on a ridgeline between the first surface and the second surface, and a convex part located more inside the first surface than the cutting edge. The first surface may include a groove extending from a first end part closest to the cutting edge to a second end part. The groove may include an opening located in the first surface, and a bottom surface. An imaginary plane which is orthogonal to a central axis and is located between the first surface and the third surface may be a reference plane, the bottom surface may include an inclined portion inclined so as to come closer to the reference plane as going toward the first end part in a breaker region.
An electronic device for generating a learning model to be used for estimation of a blood pressure level of a subject generates a learning model indicating a relationship between a blood pressure level and a pulse wave associated with the blood pressure level, based on an index of a pulse wave of a person at a first time point and an index of a pulse wave of the person at a second time point later than the first time point.
G16H 50/20 - ICT specially adapted for medical diagnosis, medical simulation or medical data mining; ICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for computer-aided diagnosis, e.g. based on medical expert systems
A61B 5/00 - Measuring for diagnostic purposes ; Identification of persons
A61B 5/021 - Measuring pressure in heart or blood vessels
73.
GYRO VIBROMETER, ELECTRONIC DEVICE, AND ELECTRONIC SYSTEM
There is provided a gyro vibrometer configured to detect vibration of a subject with high sensitivity. The gyro vibrometer includes a support body including an opening portion, a film disposed on the support body in which part of the film is located over the opening portion, and at least one gyro sensor disposed on a surface on the opening side of the film.
G01H 11/06 - Measuring mechanical vibrations or ultrasonic, sonic or infrasonic waves by detecting changes in electric or magnetic properties by electric means
To improve accuracy of gas analysis. An analysis apparatus is placed on a toilet bowl and collects and analyzes a sample gas in the toilet bowl. The analysis apparatus includes a gas flow generator including a sucker and a discharger and generating a gas flow of the sample gas passing through the inside of the toilet bowl, and an analyzer that analyzes a component contained in the sample gas.
In a first aspect, a communication control method is used in a cellular communication system. The communication control method includes configuring, by a donor node including a first relay node and a second relay node being a parent node of the first relay node, the first relay node using correspondence information representing a correspondence relationship between a hop count of a logical channel (LCH) and a logical channel group (LCG), the first relay node and the second relay node being subordinate to the donor node. The communication control method includes transmitting, by the first relay node, a buffer status report (BSR) to the second relay node, based on the correspondence information. The communication control method further includes transmitting, by the second relay node, an uplink grant (UL grant) to the first relay node, based on the correspondence information and the buffer status report.
In a first aspect, a communication control method is a communication control method used in a mobile communication system for providing a multicast broadcast service (MBS). The communication control method includes: transmitting, by a base station to a group including a plurality of user equipments, a group notification indicating activation of a multicast session corresponding to the group; and receiving, by the base station, a random access preamble transmitted from the user equipment in response to reception of the group notification. The transmitting of the group notification includes transmitting, by the base station, the group notification to each of a plurality of subgroups at different timings, the plurality of subgroups being obtained by dividing the group.
A photovoltaic module includes a front protective layer, a back protective layer, a plurality of solar cells, and a filler. The front protective layer is transmissive to light and has a first surface and a second surface opposite to the first surface. The back protective layer faces the second surface. The plurality of solar cells are between the second surface and the back protective layer. The filler is between the front protective layer and the plurality of solar cells and covers the plurality of solar cells. The filler includes a material with a chemical structure to generate a free acid. The front protective layer includes a weather-resistance resin. At least a part of the first surface is exposed to a space external to the photovoltaic module.
A printed wiring board includes a multilayer substrate. The multilayer substrate includes a core layer and a build-up layer. The build-up layer is stacked on one surface of the core layer and constitutes a first surface of the multilayer substrate. The multilayer substrate is provided with a via conductor that penetrates through the core layer and the build-up layer in a thickness direction. The via conductor includes a filled via and a conformal via electrically connected to the filled via. At least part of the filled via overlaps the conformal via when viewed in the thickness direction and the filled via is positioned towards the first surface relative to the conformal via.
Provided is a syringe system having improved safety. The syringe system comprises a first syringe, a first needle guide, and a first holder. The first syringe includes a first needle. The first needle guide has a first hole inside which the first needle is positioned, and which is shorter than the first needle in a longitudinal direction. The first holder secures the first syringe and the first needle guide with a specific spacing. The specific spacing is greater than a difference between a length of the first needle and a length of the first hole.
This estimation method includes: obtaining a first image by setting the imaging conditions of an imaging device to first conditions and then imaging a prescribed area; obtaining a second image by setting the imaging conditions of the imaging device to second conditions and then imaging a prescribed area; and estimating the characteristics of the first conditions on the basis of a comparison of the characteristics of the first image and the characteristics of the second image.
H05B 47/125 - Controlling the light source in response to determined parameters by determining the presence or movement of objects or living beings by using cameras
This illuminance estimation method includes: acquiring a captured image in which a range including a prescribed position is imaged by an imaging device; and, if the brightness or luminance of the captured image corresponds to the illuminance at the prescribed position, estimating the illuminance at the prescribed position on the basis of the brightness or luminance of the captured image.
H05B 47/125 - Controlling the light source in response to determined parameters by determining the presence or movement of objects or living beings by using cameras
82.
OPTICAL COMMUNICATION SYSTEM, TERMINAL DEVICE, AND BASE STATION DEVICE
This terminal device for performing optical communication with a base station device comprises: a plurality of light-receiving units arranged toward an optical axis in mutually different directions; and a control unit which, when receiving same data optical signals which are simultaneously broadcast from a plurality of base station devices, performs an identification process for identifying each of the light receiving units which receive the same data optical signals. The control unit performs a synthesis process for synthesizing the reception signals of the respective light-emitting units identified by the identification process.
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
H04B 13/02 - Transmission systems in which the medium consists of the earth or a large mass of water thereon, e.g. earth telegraphy
This radio wave reflector includes a plurality of unit structures arranged in a first plane direction, and a reference conductor serving as a reference potential of the plurality of the unit structures. The plurality of unit structures are configured by an equivalent circuit comprising two or more resonant circuits. The reference conductor is disposed below a resonator in a first direction.
Provided is a composite filter, wherein first to third filters are connected to any ports of a first hybrid that is constituted by 90° hybrid couplers. The first filter has a first passband. The second and third filters have passbands that do not overlap the first passband. An electrical interval from the first filter to the first hybrid is referred to as a first portion. A combination of an electrical interval from the second filter to the first hybrid and an electrical interval from the third filter to the first hybrid is referred to as a second portion. Here, at least one of the first portion and the second portion does not have a matching circuit having an inductor that is constituted by conductors of a multilayer substrate.
A three-dimensional display device includes a display panel, a parallax barrier, an obtainer, and a controller. The controller assigns each of a plurality of subpixels to display a first image or a second image based on I+{L/(T×V)}, where I is a value indicating a displacement of each of a plurality of transmissive portions from a corresponding subpixel of the plurality of subpixels, L is a distance by which a first eye and a second eye move in a parallax direction, T is a switching cycle between the first image and the second image, and V is a number of variations of an index value indicating a position of switching between the first image and the second image in an active area.
H04N 13/398 - Synchronisation thereof; Control thereof
H04N 13/383 - Image reproducers using viewer tracking for tracking with gaze detection, i.e. detecting the lines of sight of the viewer's eyes
H04N 13/31 - Image reproducers for viewing without the aid of special glasses, i.e. using autostereoscopic displays using parallax barriers
G02B 30/30 - Optical systems or apparatus for producing three-dimensional [3D] effects, e.g. stereoscopic images by providing first and second parallax images to an observer’s left and right eyes of the autostereoscopic type involving parallax barriers
86.
SEMICONDUCTOR PACKAGE AND SEMICONDUCTOR ELECTRONIC DEVICE
A semiconductor package includes an insulating substrate a pair of signal electrodes, a pair of differential lines, and a ground conductor. The pair of differential lines are respectively connected to the signal electrodes. Each differential line includes a first signal line, a second signal line, a first via-hole conductor, and a second via-hole conductor. The ground conductor includes a ground plane, a ground plane, and a ground via-hole conductor. The ground plane sandwiches the first signal line between the ground plane and the ground plane and forms a stripline structure. The ground via-hole conductor is located along the second via-hole conductor and forms a coaxial structure. In planar perspective view of the first surface, a position on a plane including the ground plane including the second end portion is located in a gap region.
An insulating substrate has a sample holding surface. A support is bonded to the insulating substrate. A first through-hole in the insulating substrate and a second through-hole in the support are continuous with each other to serve as a gas inlet. A porous member is located in the second through-hole. The second through-hole has, at its opening adjacent to the insulating substrate (opening adjacent to the substrate), a larger diameter than the first through-hole. The opening of the second through-hole and an electrostatic attraction electrode are at different positions in a direction parallel to the sample holding surface. The electrostatic attraction electrode and the second through-hole avoid overlapping each other as viewed from above.
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
A fuel cell system (11) comprises: a fuel cell (16); an external water flow path (81) through which externally supplied water flows; a first heat exchange section (13) that is positioned either proximate to the outer side of the fuel cell or inside the fuel cell, to allow the water from the external water flow path to collect heat generated by the fuel cell; a hot-water supply flow path (12) that supplies heated water to the outside; a first heat exchange flow path (82) that is connected to the external water flow path and passes through the first heat exchange section; and a first water flow path (83) that connects the external water flow path and the hot-water supply flow path. The hot-water supply flow path, the first heat exchange flow path, and the first water flow path converge in a converging section (70) which is configured such that water vapor inside the first heat exchange flow path can be liquified to flow through the hot-water supply flow path.
H01M 8/04044 - Purification of heat exchange media
H01M 8/04228 - 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 shut-down
H01M 8/04303 - Processes for controlling fuel cells or fuel cell systems applied during specific periods applied during shut-down
H01M 8/04313 - Processes for controlling fuel cells or fuel cell systems characterised by the detection or assessment of failure or abnormal function
H01M 8/12 - Fuel cells with solid electrolytes operating at high temperature, e.g. with stabilised ZrO2 electrolyte
F24D 18/00 - Small-scale combined heat and power [CHP] generation systems specially adapted for domestic heating, space heating or domestic hot-water supply
89.
COMPOSITE MATERIAL, MANUFACTURING METHOD OF COMPOSITE MATERIAL, AND BIOCOMPATIBLE IMPLANT
Provided is a composite material having an excellent antibacterial property and a reduced elution of fluorine. A composite material according to the present disclosure includes a base material and a surface layer located at a surface of the base material. The surface layer contains a compound of titanium and fluorine and a compound of titanium, fluorine, and oxygen. An abundance of the compound of titanium and fluorine in the surface layer does not exceed an abundance of the compound of titanium, fluorine, and oxygen in the surface layer.
A61K 6/816 - Preparations for artificial teeth, for filling teeth or for capping teeth comprising ceramics comprising titanium oxide
A61K 6/831 - Preparations for artificial teeth, for filling teeth or for capping teeth comprising non-metallic elements or compounds thereof, e.g. carbon
A61K 6/84 - Preparations for artificial teeth, for filling teeth or for capping teeth comprising metals or alloys
A61C 8/00 - Means to be fixed to the jaw-bone for consolidating natural teeth or for fixing dental prostheses thereon; Dental implants; Implanting tools
90.
PACKAGE BODY, CHANNEL DEVICE, AND MEASUREMENT APPARATUS
A package body configured to break a lid member included in the package body with a small pressure is provided with a container including a bottom portion, a wall portion and an opening portion, and a lid member closing the opening portion. The lid member includes a first layer member and a second layer member layered on the first layer member, the second layer member includes a penetrating portion penetrating through the second layer member in a plan view of the lid member, and the penetrating portion has a shape extending in one direction and is located to overlap the center of the opening portion.
Apparatus, systems, and methods described herein relate to the manufacture and use of single pouch battery cells. In some embodiments, an electrochemical cell includes a first current collector coupled to a first portion of a pouch, the first current collector having a first electrode material disposed thereon, a second current collector coupled to a second portion of the pouch, the second current collector having a second electrode material disposed thereon, and a separator disposed between the first electrode material and the second electrode material. The first portion of the pouch is coupled to the second portion of the pouch to enclose the electrochemical cell.
H01M 50/103 - Primary casings, jackets or wrappings of a single cell or a single battery characterised by their shape or physical structure prismatic or rectangular
H01M 10/04 - Construction or manufacture in general
H01M 10/0585 - Construction or manufacture of accumulators having only flat construction elements, i.e. flat positive electrodes, flat negative electrodes and flat separators
H01M 50/528 - Fixed electrical connections, i.e. not intended for disconnection
A method of measuring light and elevated temperature induced degradation includes a first step of injecting carriers into p-type crystalline silicon and maintaining the p-type crystalline silicon at 50° C. or higher and 150° C. or lower until the p-type crystalline silicon has reached a regenerated state, measuring a first degradation amount of the p-type crystalline silicon in the first step, performing a heat treatment on the p-type crystalline silicon at higher than 150° C. and 250° C. or lower, a second step of injecting carriers into the p-type crystalline silicon and maintaining the p-type crystalline silicon at 50° C. or higher and 150° C. or lower until the p-type crystalline silicon has reached a regenerated state, measuring a second degradation amount of the p-type crystalline silicon in the second step, and calculating a light and elevated temperature induced degradation amount of the p-type crystalline silicon based on the first and second degradation amounts.
This communication method used in a mobile communication system includes: a step in which a base station forms a plurality of beams from one cell by beam-sweeping; and a step in which if the base station subjects only some beams of the plurality of beams to access restriction, the base station broadcasts, using some of the beams, first information indicating that access is restricted on a beam-by-beam basis.
This communication method, which is used in a communication system for providing a multicast/broadcast service (MBS), includes a step in which an aggregation unit included in a base station transmits MBS-related information to a distribution unit included in the base station on a network interface between the aggregation unit and the distribution unit. The MBS-related information relates to a user device receiving or interested in receiving an MBS service provided by a secondary cell under the distribution unit.
H04W 4/06 - Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
A communication method for use in a mobile communication system that provides a multicast/broadcast service (MBS), the method comprising: a step of user equipment in a wireless resource control (RRC)-connected state receiving a multicast session from a network; and a step of the user equipment transmitting, to the network, a message including first information indicating a request to transition to an RRC inactive state, and second information concerning continuation of reception of the multicast session.
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 76/27 - Transitions between radio resource control [RRC] states
This communication method for use in a mobile communication system providing a multicast/broadcast service (MBS) comprises a step for receiving, by a user device from a network, a multicast control channel (MCCH) including a plurality of MBS settings of the plurality of MBS sessions. The plurality of MBS settings include a broadcast setting for a broadcast session and a multicast setting for a multicast session.
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 48/08 - Access restriction or access information delivery, e.g. discovery data delivery
A communication control method according to an aspect is used in a cellular communication system. The communication control method comprises a step of a base station transmitting, to user equipment, a conditional reconfiguration that includes permission information indicating whether connection by RACH-less handover is permitted for each target cell.
A communication control method according to one aspect of the present invention is used in a cellular communication system. This communication control method includes a step in which, in response to receiving a prescribed message from a source donor node, a mobile relay node that moves from the source donor node to a target donor node transmits, to the target donor node, an F1 setup request message requesting the establishment of an F1 connection. The prescribed message indicates either a new establishment request for an F1 connection to the target donor node, or a movement instruction to the target donor node.
A relay user equipment (UE) device that is providing a relay communication link between a first UE device and a second UE device transmits a trigger message to the first UE device when cellular coverage status of the second UE device changes. The trigger message invokes the first UE device to execute a path switch to an alternate communication path between the first UE device and second UE device. The transmission of the trigger message is in response to receipt of a coverage change indicator at the relay UE device. In some situations, the trigger message is the message including the coverage change indicator received at the relay UE device and forwarded by the relay UE device.
H04W 40/12 - Communication route or path selection, e.g. power-based or shortest path routing based on transmission quality or channel quality
H04W 40/22 - Communication route or path selection, e.g. power-based or shortest path routing using selective relaying for reaching a BTS [Base Transceiver Station] or an access point
H04W 40/24 - Connectivity information management, e.g. connectivity discovery or connectivity update
The examples set forth herein are directed towards scenarios in which UE devices have the option to use either U2U discovery or U2N discovery. In these scenarios, the UE devices can be configured to facilitate selection of a discovery procedure (e.g., U2U discovery or U2N discovery) that corresponds with a preferred type of relaying (e.g., U2U relaying or U2N relaying). More specifically, the UE devices can transmit various messages to each other in order to exchange information that facilitates selection of the type of relaying to be used.