US11937391B2
A rotary shaft apparatus includes a base plate and a rotary shaft assembly; the rotary shaft assembly includes a first transmission assembly, a second transmission assembly and a first supporting member; the first transmission assembly is rotatably connected to the base plate around a first axial direction; the first supporting member is rotatably connected to the first transmission assembly around a second axial direction parallel to the first axial direction, and is movably connected to the second transmission assembly; the second transmission assembly is rotatably connected to the base plate around a third axial direction parallel to the first axial direction.
US11937386B2
The invention relates to a front plate for a housing of a control installation, having a feedthrough for a plug connector. The front plate has at least one compensation element for compensating a tolerance-related offset (VA, VR) between the plug connector and the feedthrough (10) is disposed in the feedthrough and/or adjacent to the feedthrough.
US11937383B2
A display device includes a substrate on which at least one light source is disposed; a display plate disposed to face the substrate; a tubular panel that surrounds and holds a periphery of the substrate and a periphery of the display plate; and a lens disposed between the substrate and the display plate and guides light emitted from the at least one light source; wherein the tubular panel has at least one rib protruding from an inner peripheral surface thereof, and the lens has at least one slide groove in which the at least one rib is movable forward and backward when the lens is assembled into the tubular panel and has at least one claw portion disposed adjacent to the at least one slide groove, and the at least one claw portion is positioned between the at least one rib and the display plate in an assembled state.
US11937376B2
A determination device determines a component feeder to be used from among the multiple component feeders attached to a feeder holding section. When a first specific type of component is supplied from a first specific component feeder, a second specific type of component supplied from a second specific component feeder are simultaneously picked up by a mounting head, and a component shortage occurs in the first specific component feeder, the determination device determines a same type component feeder attached to a position which enables simultaneous pickup with the second specific type of component supplied from the second specific component feeder, as a component feeder for supplying the first specific type of component.
US11937374B2
A feeder maintenance device manages history information including at least one of a usage count of a consumable part or a measurement value of the consumable part used in a cleaning section, and displays information on a usage state of the consumable part as a consumable parts screen based on history information. With feeder maintenance device, information related to the consumable part can be reported to an operator. Also, with feeder maintenance device, because an operator can replace or replenish a consumable part, it is possible to perform maintenance processing of feeder more reliably.
US11937372B2
A biphasic composition comprises a quantity of liquid GaIn and a plurality of solid particles of Ga2O3 suspended in the quantity of liquid GaIn, the Ga2O3 particles having a median particle size between 8 μm and 25 μm, wherein the volumetric ratio of solid particles of Ga2O3 to liquid GaIn is between 0.4 and 0.7. A method of making a biphasic composition of GaIn, a method of making a stretchable circuit board assembly, and a stretchable circuit board assembly are also described.
US11937368B2
Described are various configurations of high-speed via structures. Various embodiments can reduce or entirely eliminate insertion loss in high-speed signal processing environments by using impedance compensation structures that decrease a mismatch in components of a circuit. An impedance compensation structure can include a metallic structure placed near a via to lower an impedance difference between the via and a conductive pathway connected to the via.
US11937363B2
Provided herein are high energy ion beam generator systems and methods that provide low cost, high performance, robust, consistent, uniform, low gas consumption and high current/high-moderate voltage generation of neutrons and protons. Such systems and methods find use for the commercial-scale generation of neutrons and protons for a wide variety of research, medical, security, and industrial processes.
US11937359B2
A wireless induction heating cooker includes a main body, a lid coupled to the main body, an internal pot stored in the main body, a first power receiving coil placed at a lower portion of an edge area of the internal pot, a lateral surface heating coil placed on an outer circumferential surface of the internal pot and connected with the first power receiving coil, a power transmitting coil provided on one lateral surface of an upper portion of the main body and supplied with electric currents induced to the first power receiving coil, and a second power receiving coil provided on one lateral surface of the lid and supplying electric currents induced by a magnetic field generated in the power transmitting coil to at least one of electronic devices.
US11937357B2
An aerosol generating device includes a battery, a heater for heating an aerosol generating material, a voltage converter, and a controller. An aerosol generating device is provided with a voltage converter that is arranged between a battery and a heater, and converts a voltage applied from the battery to a constant voltage to output a preset fixed voltage that is applied to the heater. A controller controls electric power supplied to the heater such that the preset fixed voltage is applied to the heater in a preheating mode.
US11937349B2
Disclosed is a drive circuit for a digital dimming LED light, relating to the LED light drive circuits, which includes a power module and a dimming module corresponding to the LED lights, wherein the dimming module comprises a demodulation unit, a boosting constant voltage unit and a constant current chopper unit, and the power module is used to convert a utility power into DC power and output it to the demodulation unit, and to receive an external dimming signal and modulate and convert it into a digital signal. The demodulation unit is connected to the power module for receiving and demodulating the digital signal, the constant current chopper unit is connected to the demodulation unit, and both the boosting constant voltage unit and the constant current chopper unit are connected with the LED lights, so that the brightness of the LED lights is consistent.
US11937347B2
A method for adapting a digital lighting setpoint intended to be projected by a digital lighting unit for a motor vehicle including a matrix light source and an optical system. The method includes a step of applying a digital filtering to the digital setpoint. The filter used is capable of taking into account the interferences of light intensities between the elementary light sources of the matrix light source.
US11937344B2
The present disclosure provides an aerosol delivery device and a cartridge for an aerosol delivery device. In various implementations, the cartridge may comprise a housing defining a liquid reservoir, an atomizer configured to produce an aerosol, the atomizer comprising a first liquid transport element, a second liquid transport element, and a microvalve located between the liquid reservoir and the second liquid transport element. The microvalve may comprise a base member including at least one channel, and an actuating member at least a portion of which comprises a shape-memory material, and which is configured to move between a first position and a second position, wherein in the first position, the actuating member substantially blocks fluid flow from the liquid reservoir through the channel, and in the second position, the actuating member allows fluid flow from the liquid reservoir through the channel and to the second liquid transport element.
US11937341B2
A cooking apparatus and a controlling method, where the cooking apparatus includes a plurality of power input terminals, a plurality of heaters, a detection circuit connected to the power input terminals for detecting the phase of power input into the power input terminals, and a processor. The processor configured to identify a phase difference of input power based on an electronic signal of the power output from the detection circuit, and, based on the phase difference being within one of a plurality of threshold ranges, identify the voltage between live terminals among the plurality of power input terminals based on the phase difference of the power and control at least one heater among the plurality of heaters according to the identified voltage between the live terminals, and, based on the phase difference being outside the plurality of threshold ranges, stop the operation of the cooking apparatus.
US11937339B2
A Fixed Wireless Access (FWA) device can include identification information disposed on an exterior surface of the FWA device. The FWA device can be configured to receive over a local communication network from a mobile device, provisioning information associated with the FWA device based on the identification information and install the provisioning information in a memory unit. The FWA device can establish cellular connectivity with a network base station based on the provisioning information. The provisioning information can be obtained by the mobile device scanning the identification information, providing the identification information to a server, and receiving the provisioning information from the server based on the identification information.
US11937333B2
A method, a communication apparatus using the method, and a base station apparatus are disclosed. The method includes arranging user equipment to receive a downlink control channel signal associated with a physical downlink control channel; and configuring the user equipment to monitor the physical downlink control channel for control-resource set information. The control-resource set information corresponds to time and frequency resource allocation information related to the physical downlink control channel. The control-resource set information includes at least one parameter.
US11937330B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a first user equipment (UE) may identify an active state of a first sidelink (SL) discontinuous reception (DRX) cycle of the first UE and an active state of a second SL DRX cycle of a second UE. The first UE may transmit, to the second UE based at least in part on an overlap between the active state of the first SL DRX cycle and the active state of the second SL DRX cycle, an indication associated with adjusting the first SL DRX cycle or the second SL DRX cycle. Numerous other aspects are described.
US11937329B2
A method of wireless communication performed by a user equipment (UE), the method including: determining to operate in a Dual SIM Dual Active (DSDA) mode or a Dual SIM Dual Standby (DSDS) mode, the UE having a first subscriber identity module (SIM) and a second SIM; and selecting a discontinuous reception (DRX) parameter value based at least in part on the DSDA mode or the DSDS mode.
US11937319B2
A communication system is disclosed in which a distributed base station apparatus comprises a central unit for control plane signalling (CU-CP), at least one a central unit for user plane signalling (CU-UP), and at least one distributed unit. The CU-CP obtains information indicating whether a security configuration is supported by a CU-UP and selects a security configuration for an item of user equipment (UE) based on the obtained information.
US11937316B2
Multi-link selection based on Transmit Power Control (TPC) may be provided. A computing device may receive Multi-Link Device (MLD) association information associated with a client device. The MLD association information may describe MLD links the client device may require. A set of MLD links available on a network may be determined based on the MLD association information. The determined set of MLD links may then be sent to the client device.
US11937313B2
An electronic device is provided. The electronic device includes a communication circuit, a memory, and at least one processor operatively connected with the communication circuit and the memory, wherein the memory stores instructions configured to, when executed, enable the at least one processor to obtain a request for a Bluetooth connection between a first Bluetooth peripheral device and a first Bluetooth controller, identify whether the first Bluetooth peripheral device and a second Bluetooth controller are connected with each other based on Bluetooth connection information stored in the memory, control to connect the first Bluetooth peripheral device and the first Bluetooth controller with each other based on whether the first Bluetooth peripheral device and the second Bluetooth controller are connected with each other, and update the Bluetooth connection information based on the connection between the first Bluetooth peripheral device and the first Bluetooth controller.
US11937310B2
A user device includes hardware configured to select a preamble or PRACH occasion associated with a first time span for the user device to transmit at least a data portion of a random-access procedure message to a base station, and to receive a message granting the user device an occasion to transmit uplink data on a PUSCH occasion that includes a second time span (412). The hardware also determines that the first and second time spans overlap (414), and only one of (i) transmits at least the data portion of the random-access procedure message to the base station during the first time span. or (ii) transmits the uplink data to the base station during the second time span, based on a transmission precedence of (i) at least the data portion of the random-access procedure message and (ii) the uplink data (440).
US11937307B2
Apparatuses, methods, and systems are disclosed for transmission beam indicating. One apparatus includes a transmitter that transmits information using multiple transmission beams. The apparatus also includes a receiver that receives a feedback message indicating a transmission beam of the multiple transmission beams. The feedback message is received in response to transmitting the information. The transmitter transmits a message using the transmission beam in response to receiving the feedback message.
US11937306B2
A system information transmission method, a terminal and a network device are provided. The method includes: receiving request information for requesting target Other System Information sent by a terminal; configuring a random access message 2 or a random access message 4 for the terminal based on the request information; and sending the random access message 2 or the random access message 4 to the terminal.
US11937304B2
A user equipment for transmitting and receiving a signal in a wireless communication system, includes: a transceiver; and at least one processor configured to perform a random access procedure with a base station and record log information that is information related to the random access procedure, wherein the random access procedure includes transmitting a random access preamble to the base station and receiving, from the base station, a random access response that is a response to the transmission of the random access preamble.
US11937303B2
Provided are a communication method and a terminal device. The communication method includes: sending, by a first terminal device, a first sidelink channel to a second terminal device over a first sidelink, where the first sidelink channel includes first COT sharing information, and the first COT sharing information satisfies one or more of the following: the first COT sharing information is carried in a first PSSCH of the first sidelink channel; and the first COT sharing information includes second COT sharing information and third COT sharing information, with the second COT sharing information corresponding to a first communication mode, and the third COT sharing information corresponding to a second communication mode.
US11937293B2
This disclosure relates generally to wireless communications and, more particularly, to systems and methods for determining an adaptive random access response window length in non-terrestrial networks. In one embodiment, a method performed by a communication device includes: receiving system information from a communication node, wherein the communication node communicates using a satellite in orbit or a high altitude platform station (HAPS); and determining an adaptive random access response window length based on the system information and whether the communication device has access to situation information that: characterizes a location of the communication device, an ephemeris of the satellite or a trajectory of the HAPS, and a payload type of the satellite or the HAPS.
US11937287B2
One or more computing devices, systems, and/or methods for identifying interference patterns associated with wireless communication sites and/or grouping wireless communication sites based upon identified interference patterns are provided. In an example, signal strength information associated with a wireless communication site communicating with a user equipment (UE) may be determined. An interference pattern representation of one or more interference patterns associated with the wireless communication site may be generated based upon the signal strength information. A plurality of wireless communication sites, including the wireless communication site, may be grouped into groups of wireless communication sites based upon interference pattern representations associated with the plurality of wireless communication sites. The interference pattern representations include the interference pattern representation.
US11937286B2
The present application relates to devices and components including apparatus, systems, and methods to provide SCell activation. In one example, an SCell activation procedure may be extended by a duration based on cancelation of CSI-RS reception. In another example, a base station may use particular configuration parameters to avoid cancelation of CSI-RS reception. In yet another example, a UE and a base station may use particular information for a CSI-RS reception/transmission on an SCell that is being activated.
US11937283B2
Certain aspects of the present disclosure provide techniques for quasi-colocation (QCL) assumption for an aperiodic channel state information (A-CSI) reference signal (RS) configured with multiple transmission reception point (mTRP). A user equipment (UE) may receive signaling configuring the UE with a plurality of index values associated with different control resource sets (CORESETS). The UE may receive, from a base station (BS), first downlink control information (DCI) triggering an A-CSI-RS resource set for A-CSI reporting. The first DCI is received in a first CORESET of the different CORESETs associated with a first index value of the plurality of index values. The UE may determine a first time offset between the first DCI and the A-CSI-RS resource set. When the first time offset is smaller than a threshold time offset, the UE may determine a QCL assumption for receiving the A-CSI-RS based, at least in part, on the first index value.
US11937281B2
This application discloses a communications method and apparatus. The method includes: obtaining one or more candidate time domain resources for transmitting a reference signal in one or more time units; and receiving downlink control information, where the downlink control information includes first indication information and transmission information of a first channel, and the first indication information is used to indicate different situations about time domain reference signal resources in the one or more time units. A network device can accurately indicate a flexibly configured time domain resource for transmitting a reference signal by using relatively low overheads, and a terminal device can accurately determine information about the flexibly configured time domain reference signal resource, thereby improving system transmission efficiency.
US11937278B2
With sidelink reservation signals sent together with the sidelink data, there is the possibility of interference with other sidelink signals. In order to address this, systems and methods are provided in which a first UE transmits a reservation signal to indicate at least one time-frequency resource for transmitting sidelink data. Following this, the first UE transmits at least one sidelink data transmission to a second UE using the at least one time-frequency resource indicated by the reservation signal. The reservation signal is transmitted before the at least one sidelink data transmission signal so that a third UE may detect the reservation signal and use the reservation signal to avoid using the at least one time-frequency resource indicated in the reservation signal.
US11937276B1
The present disclosure provides a method and a device for sidelink communication. One example method includes: a terminal device receives a first PSSCH; the terminal device performs channel access on the shared spectrum, where the first PSSCH is associated with a plurality of PSFCH transmission resources on the shared spectrum, and the plurality of PSFCH transmission resources are located on at least one of reserved resources or dynamic resources on the shared spectrum; the terminal device transmits a first PSFCH using one PSFCH transmission resource of the plurality of PSFCH transmission resources, where the first PSFCH carries feedback information associated with the first PSSCH.
US11937274B1
Provided is a method of operating a transmitting user equipment (UE) in a wireless communication system. The method includes receiving a first radio resource control (RRC) configuration-related message by the transmitting UE (Tx UE), and transmitting a message to a receiving UE by the Tx UE. The first RRC configuration-related message includes sidelink hybrid automatic repeat request (HARQ) enable or HARQ disable configuration information.
US11937273B2
An embodiment provides an operation method of a sidelink reception terminal in a wireless communication system, the method comprising the steps of: receiving a first physical sidelink shared channel (PSSCH) and a second PSSCH by a sidelink reception terminal; and transmitting feedbacks for the first PSSCH and the second PSSCH through a first physical sidelink feedback channel (PSFCH) resource and a second PSFCH resource, respectively, by the sidelink reception terminal, wherein the first PSSCH and the second PSSCH are received in different slots, and a first PSFCH related to the first PSSCH and a second PSFCH related to the second PSSCH are transmitted through different frequency resources within an identical time resource area.
US11937271B2
A method of operating a mesh network is disclosed. The method includes joining a network as a child of a parent node and receiving a downlink broadcast channel from the parent node. The method further includes setting the downlink broadcast channel as an uplink broadcast channel in response to the step of receiving.
US11937267B2
Disclosed are a method and a device for dynamically indicating and applying spatial parameters in a wireless communication system. A method for applying spatial parameters by means of a terminal in a wireless communication system, according to one embodiment of the present disclosure, comprises the steps of: receiving, from a base station, downlink control information (DCI) including first information on one or more spatial parameters, second information on time domain resource allocation, and third information on whether to schedule a data channel; transmitting, on the basis of the second information, hybrid automatic repeat request-acknowledgement (HARQ-ACK) information to the base station on the basis of the third information indicating that the data channel is not scheduled; and after transmitting the HARQ-ACK information, performing uplink transmission to the base station or downlink reception from the base station on the basis of the one or more spatial parameters based on the first information.
US11937264B2
The disclosure relates to a communication method and system for converging a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT). The disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. The disclosure discloses a signaling method and apparatus for properly increasing a control channel detection complexity of a terminal in order to efficiently detect a control channel for performing coordinated transmission such as non-coherent joint transmission (NC-JT).
US11937256B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a multi-slot grant for one of uplink communication or downlink communication. The UE may communicate in the multi-slot grant based at least in part on information that provides an indication of one or more time gaps for the multi-slot grant. Numerous other aspects are provided.
US11937255B2
The present invention relates to a method for receiving a downlink signal in a wireless communication system, and apparatus therefor. More particularly, the present invention relates to a method and an apparatus therefor, the method comprising the steps of: receiving configuration information for multiple transport block scheduling; receiving downlink control information (DCI) on the basis of the received configuration information; and receiving at least one transport block on the basis of the received DCI, wherein on the basis of the DCI being received through a specific search space candidate in a search space for multiple transport block scheduling, a start position of the transport block is determined on the basis of an end position and a scheduling delay of the specific search space candidate, and the specific search space candidate and the scheduling delay are equally applied to the determination of the start position of the next transport block.
US11937243B2
A method for allocating resources for a scheduling request indicator (SRI) is disclosed. An SRI cycle period for use by user equipment (UE) within a cell is transmitted from a NodeB in a cell to UE within the cell. The NodeB transmits a specific SRI subframe offset and an index value to the particular UE within the cell. The specific SRI subframe offset and the index value enable the UE to determine a unique combination of cyclic shift, RS orthogonal cover, data orthogonal cover, and resource block number for the UE to use as a unique physical resource for an SRI in the physical uplink control channel (PUCCH).
US11937230B2
Embodiments of a method and an apparatus for wireless communications are disclosed. In an embodiment, a method for wireless communications involves generating a Physical Layer Protocol Data Unit (PPDU) that includes a resource unit (RU), wherein a size of the RU is less than a signal bandwidth and wherein data corresponding to the RU is distributed onto a disjoint set of subcarriers included in a frequency unit, and transmitting the PPDU using the disjoint set of subcarriers in accordance with a power spectrum density (PSD) limit.
US11937225B2
A communication terminal capable of determining whether or not it can perform DC, a base station, and a communication method are provided. A communication terminal (30) according to the present disclosure includes a communication unit (31) that simultaneously communicates with a master base station (10) associated with a first radio access technology and a secondary base station (20) associated with a second radio access technology, and a control unit (32) that specifies, when it is notified by the master base station (10) that it can provide dual connectivity using the second radio access technology, at least one frequency band supported by the secondary base station (20), the secondary base station being configured to provide the dual connectivity in cooperation with the master base station (10).
US11937223B2
This application provides a sidelink resource configuration method and apparatus. The method includes: configuring, by a network device, sidelink bandwidth part (SL BWP) configuration information for a terminal device, where the SL BWP configuration information is used to indicate a common first parameter of M resource pools in the SL BWP; and configuring, by the terminal device, the M resource pools in the SL BWP based on the SL BWP configuration information in a process of configuring the resource pools in the SL BWP, where the M resource pools have at least one same parameter, and the at least one parameter is determined based on the first parameter. Therefore, communication between different terminal devices can be implemented by configuring the resource pools in the SL BWP.
US11937222B2
Aspects of the present disclosure relate to wireless communications, and more particularly, to techniques for signaling user equipment (UE) capability for sharing quasi co-location (QCL) parameter across a group of frequency bands. For example, the UE may report, to a network entity, a capability of the UE to apply a common spatial QCL parameter for at least one group of frequency bands. The UE receives an indication of a change to the common transmission control indicator (TCI) states or spatial relation parameter to be applied across the group of frequency bands. The UE applies the change across the group of frequency bands.
US11937219B2
Methods, systems, and devices for wireless communications are described that provide for timing adjustments that may be used in communications between wireless devices in a wireless communications system and signaling of such timing adjustments using physical layer signaling (e.g., layer 1 (L1) signaling). A first timing adjustment may be provided by a parent node to one or more associated child nodes that corresponds to a propagation delay between the parent node and its control node or a relay node through which the parent node communicates with a core network. In some cases, the physical layer signaling used to transmit the first timing adjustment may be a reference signal transmission, a downlink control information transmission, or any combination thereof.
US11937212B2
Disclosed are a UCI combined transmission method, a terminal, and a network device. The method comprises: when determining that a transmission resource of a first UCI overlaps transmission resources of a plurality of second UCIs in a time domain, a terminal selects the transmission resource of one second UCI from the transmission resources of the plurality of second UCIs according to an initial position of the transmission resource of the first UCI and the initial position of the transmission resources of the second UCIs, so as to simultaneously transmit the first UCI and the selected second UCI on the transmission resource of the selected second UCI. Accordingly, a network can also simultaneously receive the first UCI and the selected second UCI on the transmission resource of the selected second UCI with the same method. By means of the method, it can be ensured that the understandings of the base station and the terminal on the UCI combined transmission are consistent in the case that transmission resources of different UCIs overlap in the time domain.
US11937204B2
Embodiments of the present disclosure describe methods, apparatuses, storage media, and systems for delivering UE capability indication to a positioning server in a wireless communication network. A user equipment (UE) or access note (AN) may notify a positioning server of UE capability information associated with positioning measurements so that the positioning server may determine corresponding positioning measurement configurations based on acknowledgement of such UE capability information in terms of the positioning measurement. Embodiments describe UE capability indications to a positioning server that may enable flexible deployment and integration of various types of UEs. Other embodiments may be described and claimed.
US11937201B2
A system having a processor configured for executing computer-executable instructions for deregistering a user equipment (UE) during a transition between a first mobile domain and a second mobile domain. A data store is paired with the processor being configured for storing UE data, the UE data comprising one or more of the following: customer profile information, customer authentication information, and encryption keys for the information. A connection controller is configured for managing all connection and session related information from the UE. Upon detecting the UE is transitioned from the first mobile domain to the second mobile domain, the processor is configured to send a data packet to the connection controller to deregister the UE. Absent a confirmation message from the connection controller, the processor is configured to deregister the UE.
US11937199B2
A repeater for wireless communications systems can include a time-division-duplex (TDD) architecture with a timing recovery system for switching between uplink and downlink. In some approaches, the timing recovery system can receive a timing reference from a global navigation satellite system (GNSS) such as Global Positioning System (GPS), Global Navigation Satellite System (GLONASS), or Galileo.
US11937189B2
Systems, methods, and instrumentalities are provided that are associated with multi-layer transmissions such as multi-layer NOMA transmissions. A per-layer perturbation pattern may be applied to the multiple layers to create differences among the transmission power levels of the layers. MAS and NOMA resource indications may be provided, e.g., through TCI state. Dynamic MAS and NOMA resource indications may be provided. Uplink CSI-RS techniques may be provided, e.g., for interference measurement.
US11937184B2
A method for determining a sleep state, a terminal, and a readable medium. The method for determining a sleep state comprises receiving sleep instruction information sent by a base station; and on the basis of the sleep instruction information, entering a sleep state and selecting different modes. By application of the solution, a UE can be flexibly instructed to enter a sleep state without affecting the quality of service, thereby reducing the power consumption of the UE, and achieving the purpose of power saving.
US11937181B2
Embodiments of the present disclosure relate to handling wake up signaling in discontinuous reception. A method comprises determining, at an apparatus, whether an active time during which the apparatus monitors transmissions from a further apparatus overlaps with at least one occasion for monitoring wake up signaling. The method further comprises in response to the active time overlapping with the at least one occasion, skipping monitoring wake up signaling on the at least one occasion. As such, power consumption for monitoring wake up signaling during the active time can be reduced.
US11937176B2
Inventive concepts and embodiments associated therewith are provided wherein an auxiliary device, that is attached to a person, is configured to function in cooperation with a destination device that is on the person. In some embodiments, the auxiliary device is uniquely associated with specific information that is to be conveyed to the destination device following reception of a signal by the auxiliary device. Embodiments are disclosed wherein, following reception of the signal by the auxiliary device, the auxiliary device processes the signal and then conveys the specific information that is uniquely associated therewith to the destination device without direct human interaction with the auxiliary device. In some embodiments, the auxiliary device comprises a personal wearable device and the destination device comprises a smartphone.
US11937175B2
A cell range determination is made by determining a sector straddling an azimuth line of a first base station with a center at the coordinates of a first base station. The sector is divided into a plurality of subsectors. A nearest neighbor base station is determined in each of the plurality of subsectors. A set of coordinates is determined for the nearest neighbor base station. An average distance between the nearest neighbor base stations is determined. A bearing angle difference between the nearest neighbor base station and the first base station is determined based on the set of coordinates of the nearest neighbor base station. A gain is determined for each of the plurality of subsectors based on the bearing angle difference. A cell range is determined for the first base station based on the gain.
US11937170B2
Examples relate to managing mutually exclusive access to network slices in a communications network. A unified data management (UDM) node implementing a UDM network function of the communications network receives, from a session management function (SMF) node, a session registration request for accessing a first network slice to which a user equipment (UE) seeks access. Responsive to receiving the session registration request, the UDM node determines whether the UE has an active session registration for a second network slice, The UDM further selectively rejects the session registration request for accessing the first network slice based on a policy in response to determining that the UE has the active session registration for the second network slice.
US11937164B2
A method for processing a data packet at a node in a Bluetooth Mesh network, comprising: (a) determining a one-hop device cache list of the node, wherein the one-hop device cache list comprises an address of one or more one-hop nodes; (b) when the node sends a data packet, checking whether a destination address of the data packet is the same as an address stored in the one-hop device cache list; if yes, setting a TTL value of the data packet to 0 and sending the data packet; otherwise, setting the TTL value of the data packet to be greater than a specified TTL threshold, and sending the data packet; and (c) when the node forwards a data packet, checking whether the destination address of the data packet is the same as an address stored in the one-hop device cache list; if yes, setting the TTL value of the data packet to 1 and forwarding the data packet; otherwise, deducting the TTL value of the data packet by 1 and forwarding the data packet. According to the present disclosure, the problem of signal interference in a dense Bluetooth Mesh network may be significantly reduced.
US11937162B2
A method of propagating data packets in a network of nodes is disclosed. The method includes: collecting a set of first data packets during a first time period, the set including at least one data packet received from one or more first nodes in the network; generating a first mapping that assigns the first data packets of the set for relay to one or more neighbouring nodes connected to the node; computing a decorrelation metric value for the first mapping; determining whether the decorrelation metric value for the first mapping satisfies a first condition; in response to determining that the decorrelation metric value for the first mapping does not satisfy the condition of transmitting the first data packets of the set to neighbouring nodes according to the second mapping.
US11937149B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for implementing a weapon manager are disclosed. In one aspect, a method includes the actions of determining, by the server, that the weapon is in a particular location. The actions further include determining, by the server, a projected travel path of the weapon. The actions further include, based on determining that the weapon is in a particular location and the projected travel path of the weapon, generating, by the server, an instruction to disable the weapon. The actions further include providing, for output to the weapon, the instruction to disable the weapon.
US11937142B2
Systems, method sand computer readable medium are provided for proving real-time Self Optimizing Network (SON) Virtual Network Function (VRF) included as part of the HNG. In one embodiment data from connected devices is forwarded to the HNG; the data is organized into virtualized containers; and the data is processed by agile analytics and results are displayed to a user.
US11937139B2
Methods, systems, and apparatus' for optimizing network performance are described herein. A Cloud-Server may optimize one or more mesh networks of a plurality of 802.11 access points (APs) and stations (STA) connected to the APs. The Cloud-Server may work with a client steering daemon (CSD) miming on each AP. The Cloud-Server may operate in a location that is remote to the AP(s). The Cloud-Server may collect, store, and process network and client related data from one or more CSDs. The processing may include measuring network (e.g., premises) and client (e.g., STA) performance as well as analyzing (e.g., machine learning, etc.) to determine network parameters that will optimize network performance The Cloud-Server may then apply these network parameters to the relevant CSDs in order to improve per client and per network performance.
US11937138B2
A network node, wireless device, method and system are provided. In one or more embodiments, a network node (16) for servicing a plurality of wireless devices (22) using a plurality of carriers is provided. Each carrier of the plurality of carriers is configured with a respective plurality of beams. The network node (16) includes processing circuitry (68) configured to: determine a metric associated with Multiple User-Multiple Input Multiple Output, MU-MEMO, usage with respect to the plurality of carriers, and initiate at least one handover of at least one of the plurality of wireless devices (22) to a different carrier of the plurality of carriers based at least in part on the metric.
US11937125B2
There are provided measures for enabling/realizing load balancing between neighboring cells in a system with beamformed radio access. Such measures exemplarily include determining a load balancing condition, including at least one beam as a candidate beam and at least one target radio access entity for offloading terminal entities being currently served by the candidate beam, specifying a load balancing hypothesis for a hypothetical case of deactivation of the candidate beam, including information on an impact of the hypothetical beam deactivation, inquiring non-/acceptance of deactivation of the candidate beam from the at least one target radio access entity on the basis of the load balancing hypothesis, and deactivating the candidate beam if acceptance of deactivation of the candidate beam is inquired from the at least one target radio access entity.
US11937118B2
In edge computing that deploys a function regarding network user data near equipment, deployment of a network function is flexibly controlled. An acquisition unit acquires information regarding performance corresponding to a deployment position of a predetermined partial function of a network. A fixing unit fixes the deployment position of the predetermined partial function of the network on the basis of the information regarding the performance. A setting request unit issues a request of setting the predetermined partial function of the network for the deployment position fixed by the fixing unit to a network.
US11937112B2
A radio network node, a wireless device and methods performed therein for handling communication in a wireless communication network are provided. The method performed by the wireless device comprises obtaining an indication indicating which beams to be included in a cell quality derivation of a cell; and performing one or more measurements on one or more beams, which one or more beams are selected based on the obtained indication. Furthermore, a computer program product and a computer readable storage medium are also provided herein.
US11937107B2
Methods and apparatuses for beam measurement and reporting. A method of operating a user equipment includes receiving information indicating associations between a set of transmission configuration (TCI) states and reference signals (RSs) for beam measurement, respectively, receiving a TCI state from the set of TCI states for beam indication, and determining, in response to reception of the TCI state, a RS for beam measurement based on the TCI state and the information. The method further includes transmitting or receiving the RS for beam measurement, and based on the RS being a downlink (DL) RS, measuring the DL RS and determining a measurement report; and transmitting the measurement report.
US11937103B1
State information of a radio-based application, used to process messages of the application, is made accessible from a first compute instance and a second compute instance at a virtualization server. The first instance is assigned to process a first portion of a workload of the application, including a message which comprises a result of a network function executed at a network function accelerator of the server. In response to determining that a condition for migrating workload from the first compute instance has been met, an additional message of the first portion is directed to the second compute instance. The second compute instance processes the additional message using the state information.
US11937094B1
Systems and methods provide for use of spectrum emission masks to allow for two or more devices to coexist on a common communication bandwidth. The spectrum emission masks may include one, two, or three interior attenuation regions that, when implemented by a transmitting device, significantly reduce the transmission power in the interior attenuation regions. The interior attenuation regions may transmit to interior channels that separate one, two, or three outer channels of a plurality of channels spanning the common communication bandwidth.
US11937090B1
System comprises an application server for hosting a mobile application service; a mobile device having a mobile application for the mobile application service installed thereon; and a third party server. Application server is configured to: receive a log-in request for the mobile application service from the mobile device, where the log-in request includes device identifying information for the mobile device; transmit, to the third party server, a request for a status setting for the mobile application, wherein the request comprises the device identifying information for the mobile device, where the status setting comprises a plurality of bits, and where the third party server retrieves the status setting from a database based on the device identifying information for the mobile device; receive from the third party server, the status setting for the mobile application; and determine a risk rating for the log-in request based in part on the status setting for the mobile application.
US11937087B2
In various embodiments, a vehicle processing device may receive a vehicle-to-everything (V2X) message from an ITS participant, the message including an ITS participant type indication, determine detector settings based on the ITS participant type for one or more detectors configured to evaluate an aspect of the ITS participant, determine whether information in the V2X message is plausible using the detector settings based on the ITS participant type for the one or more detectors, and perform a security action in response to determining that the information in the V2X message is not plausible.
US11937084B2
A method and apparatus for authenticating a device on a wireless network using a secure attestation package is provided. The method includes receiving, by a processor, information related to a device of an Internet of Thing (IoT) service provider, generating, by the processor, a secure attestation package based on the information, transmitting, by the processor, the secure attestation package to the IoT service provider, receiving, by the processor, a request to access a wireless network of the processor from the device of the IoT service provider, and authorizing, by the processor, the device to access the wireless network based on the secure attestation package.
US11937076B2
Acoustic echo cancellation for a video conference system is described. A location of a person in a room can be determined. An audio signal received from the location of the person can be captured using beamforming. An acoustic echo cancellation parameter can be determined based in part on the audio signal captured from the location of the person. Acoustic echo cancellation can be performed on the audio signal using the acoustic echo cancellation parameter.
US11937068B2
An apparatus for reproducing a spatially extended sound source having a defined position and geometry in a space includes an interface for receiving a listener position; a projector for calculating a projection of a two-dimensional or three-dimensional hull associated with the spatially extended sound source onto a projection plane using the listener position, information on the geometry of the spatially extended sound source, and information on the position of the spatially extended sound source; a sound position calculator for calculating positions of at least two sound sources for the spatially extended sound source using the projection plane; and a renderer for rendering the at least two sound sources at the positions to obtain a reproduction of the spatially extended sound source having two or more output signals, wherein the renderer is configured to use different sound signals for the different positions.
US11937053B1
Provided are methods and systems for performing a series of acoustic tests in a variety of testing environments comprising several types of construction assemblies. Prior to performing each acoustic test, a plurality of audio parameters corresponding to a given construction assembly can be used to configure an electronic device that captures audio produced by the acoustic test with a microphone and stores the captured audio as a computer sound file. Further, an acoustic testing device can be used during the acoustic test to gather data indicative of a result of the acoustic test. The result can then be mapped, along with information related to the given construction assembly, to the computer sound file.
US11937050B2
This disclosure relates to a hearing aid for placement on head of a user comprising a first second part. The first part may comprise an acoustic input transducer adapted to convert ambient sound picked up at the ear of the user to an electric signal, a signal processor adapted to process the electric signal according to specifications of user into a processed electric signal, and an output transducer adapted to covert the processed electric signal into a transmission signal, The second part may comprise an anchor adapted to fixate said second part under the skin to skull bone of the user, and a receiver adapted to receive the transmission signal and convert the transmission signal to an output signal perceivable as sound by the user. The first part may comprise an inner recess adapted to receive an insert element, where the insert element may comprise a first magnet adapted to in cooperation with the second part to cause the first part to attach to the head of the user.
US11937048B2
An implantable hearing unit is provided that includes an implantable microphone, a rechargeable power storage device and a speech signal processor. The hearing unit further includes a signal coupling device that is adapted for electrical interconnection to an implantable auditory stimulation device, which is operative to stimulate an auditory component of a patient. Such a stimulation device may include cochlear implants, brain stem stimulation systems, auditory nerve stimulation systems, and middle or inner ear transducer systems. The signal coupling device is operative to provide processed drive signals from the signal processor to the stimulation device as well provide power from the power storage device to operate the stimulation device. In one arrangement, the signal coupling device is a wireless coupling between first and second coils. In such an arrangement, the hearing unit may be utilized with an existing implanted stimulation device to make that device a fully implanted hearing system.
US11937038B2
Methods and systems are provided for earphones with motion sensitive inflation. Information may be obtained relating to a user of an audio output element that outputs audio signals, with at least portion of the audio output element being in contact with the user. One or both of outputting of the audio signals and the contact between the audio output element and the user may be assessed based on the obtained information. Based on the assessing, one or more adjustments applicable to the audio output element may be determined, with at least one adjustment applying to positioning of the at least portion of the audio output element. The determining includes configuring the at least one adjustment to account for and/or counteract effects of the positioning on one or both of outputting of the audio signals and the contact between the audio output element and the user.
US11937031B2
A system includes a network of a plurality of sensing/control/identification devices distributed throughout a machine, each of the sensing/control/identification devices associated with at least one sub-system component of the machine and operable to communicate through a plurality of electromagnetic signals. Shielding surrounds at least one of the sensing/control/identification devices to contain the electromagnetic signals proximate to the at least one sub-system component. A communication path is integrally formed in a component of the machine to route a portion of the electromagnetic signals through the component and a remote processing unit operable to communicate with the network of the sensing/control/identification devices through the electromagnetic signals, wherein at least a portion of the sensing/control/identification devices comprise a wide band gap semiconductor device and wherein at least a portion of the sensing/control/identification devices comprise an on-chip antenna.
US11937030B2
An optical link system for computation, preferably including a photonics substrate and a plurality of electronics modules, such as processors, memory controllers, and/or switches, which are preferably bonded to the photonics substrate. A photonics substrate, preferably including a plurality of optical links including waveguides and optical transducers. A method for optical link system operation, preferably including operating electronics modules and using optical links, optionally in cooperation with electronics modules such as switches, to transfer information between the electronics modules.
US11937025B2
The present application relates to the field of projection technology and discloses a phosphor wheel, a light source module, and a projector. A phosphor wheel includes a base, a first phosphor layer, and a second phosphor layer. The base includes an excitation light reflecting section and an excitation light transmitting section. The first phosphor layer is disposed on a surface of the excitation light reflecting section facing a direction of incident light and spreading along a circumferential direction of the base. The second phosphor layer is disposed on a surface of the excitation light transmitting section facing away from the direction of incident light and spreading along a circumferential direction of the base. The first phosphor layer and the second phosphor layer are offset to each other in a radial direction of the base.
US11937018B2
A surveillance system having an interface to a camera network for video surveillance of a surveillance area. The camera network includes a plurality of cameras each for capturing a surveillance subarea. The cameras are designed to provide surveillance images of the surveillance subareas. The surveillance system also includes a surveillance device for re-identifying people in the surveillance images. The surveillance device includes a person detection module for detecting people and an object detection module 10 for detecting objects. The surveillance device 5 includes an assignment module 12 designed to assign at least one item of object information to a person 4, and an action detection module 11 designed to detect an action of the person 4 on one of the objects 8.
US11937015B2
Methods and systems disclosed herein describe generating virtual backgrounds for video communications. A virtual background generator may monitor a user's calendar and/or inbox for meetings. The virtual background generator may analyze the context of calendar invites and/or scheduled meetings to generate one or more virtual backgrounds for a video conference. A first background may be displayed for the video conference. Additionally, the virtual background generator may update the virtual background based on an analysis of one or more topics being discussed during the video conference. Based on the analysis of the one or more topics being discussed, the virtual background generator may generate a second virtual background to replace the first virtual background.
US11937013B2
The present disclosure relates to a video processing method, an electronic device for video playback, and a video playback system. A video processing method comprises: receiving an input video comprising a plurality of sections, and metadata associated with the input video, at least two sections of the plurality of sections of the input video having different frame rates; and performing real-time processing on the input video according to the metadata, so as to output an output video having a constant target frame rate in real time, wherein the metadata includes frames indicating various sections of the input video rate information, or the metadata includes information indicating the frame rate of each section of the input video and at least one of the following information: information indicating a target frame rate and information indicating a processing operation to be used for performing real-time processing on the input video.
US11937010B2
Aspects of the disclosure relate to the delivery of media content over a network. Specifically, aspects are directed to identification and/or extraction of a selected data such as a video clip from content and providing identifying information to a user to retrieve, view, and/or share the selected video clip. Aspects described herein provide the ability to identify a starting point and stopping point of a video clip on a media gateway device and generate a URL that can be used and/or shared in order to access the selected video clip. The URL may identify a stored media clip, or may contain information from which a video clip can be recreated.
US11937007B2
An imaging device having a motion detecting function and an image processing function is provided. The imaging device can detect a difference between a reference frame image and a comparative frame image, and can switch from a motion detecting mode to a normal image capturing mode when a significant difference is detected. A low-frame-rate operation in the motion detecting mode can reduce power consumption. Moreover, the imaging device has an image recognition function in combination with the motion detecting function, so that switching from the motion detecting mode to the normal image capturing mode can be performed when a particular image is recognized.
US11937005B2
An output stage circuit including a current source circuit, a bias circuit, and an output circuit is provided. The bias circuit is coupled between the current source circuit and a ground terminal voltage. The output circuit includes a first transistor, a second transistor, a third transistor, and a load circuit. A control terminal of the first transistor is coupled to the bias circuit. The load circuit is coupled to a second terminal of the first transistor. A second terminal of the second transistor is coupled to a first terminal of the first transistor. A first terminal of the third transistor is coupled to the second terminal of the first transistor.
US11937002B2
Provided is a solid-state imaging device and an electronic apparatus capable of achieving both of a high dynamic range operation and an auto focus operation in a pixel configuration in which a plurality of unit pixels includes two or more subpixels. The solid-state imaging device includes a first pixel separation region that separates a plurality of unit pixels including two or more subpixels, a second pixel separation region that separates each of the plurality of unit pixels separated by the first pixel separation region and an overflow region that causes signal charges accumulated in the subpixels to overflow to at least one of adjacent subpixels, in which the overflow region is formed between a first subpixel and a second subpixel.
US11937000B2
The effect of ambient light on a measurement taken by an imaging pixel may be reduced by employing two optical filters. The two filters may have narrow passbands that are close to each other but do not overlap. The first filter may allow ambient and active light to pass. The second filter may allow ambient light to pass but may block active light. The ambient and active light that passes through the first filter may cause electrical charge to be generated in a photodiode of the pixel. The ambient light that passes through the second filter and strikes another pixel element may control the amperage of an electrical current that depletes charge from the photodiode. For instance, the other element may be a photoresistor, the light-dependent resistance of which controls the amperage, or may be a second photodiode that generates charge that controls a transistor that controls the amperage.
US11936998B1
In one example, an apparatus comprises: a photodiode configured to generate a charge in response to light within an exposure period, a charge sensing unit configured to accumulate at least a part of the charge as an overflow charge, a quantizer, and a controller configured to: within a first time within the exposure period, control the quantizer to perform a first quantization operation to quantize the overflow charge accumulated at the charge sensing unit to generate a first measurement output; within a second time after the first time, and within the exposure period, control the quantizer to perform a second quantization operation to quantize the overflow charge accumulated at the charge sensing unit to generate a second measurement output; and generate a digital output to represent an intensity of the light based on at least one of the first measurement output or the second measurement output.
US11936995B2
An event-based vision sensor system comprises an event-based pixel array including pixels that detect light, a readout circuit for reading out events associated with light received by each pixel and with the position it occupies in the array, and a memory controller that enables writing of each event, or event-related data, associated with a certain pixel to a certain address in a memory.
US11936993B2
A method in an electronic device includes detecting, with one or more processors, initiation of an image capture operation using an image capture device situated on a first surface of the electronic device and having a first field of view extending away from the first surface in a first direction. In response to detecting the initiation of the image capture operation, the method includes actuating a second image capture device situated on a second surface of the electronic device and having a second field of view extending away from the second surface in a second direction. The method then captures image content with the second image capture device and presenting the image content on a display situated on the first surface of the electronic device. Thereafter, the one or more processors capture at least one image with the first image capture device.
US11936982B2
An image capture device includes a mechanical stabilization system is used in image signal processing. The mechanical image stabilization system has an operating bandwidth and includes a motor to control an orientation of an image sensor. A processing apparatus of the image capture device determines a temperature of the motor and adjusts a cutoff frequency of the operating bandwidth based on the temperature of the motor.
US11936980B2
An imaging apparatus acquires an image capturing instruction, performs an image capturing processing in a case where a position of an eye of a user is a first condition upon acquiring the image capturing instruction, and requests a second imaging apparatus, which is different from the imaging apparatus, to perform the image capturing processing in a case where the position of the eye of the user is a second condition upon acquiring the image capturing instruction.
US11936976B2
A vibration apparatus includes a vibrating unit, and a control unit configured to control vibration of the vibrating unit. The control unit changes a vibration pattern of the vibrating unit by controlling the vibrating unit so as to change at least one of a vibration amplitude, a vibration frequency, and a vibration time according to at least one of a detection result of an offset amount from an in-focus position and a detection result of a predetermined object image in a mode that continuously performs autofocus processing.
US11936968B2
Circuit board, an image sensor module, a lens driving device, and a camera module including the same
A circuit board according to an embodiment includes an insulating portion; and a pattern portion disposed on the insulating portion, wherein the insulating portion includes: a first insulating region, and a second insulating region disposed outside the first insulating region and spaced apart from the first insulating region with a separation region therebetween; wherein the pattern portion includes: a first pattern portion for signal transmission; and a second pattern portion including a dummy pattern separated from the first pattern portion, wherein the first pattern portion includes: a first terminal portion disposed on the first insulating region; a second terminal portion disposed on the second insulating region; and a connection portion disposed on the separation region and connecting between the first terminal portion and the second terminal portion, wherein the second pattern portion includes: a second-first pattern portion disposed on the first insulating region; and a second-second pattern portion disposed on the second insulating region and separated from the second-first pattern portion.
US11936966B2
An imaging device includes a heat generating source; a heat radiating plate that cools the heat generating source; a thermoelectric element that includes a heat absorbing surface in contact with the heat radiating plate and a heat radiating surface different from the heat absorbing surface, and receives supply of electric power to discharge the heat absorbed by the heat absorbing surface from the heat radiating surface; a first heat sink that is in contact with the heat radiating surface of the thermoelectric element and is spaced apart from the heat radiating plate; and a second heat sink that is in contact with the heat radiating plate.
US11936960B2
Methods, systems, and media for interacting with content using a second screen device are provided. In some implementations, the method comprises: receiving, from a remote media streaming device, a request to present media content items; sending, over the Internet, interactive content to the media streaming device as a stream of video; causing the interactive content to be presented by the media streaming device; causing a notification to be sent to a computing device associated with the media streaming device indicating that the content being presented by the media streaming device is interactive content; receiving instructions from the computing device to control how an object depicted in the interactive content is presented; updating the interactive content based on the instructions; sending the updated interactive content to the media streaming device as a stream of video; and causing the updated interactive content to be presented by the media streaming device.
US11936959B2
Television tuner emulation techniques are described. In an implementation, a television tuner is emulated through execution of software on a processing system by a computing device, the emulated television tuner includes functionality to obtain television content over an Internet Protocol (IP) based network. The functionality of the emulated television tuner is exposed to one or more applications that are executed by the computing device such that the application is not aware that the television tuner is emulated through execution of the software.
US11936951B2
A method includes obtaining a user focus indicator value that is associated with a subject. A plurality of filter values for a respective set of media content filters are determined based on the subject and contextual data. The method includes delivering, based on a first combination of the filter values, a first set of media content items associated with a first combination of content delivery mediums. The method includes delivering, based on a second combination of the filter values that is different from the first combination, a second set of media content items that is associated with a second combination of content delivery mediums that is different from the first combination of content delivery mediums. The second set is different from the first set.
US11936949B2
Methods and set-top boxes are disclosed for automated error detection. The method includes detecting, on an electronic device, a display device connected to the electronic device via a cable; identifying, on the electronic device, a type of display device connected to the electronic device via the cable; classifying, on the electronic device, the type of display device connected to the electronic device via the cable as one of a specific television model or a regular television model; and executing, on the electronic device, a fix for the specific television model. The method can include detecting, on an electronic device, a HDMI cable-related error from a HDMI transmitter of the electronic device; classifying, on the electronic device, a cause of the HDMI cable-related error from the HDMI transmitter; and communicating, by the electronic device, a recommendation to a user to remedy the HDMI cable-related error detected by the HDMI transmitter.
US11936944B2
A display device includes: a display configured to display an execution screen of an application; a network interface configured to receive logging configuration information related to the application; and a controller. The controller is configured to: update the received logging configuration information in a configuration file; when an event for the execution screen of the application occurs, obtain logging item information for logging an operation of the event from the updated configuration file; and obtain log information related to the operation of the event by using the obtained logging item information.
US11936943B2
A system and method for using a controllable appliance to report an inoperable state of a controlling device. The appliance is caused to repeatedly determine, at a first predetermined timed interval, if a wireless notification signal, repeatedly transmitted by the controlling device at a second predetermined timed interval, has been received from the controlling device. When the wireless notification signal has not been received from the controlling device within the first predetermined timed interval, the appliance is caused to issue a status notification that the controlling device is in an inoperable state.
US11936941B2
Systems and methods are provided for identifying related media content items. First media content item is outputted on a device. A user interface input requesting media content related to the first media content item is received. Metadata is accessed for a portion of the first media content item within a predetermined time period away from a pause position of the first media content item to identify topic keyword. An offer to interrupt the first media content item to output content related to the topic keyword is displayed. In response to offer's acceptance, a portion of an identified related media content item that is associated with the identified topic keyword is identified. The portion of the identified related media content item is transmitted for display while the media content is paused. The device then resumes displaying the media content item.
US11936939B2
A server system, application program distribution server, viewing terminal, content viewing method, application program, distribution method, and application program distribution method, in a content distribution system and the like. Posted comments can be played together with content, objects in a content play screen which each viewer desires to view can be viewed without being obstructed by the comments and each of the comments can also be viewed. Areas desired by the viewers are made selectable in a display screen on a terminal which plays content, and comments are not displayed in the selected areas.
US11936929B2
A digital content storage and delivery system (DCSDS) includes a network interface to communicate data between the DCSDS and a destination device via a network data communication link having limited bandwidth. An input interface receives digital content for handling by the DCSDS. A storage architecture stores recorded video content on behalf of subscriber end users for on-demand playback via the network data communication link, and it caches live streaming video content for distribution via the network data communication link. The DCDS may monitor bandwidth usage of the network data communication link, determine current bandwidth demand for playback of recorded video content stored at the storage architecture, and reserve at least some of the limited bandwidth of the network data communication link to satisfy the determined current bandwidth demand. The available bandwidth is allocated to support distribution of live streaming video from the DCSDS.
US11936927B2
A multimedia signal transmission control system is provided, which includes a transmitter control circuit and a receiver control circuit coupled with each other. The transmitter control circuit packs a control signal and at least one of multimedia signals into first hybrid data packets in an active video period of a video frame, and packs the control signal and another at least one of the multimedia signals into second hybrid data packets in a vertical front porch and a vertical back porch of the video frame. The receiver control circuit receives the first hybrid data packets in the active video period, and receives the second hybrid data packets in the vertical front porch and the vertical back porch. The receiver control circuit unpacks the first hybrid data packets and the second hybrid data packets to provide the control signal and the multimedia signals to a display module.
US11936926B2
Transaction activity of a cache maintaining content may be monitored to determine periods of transaction activity below a first threshold amount of transactions. A period of anticipated transaction activity above a second threshold amount of transactions may be determined. A period of anticipated transaction activity below the first threshold may be selected based upon the monitored periods of transaction activity below the first threshold and the determined period of anticipated transaction activity above the second threshold. Content then may be evicted from the cache during the selected period of anticipated transaction activity.
US11936923B1
A system for transcoding a media stream includes at least one network interface; at least one memory; and at least one processor each coupled to one or more of the at least one network interface and one or more of the at least one memory. The at least one processor is configured to publish, via a messaging bus, a segment transcode request in a segment transcode request queue, retrieve the segment transcode request by a transcode worker thread, wherein the first transcode worker thread monitors the segment transcode request queue, transcode by a second transcode worker thread a segment referenced by the segment transcode request, determine by the manifest processor whether the second transcode worker thread has completed transcoding the segment and is still operating, and, if not, transcode the segment by a third transcode worker thread, and store the transcoded segment.
US11936913B2
Aspects of the disclosure provide a method, an apparatus, and non-transitory computer-readable storage medium for video decoding. The apparatus includes processing circuitry that is configured to decode a current picture based on a bitstream. The processing circuitry can determine, from a supplemental enhancement information (SEI) message, a first flag indicating whether a warping process is applied to the current decoded picture. Based on the first flag indicating that the warping process is applied to the current decoded picture, the processing circuitry can determine warping information of the warping process based on the SEI message. The processing circuitry can determine a warped picture from the current decoded picture based on the warping information.
US11936904B2
A method of performing bi-directional optical flow, BDOF, processing for a video sequence of images, with each image including a plurality of blocks with bidirectional-predicted inter coding blocks, BPICBs. The method includes obtaining a shifted pair of refinement parameters per a subblock of a bidirectional-predicted inter coding block, wherein the shifted pair of refinement parameters includes a shifted first refinement parameter and a shifted second refinement parameter. The method includes determining a BDOF offset without performing any right shifting using at least the shifted pair of refinement parameters by, for each sample in each subblock within each bidirectional-predicted inter coding block, determining the BDOF offset using the shifted first refinement parameter, the shifted second refinement parameter, a first horizontal gradient block and a first vertical gradient block for a first prediction block, and a second horizontal gradient block and a second vertical gradient block for a second prediction block.
US11936898B2
A method of compressing a frame in an image compression and storage system includes mapping an original sample to a mapped sample based on a bit depth of the original sample and a maximum allowed error, determining a residue of the mapped sample based on a mapped previous reconstructed sample, applying a modulo addition to the residue to generate a biased residue, quantizing the biased residue based on the maximum allowed error to generate a quantized biased residue, and encoding a value corresponding to the quantized biased residue to generate an encoded value.
US11936895B2
An image decoding method according to the present invention comprises the steps of: referring to a first flag for indicating whether intra block-based delta pulse code modulation (BDPCM) signaled through a sequence parameter set is permitted, so as to determine whether a second flag for indicating whether the intra BDPCM is applied to a current block is parsed; determining whether the intra BDPCM is applied to the current block on the basis of the second flag; determining an intra BDPCM mode of the current block when it is determined that the intra BDPCM is applied to the current block; and acquiring a residual sample of the current block on the basis of the intra BDPCM mode.
US11936892B2
In a case that luminance information is used for a chrominance prediction in a separate coding tree structure, there is a problem that chrominance blocks cannot be decoded before all luminance blocks constituting a tree are decoded. An image decoding apparatus that splits an image into coding tree units (CTUs) that are rectangular for processing includes a CT information decoding unit configured to split a CTU of the CTUs into coding trees CTs and to process one or more color components as a single coding tree using one coding tree CT of the coding trees CTs or process two or more color components as a separate coding tree using two or more coding trees CTs of the coding trees CTs depending on a tree mode, a CU decoding unit configured to decode a split flag indicating whether to further split a CT of the CTs and to recursively perform block splitting, and an intra predictor configured to use a decoded image of one color component to generate a prediction image of another color component. The CU decoding unit does not decode the split flag from coded data but configures 1 in the split flag in a case of an intra slice, the separate coding tree, and a target CT size being larger than a prescribed maximum intra size.
US11936873B2
A method of video processing is provided to include determining, for a conversion between a video block of a video having a 4:2:2 color format and a bitstream of the video, a parameter of a cross-component linear model for the video block according to a rule and performing the conversion based on the determining, wherein a syntax element indicates whether chroma samples of the video are vertically shifted relative to luma samples of the video and wherein the rule specifies that the parameter is determined independent of a value of the syntax element.
US11936866B2
A method for lossy video encoding, transmission and decoding, the method comprising the steps of: receiving an input video at a first computer system; encoding an input frame of the input video to produce a latent representation; producing a quantized latent; producing a hyper-latent representation; producing a quantized hyper-latent; entropy encoding the quantized latent; transmitting the entropy encoded quantized latent and the quantized hyper-latent to a second computer system; decoding the quantized hyper-latent to produce a set of context variables, wherein the set of context variables comprise a temporal context variable; entropy decoding the entropy encoded quantized latent using the set of context variables to obtain an output quantized latent; and decoding the output quantized latent to produce an output frame, wherein the output frame is an approximation of the input frame.
US11936865B2
Several techniques for video encoding and video decoding are described. A method for video processing includes performing a conversion between a video block of a video and a bitstream of the video, wherein the video block uses a low frequency non-separable transform for the conversion, wherein the bitstream conforms to a format rule that specifies that a syntax element is included at a syntax level for the bitstream, wherein the syntax element is indicative of whether use of a scaling matrix which is derived from a reference scaling list is enabled for the video block, and wherein the syntax level is a sequence level, a picture level, or a slice level.
US11936863B2
A method and apparatus for improving the performance of video encoders and decoders involves selecting a set of transforms from among a plurality of sets of transforms that can be used for coding blocks in a region of a video image. Within a region, selection of a particular transform from among a plurality of transforms comprising the selected set of transforms is used to encoder or decode at least one block in the region. Associated indices representing the set of transforms to be used within a region and the selected transform for a block can be sent in a bitstream. In an alternate embodiment, a default set of transforms is complemented by selection of an additional set of transforms on a block or region basis.
US11936860B2
The present disclosure relates to apparatuses and methods for intra- or inter-prediction for video encoding and decoding. In one embodiment, a method includes obtaining a reference sample and obtain a fractional sample position p; filtering the reference sample using a subpixel interpolation filter to obtain a predicted sample value. In the method, the filter coefficients of the subpixel interpolation filter satisfy a linear combination of p and a filter strength parameter S.
US11936854B2
A method of decoding JVET video includes receiving a bitstream that includes encoded video data that includes encoded video data. From the encoded data, a horizontal predictor and a vertical predictor for a pixel in the current coding block may be interpolated. A coding block size may be identified to determine whether to use equal weight or unequal weights to apply to each of the horizontal and vertical predictors for calculating a final planar prediction value P(x,y) by comparing the coding block size to a coding block size threshold.
US11936852B2
A method of video processing includes maintaining, for a conversion between a current video block of a current picture of a visual media data and a bitstream representation of the visual media data, a buffer comprising reference samples from the current picture for a derivation of prediction samples of the current video block. One or more reference samples in the buffer that are marked unavailable for the derivation have values outside of a pixel value range.
US11936850B2
A method for intra prediction includes: enabling intra prediction, and determining occupancy information of a first number of neighboring nodes of a coded node; determining occupancy information of a second number of neighboring nodes of the coded node based on a position association between at least one neighboring node of the coded node and a child node of the coded node, where the first number is greater than the second number; and determining an occupancy prediction result of the child node of the coded node based on the occupancy information of the second number of neighboring nodes. An encoder for implementing the above method is also provided.
US11936847B2
A video processing method includes dividing a region of a current frame to obtain a plurality of image blocks, obtaining a historical motion information candidate list, and obtaining candidate historical motion information for the plurality of image blocks according to the historical motion information candidate list. The candidate historical motion information is a candidate in the historical motion information candidate list. The method further includes performing prediction for the plurality of image blocks according to the candidate historical motion information. A size of each of the plurality of image blocks is smaller than or equal to a preset size. The same historical motion information candidate list is used for the plurality of image blocks during the prediction. The historical motion information candidate list is not updated while the prediction is being performed for the plurality of image blocks.
US11936844B1
An electronic device may include a lenticular display. The lenticular display may have a lenticular lens film formed over an array of pixels. The display may have a number of independently controllable viewing zones. Each viewing zone displays a respective two-dimensional image. Each eye of the viewer may receive a different one of the two-dimensional images, resulting in a perceived three-dimensional image. The electronic device may include display pipeline circuitry that generates and processes content to be displayed on the lenticular display. Content generating circuitry may initially generate content that includes a plurality of two-dimensional images, each two-dimensional image corresponding to a respective viewing zone. Pre-processing circuitry may subsequently anisotropically resize each two-dimensional image. Pixel mapping circuitry may then be used to map the resized two-dimensional images to the array of pixels in the lenticular display.
US11936839B1
Disclosed are systems and methods for the out-of-order predictive streaming of elements from a three-dimensional (“3D”) image file so that a recipient device is able to produce a first visualization of at least a first streamed element from a particular perspective, similar to the instant transfer of two-dimensional (“2D”) images, while the additional elements and perspectives of the 3D image are streamed. The sending device prioritizes the 3D image elements based on a predicted viewing order, streams a particular element from a particular perspective with a priority that is greater than a priority associated with other elements and other perspectives, determines a next element to stream after the particular element based on the next element being positioned adjacent to the particular element and having a priority that is greater than adjacent elements, and streams the next element to the recipient device.
US11936833B2
Information processing apparatus having multiple display regions, control method, and storage medium
A prescribed program causes a computer to display a first display region to execute printing by using a first color adopting an ordinary color ink being an ink of a process color and a specific color ink being an ink of a color other than the process color, and a second display region being different from the first display region to execute printing by using a second color being different from the first color and adopting at least the specific color ink.
US11936821B2
Provided is a method of controlling an image processing apparatus capable of controlling album data for a first subject containing a common page and an individual page for the first subject, and album data for a second subject containing the common page and an individual page for the second subject. The method includes specifying a change target for a page contained in the album data for the first subject.
US11936811B2
A method of providing an emergency response service includes connecting at least one Internet of Things (IoT) device belonging to a subscriber to the SIP server, associating, in the SIP server, the at least one IoT device to the location information, receiving at the SIP server, real time data associated with the emergency situation from the at least one IoT device, and transmitting the real time data associated with the emergency situation to an emergency service routing proxy (ESRP) of an emergency network solution (EsiNet). An emergency response service system can implement embodiments of the method.
US11936809B1
A method of operating a captioned telephone comprising the steps of dialing a telephone number to a relay gateway, connecting to the gateway over a communication network, performing a test to assess communication network quality, based on the test results, setting up the captioned telephone to operate in at least one of a first mode and a second mode wherein each of the first and second modes is one of (i) a PSTN mode in which data is communicated between the captioned telephone and the relay gateway via analog transmission and (ii) an IP mode in which data is communicated between the captioned telephone and the relay gateway via the Internet.
US11936807B2
A Sender Controlled Media (SCM) platform user is presented incentives for performing rewardable platform activities that result in accruing points in a user-specific account from which points can be redeemed by transfer or cryptocurrency conversion to an external user-designated wallet. A reward received for each instance of a rewardable platform activity is determined based on a range of platform context including a target average points payout, an aggregated total points payout over a distribution period, and a type of rewardable platform activity.
US11936801B2
A mobile telephone device and a method for inhibiting undesired calls through the mobile telephone device are provided, wherein the method includes an acquisition phase, wherein at least one operating condition signal generated at the end of a first call is acquired through an input included in the mobile telephone device, and a temporary inhibition phase, wherein a processor inhibits the making of calls through the mobile telephone device for a preset time interval on the basis of the operating condition signal.
US11936791B2
Computer systems, devices, and associated methods of verifying reliability of instructions for a device are disclosed herein. In one embodiment, a method includes identifying a reliability requirement associated with instructions for a device and receiving, from a user, an assertion in relation to the reliability requirement. The method includes generating a cryptographic assertion tracer (CAT) based at least in part on the received assertion. The method includes receiving assertion-related instructions in association with the CAT and generating a first code verification encrypted reproducible record based at least in part on the CAT and the received assertion-related instructions. The method then includes reporting that the reliability requirement is addressed.
US11936788B1
Techniques are described for providing delegated access to identity data stored on distributed ledger(s), in which the identity data can include image(s) of physical credential(s) and/or biometric data used to identify individual(s). An application programming interface (API) enables access to the identity data. In some instances, the access is provided to an obfuscated version of the identity data and/or to a hash or other digest of the identity data. The identity data is provided by the API according to the individual's delegation. The individual can specify rules that indicate the particular types of identity data that may be provided and/or used for particular purposes, and/or the particular entities authorized to request the identity data.
US11936785B1
A system and method for inspecting encrypted disks for a cybersecurity object using a custom key are disclosed. The method includes detecting an encrypted disk in a cloud computing environment, the cloud computing environment including a security policy service; authorizing a key policy on the security policy service for a custom key of an inspector account, wherein the key policy is a policy authorized to decrypt the encrypted disk; generating a second encrypted disk based on the encrypted disk; inspecting the second encrypted disk for a cybersecurity object with the custom key; and releasing a resource allocated to the second encrypted disk in response to completing the inspection.
US11936782B2
The performance of quantum key distribution by systems and methods that use wavelength division multiplexing and encode information using both wavelength and polarization of photons of two or more wavelengths. Multi-wavelength polarization state encoding schemes allow ternary-coded digits, quaternary-coded digits and higher-radix digits to be represented by single photons. Information expressed in a first radix can be encoded in a higher radix and combined with a string of key values to produce a datastream having all allowed digit values of that radix in a manner that allows eavesdropping to be detected without requiring the sender and receiver to exchange additional information after transmission of the information.
US11936781B2
A method includes a preparation step and a key agreement step. In the preparation step, a first quantum key distribution (QKD) device at a first location and a second QKD device at a second location distant from the first location together create a quantum secured key according to a QKD protocol, and a first encryption device at the first location and a second encryption device at the second location together create a symmetrically encrypted channel between the first location and the second location using the quantum secured key. In the key agreement step, a first key agreement device at the first location and a second key agreement device at the second location together create an encryption key via the symmetrically encrypted channel.
US11936773B2
An encryption key management method includes: receiving a data registration request from a supplier terminal, determining a data identifier associated with the content data, encrypting a master key with a public key of the supplier terminal, and providing the supplier terminal with the master key encrypted with the public key of the supplier terminal, the data identifier, and a key update count value; receiving a subscription application related to the data identifier from a first subscriber terminal, encrypting the master key with a public key of the first subscriber terminal, and providing the first subscriber terminal with the master key encrypted with the public key of the first subscriber terminal and the key update count value; receiving encrypted content data encrypted with the symmetric key and a hash for the content data from the supplier terminal; and transmitting the encrypted content data and the hash to the first subscriber terminal.
US11936772B1
The method provides an automated and scalable system for the generation, distribution, management of symmetric pre-shared keys (PSKs) to applications executing on headless and mobile devices. It helps achieve device protection, application security, and data protection with data authenticity and confidentiality in intra-device, inter-device, device-to-edge, and device-to-cloud communications. It helps Transport Layer Security (TLS) enabled applications dynamically acquire and renew PSKs and use identity hints for PSK based authentication ceremony during a TLS handshake. It helps client-server applications dynamically acquire and renew PSKs using keyed-hash message authentication code (HMAC) for data integrity and authenticity, content signing, and data encryption for confidentiality. It helps manage and distribute API shared secrets and API access tokens required for authenticated API requests and API security. It helps applications (producers, brokers, and consumers of content) with PSKs for supply chain tamper resistance. It helps real-time low-latency applications with selective encryption of partial messages.
US11936769B2
Aspects of the disclosure provide methods and apparatuses for storing data. In some examples, an information processing apparatus that includes processing circuitry is provided. The processing circuitry is configured to receive data and determine a target blockchain based on an attribute associated with the data and blockchain correspondence information. The blockchain correspondence information indicates attributes associated with a plurality of blockchains. Further, the processing circuitry is configured to store a first block that is generated based on the received data in the target blockchain.
US11936767B2
The invention relates to a real-time computer system for controlling a technical device, the real-time computer system comprising data acquisition components which are independent of each other, as well as non-secure data processing components for processing sensor data. A time server as well as a first communication system and a second communication system independent of it are provided, the time server periodically sending global time signals to the communication systems. Each data acquisition component has two communication controllers, wherein each data acquisition component is connected by two communication controllers via a communication line to the first communication system, and is connected by another communication controller to the second communication system via a communication line, such that each data acquisition component can transmit its sensor data to each of the two communication systems.
US11936754B1
An example method of file transfer between a client and a server includes: initiating, by the client, a front-end control connection between the client and a horizontally scaled proxy service; creating, by a first proxy instance of a plurality of proxy instances of the horizontally scaled proxy service, a back-end control connection between the first proxy instance and the server; returning, to the client from the first proxy instance, a unique client parameter associated with the front-end connection as a destination port for a front-end data connection; initiating, by the client, the front-end data connection between the client and the horizontally scaled proxy service, the front-end data connection using the destination port as returned by the first proxy instance; and creating, by the first proxy instance, a back-end data connection between the first proxy instance and the server.
US11936753B2
Systems and methods herein provide for a proxy infrastructure. In the proxy infrastructure, a network element (e.g., a supernode) is connected with a plurality of exit nodes. At one of a plurality of messenger units of the proxy infrastructure, a proxy protocol request is received directly from a client computing device. The proxy protocol request specifies a request and a target. In response the proxy protocol request, a selection is made between one between one of the plurality of exit nodes. A message with the request is sent from the messenger to the supernode connected with the selected exit node. Finally, the message is sent from the supernode to the selected exit node to forward the request to the target.
US11936745B2
According to some embodiments, a system to automate platform provisioning for an enterprise includes a platform resource computer store containing a set of electronic data records (each including a component identifier and a set of computing characteristic values). A profile engine may receive a platform request from a user associated with the enterprise and identify, based on data in the platform resource computer store, a resource bundle of components appropriate in view of the platform request. A platform generator may receive platform requirements based on the identified resource bundle of components and provide input data to a REST API service. Final platform definition information for the enterprise may be stored into a central repository. According to some embodiments, a platform provisioning system may process IaaS and PaaS automation components and utilize a return service to generate infrastructure binding data to couple components in the resource bundle to each other.
US11936738B2
A system, method, and computer program product are provided for managing a connection between a device and a network. In use, a first device coupled between a second device and a network is identified. Further, the first device is controlled based on predefined criteria utilizing the second device, for managing a connection between the second device and the network.
US11936736B2
An interworking method between 5G multi-access edge computing (MEC) platforms using a common application programming interface framework (CAPIF) is disclosed. The MEC platform interworking method includes requesting an European telecommunications standards institute (ETSI) MEC to discover a MEC service by an edge enabler server (EES), in response to a request of an edge application server (EAS), obtaining, by the EES, information of a matched MEC service in response to the request of the EAS from the ETSI MEC, and transmitting the information of the matched MEC service by the EES such that the EAS invokes a MEC service provided by the ETSI MEC.
US11936733B2
A host device having a first processor executes an application via the first processor. The host device determines a state of the application. A scenegraph is generated corresponding to the state of the application, and the scenegraph is presented to a remote device having a display and a second processor. The remote device is configured to, in response to receiving the scenegraph, render to the display a view corresponding to the scenegraph, without executing the application via the second processor.
US11936732B2
A clothing processing apparatus included in an Internet of Things (IoT) system is provided. The clothing processing apparatus includes a communication interface and a processor configured to perform a process including at least one clothing processing operation.
US11936730B2
In various example embodiments, a system and method for automated data reconciliation processing is presented. The system receives a data movement request with a first status indicator and appends a unique request code to the data movement request. The system causes presentation of the data movement request at a client device and receives a movement response from a second server via a network. The system modifies the first status indicator of the data movement request to a second status indicator to provisionally reflect the receipt of the movement response and verifies the indication of movement from a receiving entity.
US11936726B2
Methods and systems for implementing traffic mirroring for network telemetry are disclosed. An embodiment of a method for implementing traffic mirroring for network telemetry involves identifying network traffic at a network appliance that is to be subjected to traffic mirroring for network telemetry, and selecting from available options of transmitting enhanced mirrored network traffic from the network appliance to a collector, wherein the enhanced mirrored network traffic is generated at the network appliance by at least one of compressing and encrypting the network traffic, and transmitting mirrored network traffic from the network appliance to the collector without compressing or encrypting the network traffic.
US11936717B2
Various embodiments of the present application set forth a computer-implemented method comprising determining a set of digital assets to transfer to a destination device, generating, from the set of digital assets, a corresponding set of chunks, where each chunk is a pre-defined size, for each chunk in the set of chunks, transmitting the chunk to a service node included in a set of service nodes, and verifying that the service node received the chunk, where the set of service nodes receives at least two chunks of the set of chunks in parallel, and after the set of service nodes send the at least two chunks in parallel to the destination device, verifying that the destination device received the set of chunks.
US11936716B2
A method and system for providing a secure network includes a dApp that can act as a compiler that relies on independent authentication via another node, dApp, or wallet. The dApp, additionally or alternatively, is an independent resource ledger and/or serves only to render, secure, or transfer content, distributed via other external databases or ledgers, and accessed via a token exchange.
US11936715B2
Provided is a multi-machine wireless synchronous recorder, which includes a power source module, an audio input module, an A/D conversion module, an SoC core module (including Bluetooth and WiFi communication modules), an audio thru module, a button module, an LED indication module, and a digital storage module. The power source module supplies power to the audio input module and controls an operation of the SoC core module; and the SoC core module controls the A/D conversion module, the button module, and the LED indication module, and the SoC core module performs bidirectional communication with the digital storage module and the internal Bluetooth and WiFi communication modules, respectively. The multi-machine wireless synchronous recorder is small in size, and by using wireless network technology, a plurality of recorders responsible for multi-track recording may be connected to form a wireless mesh network for synchronous recording. Further provided are corresponding recording system and method.
US11936713B2
According to one embodiment, there is provided a multiplexing method including: receiving a TS over IP packet from a plurality of encoders which are disposed at physically remote places, or which are disposed in a virtual environment on a cloud computing system where physical locations are unidentifiable; performing multiplexing after compensating for a delay and jitter of a transmission path, based on a timestamp which is stamped on an RTP header of the TS over IP packet; and performing, with respect to a PCR packet, either multiplexing after compensating for the delay and the jitter, based on a time re-generated in a multiplexing apparatus, or multiplexing by generating a PCR packet in the multiplexing apparatus.
US11936712B1
Techniques for packet-accurate targeted content substitution by a stitcher are described herein. In some embodiments, the stitcher at a client device receives a live transport stream (TS) and a splice message indicating a start time and an end time of a splice period. The stitcher locates in the live TS a video packet with a video packet identifier (PID) and an audio packet with an audio PID crossing the start time. The stitcher injects to the live TS targeted content TS packets within the splice period, where the injection includes re-stamping PIDs and presentation timestamps of the targeted content TS packets to match the live TS packets, and re-stamping the live TS packets with a predefined PID starting from the video packet and the audio packet, and ceasing the re-stamping when a respective audio packet in the live TS packets crossing the end time.
US11936707B2
Methods, systems, and storage media are described for providing codec mode notification (CMN) messages for speech to be signaled from a sender to a receiver. Other embodiments may be described and/or claimed.
US11936702B2
Systems and methods are provided for presenting media streams based on changes in geolocation. A MapView system may receive a first positioning signal indicating a first geographical location of a user device. The MapView system may determine a first media stream to be presented by the user device based on the first geographical location and a location of a source of the first media stream. The MapView system may then facilitate a presentation of the first media stream by the user device. When the MapView system receives a second positioning signal indicating a second geographical location of the user device, the MapView may identify, a second media stream to be presented by the user device based on the second geographical location being in broadcast range of the second media stream. The MapView system may then facilitate a presentation of the second media stream by the user device.
US11936701B2
A distribution control apparatus assigns one of the one or more media distribution servers that is selected based on a reserved bandwidth of the media distribution server for distributing the media information and a maximum reserved bandwidth available to the media distribution server, as a media distribution server that distributes the media information to one or more communication apparatuses at a collective site, the collective site including one or more sites that share the same media information, and transmits, in response to a connection request to connect to the assigned distribution media distribution server, transmitted from a particular communication apparatus of the one or more communication apparatuses at a particular site of the collective site, a connection response to the particular communication apparatus at the particular site.
US11936698B2
An illustrative video conference management system monitors an encoded video stream corresponding to an original real-time video stream of a video conference meeting. The video conference management system determines context data associated with one or more encoded video frames of the encoded video stream. The context data includes at least one of an encoder metric or a content attribute that indicates an encoding complexity level of the original real-time video stream. The video conference management system adjusts one or more encoded video streams corresponding to the original real-time video stream based on the context data. Corresponding methods and systems are also disclosed.
US11936694B2
Methods, devices, and system related to cross-domain routing of communication session requests in Internet Protocol (IP) Multimedia Subsystem are disclosed. In one example aspect, a method for routing a call initiated in an IP Multimedia Subsystem (IMS) includes receiving, by a Breakout Gateway Control Function (BGCF) node operating in a first domain, a first message from a caller requesting an establishment of a communication session. The method includes determining, by the BGCF node based on header information of the first message, that the caller is located in a second domain different than the first domain, and generating, by the BGCF node, a second message based on a preconfigured rule for the second domain.
US11936690B2
Techniques and mechanisms for using passively collected network data to automatically generate a fingerprint prevalence database without the need for endpoint ground truth. The process first clusters all observations with the same fingerprint string and similar source and destination context. The process then annotates each cluster with descriptive information and uses a rule-based system to derive an informative name from that descriptive information, e.g., “winnt amp client” or “cross-platform browser”. Optionally, the learned database may be augmented by a user to clarify custom process labels. Additionally, the generated database may be used to report the inferred processes in the same way as databases generated with endpoint ground truth.
US11936680B2
A threat monitoring and vulnerability management system is disclosed. The system includes one or more sensors configured to scan a frequency spectrum of a project 25 (P25) network and to collect data on the P25network. The system further includes a server coupled to the sensors and configured to receive the collected data from the plurality of sensors, compare the collected data with previously stored historical data to determine whether an anomaly exists within data patterns of the collected data, responsive to determining that the anomaly exists, determine at least one of: whether use of a cloned radio that mimics an authorized connection occurs, whether jamming of a radio frequency (RF) communication occurs, or whether jamming of a voice communication occurs within the P25 network by comparing the collected data with preset thresholds, and send a real-time alert to a dispatch and control console unit coupled to the server and the P25 network in response to determining that some of the collected data exceeds at least one of the preset thresholds, such that the dispatch and control console unit provides one or more corrective actions to the P25 network.
US11936674B2
This application provides an example method, system, and computer-readable medium for identifying potential account take over fraud attacks through monitoring of user credential login attempts across a network of websites. One example method includes identifying a login attempt to a particular website. The method further includes determining whether the login user credentials correspond to site-specific user credentials for the particular website. The method also includes in response to determining that the login user credentials correspond to the site-specific user credentials, determining whether the login attempt to the particular website is allowed by a first allowance rule associated with the first RTW, and in response to determining that the login attempt to the particular website is allowed by the first allowance rule, setting a first allowance indicator to indicate that the login attempt to the particular website is to be allowed by the first allowance rule.
US11936659B2
Described are examples for providing a system for managing configuration and policies for a virtualized wide area network (vWAN) support on a wide area network (WAN). The vWAN includes a plurality of virtual network entities associated with geographic locations including the physical computing resources of the WAN and virtual connections between the virtual network entities. The system includes a network safety component for managing configurations and policies of the vWAN on the WAN. The network safety component receives a change to a policy or configuration of the vWAN from an operator of a network connected to the vWAN. The network safety component evaluates a set of safety rules for the operator based on the change and a network state of a physical WAN underlying the vWAN. The network safety component generates an error message in response to at least one of the set of safety rules failing the evaluation.
US11936655B2
According to examples, an apparatus may include a processor that may identify activities of an entity on resources over a predetermined period of time, in which the entity is to use permissions assigned to the entity over the resources to perform the identified activities. The processor may also identify which of a plurality of groups of permissions includes the permissions the entity used to perform the identified activities and may determine permutations of the identified plurality of groups of permissions. The processor may further calculate respective scores for each of the determined permutations to identify permutations of the groups of permissions having the lowest scores and may output information pertaining to the determined permutations having the lowest scores.
US11936641B2
The subject matter of this specification generally relates to cloud-hosted certificate lifecycle management (CLM) to on-premises certificate authority (CA) communication. In some implementations, a method includes receiving a task request specifying a requested task and an identifier specifying a location for task execution, determining the requested task and that the location for task execution for the requested task is at an on-premises CA device, in response to determining the requested task and that the location of the task is at the on-premises CA device, storing a request task data entry that links the task request to the location for task execution, providing a notification to an on-premises CA gateway, and in response to the notification, providing the requested task for task execution. In some implementations, the remote CA gateway plug-in module maintains a constant communication connection with the on-premises CA gateway via a persistent client-initiated communication protocol.
US11936613B2
The method for a virtual machine to use a port and loopback IP addresses allocation scheme for full-mesh communications with transparent transport layer security tunnels is presented. In an embodiment, the method comprises detecting, at a redirect agent implemented in a first machine, a packet that is sent from a client application executing on the first machine toward a server application executing on a second machine; and determining, by the redirect agent, whether a first redirect rule matches the packet. In response to determining that the first redirect rule matches the packet, the redirect agent applies the first redirect rule to the packet to translate the packet into a translated packet, and provides the translated packet to a client agent implemented in the first machine to cause the client agent to transmit the translated packet to a server agent implemented in the second machine.
US11936612B2
Example methods for a network device to perform address resolution handling. The method may comprise: in response to a first distributed router (DR) port of a first DR instance detecting an address resolution request from a second DR port of a second DR instance, generating a modified address resolution request that is addressed from a first address associated with the first DR port instead of a second address associated with the second DR port. The modified address resolution request may be broadcasted within a logical network that is connected to the first DR instance through network extension. The method may also comprise: in response to detecting an address resolution response that includes protocol-to-hardware address mapping information associated with an endpoint located on the logical network, generating and sending a modified address resolution response towards the second DR port of the second DR instance.
US11936610B2
Systems and methods are provided that facilitate selecting videos to share in a messaging session. A system is provided that includes an accessible data mining component configured to generate a first set of data associated with a messaging session between a user and one or more other user, the first set of data excluding data that is inaccessible to the user and comprising data that is accessible to the user, and an identification component configured to identify a set of media items based on the first set of data. An inaccessible data mining component is further configured to generate a second set of data comprising data that is inaccessible to the user but accessible to at least one of the one or more other users, and a recommendation component configured to recommend a subset of the set of media items to the user based on the second set of data.
US11936606B2
Methods and systems are disclosed herein for using machine learning to send notifications. A computer system may receive a message and may determine a sentiment level and/or an urgency level associated with the message. The computer system may use the sentiment level and/or urgency level to predict when the user will respond to the message. The computer system may compare the predicted response time with one or more thresholds to determine a time to send a notification for the message to the user device.
US11936602B2
Managing instant message delivery may include receiving, using a processor, an instant message, wherein the instant message is directed to a recipient, and responsive to receiving the instant message, determining, using the processor, a user profile for the recipient and an activity level of a client device of the recipient. The user profile may specify rules for delivering instant messages to the recipient from users. Responsive to receiving the instant message, a delivery policy for the instant message may be determined using the processor according to the user profile of the recipient and the activity level of the client device. The instant message may be sent to the client device of the recipient according to the delivery policy using the processor.
US11936595B2
A method, a computer-readable medium, and an apparatus are provided. The apparatus may be an IAB node. The apparatus may receive communication from one or more of a parent IAB node or a child IAB node using a first frequency carrier of a paired spectrum comprising the first frequency carrier and a second frequency carrier. The apparatus may transmit communication to the one or more of the parent IAB node or the child IAB node using the second frequency carrier in the paired spectrum. At least one of the first frequency carrier or the second frequency carrier in the paired spectrum carries both uplink and downlink communication.
US11936592B2
A communication system is disclosed in which a communication device and a base station initially communicate using a first bandwidth. The communication device monitors for control data transmitted, by the base station, using a first control resource set conveyed in the first bandwidth. The communication device and the base station switch to using a second bandwidth, wherein the second bandwidth is different to the first bandwidth, and the communication device monitors for control data transmitted, by the base station, using a second control resource set that is conveyed in the second bandwidth.
US11936580B2
This disclosure relates to orthogonal frequency division multiple access (OFDMA) communication in wireless local area networks (WLANs). According to some embodiments, a downlink OFDMA frame may be transmitted. An uplink OFDMA frame including acknowledgements associated with the downlink OFDMA frame may be received. The uplink OFDMA frame may be processed, in some instances including determining which devices receiving the downlink OFDMA frame transmitted an acknowledgement associated with the downlink OFDMA frame in the uplink OFDMA frame.
US11936574B2
A system comprising a relay device that configures to a first beamforming setting for a first set of antenna arrays to establish a first link between the relay device and a source device, and a second beamforming setting to establish a second link between the relay device and a destination device. A data stream is processed based on a selection of one of a passive mode or an active mode of relay operation. In the passive mode, a received radio frequency waveform of the data stream is down-converted to an intermediate frequency waveform, re-amplified, and then up-converted for transmission without requiring any data demodulation, and in the active mode, the IF waveform is demodulated and then remodulated for the transmission. The data stream is forwarded to the destination device through the second link based on the selection of one of the passive or active mode.
US11936568B2
Systems and methods for allocating resources are disclosed. Resources such as streams are allocated using a stream credit system. Credits are issued to the clients in a manner that ensure the system is operating in a safe allocation state. The credits can be used not only to allocate resources but also to throttle clients where necessary. Credits can be granted fully, partially, and in a number greater than a request. Zero or negative credits can also be issued to throttle clients.
US11936565B2
Aspects of embodiments provide methods and network criticality managers for controlling data traffic in a network. The method may include: obtaining network topology information from a plurality of physical resources used to transfer data traffic in the network; determining priority levels for data traffic in the network; using the network topology information and the determined priority levels to calculate criticality values for physical resources from among the plurality of physical resources, wherein the criticality values for the physical resources indicate the relative importance of the physical resources in the network; and controlling the data traffic in the network based on the calculated criticality values.
US11936552B2
Provided is a method and device for implementing Virtual Private Network (VPN) cross-domain, and a border node. The method includes that: a border node receives a advertisement message which carries VPN route information and is sent by a first node to a second node, wherein the border node supports Internet Protocol Version 6 Segment Routing (SRv6) capability, and the first node and the second node belong to different domains; and the border node assigns VPN identity information to a VPN route corresponding to the VPN route information, adds the VPN identity information into the advertisement message and sends the advertisement message to the second node, wherein the VPN identity information includes at least one of: a VPN Segment ID (SID) and a VPN label.
US11936548B2
An example method includes receiving, by a computing system, a declarative testing descriptor for active testing of a virtualized service; obtaining, from an orchestration layer, metadata associated with the virtualized service, wherein the metadata specifies a unique name for a virtualized service within the namespace of a cluster managed by the orchestration layer; determining, by the computing system using the declarative testing descriptor and the metadata, an active testing configuration for an instance of the virtualized service; and starting an active test according to the active testing configuration and determining service level violations for the instance of the virtualized service based on a result of the active test.
US11936547B2
At times, it may be desirable to determine that a client system is, or to determine the number of client systems that are, presenting particular dynamic content when an auditable event occurs in the dynamic content. One manner of making the determination may include accessing presentation time information that indicates the time(s) at which one or more client systems present particular dynamic content and accessing event time information indicating the time(s) at which one or more auditable events occur in the dynamic particular content. Based on the presentation time information and the event time information, it may be possible to determine that a client system is, or to determine the number of client systems that are, presenting particular dynamic content when an auditable event occurs in the dynamic content.
US11936540B2
A system determination apparatus includes: a calculation unit configured to calculate a variation coefficient representing a degree of variation of traffic and an average traffic amount corresponding to a plurality of days using traffic data of a network apparatus corresponding to the plurality of days; and a determination unit configured to determine a system of the network apparatus using a density of a data group representing a relationship between the variation coefficient and the average traffic amount corresponding to the plurality of days, and the determination unit determines the network apparatus to be a non-operation system in a case where a density of the data group is equal to or higher than a first threshold and determines the network apparatus to be an operation system in a case where the density of the data group is lower than the first threshold.
US11936538B2
A phase-shifted sampling circuit is described. The phase-shifted sampling circuit includes a primary sampler circuit, an ADC circuit, and an equalization circuit. The primary sampler circuit includes an analog signal input, a first signal path, and a second signal path. The equalization circuit includes a primary sampler equalizer sub-circuit. The primary sampler equalizer sub-circuit is configured to compensate a mismatch between a transfer function associated with the first signal path and a transfer function associated with the second signal path. Further, a method of determining filter coefficients of an equalization circuit of a phase-shifted sampling circuit is described.
US11936537B2
A support method, a support system, and a computer program for efficiently creating a new service obtained by combining functions of a plurality of devices are provided. A support method of the present invention is a support method of supporting creation of a new service obtained by combining functions of a plurality of devices via an IoT hub to which the plurality of devices are connected, and causes an information processing device to execute an extraction step, and the support method further includes a list output step, a selection reception step, a selection output step, an availability reception step, an input and output step, an answer reception step, and a transmission step.
US11936534B2
A method is performed by a network function for providing data analytics services. The method includes performing data analytics based on user data for deriving a Quality of Experience (QoE) parameter for at least one user. At least one of a result of the data analytics and QoE analytics information is provided to an Operations, Administration and Maintenance (OAM) management function.
US11936520B2
A method includes receiving a plurality of configurations comprising a first configuration for provisioning a first set of network services at a first resource of an edge device and a second configuration for provisioning a second set of network services at the first resource, a first configuration group identifier identifying a configuration group for the first configuration, and a first network performance parameter for the configuration group. The method further includes determining a performance factor for the first resource providing the first set of network services to one or more client devices. The method further includes, in response to determining that the performance factor does not satisfy the first network performance parameter for the configuration group and that the first configuration group identifier identifies the configuration group for the first configuration, moving the first configuration from the first resource to a second resource of the edge device.
US11936518B2
In one example, a cloud-based services exchange comprises a plurality of interconnection assets configured to connect a customer of the cloud-based services exchange to one or more cloud service providers, the plurality of interconnection assets including a virtual circuit by which the customer accesses a cloud service from the one or more cloud service providers; and an orchestration engine configured to modify the plurality of interconnection assets.
US11936516B2
Systems and methods are described for providing recommendations for a user experience in online meetings. A recommendation engine can aggregate data from user devices to make recommendations before, during and after online meetings. Before a meeting, the recommendation engine can recommend which of a user's devices to use for the meeting. During the meeting, the recommendation engine can identify current or anticipated issues and recommend changes the user can make to correct or prevent the issue. After meetings, the recommendation engine can aggregate data and identify an ongoing issue for one or multiple users. The recommendation engine can identify the cause of the issue and make recommendations to the user or an administrator accordingly.
US11936515B2
Systems and methods are provided for supporting efficient reconfiguration of an interconnection network having a pre-existing routing. An exemplary method can provide a plurality of switches, a plurality of end nodes, and one or more subnet managers, including a master subnet manager. The method can calculate, via the master subnet manager, a first set of one or more leaf-switch to leaf-switch multipaths. The method can store this first set of one or more leaf-switch to leaf-switch multipaths at a metabase. The method can detect a reconfiguration triggering event, and call a new routing for the interconnection network. Finally, the method can reconfigure the network according to the new routing for the interconnection network.
US11936510B2
The present disclosure relates to an electronic device and a method executed by the electronic device, and a computer-readable medium. The electronic device includes a memory on which instructions are stored and a processor. The processor is configured to execute the instructions stored on the memory to cause the electronic device to execute the following operations: receiving a Simple Network Management Protocol (SNMP) request from a network management station; in response to the receipt of the SNMP request, starting a timer at the electronic device, a timeout period of the timer being set to a first predetermined time period; and in response to a case where the electronic device has not completed an operation required by the SNMP request when the timer expires, sending a timeout message to the network management station as a response to the SNMP request.
US11936509B2
A transmitter and method therein for transmitting a signal to a receiver in a wireless communication system are disclosed. The transmitter is configured to modulate a signal using two different modulations, a combination of binary amplitude shift keying, ASK, and binary frequency shift keying, FSK, and transmit the modulated signal.
US11936503B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a repeater node may receive a first signal to be forwarded to a receiver node or a control node. The repeater node may generate a second signal that includes repeater node pilots and the first signal to be forwarded to the receiver node or the control node. The repeater node may transmit, to the receiver node or the control node, the second signal. Numerous other aspects are provided.
US11936496B2
A controller area network (CAN) transmitter includes an output stage circuit including a CANH port and a CANL port, and an input stage circuit configured to receive an input signal. The input signal is configured to indicate whether the output stage circuit is to provide dominant or recessive states. The CAN transmitter includes a cascode circuit configured to provide output signals on the output stage circuit to provide dominant or recessive states based on the input signal. The CAN transmitter includes a switch circuit configured to, based upon the input signal, switch the cascode circuit on and off.
US11936484B2
The present invention is a system for providing power and controlling a plurality of ethernet devices as described. A driver, wherein the driver provides for the control of the system; a plurality of sensors, wherein the plurality of sensors collect sensor specific data and are in communication with the driver; a Power over Ethernet (POE) switch, wherein the POE switch is in communication with the plurality of sensors; a plurality of fixtures in communication with the driver and the POE switch, wherein the plurality of fixtures are light sources; and a local power source, wherein the local power source is in communication with the POE switch.
US11936478B2
A transmitter apparatus and a receiver apparatus are provided. The transmitter apparatus includes: an encoder configured to generate a low density parity check (LDPC) by performing LDPC encoding; an interleaver configured to interleave the LDPC codeword; and a modulator configured to map the interleaved LDPC codeword onto a modulation symbol. The modulator maps a bit included in a predetermined group from among a plurality of groups constituting the LDPC codeword onto a predetermined bit in the modulation symbol.
US11936476B2
Embodiments of this application disclose a data processing method, an apparatus, and a device. The data processing method may be performed by a first communication device, and the first communication device is a transmit end of encoded data. During each time of transmission, the first communication device places information bits into code blocks according to a specified order.
US11936475B2
A data transmission method, apparatus, and system are applied to the field of communication technologies. The method includes: performing demultiplexing processing on obtained y first data streams to obtain x second data streams, where the y first data streams are obtained through bit multiplexing processing; mapping the x second data streams at a granularity of n bits to obtain z third data streams; and outputting the z third data streams over an output lane, where y, x, n, and z are all positive integers, and n≥2. The method may be applied to an Ethernet high-speed interface.
US11936474B2
A transmission antenna switching method includes: in a case that the terminal device is in a dual network connected state, determining a first network used to transmit control plane data and a second network only used to transmit user plane data; determining a working mode of the second network in a case that an SRS switching request is received; determining a priority order of transmission antenna switching in the first network and the second network according to the working mode of the second network; and performing SRS antenna switching in the first network according to the priority order.
US11936472B2
A communication method includes: a first device obtains transmission states of first n data packets by using a first protocol layer entity, where the first protocol layer entity includes a radio link control (RLC) layer entity or an entity above an RLC layer; the first device starts a timer if transmission states of m data packets in the first n data packets are transmission failures, where n and m are both positive integers, and m is less than or equal to n; and the first device determines a radio resource configuration parameter used to transmit a subsequent data packet, or sends a first message to a second device, where the first message is used to indicate a state of the timer, and the state of the timer is used to determine the radio resource configuration parameter used to transmit the subsequent data packet.
US11936470B2
An encoder outputs a first bit sequence having N bits. A mapper generates a first complex signal s1 and a second complex signal s2 with use of bit sequence having X+Y bits included in an input second bit sequence, where X indicates the number of bits used to generate the first complex signal s1, and Y indicates the number of bits used to generate the second complex signal s2. A bit length adjuster is provided after the encoder, and performs bit length adjustment on the first bit sequence such that the second bit sequence has a bit length that is a multiple of X+Y, and outputs the first bit sequence after the bit length adjustment as the second bit sequence. As a result, a problem between a codeword length of a block code and the number of bits necessary to perform mapping by a set of modulation schemes is solved.
US11936457B2
A method for operating a user equipment (UE) comprises receiving, from a base station (BS), CSI feedback configuration information; determining, based on the CSI feedback configuration information, CSI feedback including, for each layer l of a total number of ν layers, an indicator i1,8,l indicating an index of a strongest coefficient among KNZ,l coefficients, wherein l∈{1, . . . , ν} is a layer index, ν≥1 is a rank value, and KNZ,l is a number of non-zero coefficients for layer l; determining a payload of the indicator i1,8,l for each layer l based on the rank value; and transmitting, to the BS, over an uplink (UL) channel, the CSI feedback including the indicator i1,8,l for each layer l of the total number of ν layers.
US11936456B2
A method performed by a UE for providing CSI feedback in the form of CSI reports in a wireless communication system includes receiving, from a gNB, higher layer configurations of one or more downlink reference signals, and CSI report configurations associated with the downlink reference signal configurations, and a radio signal including the downlink reference signals according to the one or more downlink reference signal configurations, the downlink reference signals provided over a configured number of frequency domain resources, time domain resources and one or more ports; determining, for each CSI report, a precoding matrix based on the downlink reference signals and two codebooks, and one or more non-zero combining coefficients for complex combining of one or more spatial domain and delay domain basis vectors; and reporting to the network node the CSI reports for the CSI report configurations.
US11936451B2
Multi-beamwidth radio frequency (RF) beamforming optimization in a wireless communications apparatus is disclosed. The wireless communications apparatus includes a signal processing circuit configured to process an RF communications signal for radiation in a set of RF beams optimized to maximize coverage in a wireless communications cell. In examples disclosed herein, the set of RF beams includes a center RF beam and a number of edge RF beams. Specifically, the center RF beam is formed with a wider beamwidth to cover a larger center area of the wireless communications cell and, the edge RF beams are each formed with a narrower beamwidth to improve coverage in an edge area of the wireless communications cell. As a result, it may be possible to maximize coverage in the wireless communications cell with fewer RF beams, thus helping to reduce computational complexity, processing latency, and energy consumption of the wireless communications apparatus.
US11936446B2
The present disclosure relates to electronic device, method for wireless communication system and storage medium. The present disclosure proposes an electronic device on a control device side for a wireless communication system, comprising: a processing circuit configured to group a plurality of terminal devices of the wireless communication system into one linear precoding terminal device group and one or more nonlinear precoding terminal device groups based on respective nonlinear precoding capabilities and channel state information of the plurality of terminal devices; and notify each terminal device whether nonlinear precoding or linear precoding is to be employed in communication for the terminal device by means of a nonlinear precoding indicator based on the grouping.
US11936445B2
A computer implemented method for optimizing directions of antennas of a base station of a communications network is provided. The method includes receiving antenna sector configuration data with sector information of each antenna and an azimuth angle of a main antenna direction of each antenna; receiving performance indicators of multiple subsectors of each antenna sector; calculating a cost function value indicating inter-sector impact between neighboring subsectors of adjacent sectors based on the performance indicators for the current antenna configuration and for at least one other possible antenna configuration; and identifying an antenna configuration yielding minimum cost function value of the calculated values as an optimized antenna configuration.
US11936439B2
A control device acquires quality information indicating a correspondence relationship between a position and a communication quality related to wireless communication at the position, and route information indicating a scheduled moving route of a terminal device, specifies an area including at least a part of the scheduled moving route among areas in which the communication quality is determined to be lower than a predetermined communication quality on a basis of the quality information and the route information, and executes control for moving a mobile base station to a position where a wireless communication service can be provided in the specified area.
US11936428B2
An optical device includes an electro-optic crystal layer, a first optical waveguide formed in the electro-optic crystal layer, and an electrode that applies an electric signal to the first optical waveguide. Further, the optical device includes a second optical waveguide in an amorphous state formed in the electro-optic crystal layer and connected to the first optical waveguide.
US11936426B2
In an example embodiment, an optical communication system includes an implantable optical transmitter and an external optical receiver. The transmitter includes a housing having one or more drivers, plural light emitting sources, and an optical element arranged therein. Each driver converts a digital data signal into modulation signals to drive the sources. Each source generates a light beam in response to a corresponding modulation signal, each light beam contributing to form a single optical signal. The optical element directs the light beams to exit the housing such that a peak position of light intensity of each light beam is separated from a corresponding peak position of light intensity of an adjacent light beam by at least a first distance and less than a second distance. The optical receiver includes at least one photodiode that detects light generated by the sources and generates a reconstructed data signal.
US11936413B1
A batteryless device is provided. The batteryless device includes a logic processor, a power storage cell, a sensor, a persistent memory, a wireless logic and an antenna configured to harvest power in response to exposure to radio frequency (RF) energy. The harvested power is transferred to the power storage cell such that when the power storage cell has a threshold amount of power the logic processor is activated to start or resume execution of code associated with a task of sampling the sensor, processing sensor data from the sensor into an encrypted message, and transmitting the encrypted message. The batteryless device transmits one or more of said encrypted messages using said wireless logic to a local device proximate to a location of the batteryless device. The one or more encrypted messages providing information related a state of a package to which the batteryless device is attached. The local device is configured for sending data related to said one or more encrypted messages to a cloud server for processing metrics related to the location and said state of the package. The local device is one of a plurality of local devices that become proximate to the batteryless device when the package moves proximate to said plurality of local devices at different times. The metrics enable tracking over time of the package and said state of the package.
US11936410B2
Methods, systems, and devices for wireless communications are described. The methods include a base station mapping transmitter antennas to one of a set of multiple antenna groups based on a power amplifier response of one or more transmitter antennas, determining a power amplifier model for one or more antenna groups based on the power amplifier response of the one or more transmitter antennas, and transmitting an indication of the power amplifier model for one or more antenna groups to a UE. The methods include the UE determining a power amplifier model for a transmitter antenna of the set of transmitter antennas based on the indication of the power amplifier model and communicating with the base station based on the power amplifier model for the transmitter antenna.
US11936395B2
In described examples, a digital-to-analog converter (DAC) includes an output, a ground, a reference voltage terminal, an input code terminal, multiple switches, multiple resistors, and a controller. The switches couple to the reference voltage terminal when activated and to the ground when deactivated. The resistors are variously coupled between corresponding ones of the switches and the output, so that activating the switches causes the DAC to output an output voltage. The controller is coupled to the input code terminal and coupled to control the switches. The controller generates an output code based on an input code in response to at least one differential nonlinearity error greater than one least significant bit voltage. The input code corresponds to a first ideal output voltage, the output code corresponds to a second, different ideal output voltage. The controller generates an output voltage by controlling the switches using the output code.
US11936385B2
In some aspects, the techniques described herein relate to a system on a chip (SoC) including a first clock divider configured to: receive an oscillator signal at a first frequency; produce, based on the oscillator signal: a first clock signal at the first frequency; and a second clock signal at a second frequency, the second frequency being a division of the first frequency. The first clock divider can selectively provide the first clock signal or the second clock signal as a first output clock signal based on a scaling configuration signal. The first clock divider can produce a frequency indication signal indicating, in combination with the first output clock signal, a start of a new clock period of the second clock signal. The SoC can include a second clock divider configured to provide a second clock output signal based on the first output clock signal and the frequency indication signal.
US11936380B2
The various embodiments described herein include methods, devices, and systems for operating superconducting circuitry. In one aspect, a programmable circuit includes: (1) a superconducting component arranged in a multi-dimensional array of alternating narrow and wide portions, the superconducting component having an input terminal at a first end and an output terminal at a second end opposite of the first end; and (2) control circuitry coupled to the narrow portions of the superconducting component, the control circuitry configured to transition the narrow portions between superconducting and non-superconducting states. In some implementations, the superconducting component and the control circuitry are formed on different layers of the programmable circuit.
US11936378B2
An interface circuit and an electronic apparatus, including: a programmable current array (1), generating a first current and a second current transmitted to a common mode and differential mode generation circuit (2) according to an input code, and a third current and a fourth current transmitted to a driving bias generation circuit (3) according to the input code; the common mode and differential mode generation circuit (2), generating a common mode voltage according to the first current, and generating a high level voltage and a low level voltage according to the second current and the common mode voltage; a driving bias generation circuit (3), simulating a load according to the third and fourth currents, and generating a bias voltage based on the load and the low and high level voltages; an output driving circuit (4), converting an input signal into a differential signal in which the common mode voltage and a differential mode amplitude are configurable.
US11936377B2
Apparatuses including an impedance code selector are disclosed. An example apparatus according to the disclosure includes an impedance calibration circuit, an impedance code selector and a driver circuit in a data input/output circuit. The impedance calibration circuit provides a first impedance code. The impedance code selector provides either the first impedance code or a second impedance code. The driver circuit receives either the first impedance code or the second impedance code from the impedance code selector.
US11936376B2
A method for operating at least one optoelectronic button or operating element arranged behind an optically transparent control panel of a field device of automation technology for detecting an actuation of the optoelectronic button or operating element by an operator of the field device includes detecting whether the field device of automation technology is located in an interior area or in an exterior area; defining an evaluation condition which is used to detect the actuation of the optical button or control element; and detecting or evaluating whether an actuation of the optoelectronic button or control element is present based on the defined evaluation condition.
US11936365B2
An elastic wave device includes an interdigital transducer electrode, a dielectric film, and a frequency adjustment film are disposed on a LiNbO3 substrate. When Euler Angles of the LiNbO3 substrate are within a range of about 0°±5°, within a range of about θ±1.5°, within a range of about 0°±10°, the interdigital transducer electrode includes a main electrode, a film thickness of the main electrode normalized by a wavelength determined in accordance with an electrode finger pitch of the interdigital transducer electrode is denoted as T, and a density ratio of a material of the main electrode to Pt is denoted as r, the film thickness of the main electrode and θ of the Euler Angles satisfy θ=−0.05°/(T/r−0.04)+31.35°.
US11936359B2
An acoustic wave device includes a substrate, an interdigital transducer electrode including electrode fingers on a main surface of the substrate, and a protection film covering the main surface of the substrate, and side surfaces and upper surfaces of the electrode fingers. The protection film includes a portion covering the main surface of the substrate, an intermediate portion between two of the electrode fingers adjacent to each other, and a vicinity portion of the electrode fingers. The intermediate portion is thicker than the vicinity portion.
US11936358B2
An acoustic resonator device with low thermal impedance has a substrate and a single-crystal piezoelectric plate having a back surface attached to a top surface of the substrate via a bonding oxide (BOX) layer. An interdigital transducer (IDT) formed on the front surface of the plate has interleaved fingers disposed on the diaphragm. The piezoelectric plate and the BOX layer are removed from a least a portion of the surface area of the device to provide lower thermal resistance between the conductor pattern and the substrate.
US11936355B2
A filter allows a transmission signal in a predetermined frequency band to pass from a second input-output terminal to a first input-output terminal and allows a reception signal in the predetermined frequency band to pass from the first input-output terminal to the second input-output terminal. A first common terminal of a first switch is connected to the second input-output terminal. A second terminal and a first terminal of the first switch are exclusively connectable to the first common terminal. A second common terminal of a second switch is connected to a ground terminal of the filter. A second selection terminal and a first selection terminal of the second switch are exclusively connected to the second common terminal. Of the first selection terminal and the second selection terminal, only the first selection terminal is connected to a ground with a reactive element interposed therebetween.
US11936350B2
A power amplifier circuit includes a first transistor having a first terminal to which a first signal inputs, a second transistor having a first terminal to which the first signal inputs, a first resistor having a first end to which a first bias current is supplied and a second end electrically connected to the first terminal of the first transistor, a second resistor having a first end to which a second bias current is supplied and a second end electrically connected to the first terminal of the second transistor, and a third resistor having a first end connected to the first end of the first resistor and a second end connected to the first end of the second resistor.
US11936346B2
A low noise amplifier for an RF sampling analog front end. The amplifier includes digital step attenuation for applying a selected attenuation to signals received at an input node, and a gain stage coupled to amplify the attenuated signal from the digital step attenuation circuit. In a differential amplifier implementation, a first input capacitor is coupled between a positive side input node and an output of the negative side digital attenuation circuit, and a second input capacitor is coupled between a negative side input node and an output of the positive side digital step attenuation circuit. In some embodiments, variable feedback circuits are coupled between each input node and an output of the corresponding gain stage, to selectively apply active termination at the input at high gain settings of the amplifier. Variable input and output resistors, and programmable noise filtering at the output, are provided in some embodiments.
US11936345B2
An impedance adjustment circuit is connected in parallel with a bias current output end of a bias circuit. The bias circuit is configured to provide bias current to a first circuit unit. The impedance adjustment circuit is configured to adjust source impedance of the first circuit unit.
US11936344B2
This invention relates to a self-excited oscillation suppression device and method for the power amplifying circuit, belonging to the field of electronic technology. Said power amplifying circuit includes a FET and a feedback loop. Said device includes: a first compensation circuit which is connected between a drain and a gate of the FET and a second compensation circuit which is connected in parallel with a feedback resistor of said feedback loop. It can solve self-excited oscillation caused by deep negative feedback in the existing power amplifying circuit. The first compensation circuit can shift the open-loop gain curve forward as a whole, and the second compensation circuit can speed up the closure of the feedback gain curve and the open-loop gain curve so that the two curves will close up before the self-excited oscillation; the self-excited oscillation will be suppressed, and the stability of the power amplifying circuit will be improved.
US11936337B2
One embodiment discloses a DC-DC converter which, in a solar-related energy storage system, cuts-off the over-discharging of a battery, and a control method thereof. Specifically, disclosed are a DC-DC converter which protects a battery by appropriately switching between a sleep mode which minimizes battery consumption by maintaining only minimized functions and a cut-off mode which prevents the battery from over-discharging by physically cutting off a circuit connected to the battery, and a control method thereof. Also, an embodiment discloses a DC-DC converter or reverse wiring protection device for between a solar panel and a battery. Specifically, disclosed is a DC-DC converter or reverse wiring protection device comprising: a reverse current pass circuit comprising a current sensor, a voltage sensor, a diode and a fuse; a breaker circuit which cuts-off the supply of power if reverse wiring is sensed by the current sensor or the voltage sensor; a capacitor which is connected in parallel to the reverse current pass circuit; and a switch which connects the reverse current pass circuit and the battery pack.
US11936335B2
A system for harvesting solar energy on a spacecraft includes a stiff substrate layer and a working layer disposed on the substrate layer to provide at least one of a photovoltaic or a reflective function. In a first operational state, the substrate layer is arranged as a tape spring to store potential energy which causes the substrate layer to uncoil and provide, in a second operational state, a photovoltaic module and/or a solar concentrator.
US11936325B2
A motor control system and method for a brushed direct current (BDC) motor using a compensated and corrected ripple count. Motor control circuitry, for example implemented in digital logic such as a microcontroller, receives a coil current signal and a motor voltage signal. Discontinuities in the coil current signal, are counted to generate a ripple count. An observer function derives an angular frequency model estimate using a computational model for the motor applying motor parameters estimated in an initial estimation interval following startup of the motor. A corrected ripple count is generated based on a comparison of a commutation angle of the motor with an angular position based on the angular frequency model estimate. Compensation for cumulative error over the initial estimation interval is derived from a behavioral motor model applying the estimated motor parameters. A motor drive signal is adjusted based on the compensated corrected ripple count.
US11936323B2
A system for simultaneously controlling a plurality of PM AC motors includes a single VFD operatively connected to a power source. The single VFD is programmable to have predetermined operating conditions. The plurality of PM AC motors is operatively connected to the single VFD. Each PM AC motor is free of a built-in VFD. Each PM AC motor is operated in accordance with the operating conditions of the single VFD.
US11936322B2
System for driving motors for operating switching units, in particular for an electrical supply substation, comprising control units for controlling the motors, wherein the control unit comprises, to have only one of the motors in operation at a time, a device for managing the priority of operation of the motors which is provided with a first line, referred to as the parallel line, carrying a binary datum comprising a first state representative of the stopping of all of the motors and a second state representative of the operation of any one of the motors, to which the units are connected in parallel, the parallel line being connected to a device for preventing/allowing the starting of the motor of each of the units and a second line, referred to as the series line, to which the units are connected in series in an upstream/downstream chain, the series line constituting a means for preventing the operation of the motors downstream of the any one of the motors on detection of a signal for starting the any one of said motors, to which the units are connected in series, the series line being connected to a device for preventing the operation of the motor of each of the units.
US11936320B2
The disclosed computer-implemented method optimizes thermal control of a vehicle motor, the vehicle including a cooling device including an actuator varying cooling capacity, the method including training a reinforcement learning algorithm including the iterative steps: 1) determining an action to control an actuator by applying a control function to a current state of the thermal system, and implementing the action; 2) determining a modified state of the thermal system after implementing the action; 3) calculating, by implementing a thermodynamic reward function of the motor, a reward value based on the modified state of the thermal system, and the action; 4) updating a function for estimating thermal performance based on the current state of the thermal system, the modified state of the thermal system, the action and the reward; and 5) modifying the control function based on the update of the function for estimating thermal performance.
US11936317B2
A representative fault-tolerant rotating electromechanical actuator comprises a permanent magnet synchronous motor with first and second windings that each comprise three phases. First and second voltage source inverters (VSI) provide output signals independently with respect to each other. The first VSI provides output signals to drive the three phases of the first winding, and the second VSI provides output signals to drive the three phases of the second winding. The three phases of the first winding are driven simultaneously with the three phases of the second winding. Control electronics monitor signals associated with the three phases of the windings and detect a fault condition within a first phase of the first winding. The control electronics command the first VSI to drive only second and third phases of the first winding while simultaneously commanding the second VSI to drive the three phases of the second winding.
US11936313B2
Described is a method of aligning a rotor of a polyphase synchronous motor having a permanent magnet rotor to a predetermined, selected, or specified rotor angle. The method comprises sensing or measuring the stator winding voltages/currents during synchronous operation of the motor. Based on the sensed or measured stator winding voltages/currents, a synchronously rotating reference frame vector voltage (Vq) in the q-axis is determined as a product of stator winding resistance (Rs) and stator winding current (iq) in the q-axis. Corresponding polyphase drive voltages for the synchronous motor for the predetermined, selected, or specified rotor angle (θ) are determined from the synchronously rotating reference frame vector voltage (Vq). The polyphase drive voltages are applied to align the rotor on stopping at said predetermined, selected, or specified rotor angle (θ). The polyphase drive voltages are applied by suitable PWM drive signals.
US11936310B2
The present disclosure provides a three-phase AC system and a control method thereof. The method includes: receiving an output signal of the three-phase AC system and obtaining a characteristic value of the output signal according to the output signal; performing virtual synchronous generator control on the inverter to obtain a fundamental electric potential; extracting a harmonic component from the output signal and obtaining an error signal according to the harmonic component and a reference value of the harmonic component; controlling the error signal to obtain a harmonic compensation electric potential; obtaining a control electric potential by superimposing the harmonic compensation electric potential with the fundamental electric potential; obtaining a pulse signal by modulating the control electric potential, and obtaining a switching signal of the inverter according to the pulse signal.
US11936306B2
In an MMC-based power conversion device, a control device generates, for each leg circuit, a first voltage command value not based on circulating current circulating between a plurality of leg circuits and a second voltage command value based on the circulating current. A plurality of individual controllers are provided respectively corresponding to a plurality of converter cells and generate a gate control signal for controlling turning on and off of a switching element of the corresponding converter cell, based on the first voltage command value and the second voltage command value. When generating the gate control signal using pulse width modulation, each individual controller modulates a carrier signal in accordance with the second voltage command value such that the pulse width of the gate control signal changes in accordance with the second voltage command value.
US11936301B2
A high-voltage (HV) power supply outputs an output voltage based on a control signal produced by a dual analog/digital feedback loop. The control signal is determined at least in part by an error amplifier that receives a measurement signal, proportionally attenuated from the output voltage, and a digital-to-analog converter (DAC) output signal. An analog-to-digital converter (ADC) also receives the measurement signal and transmits it in digitized form to a digital processor. The digital processor calculates a digital DAC data signal based on the measurement signal, and on a digital set-point input signal corresponding to a set-point voltage value of the output voltage desired to be outputted from the high-voltage source. A DAC receives the DAC data signal and converts it to the DAC output signal transmitted to the error amplifier.
US11936297B2
A DC-DC converter outputs a DC output voltage between first and second output terminals, and includes: a conversion circuit that outputs an intermediate voltage obtained by performing power conversion on an input voltage, between first and second intermediate terminals; a first coil provided between the first intermediate terminal and the first output terminal; and a diode provided in series with a second coil. A DC voltage is applied to the second coil and the diode, with a polarity in a direction in which a reverse bias is applied to the diode. The first coil and the second coil are magnetically coupled such that a current is made flow through the second coil in a forward direction of the diode by mutual induction as a current flowing through the first coil in a direction from the first intermediate terminal to the first output terminal increases.
US11936282B2
The present disclosure relates to an apparatus for adjusting AC-DC converter output voltage, the apparatus includes a plurality of ports, an AC-DC converter circuit, a plurality of DC-DC converters coupled to a plurality of controllers, where the plurality of controllers coupled to corresponding plurality of ports to operate the one or more loads, wherein at least one controller is a master controller and the other plurality of controllers are slave controllers. The master controller configured to determine, from the slave controllers power levels for each port, calculate an optimal input voltage value for the DC-DC converters and communicate the calculated value to the AC-DC converter circuit through a constant current source to regulate the amount of DC voltage that is being supplied to the DC-DC converters to operate the one or more loads, thereby leading to improved system efficiency of multiport USB based power adapter.
US11936281B2
A generator cooling structure of an engine including a crankshaft and a generator arranged on one end side of the crankshaft includes a crankcase that houses the crankshaft and a generator cover that is coupled to the crankcase in order to house the generator. The generator has a rotor fixed to the crankshaft and a stator fixed in position with respect to the generator cover. A cooling medium supply passage, which is arranged in the direction of the one end side of the crankshaft in the stator in order to supply the cooling medium to the stator, is provided.
US11936275B2
A pump assembly includes an electric motor with a printed circuit board carrying a controller, a pump driven by the electric motor, a housing surrounding the printed circuit board, and a plug connector which is fixed to an outside of the housing by a flange. The plug connector covers an opening of the housing and includes contacts directly electrically contacting the printed circuit board and passing through the opening of the housing. The connector includes a pressure compensator including a sintered filter to vent the housing.
US11936269B2
In one embodiment of the present disclosure a haptic actuator is disclosed. The haptic actuator includes a housing, a movable mass, and a pivot assembly attaching the movable mass to the housing. The pivot assembly defines a pivot axis, and the movable mass has a mass center offset from the pivot axis along a lever arm extending perpendicular to the pivot axis. The haptic actuator includes a spring extending between the movable mass and the housing. The spring stores and releases energy received from movement of the movable mass. The spring prevents full rotation of the movable mass about the pivot axis. The haptic actuator includes an electric coil attached to the movable mass. The electric coil intersects the lever arm. The haptic actuator includes at least one magnet attached to the housing. The magnet is at least partially aligned with the electric coil. The movable mass moves with respect to the at least one magnet when a signal is applied to the coil.
US11936268B2
The present invention may provide a motor comprising: a shaft; a rotor coupled to the shaft; and a stator disposed so as to correspond to the rotor, wherein the stator comprises: a yoke; a tooth protruding from the yoke; and an insulator disposed on the tooth, wherein the insulator comprises: a body having a coil wound therearound; and an inner guide disposed in the body in a radial direction, wherein the tooth comprises: a first surface facing the rotor; a second surface forming a shoe of the tooth; and a third surface connecting the first surface and the second surface, and wherein the inner guide is disposed so as to not overlap with the third surface in an axial direction.
US11936261B2
An electric machine comprising a stator with a plurality of open slots accommodating double-layer distributed winding with conductors transposed in the end-winding area. The conductors are litz wire conductors and the end-winding portions of the conductor are not twisted or turned around the axis of the conductor.
US11936251B2
Assembly workability of an electric compressor to which an inverter circuit section and a filter circuit section are attached is improved. The inverter circuit section (3) includes an inverter control board (17), a sleeve assembly (18), and a power module (14). The inverter control board, the sleeve assembly, and the power module are integrated. The filter circuit section (4) includes a filter circuit board (66) and a support member (67). The filter circuit board (66) and the support member (67) are integrated. The inverter circuit section and the filter circuit section are structured to be capable of being stored each individually within an inverter storing section (8) from the same direction and detachably attached to the housing (2).
US11936246B2
Provided is an axial flux motor including a rotor having a wound ribbon core, the wound ribbon core including a metal amorphous nanocomposite material. The axial flux motor further includes a stator assembly spaced apart from the rotor along a rotation axis of the rotor. The stator assembly includes a body including a metal amorphous nanocomposite material and a plurality of permanent magnets substantially free of rare-earth materials. The plurality of permanent magnets is arranged on the body of the stator assembly.
US11936245B2
An embodiment relates to a motor comprising: a shaft; a rotor connected to the shaft; and a stator disposed outside the rotor, wherein the rotor includes N rotor cores, and the number of holes formed through each of the N rotor cores is at least 2N. Accordingly, the motor allows the rotor to have a skew angle by using the multiple holes formed through the rotor cores.
US11936233B2
A charging control apparatus measures a first temperature of a first secondary battery selected from the plurality of secondary batteries, a second temperature of a coolant flowing into the cooling device, a charging current of the secondary battery pack, a first terminal voltage of the first secondary battery and a second terminal voltage of a second secondary battery closest to the cooling device, estimates a temperature of a temperature estimation point of the second secondary battery from a lumped thermal model having a thermal resistance between two points selected from the temperature estimation point of the second secondary battery, the first temperature measurement point and the second temperature measurement point, and measurement data about temperature, current and voltage, and determines the estimated temperature as a minimum temperature of the secondary battery pack, and varies a charging power provided to the secondary battery pack according to the minimum temperature.
US11936230B2
A computing device is provided, including a battery, a processor configured to receive electrical power from the battery via a voltage regulator, and one or more additional electronic components configured to receive electrical power from the battery. The computing device may further include a first current detector configured to detect a total battery discharge current. The voltage regulator may be configured to receive a first analog current signal from the first current detector, convert the first analog current signal into first digital current data, and transmit the first digital current data to the processor. The processor may be further configured to determine a difference between the total battery discharge current and an available electric current limit for the battery. In response to at least determining the difference, the processor may be further configured to adjust one or more performance parameters of the processor such that the difference is reduced.
US11936229B2
A method includes determining a charging port mode by receiving a data contact detect (DCD) Complete signal, reducing a voltage on a first data pin of a Universal Serial Bus (USB) connector of a portable device, and determining that a condition is true when a voltage on a second data pin of the USB connector is equal to or greater than 0.8 to 2.0 Volts (V), and is false otherwise. When the condition is true, a first signal is sent on a control circuit output indicating indicate that the PD is connected to a dedicated charging port (DCP) of Divider 0 mode. When the condition is false, a second signal is sent on the control circuit output indicating that the PD is connected to a DCP of 1.2V short mode.
US11936228B2
The present disclosure is directed to a battery charger for charging a connected battery pack. The battery charger is capable of determining an impedance characteristic value of the battery pack and adjusting a charging scheme, including an initial and/or subsequent charging rates for the battery pack based on the determined impedance characteristic value. The present disclosure is also directed to a method of charging a battery pack. The method includes determining an impedance characteristic value of the battery pack and adjusting a charging scheme, including an initial and/or subsequent charging rates for the battery pack based on the determined impedance characteristic value.
US11936226B2
A battery control device for controlling a battery includes an acquisition unit configured to acquire a state of the battery, and an estimation unit configured to estimate a full charge capacity of the battery by selecting, based on the state acquired by the acquisition unit, a first estimation method for estimating the full charge capacity of the battery based on an accumulated current value obtained by accumulating a charging current of the battery obtained by performing a charging process and a second estimation method for estimating the full charge capacity of the battery based on aging deterioration data showing a deterioration state of the battery with aging.
US11936217B2
An electric power supply system includes an electric power reception apparatus and an electric power supply apparatus adapted to supply electric power to the electric power reception apparatus when the electric power reception apparatus is placed on the electric power supply apparatus. The electric power supply apparatus includes a plurality of electric power supply units adapted to supply electric power by electromagnetic induction to the electric power reception apparatus. A selection unit of the electric power supply apparatus selects, from the total plurality of electric power supply units, a plurality of electric power supply units whose location corresponds to a position where the electric power reception apparatus is placed, and a control unit controls the supply of electric power such that electric power is supplied to the electric power reception apparatus from the selected plurality of electric power supply units.
US11936216B2
A telematics device for reporting data includes a controller, a device battery, and a transceiver to transmit telematics signals including data associated with equipment having a battery. During an inactive state of the equipment, (i) when the equipment battery voltage exceeds a first threshold, the transceiver transmits signals at a first interval powered by the equipment battery, (ii) when the equipment battery voltage fails to exceed the first threshold but exceeds a second threshold and the device battery voltage exceeds a device battery threshold, the transceiver transmits signals at a second interval powered by the device battery, and (iii) when the equipment battery voltage fails to exceed the first threshold but exceeds the second threshold and the device battery voltage fails to exceed the device battery threshold, the transceiver transmits signals at a third interval powered by the equipment battery, and the device battery recharges from the equipment battery.
US11936210B2
A power transmission apparatus includes a controller that controls a power transmitter that performs wireless power transmission. The controller is configured to: cause the processor to: cause the power transmitter to emit a first power transmission beam for which a first power is set; acquire feedback information on a result of reception of the first power transmission beam in a power reception apparatus; identify a power receiving capability in the power reception apparatus; and determine, with reference to the power receiving capability and the reception result, a second power which is usable in wireless power supply for the power reception apparatus and which is larger than the first power. The power receiving capability includes a maximum value of an input power range of the power reception apparatus. The wireless power transmission uses an electromagnetic wave having a frequency equal to or higher than that of a microwave.
US11936207B2
A method of foreign object detection by a wireless power delivery system is disclosed. A decaying coil voltage signal of a transmitting coil of the wireless power delivery system is detected. A first comparator is used to trigger a cycle count of the decaying coil voltage signal. When the first comparator triggers the cycle count, a second comparator is used to count a number of cycles of the decaying coil voltage signal. A quality factor (Q-factor) of the transmitting coil is determined based on the number of cycles of the decaying coil voltage signal, a reference signal of the first comparator, and a reference signal of the second comparator. Whether a foreign object is present is determined based on the Q-factor and a foreign object detection (FOD) threshold level.
US11936202B2
The present disclosure provides a signal processing method performed by a hybrid wireless power transmitting apparatus which is configured to transmit wireless power signals based on magnetic resonance and magnetic induction, the method comprising transmitting a first object detection signal via an inductive power transmitting unit and a second object detection signal via a magnetic resonant power transmitting unit alternatively; operating one of the inductive power transmitting unit and the magnetic resonant power transmitting unit which is selected based on an inductive response signal and a resonant response signal corresponding to the first object detection signal and the second object detection signal respectively; and transmitting wireless power signal via the selected power transmitting unit; and a hybrid wireless power transmitting apparatus using the method.
US11936201B2
A wireless power transmitter (101) an output circuit (203, 103) comprises a transmitter coil (103) for which generates the power transfer signal a drive signal generated by a driver circuit (201) is applied. A power loop controller (209) implements a power control loop for controlling the drive signal to adjust a power level of the power transfer signal in response to power control error messages received from the power receiver (105). A mode store (213) stores a plurality of power level modes for the power receiver where each power level mode is associated with a reference power level for the power transfer signal. A mode circuit (211) adapts the drive signal to set the power level of the power transfer signal to a first reference value in response to receiving a mode request message where the first reference value corresponds to a reference power level for a first power level mode indicated in the mode request message.
US11936200B2
High-frequency power is supplied from a power transmitter to a power receiver using an electromagnetic resonance phenomenon between the power transmitter and the power receiver. The power receiver converts the high-frequency power into a power reception direct-current power to charge a battery. A power reception control unit in the power receiver detects a state of charge of the battery and generates a power transmission stop signal on the basis of the state of charge of the battery. A resonance modulation circuit in the power receiver changes resonance conditions in response to the power transmission stop signal. An MPU in the power transmitter demodulates the power transmission stop signal based on an electric variable from a power transmission direct-current power supply due to a change in the resonance conditions and stops an operation of supplying the high-frequency power in a transmission power conversion circuit for a predetermined period.
US11936197B2
A power distribution device that couples to storage units is provided. The power distribution device a battery charger that indirectly charges batteries, such as for personal electronic devices. The device includes a top panel with a recess that receives the personal electronic devices. The device also includes interface components to couple the device to a modular tool storage unit.
US11936195B2
An electromagnetic-induction supply device may comprise: a current transformer installed on a power line and including one or more coils, a first core, and a second core; and a breaker unit connected to at least one of the one or more coils, wherein the breaker unit forms a closed circuit with the at least one of the one or more coils to switch the current transformer to a short-circuit mode in which the first core and the second core can be separated. Therefore, when the electromagnetic-induction power supply device is brought close to or installed on a live power line, the breaker unit prevents the formation of a magnetic field and thus the electromagnetic-induction power supply device can be easily attached/detached to/from the power line.
US11936178B2
An overvoltage protection device includes first and second semiconductor devices arranged in an anti-serial configuration with a conductive link connected between the first and second semiconductor devices at a central node of the overvoltage protection device, a first terminal connection to a terminal of the first semiconductor device that is opposite from the central node, a second terminal connection to a terminal of the second semiconductor device that is opposite from the central node. A total capacitance of elements in a first transmission path that is between the first terminal connection and the central node substantially matches a total capacitance of elements in a second transmission path that is between the second terminal connection and the central node. The total capacitance of elements in the second transmission path includes a self-capacitance of the conductive link.
US11936175B2
A reverse power connection preventing circuit includes a diode and an actuation unit that are connected in series between a positive input terminal and a negative input terminal of a circuit breaker. A positive electrode of the diode points to the negative input terminal of the circuit breaker, and a negative electrode of the diode points to the positive input terminal of the circuit breaker. When a power supply is forward connected to the circuit breaker, the diode is cut off, there is no current on the actuation unit, and the reverse power connection preventing circuit is in a power-off state. When the power supply is reversely connected to the circuit breaker, the diode conducts, and the actuation unit is configured to prevent closing of the circuit breaker, and/or the actuation unit is configured to perform an alarm prompt, to perform an early warning.
US11936171B2
Disclosed are methods and apparatus for providing and installing electrical wire connector clamps that may be inserted into knockout holes from the inside of an electrical box or panel, that are capable of holding multiple wires or cables, that may be run through the connector before it is slotted into the hole, and that use only a minimal amount of interior space of the electrical box or panel. Embodiments of the present invention include semi-cylindrical units that may be folded together around one or more wires for secure engagement with the wires and with a knockout hole of an electrical box or panel. Embodiments may be used in new construction, and to replace existing connector clamps in an electrical box or panel from the inside without damaging the walls surrounding the box or panel, in order to securely hold wires in an electrical box or panel, add new wire(s), hold multiple wires, and/or increase available space inside the box or panel.
US11936160B2
A light-emitting device includes a laser unit; and a first capacitive element and a second capacitive element that supply a driving electric current to the laser unit; wherein the first capacitive element has a smaller capacity and smaller equivalent series inductance than the second capacitive element, and a length of a first electric current path along which the driving electric current output from the first capacitive element returns to the first capacitive element is shorter than a length of a second electric current path along which the driving electric current output from the second capacitive element returns to the second capacitive element.
US11936159B2
Various implementations disclosed herein relate to an integrated laser driver circuit for switching a pulse current (IP) for a laser diode having a plurality of sub-switching units for generating in each case a partial current (IT) using a switch for pulsing the partial current (IT), wherein the sub-switching units are connected to one another in parallel for generating the pulse current (IP), wherein an energy accumulator is integrated into each of the sub-switching units to provide the switching energy required for switching the switch. The disclosure further relates to a laser system having a laser diode and an integrated laser driver circuit.
US11936157B2
A laser device comprises a first optical cavity comprising a first gain medium and a second optical cavity comprising a second gain medium. The first gain medium and the second gain medium generate light at respective different ranges of wavelengths. A synchronizer is optically coupled to both the first optical cavity and the second optical cavity and is configured to synchronize and mode-lock light from the first optical cavity and the second optical cavity. The laser device also includes a first optical filter and a second optical filter to filter the light from the first optical cavity and the second optical cavity respectively to output first filtered light pulses at a first predetermined range of wavelengths and second filtered light pulses at a second predetermined range of wavelengths.
US11936155B2
An appliance power connector includes a terminal block having a base. The base includes an upper surface and a lower surface. The base includes a pocket. The terminal block includes an upper shroud and a lower shroud. The upper shroud has upper shroud walls extending from the base forming an upper chamber above the upper surface. The lower shroud has lower shroud walls extending from the base forming a lower chamber below the lower surface. The appliance power connector includes a power terminal coupled to the terminal block. The power terminal includes a main body, an upper stud extending from a top of the main body and a lower stud extending from a bottom of the main body. The main body is received in the pocket. The upper stud is located in the upper chamber above the base for connection to an upper power cable terminal. The lower threaded stud is located in the lower chamber below the base for connection to a lower power cable terminal.
US11936149B1
According to the present embodiments, an improved flange tab apparatus and methods of use for establishing electrical continuity between at least two electrically conductive structures are provided. More specifically, the present apparatus may be used to establish electrical continuity between an electrically conductive portion of each electrically conductive structure using a flange tab with an aperture for slidably receiving an electrically conductive portion of a first of the at least two structures and connecting the apparatus thereto, and an electrical lead connector for connecting the apparatus to an electrically conductive portion of a second of the at least two structures. The present apparatus may further comprise at least two concentric discs removably mounted in series within the aperture for selecting the diameter of the aperture and a sealing portion for sealingly engaging the apparatus with the at least two structures.
US11936147B2
The invention refers to an electrical connection (10) comprising a bushing (12) having a geometric central axis (14), an electrical conductor (16) passing through said bushing (12) along the geometric central axis (14), and an insulating layer (18) electrically insulating said bushing (18) from said conductor (16). It is suggested that the bushing 12, the insulating layer (18) and the electric conductor (16) are pressed together, preferably during a rotary forging process, in order to achieve a mechanical cold transformation.
US11936140B2
A radio frequency connector with high transmission performance includes a male terminal and a female terminal which are plugged and matched with each other, wherein both the male terminal and the female terminal further includes shielding cases which include convex parts for isolating two signal terminals; and the shielding cases of the male terminal and the female terminal are matched and connected, and the two convex parts are matched with each other. An electromagnetic shielding case is formed and an isolation cavity for shielding signals is formed, so that signals transmitted by the radio-frequency connector will not be disturbed by external signals or internal signals, and the transmission stability of the signals in the radio-frequency connector is guaranteed.
US11936138B2
An electronic device includes a first main body, a first electrical connector, and an insert member. The first main body has an insertion end and one or more holes located at the insertion end. The first electrical connector is disposed at the insertion end. The insert member is coupled to the first main body through the one or more holes and includes a plurality of ribs and a plurality of removed portions. Each of the ribs extends away from the insertion end. The ribs and the removed portions are sequentially and linearly arranged according to a coding pattern.
US11936135B2
The present invention discloses an automatic tripping and anti-falling lightning arrester which includes an insulator main body, a lightning arrester body and an anti-falling member, wherein the insulator main body with a sealed cylinder structure, and a magnet adsorption surface inside the insulator main body; the lightning arrester body has a disconnection unit and a lightning arresting core respectively arranged from top to bottom, and the lightning arrester body is located inside the insulator main body, the disconnection unit includes a magnetic tripping module wherein a magnet is provided, and wherein the disconnection unit is adsorbed onto the magnet adsorption surface, wherein aging of the lightning arresting core results in a thermal effect inside the magnetic tripping module, which makes the disconnection unit disconnected from the magnet adsorption surface, and wherein the anti-falling member is provided on the insulator main body.
US11936134B2
Disclosed herein is a connector assembly for attachment to a corrugated coaxial cable. The assembly includes: a rearward outer body, to be received over a portion of the corrugated coaxial cable, comprising a recessed area; and a locking ferrule, to be inserted into the rearward outer body, comprising a plurality of ridges. At least one of the plurality of ridges is configured for engagement with the corrugated outer conductor. The connector assembly further comprises a foot portion positionable within the recessed area such that upon coupling of the rearward outer body with the locking ferrule, the corrugated outer conductor is locked in position.
US11936129B2
A ribbon cable connector is fixed at an end of a ribbon cable. The ribbon cable has a plurality of electrical conductors extending parallel and distanced to one another. The ribbon cable connector includes an insertion slot extending in a plugging direction and receiving the ribbon cable, a plurality of contact element receptacles extending parallel and distanced to one another, a plurality of structures in the insertion slot extending parallel to one another and aligned with the contact element receptacles, and a clamping device configured to clamp the ribbon cable in the insertion slot. An end of the insertion slot inside of the ribbon cable connector adjoins the contact element receptacles in the plugging direction. The structures are each separated from one another by a partition wall.
US11936123B2
An antenna module includes a main substrate and a plurality of sub-array antennas. Each sub-array antenna includes a sub-substrate and a plurality of antenna elements. Each antenna element includes a parasitic element arranged on an upper surface of the sub-substrate, and a feeding element arranged in a layer between the upper surface and a lower surface of the sub-substrate. When a wavelength of a radio wave in free space is λ, a distance between a plane center of the antenna element arranged at a position adjacent to an end surface of the sub-substrate and the end surface is equal to or greater than λ/9, and equal to or less than half a distance (P) between respective centers of two of the antenna elements adjacent to each other in each sub-array antenna.
US11936120B2
A system includes one or more antennas; and a processor coupled to the antennas in communication with a predetermined target using 5G protocols.
US11936119B2
An isolated magnetic dipole (IMD) antenna system can include an isolated magnetic dipole antenna radiating element including a body portion defining a body plane, the body portion comprising an isolated magnetic dipole element, and one or more angled edge portions disposed along at least one edge of the body portion, the one or more angled edge portions angularly offset with respect to the body plane.
US11936116B2
The present disclosure includes, in a dual polarized omni-directional antenna and a base station including the same, a plurality of radiating elements disposed to be spaced apart in one direction by the dual polarized omni-directional antenna, and a feed line for providing a feed signal to the plurality of radiating elements, and the plurality of radiating elements include a first radiator for generating one polarization of dual polarization, and a second radiator for generating the other polarization of the dual polarization, respectively, the first radiator is prepared on a first surface, and the second radiator is prepared on a second surface, and a main lobe direction of the first radiator and a main lobe direction of the second radiator are different directions from each other.
US11936113B2
An antenna array assembly comprises a ground plate, a linear array of patch radiator elements disposed in a spaced parallel relationship with a first face of the ground plate, and a first, second, third and fourth elongate passive radiator, each comprising one or more substantially planar conductive parts which are electrically isolated from the ground plate. The first and second elongate passive radiators are disposed symmetrically on either side of the linear array and parallel to a centre line of the linear array, on the same side of the ground plate as the linear array. The third and fourth elongate passive radiators are disposed further from the linear array than are the first and second elongate passive radiators. Each of the third and fourth elongate passive radiators is narrower than and projects further from the ground plate than does each of the first and second elongate passive radiators.
US11936111B2
An antenna array with a layered structure having a base layer with a metamaterial structure, a printed circuit board (PCB) layers, a feed layer arranged on the opposite side of the PCB from the RF IC(s), and a radiating layer arranged on the feed layer. The radiating layer having a plurality of radiating elements. The metamaterial structure is arranged to attenuate electromagnetic radiation propagating between the at least two adjacent waveguides in the frequency band.
US11936110B2
A reflector antenna heating system includes a dielectric radome that covers a first side of a reflector and a feed subsystem of an antenna. The system also includes a plurality of heater blower devices on a second side of the reflector, each of the plurality of heater blower devices having an inlet port and an outlet port. The system further includes a plurality of outlet duct assemblies, wherein each of the plurality of outlet duct assemblies is coupled to the outlet port of a respective heater blower device to direct heated air around a perimeter of the reflector and along an inside surface of the dielectric radome. One or more gaps proximal to a center of the reflector are included to recirculate cooled air toward a plurality of inlet ducts for the plurality of heater blower devices to feed the inlet port of each heater blower device.
US11936108B2
An RCS reduction surface for reducing a radar cross section of an object is described. The RCS reduction surface comprises at least one absorber portion, wherein the absorber portion is configured to absorb radar waves. The RCS reduction surface further comprises at least one reflecting portion, wherein the reflecting portion is configured to reflect radar waves. A first plane being associated with a top surface of the absorber portion and a second plane being associated with a top surface of the reflecting portion are spaced from each other by a predefined distance. The predefined distance is configured such that radar waves with a predefined wavelength range that are reflected at the absorber portion and at the surface of the reflecting portion interfere destructively with each other. Further, an RCS reduction member and a radar test system are described.
US11936105B2
Provided herein is an artificial dielectric material for use in a focusing lens, comprising a plurality of dielectric tubes supported by one or more dielectric supporting elements which fix and separate the dielectric tubes from each other, wherein a surface of each dielectric tube is at least partially covered by at least one conductive element. Also provided are lenses comprising the artificial dielectric materials and methods for manufacture of such materials. The artificial dielectric materials and lenses may provide desirable dielectric and radio wave focusing properties and manufacturing advantages.
US11936084B2
The present disclosure provides a filter structure and a method for manufacturing a filter structure. The filter structure includes a metal resonant array. The metal resonant array includes a plurality of array units. The filter structure further includes a transparent plastic film. The metal resonant array is provided on the transparent plastic film.
US11936081B2
A redox flow battery may include: a positive half-cell comprising a catholyte; a negative half-cell comprising an anolyte; and an ion permeable membrane, wherein the ion permeable membrane separates the catholyte and the anolyte, and wherein the catholyte, the anolyte, or both comprise a low-transition temperature material comprising: a redox-active phase; and an ionically conducting organic salt.
US11936069B2
A layered double hydroxide is represented by the following formula (I): Ni2+1−(x+y+z)Fe3+xV3+yCo3+z(OH)2An−(x+y+z)/n·mH2O . . . (I). In one embodiment, in the formula (I), (x+y+z) is from 0.2 to 0.5, “x” represents more than 0 and 0.3 or less, “y” represents from 0.04 to 0.49, and “z” represents more than 0 and 0.2 or less.
US11936066B2
Lithium ion-exchanged zeolite particles and methods of making such lithium ion-exchanged zeolite particles are provided herein. The method includes combining precursor zeolite particles with (NH4)3PO4 to form a first mixture including intermediate zeolite particles including NH4+ cations. The method further includes adding a lithium salt to the first mixture to form the lithium ion-exchanged zeolite particles, or separating the intermediate zeolite particle from the first mixture and combining the intermediate zeolite particles with the lithium salt to form the lithium ion-exchanged zeolite particles.
US11936064B2
In order to solve the problem caused by leaching of lithium polysulfide, disclosed is a functional separator, a method of manufacturing the same, and a lithium secondary battery including the same, which can improve the capacity and life of the battery by coating a material capable of reducing lithium polysulfide on the separator surface. The functional separator includes a base separator; and a redox active polymer-conductive carbon composite layer on a surface of the base separator.
US11936055B2
Battery packs according to some embodiments of the present technology may include a longitudinal beam. The packs may include a plurality of battery cells disposed adjacent the longitudinal beam. Each battery cell may be characterized by a first surface, and a second surface opposite the first surface. Each battery cell may be characterized by a third surface extending vertically between the first surface and the second surface. The first surface may face the longitudinal beam, and battery terminals may extend from the third surface. Each battery cell may be characterized by a fourth surface opposite the third surface. The packs may include a lid coupled with the first surface of each battery cell of the plurality of battery cells. The packs may include a base coupled with the second surface of each battery cell of the plurality of battery cells.
US11936054B2
An energy storage device includes an outer case including a lid plate on which an external terminal is mounted, a plate including a tab and housed in the outer case, a conductive shaft portion penetrating the lid plate and including one end thereof connected to the external terminal, and a conductive plate portion housed in the outer case, and including a first surface to which an other end of the conductive shaft portion is connected and a second surface to which the tab is connected. A size of the conductive plate portion is set larger than a size of the external terminal in a planar direction of the lid plate.
US11936049B2
The present disclosure relates to a battery unit and a battery module, the battery unit includes an electrode assembly, including a main body portion and a tab; two electrode terminals; and two current collecting members respectively connecting the tabs on both sides of the main body portion with the respective electrode terminals; the current collecting member includes a guiding plate and a supporting plate, the guiding plate is located on one side of the main body portion along the length direction, a reinforcement portion is arranged on the guiding plate and is configured to reduce the deformation of the guiding plate towards the main body portion; and the supporting plate is connected to an end of the guiding plate along the width direction, the tab is bent relative to the length direction and connected to the supporting plate. The battery unit can reduce the bending deformation of the guiding plate.
US11936046B2
An electricity storage device includes a stack of bipolar electrodes each including a steel sheet, and a plating layer provided on a surface of the steel sheet. The plating layer includes a base nickel-plating layer provided on the surface of the steel sheet, and a surface nickel-plating layer provided on the base nickel-plating layer, and having a surface roughness greater than that of the base nickel-plating layer.
US11936042B2
A cathode material includes: a plurality of first particles. Each first particle includes a secondary particle composed of a plurality of third particles, and the first particle includes a first lithium-containing transition metal oxide; and a plurality of second particles. The second particle includes a fourth particle and/or a secondary particle composed of a plurality of fourth particles, and the second particle includes a second lithium-containing transition metal oxide. The electrochemical device including the cathode material is significantly improved in the aspects of energy density, capacity attenuation and service life.
US11936041B2
A lithium secondary battery includes a cathode formed from a cathode active material including a first cathode active material particle and a second cathode active material particle, an anode and a separator interposed between the cathode and the anode. The first cathode active material particle includes a lithium metal oxide including a continuous concentration gradient in at least one region between a central portion and a surface portion. The second cathode active material particle includes a lithium metal oxide including elements the same as those of the first cathode active material particle, and the second cathode active material particle has a uniform composition from a central portion to a surface.
US11936033B2
The present disclosure provides a battery tab-feeding device including a battery tab disposed on a non-coating part of an electrode plate during a process of manufacturing an electrode by fusing the battery tab to the non-coating part of an electrode plate, an electrode plate supporting part disposed to support the electrode plate having a first surface exposed from both surfaces of the electrode plate and a tab transferring part disposed to support a battery tab and transfer the battery tab to the non-coating part of the electrode plate. Additionally, a guide part guides the transfer of the battery tab to position a first side edge of the battery tab perpendicular to a first side edge of the electrode plate.
US11936022B2
A battery module includes at least one cell group, and a heat dissipating member coupled to one side of the at least one cell group to externally dissipate heat generated in the at least one cell group, wherein the at least one cell group includes at least one battery cell stack, a flame retardant cover coupled to the battery cell stack to encase both side surfaces and an upper portion of the battery cell stack, and a flame retardant member disposed between an upper surface of the battery cell stack and the flame retardant cover and formed of a porous material.
US11936020B2
A battery management support device that is configured to acquire information on an electric vehicle including a battery that is rechargeable with electric power received from an external power supply. The information includes at least information when the electric vehicle is parked indicating a temperature of the battery, information when the electric vehicle is parked indicating an electrical connection state between the electric vehicle and the external power supply, and information when the electric vehicle is parked indicating an operation state of a cooling device for the battery.
US11936011B2
An electrochemical cell management system comprising an electrochemical cell and at least one controller configured to control the cell such that, for at least a portion of a charge cycle, the cell is charged at a charging rate or current that is lower than a discharging rate or current of at least a portion of a previous discharge cycle. An electrochemical cell management method. An electrochemical cell management system comprising an electrochemical cell and at least one controller configured to induce a discharge of the cell before and/or after a charging step of the cell. An electrochemical cell management method. An electrochemical cell management system comprising an electrochemical cell and at least one controller configured to: monitor at least one characteristic of the cell and, based on the at least one characteristic of the cell, induce a discharge and/or control a charging rate or current of the cell.
US11935987B2
A light emitting diode (LED) array comprises non-segmented pixels in a light-emitting pixel area providing optical efficiency and minimizing dark-grid appearance. The LED array comprises: a monolithic body, a light-emitting pixel area, a plurality of anodes, a common cathode, and one or more dielectric materials. The light-emitting pixel area is integral to the monolithic body. The light-emitting pixel area includes semiconductor layers comprising: a second portion of an N-type layer, an active region, and a P-type layer. The monolithic body comprises a first portion of an N-type layer, and the second portion of the N-type layer is integral to the first portion of the N-type layer. Each anode comprises a P-contact layer and one or more P-contact materials, each P-contact layer is in contact with the P-type layer. The common cathode comprises one or more N-contact materials in contact with the first portion of the N-type layer.
US11935984B2
A quantum dot including a core that includes a first semiconductor nanocrystal including zinc and selenium, and optionally sulfur and/or tellurium, and a shell that includes a second semiconductor nanocrystal including zinc, and at least one of sulfur or selenium is disclosed. The quantum dot has an average particle diameter of greater than or equal to about 13 nm, an emission peak wavelength in a range of about 440 nm to about 470 nm, and a full width at half maximum (FWHM) of an emission wavelength of less than about 25 nm. A method for preparing the quantum dot, a quantum dot-polymer composite including the quantum dot, and an electronic device including the quantum dot is also disclosed.
US11935979B2
Light-weight, flexible solar panels adapted to prevent inadvertent stress on silicon solar photovoltaic cells inside solar panels. In some examples, a solar panel comprising solar cells includes a plurality of supports, such as one support for each solar cell, with gaps between the supports to allow the panel to flex when strained while protecting the individual cells. In other examples, a solar panel comprises a plurality of solar cells and a support or plural supports designed to accept force applied to the top of the panel and divert such force around the individual cells, without the use of a heavy glass support over top. Some examples may include both individual supports for each cell, with each individual support further adapted to direct applied forces around the individual cells.
US11935969B2
A photodetector includes a first semiconductor layer, an absorption structure, a second semiconductor layer, and a barrier structure. The absorption structure is located on the first semiconductor layer, and having a first conduction band, a first valence band, and a first band gap. The second semiconductor layer is located on the absorption structure, and having a second conduction band, a second valence band, and a second band gap. The barrier structure is located between the absorption structure and the second semiconductor layer, and having a third conduction band, a third valence band, and a third band gap. The third conduction band is greater than the second conduction band or the third valence band is less than the second valence band.
US11935962B2
A semiconductor device having favorable characteristics is provided. A semiconductor device having stable electrical characteristics is provided. An island-shaped insulating layer containing an oxide is provided in contact with a bottom surface of a semiconductor layer containing a metal oxide that exhibits semiconductor characteristics. The insulating layer containing an oxide is provided in contact with a portion of the semiconductor layer to be a channel formation region and is not provided under portions to be low-resistance regions.
US11935960B2
Some embodiments include integrated memory. The integrated memory includes a first series of first conductive structures and a second series of conductive structures. The first conductive structures extend along a first direction. The second conductive structures extend along a second direction which crosses the first direction. Pillars of semiconductor material extend upwardly from the first conductive structures. Each of the pillars includes a lower source/drain region, an upper source/drain region, and a channel region between the lower and upper source/drain regions. The lower source/drain regions are coupled with the first conductive structures. Insulative material is adjacent sidewall surfaces of the pillars. The insulative material includes ZrOx, where x is a number greater than 0. The second conductive structures include gating regions which are spaced from the channel regions by at least the insulative material. Storage elements are coupled with the upper source/drain regions.
US11935958B2
A semiconductor device structure is provided. The semiconductor device structure includes a first stacked nanostructure and a second stacked nanostructure formed over a substrate. The semiconductor device structure includes a first gate structure formed over the first stacked nanostructure, and the first gate structure includes a first portion of a gate dielectric layer and a first portion of a filling layer. The semiconductor device structure includes a second gate structure formed over the second stacked nanostructure, and the second gate structure includes a second portion of the gate dielectric layer and a second portion of the filling layer. The semiconductor device structure includes a first isolation layer between the first gate structure and the second gate structure, wherein the first isolation layer has an extending portion which is formed in a recess between the gate dielectric layer and the filling layer.
US11935955B2
A device includes a fin extending from a substrate, a gate stack over and along sidewalls of the fin, a gate spacer along a sidewall of the gate stack, and an epitaxial source/drain region in the fin and adjacent the gate spacer. The epitaxial source/drain region includes a first epitaxial layer on the fin, the first epitaxial layer including silicon, germanium, and arsenic, and a second epitaxial layer on the first epitaxial layer, the second epitaxial layer including silicon and phosphorus, the first epitaxial layer separating the second epitaxial layer from the fin. The epitaxial source/drain region further includes a third epitaxial layer on the second epitaxial layer, the third epitaxial layer including silicon, germanium, and phosphorus.
US11935954B2
A semiconductor device structure includes a fin structure formed over a substrate. The structure also includes nanostructures formed over the fin structure. The structure also includes a gate structure wrapped around the nanostructures. The structure also includes a first inner spacer formed beside the gate structure. The structure also includes a second inner spacer formed beside the first inner spacer. The structure also includes spacer layers formed over opposite sides of the gate structure above the nanostructures. The structure also includes source/drain epitaxial structures formed over opposite sides of the fin structure. The second inner spacer is partially embedded in the source/drain epitaxial structures.
US11935933B2
An apparatus including a circuit structure including a device stratum including a plurality of devices including a first side and an opposite second side; and a metal interconnect coupled to at least one of the plurality of devices from the second side of the device stratum. A method including forming a transistor device including a channel between a source region and a drain region and a gate electrode on the channel defining a first side of the device; and forming an interconnect to one of the source region and the drain region from a second side of the device.
US11935932B2
In an embodiment, a device includes: a gate electrode; a epitaxial source/drain region adjacent the gate electrode; one or more inter-layer dielectric (ILD) layers over the epitaxial source/drain region; a first source/drain contact extending through the ILD layers, the first source/drain contact connected to the epitaxial source/drain region; a contact spacer surrounding the first source/drain contact; and a void disposed between the contact spacer and the ILD layers.
US11935923B2
The present disclosure relates to semiconductor structures and, more particularly, to a lateral bipolar transistor with gated collector and methods of manufacture. The structure includes: an extrinsic base region vertically over a semiconductor substrate and comprising asymmetrical sidewall spacers on opposing sidewalls of the extrinsic base region; a collector region on the semiconductor substrate and separated from the extrinsic base region by at least a first spacer of the asymmetrical sidewall spacers; and an emitter region on the semiconductor substrate and separated from the extrinsic base region by a second spacer of the asymmetrical sidewall spacers.
US11935919B2
A method for manufacturing a semiconductor device includes forming, on first and second impurity layers on a termination region side, an insulating layer, forming a first metal film and a second metal film in this order on the insulating layer and a drift layer, performing dry etching on the first and second metal films all together so that a position of a first end of a metallized layer, which is a remaining part of the first metal film, in the interface region on the termination region side and a position of a second end of an electrode, which is a remaining part of the second metal film, in the interface region on the terminal region side are the same in plan view. The first and second ends are closer to the active region than an end of the second impurity layer on the termination region side in plan view.
US11935910B2
Provided is a semiconductor light-emitting device including a substrate, a first insulating layer disposed on an upper surface of the substrate, a plurality of light-emitting structures disposed on the first insulating layer and spaced apart from each other, each of the plurality of light-emitting structures including a first semiconductor layer, an active layer, and a second semiconductor layer, a plurality of optical layers each filling a groove that is formed at a certain depth in the second semiconductor layer, a plurality of first electrodes penetrating the substrate and electrically connected to the first semiconductor layer, a plurality of second insulating layers disposed on side surfaces of each of the plurality of light-emitting structures, respectively, and a second electrode connected to the plurality of light-emitting structures, the second electrode being disposed on an uppermost surface of the second semiconductor layer and each of the plurality of second insulating layers.
US11935898B2
A semiconductor device including: a first gate electrode; a first gate insulating layer on the first gate electrode; a first oxide semiconductor layer on the first insulating layer; source and drain electrodes connected to the first oxide semiconductor layer; a second gate insulating layer on the first oxide semiconductor layer; a second oxide semiconductor layer on the second gate insulating layer; a second gate electrode on the second oxide semiconductor layer, the second gate electrode being in contact with the second oxide semiconductor layer; a first insulating layer on the second gate electrode, the first insulating layer having a part of a first aperture overlapping with the second oxide semiconductor layer in a planar view; and a first connecting electrode electrically connecting the first gate electrode and the second gate electrode via the first aperture.
US11935896B2
Disclosed is a display device including a transistor showing extremely low off current. In order to reduce the off current, a semiconductor material whose band gap is greater than that of a silicon semiconductor is used for forming a transistor, and the concentration of an impurity which serves as a carrier donor of the semiconductor material is reduced. Specifically, an oxide semiconductor whose band gap is greater than or equal to 2 eV, preferably greater than or equal to 2.5 eV, more preferably greater than or equal to 3 eV is used for a semiconductor layer of a transistor, and the concentration of an impurity which serves as a carrier donor included is reduced. Consequently, the off current of the transistor per micrometer in channel width can be reduced to lower than 10 zA/μm at room temperature and lower than 100 zA/μm at 85° C.
US11935882B2
A semiconductor device including a static random access memory (SRAM) device includes a first SRAM array including a first plurality of bit cells arranged in a matrix; a second SRAM array including a second plurality of bit cells arranged in a matrix; and a plurality of abutting dummy cells disposed between the first SRAM array and the second SRAM array. Each of the plurality of abutting dummy cells includes a plurality of dummy gate electrode layers and a plurality of dummy contacts. The semiconductor device further includes a first-type well continuously extending from the first SRAM array to the second SRAM array. The first-type well is in direct contact with portions of the plurality of dummy contacts.
US11935878B2
A method for manufacturing a package structure includes providing a carrier board; providing at least one die having a top surface, a bottom surface, and a side surface on the carrier board; and forming a protective layer to cover at least a portion of the side surface of the die. The die includes a substrate, a semiconductor layer, a gate structure, a source structure and a drain structure, at least one dielectric layer, and at least one pad. The semiconductor layer is disposed on the substrate. The gate structure is disposed on the semiconductor layer. The source and the drain structures are disposed on opposite sides of the gate structure. The dielectric layer covers the gate, source, and drain structures. The pad is disposed on the dielectric layer and penetrates through the dielectric layer to electrically contact with the gate, source or drain structure.
US11935874B2
A circuitry is provided. The circuitry may include a power stage including a first transistor and a second transistor, an encapsulation including encapsulation material encapsulating the power stage, wherein the first transistor and the second transistor are arranged in an L-shape with respect to each other along their long axes, and a passive electronic component arranged on or embedded within the encapsulation at least partially, in top view, within a rectangular area defined by the L-shape configuration and further next to the first transistor and next to the second transistor.
US11935873B2
A semiconductor package may include first and second substrates, which are vertically stacked, a semiconductor device layer on a bottom surface of the second substrate to face a top surface of the first substrate, upper chip pads and an upper dummy pad on the top surface of the first substrate, penetration electrodes, which each penetrate the first substrate and are connected to separate, respective upper chip pads, lower chip pads on a bottom surface of the semiconductor device layer and electrically connected to separate, respective upper chip pads, and a lower dummy pad on the bottom surface of the semiconductor device layer and electrically isolated from the upper dummy pad. A distance between the upper and lower dummy pads in a horizontal direction that is parallel to the first substrate may be smaller than a diameter of the lower dummy pad.
US11935865B2
A method for producing a semiconductor package, capable of effectively suppressing contamination of a chemical liquid and unintended peeling-off of a reinforcing sheet, is provided. This method includes providing a tacky sheet including a substrate sheet, and a soluble tacky layer and a banking tacky layer on at least one surface of the substrate sheet; making a first laminate including a redistribution layer; using the tacky sheet to obtain a second laminate having a second support substrate bonded to a surface on the redistribution layer side of the first laminate with the tacky layer therebetween; peeling off the first support substrate, pretreating the resulting third laminate; mounting a semiconductor chip on a pretreated surface of the redistribution layer; immersing the third laminate in a solution to dissolve or soften the tacky layer; and peeling off the second support substrate in a state where the tacky layer is dissolved or softened.
US11935864B2
A method of adjusting a clamping of a semiconductor element against a support structure on a wire bonding machine is provided. The method includes: (a) detecting an indicia of floating of the semiconductor element with respect to the support structure at a plurality of locations of the semiconductor element; and (b) adjusting the clamping of the semiconductor element against the support structure based on the results of step (a).
US11935861B2
Disclosed herein are structures and techniques for underfill flow management in electronic assemblies. For example, in some embodiments, an electronic assembly may include a first component, a second component, an underfill on the first component and at least partially between the first component and the second component, and a material at a surface of the first component, wherein the material is outside a footprint of the second component, and the underfill contacts the material with a contact angle greater than 50 degrees.
US11935860B2
An interconnect that has an electrically conductive layer, where a first and second insulator layers are coupled with the conductive layer. A region of the conductive layer includes an opening of a portion of the first insulator layer the second insulator layer that are adjacent to the region. An electrical connector of a first device is electrically coupled to a portion of the region on a first side of the conductive layer and an electrical conductor of a second device is electrically coupled with a portion of the region on the second side. Also, an interconnect coupled with a substrate that includes a cylinder extending from a side of the substrate with a plate coupled at the end of the cylinder with an opening that includes two or more tabs of the plate extending into the opening to receive a connector.
US11935859B2
A chip structure includes a first substrate, a second substrate, a conductive via, and a redistribution layer. The first substrate has a first inclined sidewall. The second substrate is located on a bottom surface of the first substrate, and has an upper portion and a lower portion. The lower portion extends from the upper portion. The upper portion is between the first substrate and the lower portion. The upper portion has a second inclined sidewall, and a slope of the first inclined sidewall is substantially equal to a slope of the second inclined sidewall. The conductive via is in the lower portion. The redistribution layer extends from a top surface of the first substrate to a top surface of the lower portion of the second substrate sequentially along the first inclined sidewall and the second inclined sidewall, and is electrically connected to the conductive via.
US11935855B2
An electronic package structure and a method for manufacturing the same are provided. The electronic package structure includes a first electronic component, a second electronic component, an interconnection element, an insulation layer, and an encapsulant. The second electronic component is disposed adjacent to the first electronic component. The interconnection element is disposed between the first electronic component and the second electronic component. The insulation layer is disposed between the first electronic component and the second electronic component and has a side surface and a top surface connecting to the side surface. The encapsulant surrounds the interconnection element and at least partially covers the top surface of the insulation layer and has an extended portion in contact with the side surface of the insulation layer.
US11935850B2
The present application discloses a method for fabricating a semiconductor device with slanted conductive layers. The method for fabricating a semiconductor device includes providing a substrate, forming a first insulating layer above the substrate, forming first slanted recesses along the first insulating layer, and forming first slanted conductive layers in the first slanted recesses and a top conductive layer covering the first slanted conductive layers.
US11935847B2
A semiconductor package includes: a connection structure having a first surface and a second, and including a redistribution layer; a passive component disposed on the first surface of the connection structure, and electrically connected to the redistribution layer; a semiconductor chip disposed on the first surface of the connection structure, and electrically connected to the redistribution layer; a first encapsulant disposed on the first surface of the connection structure and covering at least a portion of the semiconductor chip; a second encapsulant disposed on the first surface of the connection structure and covering at least a portion of the passive component; an antenna substrate disposed on the first encapsulant and including a wiring layer, at least a portion of the wiring layer including an antenna pattern; and a through via penetrating at least a portion of each of the connection structure, the first encapsulant, and the antenna substrate.
US11935837B2
An integrated circuit package integrates a photonic die (oDie) and an electronic die (eDie). More specifically, the integrated circuit package may include a plurality of redistribution layers communicatively coupled to at least one of the oDie and/or the eDie, where molded material at least partially surrounds the at least one of the oDie and/or the eDie.
US11935826B2
A method includes depositing a first passivation layer over a conductive feature, wherein the first passivation layer has a first dielectric constant, forming a capacitor over the first passivation layer, and depositing a second passivation layer over the capacitor, wherein the second passivation layer has a second dielectric constant greater than the first dielectric constant. The method further includes forming a redistribution line over and electrically connecting to the capacitor, depositing a third passivation layer over the redistribution line, and forming an Under-Bump-Metallurgy (UBM) penetrating through the third passivation layer to electrically connect to the redistribution line.
US11935822B2
A wiring substrate includes a resin insulating layer, a via conductor formed in the resin insulating layer such that the via conductor is penetrating through the resin insulating layer, a conductor pad formed on the resin insulating layer and connected to the via conductor, a coating insulating layer formed on the resin insulating layer such that the coating insulating layer is covering the conductor pad, and a metal post formed on the conductor pad and protruding from the coating insulating layer. The conductor pad is formed such that a central axis of the conductor pad is shifted in a predetermined direction with respect to a central axis of the via conductor, and the metal post is formed such that a central axis of the metal post is shifted in the predetermined direction with respect to the central axis of the conductor pad.
US11935816B2
The present disclosure provides a semiconductor device, a semiconductor assembly and method of manufacturing the semiconductor assembly. The semiconductor device includes a substrate, a conductive feature in the substrate, an isolation liner between the substrate and the conductive feature, and a main component in the substrate. The conductive feature includes first to third blocks. The first block has a uniform first critical dimension, wherein the main component is disposed around the first block. The second block has a uniform second critical dimension greater than the first critical dimension. The third block is interposed between the first block and the second block and has varying third critical dimensions.
US11935808B2
Thermal heat spreaders and/or an IC die with solderable thermal structures may be assembled together with a solder array thermal interconnects. A thermal heat spreader may include a non-metallic material and one or more metallized surfaces suitable for bonding to a solder alloy employed as thermal interface material between the heat spreader and an IC die. An IC die may include a metallized back-side surface similarly suitable for bonding to a thermal interconnect comprising a solder alloy. Metallization on the IC die and/or heat spreader may comprise a plurality of solderable structures. A multi-chip package may include multiple IC die having different die thickness that are accommodated by a z-height thickness variation in the thermal interconnects and/or the solderable structures of the IC die or heat spreader.
US11935807B2
A semiconductor device package includes a multilayer substrate including atop layer, a bottom layer and an intermediate layer between the top layer and the bottom layer. The package also includes one or more semiconductor dies embedded in the intermediate layer and conductive connector means to provide a conductive connection from the one or more dies. The conductive connector means extend through the top layer to provide connection means for one or more devices mounted on or adjacent the top layer.
US11935799B2
Disclosed herein are integrated circuit (IC) package lids with polymer features, as well as related methods and devices. For example, in some embodiments, an IC package may include a package substrate, a lid, and a die between the package substrate and the lid. A foot or rib of the lid may include a polymer material.
US11935796B2
Techniques for temperature control for multiple dies in an element. A temperature of a first die is measured, in an element comprising the first die and a second die. The second die includes at least a portion of a controller. The temperature of the first die is changed by adjusting activity, from the second die to the first die, based on a target temperature for the first die and the measured temperature for the first die.
US11935790B2
Disclosed are a field effect transistor and a method of manufacturing the same. The field effect transistor includes a source electrode on a substrate, a drain electrode separated from the source electrode, and channels connected between the source electrode and the drain electrode, gate insulating layers, and a gate electrode. The channels may have a hollow closed cross-sectional structure when viewed in a first cross-section formed by a plane across the source electrode and the drain electrode in a direction perpendicular to the substrate. The gate insulating layers may be in the channels. The gate electrode may be insulated from the source electrode and the drain electrode by the gate insulating layers.
US11935788B2
A manufacturing method of a semiconductor device includes the following steps. A singulation process is performed to a semiconductor wafer for forming semiconductor dies and includes a first cutting step, a thinning step, and a second cutting step. The first cutting step is configured to form first openings in the semiconductor wafer by etching. A portion of the semiconductor wafer is located between each first opening and a back surface and removed by the thinning step. Each first opening penetrates through the semiconductor wafer after the thinning step. The second cutting step is configured to form second openings. Each second opening penetrates through the semiconductor wafer for separating the semiconductor dies. A semiconductor die includes two first side surfaces opposite to each other and two second side surfaces opposite to each other. A roughness of each first side surface is different from a roughness of each second side surface.
US11935783B2
Examples of an integrated circuit with an interconnect structure and a method for forming the integrated circuit are provided herein. In some examples, the method includes receiving a workpiece that includes a substrate and an interconnect structure. The interconnect structure includes a first conductive feature disposed within a first inter-level dielectric layer. A blocking layer is selectively formed on the first conductive feature without forming the blocking layer on the first inter-level dielectric layer. An alignment feature is selectively formed on the first inter-level dielectric layer without forming the alignment feature on the blocking layer. The blocking layer is removed from the first conductive feature, and a second inter-level dielectric layer is formed on the alignment feature and on the first conductive feature. The second inter-level dielectric layer is patterned to define a recess for a second conductive feature, and the second conductive feature is formed within the recess.
US11935778B2
A holding mechanism includes a Bernoulli pad that holds a plate-shaped body, a hand on which the Bernoulli pad is disposed, a sensor that is disposed on the hand and detects that the plate-shaped body is held under suction by the Bernoulli pad, a lateral movement restriction section disposed on the hand, a tube that connects an air source supplying air to the Bernoulli pad and the Bernoulli pad, an adjustment valve that is disposed in the tube and adjusts a flow rate of air supplied to the Bernoulli pad, and a control section that controls operation of the adjustment valve. The control section gradually increases the flow rate of the air supplied from the adjustment valve to the Bernoulli pad and, when it is detected by the sensor that the plate-shaped body has been held under suction by the Bernoulli pad, fixes the flow rate of the air.
US11935774B2
Provided is an assembly jig set of semiconductor module having a plurality of semiconductor chips, the assembly jig set comprising: a first outer frame jig; and a plurality of inner piece jigs positioned by the first outer frame jig and each having a sectioned shape corresponding to the first outer frame jig, wherein one of the inner piece jigs has a plurality of opening portions for positioning the semiconductor chips. A manufacturing method of a semiconductor module using an assembly jig set is provided.
US11935773B2
Apparatus and methods for calibrating a height-adjustable edge ring are described herein. In one example, a calibration jig for positioning an edge ring relative to a reference surface is provided that includes a transparent plate, a plurality of sensors coupled to a first side of the transparent plate, and a plurality of contact pads coupled to an opposing second side of the transparent plate.
US11935770B2
Methods and apparatus bonding chiplets to substrates are provided herein. In some embodiments, a multi-chamber processing tool for processing a substrate includes: an equipment front end module (EFEM) having one or more loadports for receiving one or more types of substrates; and a plurality of automation modules coupled to each other and having a first automation module coupled to the EFEM, wherein each of the plurality of automation modules include a transfer chamber and one or more process chambers coupled to the transfer chamber, wherein the transfer chamber includes a buffer configured to hold a plurality of the one or more types of substrates, and wherein the transfer chamber includes a transfer robot configured to transfer the one or more types of substrates between the buffer, the one or more process chambers, and a buffer disposed in an adjacent automation module of the plurality of automation modules.
US11935768B2
To satisfactorily apply a protective tape to a bump wafer, an application apparatus (1) for applying a protective tape (PT) to a wafer (W) includes: an application table (60) configured to support the wafer (W); a tape holding body (30) capable of holding the protective tape (PT) and configured to supply the protective tape (PT) held by the tape holding body (30) onto the wafer (W); and a pressing member (62) configured to press the protective tape (PT) from above. The pressing member (62) includes a protective layer outer periphery retainer (620) configured to press a peripheral portion of a protective layer (PL), which is laminated on the protective tape (PT) and has an outer diameter smaller than an outer diameter of the wafer (W), to apply the protective tape (PT) to the wafer (W).
US11935766B2
A liquid processing apparatus includes a heating member, a substrate holder, a processing liquid supply and a coil. The heating member is disposed adjacent to a portion of a substrate and has an insulating member. The substrate holder is configured to hold the substrate. The processing liquid supply is configured to supply a processing liquid onto the substrate held by the substrate holder. The coil is configured to heat the heating member inductively to heat the portion of the substrate.
US11935765B2
A laser processing apparatus includes a main imaging unit configured to image a region to be laser-processed and an auxiliary imaging unit. The auxiliary imaging unit includes an objective lens, a camera configured to generate an image via the objective lens, a half-silvered mirror disposed between the camera and the objective lens, a light source configured to illuminate a wafer held on a chuck table via the half-silvered mirror and the objective lens, a first polarizing plate disposed between the camera and the half-silvered mirror, and a second polarizing plate disposed between the light source and the half-silvered mirror. The second polarizing plate is disposed such that a polarization plane of light applied from the light source, passed through the second polarizing plate, and reflected by the half-silvered mirror is rotated by a required angle with respect to a polarization axis of the first polarizing plate.
US11935751B2
Exemplary deposition methods may include delivering a boron-containing precursor and a nitrogen-containing precursor to a processing region of a semiconductor processing chamber. The methods may include providing a hydrogen-containing precursor with the boron-containing precursor and the nitrogen-containing precursor. A flow rate ratio of the hydrogen-containing precursor to either of the boron-containing precursor or the nitrogen-containing precursor may be greater than or about 2:1. The methods may include forming a plasma of all precursors within the processing region of the semiconductor processing chamber. The methods may include depositing a boron-and-nitrogen material on a substrate disposed within the processing region of the semiconductor processing chamber.
US11935749B2
The present disclosure provides a method of manufacturing a semiconductor structure. The method includes forming a first patterned layer over a substrate; forming a second patterned layer over the substrate and alternately arranged with the first patterned layer; performing an etching, thereby forming an arched surface of the first patterned layer and an arched surface of the second patterned layer; forming a sacrificial layer over the first patterned layer and the second patterned layer, wherein a plurality of air gaps are defined by the substrate, the first patterned layer, the second patterned layer and the sacrificial layer; removing the sacrificial layer above the plurality of air gaps, thereby forming a planar top surface of the first patterned layer and a planar top surface of the second patterned layer; and patterning the substrate using the first patterned layer and the second patterned layer as a mask.
US11935747B2
A method of manufacturing a semiconductor device includes depositing a photoresist material over a substrate. The substrate is rotated to spread the photoresist material. A gas is blown to an edge of the substrate when rotating the substrate. The rotating of the substrate is stopped. The blowing of the gas is stopped.
US11935734B2
The invention concerns an ion trap, including a first ring-shaped end cap electrode and a second ring-shaped end cap electrode, between which is formed a ring-shaped ion storage cell, as well as a plurality of radially inner disk-shaped ring electrodes and a plurality of radially outer disk-shaped ring electrodes, which delimit the ring-shaped ion storage cell. The invention also relates to a mass spectrometer that has such an ion trap as well as a control device that is designed to actuate the disk-shaped ring electrodes and the end cap electrodes for the storage, selection, excitation and/or detection of ions in the ring-shaped ion storage cell.
US11935733B2
A sample support is a sample support for sample ionization, including: a substrate formed with a plurality of through holes opening to a first surface and a second surface on a side opposite to the first surface; a conductive layer provided not to block the through hole in the first surface; and a reinforcement member disposed inside a part of the plurality of through holes.
US11935730B2
Systems and methods for cleaning an edge ring pocket are described herein. One of the methods includes providing one or more process gases to a plasma chamber, supplying a low frequency (LF) radio frequency (RF) power to an edge ring that is located adjacent to a chuck of the plasma chamber. The LF RF power is supplied while the one or more process gases are supplied to the plasma chamber to maintain plasma within the plasma chamber. The supply of the LF RF power increases energy of plasma ions near the edge ring pocket to remove residue in the edge ring pocket. The LF RF power is supplied during the time period in which a substrate is not being processed within the plasma chamber.
US11935720B1
A field-emission type electron source includes (i) a single-crystal tungsten rod having a sharpened terminus and (ii) a mass of ZrO formed only on a portion of the surface, or the entire surface, of the sharpened terminus. In preferred design, the single-crystal tungsten rod is placed in a gaseous medium that consists of oxygen and a non-oxygen gas. The molar ratio between oxygen and the non-oxygen gas is greater than 1:1.
US11935719B2
A power switch controller includes a condition detector, a zero crossing detector, a retimer, and a driver. The condition detector detects a change in a sense signal towards a first or second condition. The zero crossing detector detects zero crossings in an AC powerline signal. The power switch controller drives a latching relay that connects a load to powerlines. The power switch controller activates or deactivates the latching relay based on the sensed condition, and retimes activation and deactivation pulses to align the relay contact opening and closing times to coincide with the AC powerline zero crossings, compensating for contact travel times. The activation and deactivation pulses have a duration of max 20 ms, and an amplitude of at least 110% of the maximum sustainable voltage for the relay coil(s). A power-on reset deactivates the relay, aligned with a second AC zero crossing.
US11935718B2
A method for detecting faults in a switch assembly includes at least one switch for monitoring the position of a component that can be moved by means of a drive which has an electric motor includes shifting the movable component from a first position to a second position spatially separated from the first position, wherein the power consumption of the electric motor changes in a previously specified manner, and wherein the switch state of the switch during a proper functioning of the switch changes in a previously specified manner, analyzing the power consumption of the electric motor and the switch state of the switch in an analysis unit, and triggering a fault action if the power consumption of the electric motor has changed in the previously specified manner and the switch state of the switch has not changed in the previously specified manner.
US11935716B2
A relay includes a fixed contact, a movable contact piece including a movable contact, a movable portion, a coil, a return spring, and a contact spring. The movable portion includes a drive shaft and a movable iron core. The drive shaft is fixed to the movable contact piece in a contact case and extends from an inside of the contact case to an outside of the contact case. The movable iron core is connected to the drive shaft outside the contact case. The return spring urges the movable portion in an open direction in which the movable contact is separated from the fixed contact. The contact spring urges the drive shaft in a contact direction in which the movable contact contacts the fixed contact. The contact spring is arranged outside the contact case.
US11935715B2
An electromagnetic drive unit for a switching device includes: a magnetic core with a first, a second, and a third magnetic path each arranged transversely with respect to a longitudinal axis of the electromagnetic drive unit and coupled to longitudinal magnetic struts at respective ends to form a magnetic frame structure; an armature movable along the longitudinal axis between a first and a second state; and a first and a second magnetic coil for moving the armature based on excitation of the first and/or the second magnetic coil. The first magnetic coil is arranged between the first and the second magnetic path and the second magnetic coil is arranged between the second and the third magnetic path with respect to the longitudinal axis. The magnetic core and the magnetic coils are arranged such that a magnetic flux that flows through the magnetic paths to move the armature is adjustable.
US11935714B2
A load control device may control power delivered to an electrical load from an AC power source. The load control device may include a controllably conductive device adapted to be coupled in series electrical connection between the AC power source and the electrical load, a zero-cross detect circuit configured to generate a zero-cross signal representative of the zero-crossings of an AC voltage. The zero-cross signal may be characterized by pulses occurring in time with the zero-crossings of the AC voltage. The load control device may include a control circuit operatively coupled to the controllably conductive device and the zero cross detect circuit. The control circuit may be configured to identify a rising-edge time and a falling-edge time of one of the pulses of the zero-cross signal, and may control a conductive state of the controllably conductive device based on the rising-edge time and the falling-edge time of the pulse.
US11935709B2
A control device includes a button assembly having one or more buttons and a button carrier that includes a plurality of resilient, independently deflectable spring arms. The control device may be configured as a wall-mounted keypad to control a load control device, or as a thermostat to control a temperature regulation appliance. The button carrier may be configured to prevent interference between the buttons during operation of the control device. The button assembly may be captured between a faceplate of the control device and a housing that is attached to a rear side of the faceplate. The control device may include one or more button retainers that are attached to the buttons and that are configured to align respective outer surfaces of the buttons relative to each other, and relative to the faceplate of the control device, when the buttons are in respective rest positions.
US11935706B2
A capacitor has an anode with one or more active layers that each includes fused particles positioned on a current collector. The current collector includes tunnels that extend from a first face of the current collector to a second face of the current collector.
US11935697B2
A capacitor includes: a capacitor element; a pair of external electrodes provided at opposite ends of the capacitor element; and a pair of metal caps and or a metal foil, the pair of metal caps each covering a corresponding one of the pair of external electrodes, the metal foil covering at least part of the capacitor element.
US11935693B2
Methods and apparatus for producing helix windings used for a transformer are provided. For example, apparatus comprise an electrically conductive mandrel comprising an elongated body, a head comprising an eyelet detail, and a winding structure disposed along the elongated body.
US11935690B1
Electrode/inductor for devices for disposing waste by plasma-chemical destruction method, the inductor located between the electrode and conductive surfaces of the cavity with gaps towards them. The inductor is formed by two truncated regular pyramids with bottom bases located in one plane and top bases located in another plane. The pyramids are rotated relative to each other around their common axis. In all or some of side facet planes of the pyramids, metal side facet plates are located, that are connected to metal plates of the upper and bottom bases located in planes of the upper and bottom bases with gaps between lateral edges of adjacent side facet plates. An electrode of the inductor is placed along the common axis of the pyramids. The inductor electrode is connected to the metal plates of the upper and bottom bases and protrudes beyond the top base towards the reactor electrode.
US11935671B2
The disclosed technology relates to a cable configured for high current applications. The cable includes a conducting member having a conductor surrounded by an insulating layer, and a cooling conduit having a tubular portion and a coolant. The coolant is configured to flow within the tubular portion to cool the conductor. The conducting member is spiral wound around the cooling conduit along a length of the cooling conduit to increase a contact area between the conducting member and the cooling conduit to thereby improve a transfer of heat from the conducting member to the cooling conduit.
US11935662B2
An elongate fuel element is described that has a silicon carbide cladding enclosing a fuel, such as UO2, wherein the fuel is dimensioned relative to the cladding to define gaps at each lateral end of the enclosure sufficiently large such that upon swelling in use, the fuel does not increase the strain on the cladding beyond the limits of the claddings strain tolerance. The lateral gaps at the ends of the fuel allow lateral expansion during swelling that reduces the strain on the cladding.
US11935660B2
Systems and methods are provided for data driven predictive analysis of complex data sets for determining decision outcomes. The systems and methods include obtaining a first set of data associated with individuals and obtaining, a second set of data associated with events, wherein the events are associated with at least one of the individuals. The systems and methods further include determining a subset of the individuals from the first set of data based on the first subset of individuals having common attributes with a target individual and determining a second subset of events from the second set of data based on the second subset of events having common attributes with the target events associated with the target individual. Additionally, the systems and methods include aggregating data associated with the second subset of events based on the target events and providing for display output associated with aggregated data.
US11935658B1
A method, computer program product, and system are disclosed. The method, when implemented in a computer system, includes obtaining patient information (where the patient information comprises symptom information), and identifying a medication. The medication is identified by searching a medication information database using the symptom information.
US11935655B2
Systems and methods for determining an evaluation of one or more patients is provided. User input for evaluating one or more patients is received. A commit bundle is retrieved from a commit database. An evaluation of the one or more patients is determined based on the user input using a medical ontology configured with the retrieved commit bundle. The medical ontology is separate from the commit database. Results of the evaluation of the one or more patients are output.
US11935642B2
A system and method for generating a neonatal disorder nourishment program comprising a computing device, the computing device configured to obtain a neonatal indicator element, identify a neonatal bundle as a function of the neonatal indicator element, produce a neonatal profile as a function of the neonatal bundle, wherein producing further comprises obtaining a neonatal functional goal as a function of the neonatal bundle, receiving a neonatal recommendation as a function of a neonatal database, and producing the neonatal profile as a function of the neonatal functional goal and neonatal recommendation using a neonatal machine-learning model, determine an aliment as a function of the neonatal profile, and generate a nourishment program as a function of the aliment.
US11935641B2
This patent disclosure provides various embodiments of combining multiple modalities of non-text surgical data in forms of videos, images, and audios in a meaningful manner so that the combined data can be used to perform comprehensive data analytics for a surgical procedure. In some embodiments, the disclosed system can begin by receiving two or more modalities of surgical data during the surgical procedure. The system then time-synchronizes the two or more modalities of surgical data to generate two or more modalities of time-synchronized surgical data. Next, the system converts each modality of the time-synchronized surgical data into a corresponding array of values of a common format. The system then combines the two or more arrays of values to generate a combined set of values. The system subsequently performs comprehensive data analytics on the combined set of values to generate a surgical decision for the surgical procedure.
US11935634B2
A system for predicting and summarizing medical events from electronic health records includes a computer memory storing aggregated electronic health records from a multitude of patients of diverse age, health conditions, and demographics including medications, laboratory values, diagnoses, vital signs, and medical notes. The aggregated electronic health records are converted into a single standardized data structure format and ordered arrangement per patient, e.g., into a chronological order. A computer (or computer system) executes one or more deep learning models trained on the aggregated health records to predict one or more future clinical events and summarize pertinent past medical events related to the predicted events on an input electronic health record of a patient having the standardized data structure format and ordered into a chronological order. An electronic device configured with a healthcare provider-facing interface displays the predicted one or more future clinical events and the pertinent past medical events of the patient.
US11935630B2
Methods, systems, and computer-readable media are provided for blending data. The system may identify user behavior patterns such that relevant correlations are learned by the system and suggested to a user automatically. The system may also analyze each available data set to identify both present and potential correlations to suggest to a user. This provides an efficient means for the system to automatically narrow a compilation of data sets into a filtered group of suggested data sets for a user. Put another way, the system gathers data on user behavior and known correlations and uses various methodologies to generate new data sets to be automatically compared and catalogued.
US11935628B2
Determining relative relationships of people who share a common ancestor within at least a threshold number of generations includes: receiving recombinable deoxyribonucleic acid (DNA) sequence information of a first user and recombinable DNA sequence information of a plurality of users; processing, using one or more computer processors, the recombinable DNA sequence information of the plurality of users in parallel; determining, based at least in part on a result of processing the recombinable DNA information of the plurality of users in parallel, a predicted degree of relationship between the first user and a user among the plurality of users, the predicted degree of relative relationship corresponding to a number of generations within which the first user and the second user share a common ancestor.
US11935620B2
A memory device for memory cell programming and erasing with refreshing operation is disclosed. The memory device includes multiple location-related memory cells and a refresh module. The location-related memory cells are coupled to a bit line on which a selecting voltage is applied. The refresh module rewrites a stored data of a first cell of the location-related memory cells to the first cell of the location-related memory cells in response to an operation count being smaller than a number N. N is related to the number of the location-related memory cells.
US11935612B2
A memory includes a storage circuit, a first reading circuit, a second reading circuit, and a plurality of correcting circuits. The storage circuit includes a plurality of sense amplifier arrays and a plurality of storage unit arrays. The sense amplifier arrays and the storage unit arrays are arranged alternately, and the sense amplifier arrays are configured to perform data reading and writing on the storage unit arrays. The first reading circuit is configured to compare a reference voltage signal with a signal on a first data line corresponding to the first reading circuit, and output a comparison result as read-out data. The second reading circuit is configured to compare the reference voltage signal with a signal on a first data line corresponding to the second reading circuit, and output a comparison result as read-out data.
US11935602B2
A memory device might include a controller configured to cause the memory device to generate a first sum of expected peak current magnitudes for a plurality of memory devices, and generate a second sum of expected peak current magnitudes for a subset of the plurality of memory devices, if the memory device were to initiate a next phase of an access operation in a selected operating mode; to compare the first sum to a first current demand budget for the plurality of the memory devices; to compare the second sum to a second current demand budget for the subset of memory devices; and to initiate the next phase of the access operation in the selected operating mode in response to the first sum being less than or equal to the first current demand budget and the second sum being less than or equal to the second current demand budget.
US11935596B2
In certain aspects, a three-dimensional (3D) memory device includes a first semiconductor structure, a second semiconductor structure, and a bonding interface between the first semiconductor structure and the second semiconductor structure. The first semiconductor structure includes an array of memory cells, a first peripheral circuit of the array of memory cells, and a polysilicon layer between the array of memory cells and the first peripheral circuit. The first peripheral circuit includes a first transistor. The second semiconductor structure includes a second peripheral circuit of the array of memory cells. The second peripheral circuit includes a second transistor.
US11935590B2
The invention is notably directed to a device for performing a matrix-vector multiplication of a matrix with a vector. The device comprises a memory crossbar array comprising a plurality of row lines, a plurality of column lines and a plurality of junctions arranged between the plurality of row lines and the plurality of column lines. Each junction comprises a programmable resistive element and an access element for accessing the programmable resistive element. The device further comprises a readout circuit configured to perform read operations by applying positive read voltages of one or more first amplitudes and negative read voltages of one or more second amplitudes corresponding to the one or more first amplitudes. The one or more first amplitudes and the corresponding one or more second amplitudes are different from each other, thereby correcting polarity dependent current asymmetricities.
US11935571B1
A method for writing repeatable run-out (RRO) data, to surfaces of a rotating magnetic storage medium in a storage device having two read channels, includes detecting, with a first head, using a first read channel, a servo sync mark (SSM) on a first track on a first surface, establishing a recurring servo-gating signal at a successive fixed interval from the SSM, detecting, with the first head, servo signals from the first track on occurrence of the recurring servo-gating signal, processing the servo signals from the first track, to generate first positioning signals for positioning the first head relative to the first track, following a similar procedure with a second read channel having a second head to generate second positioning signals for the second read head, and writing first and second RRO data to servo wedges of the first and second tracks according to the respective positioning signals.
US11935566B2
According to an embodiment, on a first track of a magnetic disk, a plurality of first sectors in each of which a data segment is stored, and a second sector in which a parity for first error correction is stored are arranged in this order from a first position. A controller executes a first operation of sequentially reading a first data segment from each of the plurality of first sectors, and storing a group of the read first data segments in a buffer memory. The controller obtains a first parity from the group of the read first data segments. The controller starts a second operation of writing each first data segment stored in the buffer memory, to a first sector that is a read source among the plurality of first sectors, and writing the first parity to the second sector, before the magnetic head reaches the first position.
US11935564B2
Disclosed is a video editing method including: acquiring an editing instruction to be executed from a user; calling a template video stored in advance according to the editing instruction, and acquiring a time axis representing duration of the template video; and overlaying the time axis on a progress bar of an editing video to indicate, by a combination of the time axis and the progress bar, a position of the template video in the editing video. A video editing apparatus and a smart mobile terminal are further provided.
US11935563B2
The present disclosure generally relates to a tape drive. The tape drive comprises a first tape head and a second tape head linearly aligned with one another, where the first tape head and the second tape head are configured to concurrently operate. The first tape head and the second tape head each comprise a plurality of write transducers, a plurality of read transducers, and a plurality of servo transducers. The tape drive further comprises a first actuator coupled to the first tape head and a second actuator coupled to the second tape head. The first and second actuators are configured to independently tilt and move the first and second tape heads, respectively. Tilting and moving the first and second tape heads individually enables the tape drive to compensate for non-linear tape dimensional stability effects.
US11935562B2
The present disclosure is generally related to a tape drive comprising a tape head and a controller coupled to the tape head. The tape head comprises one or more modules, each module comprising a plurality of write heads aligned in a first row, a plurality of read heads aligned in a second row parallel to the first row, and at least four first servo heads aligned in the second row. Two or more first servo heads of the at least four first servo heads are configured to concurrently read first servo data from a first servo track. The controller is configured to concurrently process the first servo data, to compute the position of the tape head based on a known spacing between the at least two servo heads, and to dynamically adjust a position of the tape head based on the processed first servo data.
US11935556B2
A messaging system for audio character type swapping. Methods of audio character type swapping include receiving input audio data having a first characteristic and transforming the input audio data to an input image where the input image represents the frequencies and intensities of the audio. The methods further include processing the input image using a convolutional neural network (CNN) to generate an output image and transforming the output image to output audio data, the output audio data having a second characteristic. The input audio and output audio may include vocals. The first characteristics may indicate a male voice and the second characteristics may indicate a female voice. The CNN is trained together with another CNN that changes input audio having the second characteristic to audio having the first characteristic. The CNNs are trained using discriminator CNNs that determine whether audio has a first characteristic or a second characteristic.
US11935551B2
The present invention relates to audio coding systems which make use of a harmonic transposition method for high frequency reconstruction (HFR). A system and a method for generating a high frequency component of a signal from a low frequency component of the signal is described. The system comprises an analysis filter bank providing a plurality of analysis subband signals of the low frequency component of the signal. It also comprises a non-linear processing unit to generate a synthesis subband signal with a synthesis frequency by modifying the phase of a first and a second of the plurality of analysis subband signals and by combining the phase-modified analysis subband signals. Finally, it comprises a synthesis filter bank for generating the high frequency component of the signal from the synthesis subband signal.
US11935549B2
An apparatus for encoding an audio signal includes: a core encoder for core encoding first audio data in a first spectral band; a parametric coder for parametrically coding second audio data in a second spectral band being different from the first spectral band, wherein the parametric coder includes: an analyzer for analyzing first audio data in the first spectral band to obtain a first analysis result and for analyzing second audio data in the second spectral band to obtain a second analysis result; a compensator for calculating a compensation value using the first analysis result and the second analysis result; and a parameter calculated for calculating a parameter from the second audio data in the second spectral band using the compensation value.
US11935544B2
Implementations set forth herein relate to management of casting requests and user inputs at a rechargeable device, which provides access to an automated assistant and is capable of rendering data that is cast from a separate device. Casting requests can be handled by the rechargeable device despite a device SoC of the rechargeable device operating in a sleep mode. Furthermore, spoken utterances provided by a user for invoking the automated assistant can also be adaptively managed by the rechargeable device in order mitigate idle power consumption by the device SoC. Such spoken utterances can be initially processed by a digital signal processor (DSP), and, based on one or more features (e.g., voice characteristic, conformity to a particular invocation phrase, etc.) of the spoken utterance, the device SoC can be initialized for an amount of time that is selected based on the features of the spoken utterance.
US11935541B2
A method of performing speech recognition, comprises, at a first device: receiving an audio signal representing speech; performing a first data integrity check operation on the received audio signal; performing a speaker recognition process on the received audio signal; forwarding the received audio signal to a second device, wherein the second device comprises a speech recognition function; and forwarding an output of the first data integrity check operation to the second device. The method further comprises, at the second device: receiving the audio signal forwarded from the first device; receiving the output of the first data integrity check operation forwarded from the first device; performing a second data integrity check operation on the audio signal forwarded from the first device; and using a result of performing the speech recognition function on the audio signal forwarded from the first device only if an output of the second data integrity check operation matches the output of the first data integrity check operation forwarded from the first device.
US11935540B2
A method may include obtaining first audio data originating at a first device during a communication session between the first device and a second device. The method may also include obtaining an availability of revoiced transcription units in a transcription system and in response to establishment of the communication session, selecting, based on the availability of revoiced transcription units, a revoiced transcription unit instead of a non-revoiced transcription unit to generate a transcript of the first audio data. The method may also include obtaining revoiced audio generated by a revoicing of the first audio data by a captioning assistant and generating a transcription of the revoiced audio using an automatic speech recognition system. The method may further include in response to selecting the revoiced transcription unit, directing the transcription of the revoiced audio to the second device as the transcript of the first audio data.
US11935536B2
Validating actions in a digital assistant-based application is provided. The system identifies an application with a conversational interface. The system selects an action from an action repository and generates, via a natural language processor, a trigger phrase for input into the application. The system executes the application to process the trigger phrase to identify an action of the application. The system identifies a parameter used by the application to execute the action, and generates, based on the parameter and via execution of the conversational interface of the application, a first query responsive to the trigger phrase. The system generates a first response to the first query for input into the application. The system determines, based on execution of the application to process the first response, a state of the application. The system evaluates the state to determine an error code and provide a notification based on the error code.
US11935530B2
Systems, methods, and apparatus for using a multimodal response in the dynamic generation of client device output that is tailored to a current modality of a client device is disclosed herein. Multimodal client devices can engage in a variety of interactions across the multimodal spectrum including voice only interactions, voice forward interactions, multimodal interactions, visual forward interactions, visual only interactions etc. A multimodal response can include a core message to be rendered for all interaction types as well as one or more modality dependent components to provide a user with additional information.
US11935526B2
A system and method for voice control of a media playback device is disclosed. The method includes receiving an instruction of a voice command, converting the voice command to text, transmitting the text command to the playback device, and having the playback device execute the command. An instruction may include a command to play a set of audio tracks, and the media playback device plays the set of audio tracks upon receiving the instruction.
US11935522B2
Disclosed herein are system, method, and computer program product embodiments for categorizing customer complaints on social media using a model trained on customer voice calls or chats with agents. Additionally, users interested in monitoring regulatory compliance issues based on customer complaints can receive notifications regarding complaints that are linked to regulatory topic areas, without the need to manually scan vast numbers of social media postings.
US11935520B1
A method and system for identifying the beginning and ending of songs via a machine learning analysis. A machine learning model analyzes streaming audio (such as a radio broadcast) in overlapping, 3-second samples. Each sample is labeled into groups such as “song,” “talk,” “commercial” and “transition.” Based on the location of the transition samples, an exact second a given song begins and ends in the audio stream is derivable. The model further identifies when two songs shift between one another.
US11935517B2
A speech decoding method is performed by a computer device, the speech including a current audio frame and a previous audio frame. The method includes: obtaining a target token corresponding to a smallest decoding score from a first token list including first tokens obtained by decoding the previous audio frame, each first token including a state pair and a decoding score, the state pair being used for characterizing a correspondence between a first state of the first token in a first decoding network corresponding to a low-order language model and a second state of the first token in a second decoding network corresponding to a differential language model; determining pruning parameters according to the target token and an acoustic vector of the current audio frame when the current audio frame is decoded; and decoding the current audio frame according to the first token list, the pruning parameters, and the acoustic vector.
US11935511B2
According to an embodiment, an acoustic output apparatus includes an acquisition unit and an output unit. The acquisition unit acquires non-stationary sound data that masks an operating sound, in which the operating sound is based on an operation of the operation unit. The output unit outputs a non-stationary sound based on the sound data acquired by the acquisition unit during occurrence of the operating sound.
US11935504B2
A display device includes a shift controller which generates an output image by shifting an input image within a shift range; and pixels which displays the output image. The shift controller sets the shift range to a first range when the input image is a moving image, and sets the shift range to a second range smaller than the first range when the input image is a still image.
US11935498B2
Disclosed are a display apparatus, a drive chip, and an electronic device. When determining that a disconnected signal line exists, the drive chip sends a control signal to a signal line repair module, so that when a shift output end of the first shift unit corresponding to the disconnected signal line outputs an enable signal, a selector switch corresponding to the shift output end is turned on, and then a connection control unit keeps outputting a turn-on signal to a control end of a corresponding connection switch.
US11935496B2
A variety of methods for driving electro-optic displays so as to reduce visible artifacts are described. Such methods includes driving an electro-optic display having a plurality of display pixels and controlled by a display controller, the display controller associated with a host for providing operational instructions to the display controller, the method may include updating the display with a first image, updating the display with a second image subsequent to the first image, processing image data associated with the first image and the second image to identify display pixels with edge artifacts and generate image data associated with the identified pixels, storing the image data associated pixels with edge artifacts at a memory location, and initiating a waveform to clear the edge artifacts.
US11935483B2
Provided are a pixel circuit, a driving method thereof and a display panel. The pixel circuit includes: multiple sub-pixel circuits in an array; each sub-pixel circuit includes a first node control sub-circuit, a second node control sub-circuit, a driving sub-circuit, a storage sub-circuit, a reading sub-circuit and a light emitting device; at least reading sub-circuits of the sub-pixel circuits of some rows are controlled by a same sensing control line; the first node control sub-circuit charges the storage sub-circuit in response to a first scan signal; the second node control sub-circuit writes a reference voltage signal into a second node in response to a second scan signal; the reading sub-circuit reads a potential of the second node in response to a sensing control signal written by a sensing control line; the driving sub-circuit drives the light emitting device to emit light.
US11935481B2
Provided is a display device, which includes: a reference voltage line formed along a circular outer line and configured to provide a reference voltage; a first reference voltage auxiliary line electrically connected to the reference voltage line and formed to be parallel with a predetermined interval; and a conductive line forming a contact with the reference voltage line and the first reference voltage auxiliary line and configured to provide the reference voltage to a cathode.
US11935477B2
A pixel includes a driving transistor having a gate electrode connected to a first node and connected between a first power line to which a first power voltage is applied and a second node, a first initialization transistor having a gate electrode connected to a first scan line and connected between the second node and a first initialization power line to which a first initialization power voltage is applied, a second initialization transistor having a gate electrode connected to the first scan line and connected between a third node and a second initialization power line to which a second initialization power voltage is applied, a first capacitor connected between the first node and the second node, a second capacitor connected between the first power line and the second node, and a light emitting element connected between the third node and a second power line.
US11935476B2
A display device includes: a substrate including a main display area and an edge display area bent with respect to a first axis from the main display area; and a wiring including a plurality of sub-wirings arranged in a direction intersecting the first axis in the edge display area; an insulating layer including a plurality of contact holes and covering the plurality of sub-wirings; and a connection wiring disposed on the insulating layer and connecting the plurality of sub-wirings through the plurality of contact holes.
US11935474B2
A display device includes a display panel including an under display camera (UDC) region and a non-UDC region, the UDC region including a plurality of sub-regions, and processing circuitry configured to, receive image data, select at least one first filter from a plurality of filters based on a spatial coordinate value of the received image data, the plurality of filters corresponding to a respective sub-region of the plurality of sub-regions, and perform first pixel rendering for the UDC region based on the at least one first filter and the image data, and the at least one first filter is generated based on a pixel arrangement pattern of the UDC region.
US11935470B2
A pixel circuit and a driving method thereof, and a display device are provided. The pixel circuit includes a driving sub-circuit, a data writing sub-circuit, a first light-emitting control sub-circuit, a second light-emitting control sub-circuit, a compensation sub-circuit, and a first reset sub-circuit, and is configured to generate a driving current to control a light-emitting element to emit light, the first reset sub-circuit comprises a first transistor, the compensation sub-circuit comprises a second transistor, the first transistor and the second transistor are both polysilicon oxide thin film transistors, and an active layer type of the first transistor and an active layer type of the second transistor are different from an active layer type of a transistor comprised in at least one selected from a group consisting of the driving sub-circuit, the data writing sub-circuit, the first light-emitting control sub-circuit, and the second light-emitting control sub-circuit.
US11935463B2
A light emitting display device includes: a light emitting diode at a display area, and including an anode and a cathode; a pixel circuit at the display area, and to transmit an output current to the anode of the light emitting diode; a repair line extending in a first direction; a repair pixel circuit connected to the repair line; a bridge including one end overlapping with the repair line; and a connecting portion connected to the anode, and including one end overlapping with the bridge. The bridge is not connected to the repair line, the connecting portion, and the anode.
US11935461B2
A method for control of a pixel array based on a temperature estimate is provided. A method includes sampling an anode voltage of each LED of a plurality of pixels resulting in sampled voltages, determining an average voltage based on the sample voltages, and determining a total voltage to provide to the pixels based on the average voltage and voltage data from a memory coupled to the controller, the voltage data including one or more of a 3-sigma value, a driver headroom value, a resistance value, or a k-factor value.
US11935450B2
A display panel and a display device are provided. The display panel includes a display unit, the display unit includes a plurality of light emitting modules, and a driving circuit electrically connected to the display unit and drives the display unit to display. The driving circuit includes a first circuit module and a second circuit module, the second circuit module is electrically connected to the first circuit module and the display unit, respectively.
US11935440B2
The present disclosure relates to a display apparatus including a plurality of display modules, and a hinge assembly connecting the plurality of display modules, wherein the hinge assembly comprises a pair of brackets rotatably coupled to each other to adjust an angle between the plurality of display modules, a moving block is mounted on each of the pair of brackets to be coupled to the display module, and the moving block is configured to slidingly move with respect to the bracket to adjust a spacing between the plurality of display modules. With this structure, the angle between the plurality of display modules may be variously varied according to an installation environment.
US11935431B1
The present invention relates to a learning game system that comprises a plushy having an internal chamber and a control system that is fitted into the internal chamber. The control system comprises a microcontroller, one or more memory, an impact sensor, and a user interface. During gameplay, a person catching the ball is detected by way of the impact sensor. The person is presented with a question that can be from a variety of school subjects, trivia, or other types of questions. An answer is received from the person by way of the user interface. A determination can be made if the answer is correct or incorrect. The person is prompted to toss the ball to another game-playing person. Game content such as questions can be downloaded, interchanged, or otherwise changed to cover a variety of subject matter areas and be progressively challenging to gameplayers of all ages.
US11935426B2
Industrial vehicle monitoring for modification of vehicle operator behavior comprises storing data identifying an event associated with the operation of an industrial vehicle, the data having a performance parameter to evaluate against the event. Further, operation of the industrial vehicle is monitored for an event. When an occurrence of the event is detected, event data that characterizes an action of a vehicle operator is recorded into memory. The recorded event data is evaluated against the performance parameter to determine whether the vehicle operator demonstrated appropriate behavior for the detected event, and a behavior modification action is determined based on the evaluation of the recorded event data against the performance parameter. An output message is conveyed on the industrial vehicle to perform the behavior modification action.
US11935422B2
A method of providing an instructional scaffold to person learning to read English language comprises displaying printed matter to the learner in the form of lists. preferably text stories. The normal spacing of the letters in words is kept intact; in a first part of the method the rime portions of monosyllable words are bolded and made larger than the onset portions; and in a second part of the method, which also may be used independently, the sequential syllables of multisyllable words are emphasized by alternating plain font with bolded font and the long vowels are identified, for example by underscore, again with the words of any text being kept intact.
US11935407B1
A dynamic loose vehicle formation method based on real-time online navigation map, which belongs to the field of vehicle formation technologies. The method includes a driver inputs travel information of a destination and waypoints in a GIS app; the GIS app uploads the travel information to a GIS server; the driver chooses to join a recommended formation or create a formation in the GIS app; when the driver chooses the formation and joins the formation, the formation information is displayed on the GIS app interface and sent to other vehicles within the formation for information interaction; when the driver chooses to leave the formation and leaves the formation, the formation is adjusted and the GIS server updates the formation information.
US11935403B1
A vehicle identification system includes one or more displays associated with a vehicle, a transceiver, and a controller communicatively coupled to the transceiver. The one or more displays are located to be visible from an exterior of the vehicle. The controller is adapted to generate a first signal to be transmitted by the transceiver to a mobile communication device associated with a driver of the vehicle when it is determined that the vehicle is within a predetermined distance of a specific location. The mobile communication device associated with the driver is adapted to generate a second signal to be transmitted to the one or more displays. The second signal represents an indicator.
US11935399B2
Sensing devices in an installation state are flexibly managed and the sensing devices are controlled appropriately. The sensing devices each include a sensor, a selection control unit, and a notification unit. The sensor measures the ambient environment to generate a measurement signal. The selection control unit controls the selection state of the sensing device in response to the measurement signal from the sensor. The notification unit issues a notification that the sensing device has been selected in a case where the selection state indicates that the sensing device has been selected.
US11935393B2
According to various features described herein, a wireless connection device facilitates providing wireless transmission of detected voltages on monitored lines, and comprises: a communication connector via which the wireless communication device receives detected voltage information for one or more monitored lines; and one or more printed circuit boards (PCB)s comprising circuitry for processing the received detected voltage information; and a wireless transceiver that transmits the processed voltage information wirelessly for presentation and storage on a remote device.
US11935391B2
Fire alarm system device identification methods and systems are described herein. One fire alarm system, includes a gateway connected to a system control panel for allowing mobile device access to the system, a mobile device connected to the control panel, a fire alarm system control application on the mobile device, wherein the fire alarm control system application gains access to the control panel via the gateway, a search utility in the fire alarm control system application for identifying a particular fire alarm system device that is in a specific condition or location, and a database accessible via the fire alarm control system application wherein location and condition information about the plurality of fire alarm system devices is located, such that the search utility can search the database and identify the particular fire alarm system device from the other of the plurality of fire alarm system devices.
US11935389B2
Systems and methods for monitoring intravenous (IV) fluid bags are provided. The system includes a replaceable unit comprising a sensor comprising a pressure sensor configured to measure hydrostatic pressure, an electrical connector coupling the sensor to a controller component, a cannula configurable for insertion into a fluid port of an IV fluid bag, and an IV tube coupling the sensor to an IV fluid bag via the cannula. The system further includes the controller component configured to retrieve data representative of hydrostatic pressure from the sensor and calculate remaining fluid volume, discharge rate, and flow occlusion based on the retrieved data.
US11935381B2
The fire detection system is provided to enable early detection of a location where a fire may occur. When detecting a location which vibration reached in the optical fiber 104, the sensor unit 102 transmits information indicating the location to the information output unit 101. The gas state detection section 103 transmits information indicating the state of gas to the information output unit 101. The information output unit 101 receives the information indicating the location which the vibration reached in the optical fiber 104 and the information indicating the state of gas, and outputs information indicating a sign of a fire outbreak occurred when the state of gas meets a predetermined condition.
US11935380B2
Apparatuses, methods, and computer-readable media for operating a scanning smoke detector are described herein. One apparatus a laser emitter configured to emit a beam of light, a rotational component configured to rotate the emitter such that the beam periodically scans across an area, and a light receiver configured to receive a reflected portion of the beam of light and determine a presence of smoke particles in the area based on the reflected portion. The smoke detection apparatus can be configured to operate at a first power level, decrease the beam to a second power level responsive to a determination that an object in the area is in a path of the beam, and increase the beam to the first power level responsive to a determination that the object is no longer in the path of the beam.
US11935379B2
According to one or more embodiments, a premises security system includes a sensor adaptor device mountable on a third-party sensor. The sensor adaptor device comprises at least one terminal in electrical communication with a preconfigured premises device of a premise security system, and processing circuitry configured to: store a mapping of a plurality of third-party sensor signals to a plurality of translated third-party signals, detect a first third-party sensor signal emitted from the third-party sensor, determine that the first third-party sensor signal maps to a first translated third-party signal based on the mapping, and in response to determining that the first third-party sensor signal maps to the first translated third-party signal, trigger, via the at least one terminal where the preconfigured premises device to cause the preconfigured premise device to transmit an alert signal to the premises security system.
US11935365B2
Techniques for creating and managing wagers on possible states within a live event, such as possible outcomes of subparts of a sporting event or other possible occurrences within the event. An initial state and multiple possible future states of a performance parameter of the event are determined based on state information of the event. A betting market may be created by determining probabilities and odds for the possible future states. Bets may be made on the possible future states via a touch-sensitive display. A payout may be made to a winner who selects a possible future state that actually occurs.
US11935364B2
An electronic gaming system is capable of forming a multi-player group to play a game; receiving, from a first gaming device, first game play information for a first game played by a first player member of the multi-player group on the first gaming device; determining that the first game play information comprises a first winning outcome corresponding to a first winning outcome; in response, allocating the first winning outcome among the first and second player members; and notifying a second gaming device of the second player member that the second player member has received the second portion of the first winning outcome.
US11935360B2
A gaming device may perform various electronic games, such as a keno game, and may include a game controller configured to control operations of the performed electronic games. During the course of a game performed on the gaming device, the game controller may control various winning scenarios, including alternate winning scenarios. At certain stages in a keno game, a number of markers may be selected. Before, after, or while these markers are selected, the game controller may determine how many bonus markers will be selected. Based on the number of selected bonus markers, the game controller may initiate a bonus draw phase where an additional number of markers may be selected. After all markers have been selected, any selected bonus markers may be added together and the calculated sum may be added to a credit balance associated with a player of the gaming device.
US11935355B2
A gaming signage system may include one or more movable displays. One or more movable displays may present first visual effects while the one or more movable displays are in a first configuration in which at least one game feature presentation device is not viewable. In response to a trigger event indication (which may correspond to a base game event), the movable display(s) may move to a second configuration and reveal the game feature presentation device. The game feature presentation device may be used to present a bonus feature and/or to present a different aspect of the base game. Alternatively, at least a portion of a movable display may be hidden when in a first configuration. At least the portion of the movable display(s) may present a bonus feature and/or a different aspect of the base game when in the second configuration.
US11935351B2
According to one embodiment, a paper sheet processing apparatus includes a conveyance mechanism which conveys a paper sheet with fluorescent ink print information along a conveyance path, a fluorescence reference member including a fluorescent material and arranged to oppose to the conveyance path, a light source device which irradiates the fluorescence reference member with excitation light, and an imaging device which images the fluorescence emission of the fluorescence reference member and acquires an image including a contour of the paper sheet passing over the fluorescence reference member and an image of the fluorescent ink print information of the paper sheet.
US11935339B2
Provided are a vehicle inspection system and a vehicle inspection method that can align a vehicle with a constant location of a bench testing machine. The present invention comprises: a bench testing machine that rotatably supports wheels of a vehicle, using rollers that are provided for each of the wheels; and a monitor device that is positioned in a fixed location with regard to the bench testing machine and displays, toward a camera, an image resembling an exterior environment, wherein the bench testing machine has a location adjustment device (turning mechanism, test bench control device) that adjusts the location of the vehicle in the vehicle width direction such that the relative location of the camera in the vehicle width direction with regard to the monitor device is constant.
US11935336B2
A drive recorder to be mounted on a vehicle includes an acquisition unit, a recording unit, a communication unit, and a control unit. The acquisition unit acquires data representing driving condition. The recording unit records the acquired data. The communication unit transmits the acquired data to the outside. The control unit controls the quality of the data to be transmitted based on the information received from the outside.
US11935335B2
A system within an ego vehicle for robust association of a physical identity and a virtual identity of a target vehicle includes a data processor, including a wireless communication module and a visible light communication module, positioned within an ego vehicle, and a plurality of perception sensors, positioned within the ego vehicle and adapted to collect data related to a physical identity of the target vehicle and to communicate the data related to the physical identity of the target vehicle to the data processor via a communication bus, the data processor within the ego vehicle adapted to receive, via a wireless communication channel, data related to a virtual identity of the target vehicle, associate the physical identity of the target vehicle with the virtual identity of the target vehicle, and initiate, via the wireless communication channel and a visible light communication channel, a challenge-response protocol between the ego vehicle and the target vehicle.
US11935330B2
Systems and methods are disclosed for generating a 3D avatar and object fitting recommendations using a biomechanical analysis of observed actions with a focus on representing actions through computer-generated 3D avatars. Physical quantities of biomechanical actions can be measured from the observations, and the system can analyze these values, compare them to target or optimal values, and use the observations and known biomechanical capabilities to generate the 3D avatars and object fitting recommendations.
US11935325B2
Techniques for saving bandwidth in performing facial recognition are provided. An image including a face may be received, over a wireless link, at a first resolution. A facial recognition system may identify a subset of people who may be associated with the face, wherein the facial recognition system cannot definitively associate the face with an individual person in the subset of people, based on the image including the face at the first resolution. A feature of the subset of people that may be used to identify a person within the subset of people may be determined. A request for the portion of the image containing the feature at a second resolution may be sent over the wireless link. The second resolution may be higher than the first.
US11935305B2
An applique is mounted over one or both B-pillars of an autonomous vehicle and includes a display, speaker, touch input, and microphone. The applique may include a curved cover mounted over a printed circuit board (PCB) having LED arrays mounted thereto. A diffuser defines windows for the LED arrays and has a planar surface interfacing with the PCB and a curved surface interfacing with the curved cover. A controller of the vehicle detects proximity to a passenger to be picked up and displays the passenger's name at a first proximity, outputs a spoken message at a second, closer, proximity, and outputs a visible and audible prompt to enter an access code at a third proximity closer than the second proximity.
US11935298B2
A system and method of predicting a team's formation on a playing surface are disclosed herein. A computing system retrieves one or more sets of event data for a plurality of events. Each set of event data corresponds to a segment of the event. A deep neural network, such as a mixture density network, learns to predict an optimal permutation of players in each segment of the event based on the one or more sets of event data. The deep neural network learns a distribution of players for each segment based on the corresponding event data and optimal permutation of players. The computing system generates a fully trained prediction model based on the learning. The computing system receives target event data corresponding to a target event. The computing system generates, via the trained prediction model, an expected position of each player based on the target event data.
US11935290B2
Systems and methods of servicing engines, an exemplary method of servicing an engine, the method including receiving, by one or more computing devices, information corresponding to one or more components of the engine; determining, by the one or more computing devices, a location of the one or more components of the engine with respect to a location of an augmented reality device; and presenting, in a current field of view display of the augmented reality device, at least a portion of the information corresponding to the one or more components of the engine, wherein the portion of the information includes a rendering of the one or more components, instructions regarding operations to be performed on the one or more components, directional arrows or contextual information associated with the one or more components, or any combination thereof.
US11935283B2
Disclosed are a cranial CT-based grading method and a corresponding system, which relate to the field of medical imaging. The cranial CT-based grading method as disclosed solves the problems of relatively great subjective disparities and poor operability in eye-balling ASPECTS assessment. The grading method includes: determining frames where target image slices are located from to-be-processed multi-frame cranial CT data; extracting target areas; performing infarct judgment on each target area included in the target areas to output an infarct judgment outcome regarding the target area; and outputting a grading outcome based on infarct judgment outcomes regarding all target areas. The grading method and system as disclosed may eliminate or mitigate the diagnosis disparities caused by human factors and imaging deviations due to different imaging devices, and shorten the time taken by human observation, consideration, and bared-eye grading, thereby serving as a computer-aided method to provide reference for medical studies on stoke.
US11935282B2
A server of a crop growth stage determination system includes a processor. The processor inputs first images obtained by image capturing crops in a manner such that crop shapes are extractable. The Processor inputs growth stages each indicating a level of physiological growth of the crops for each of the first images. The processor constructs a learned model by performing deep learning to associate images of the crops and growth stages of the crops based on the input first images and the input growth stage. The processor inputs a second image obtained by image capturing crops a growth stage of which is unknown, in a manner such that crop-shapes are extractable. The processor determines the growth stage for the input second image based on the learned model. The processor outputs the determined growth stage.
US11935277B2
A training data generation device performs the processes of: acquiring first correct answer data that is correct answer data with respect to each training image of a training image group, the training image group including plural training images to be given the correct answer data, the training image group being divided into plural image subgroups, the first correct answer data being generated in a different situation for each of the plural image subgroups; generating a discriminator with respect to the each of the plural image subgroups, the discriminator being learned based on the each of the plural image subgroups and the first correct answer data corresponding to the each of the plural image subgroups; acquiring a discrimination result outputted by the discriminator for each of the plural training images by inputting the each of the plural training images to the discriminator which is generated based on at least one image subgroup other than an image subgroup to which the each of the training images belongs; and generating second correct answer data for the each of the plural training images based on the discrimination result and the first correct answer data.
US11935273B2
The present disclosure relates to an object recognition system and method. The system comprises: an illumination apparatus configured to generate an illumination light for illuminating an object; a lighting sensor configured to acquire a first lighting parameter of an ambient light in a recognition environment in which the object is located; an imaging apparatus configured to acquire imaging data of the object; a first controller communicatively connected with the illumination apparatus and the lighting sensor, and configured to control a second lighting parameter of the illumination light generated by the illumination apparatus according to the first lighting parameter, until the first lighting parameter of the ambient light is within a preset parameter range; and a processor communicatively connected with the imaging apparatus and the first controller, and configured to recognize the object according to imaging data of the object under the ambient light within the preset parameter range.
US11935271B2
A method, computer program, or computer system is provided for compressing a neural network model. One or more blocks are identified from among a superblock corresponding to a multi-dimensional tensor associated with a neural network. A set of weight coefficients associated with the superblock is unified. A model of the neural network is compressed based on the unified set of weight coefficients.
US11935265B2
A fingerprint image processing device includes a memory, and a processor coupled to the memory. The processor performs operations. The operations include reading a tenprint card image which includes a plurality of fingerprint patterns and at least one ruled line to separate one fingerprint imprint area from another fingerprint imprint area, and extracting from the tenprint card image a fingerprint image which includes at least one of the fingerprint patterns, apart of a fingerprint imprint area, and a part of a next fingerprint imprint area.
US11935262B2
A method where one or more objects of a three-dimensional scene are determined in accordance with provided raw data of the three-dimensional scene representing a predefined environment inside and/or outside the vehicle. A two-dimensional image is determined in accordance with the provided raw data of the three-dimensional scene such that the two-dimensional image depicts the determined objects of the three-dimensional scene on a curved plane. The two-dimensional image has a quantity of pixels, each representing at least one part or several of the determined objects of the three-dimensional scene. Data is provided which represents at least one determined field of view of the driver. For at least one of the determined objects, the probability with which the at least one object will be located in the field of view of the driver is determined in accordance with the provided data and the two-dimensional image.
US11935259B2
In a measurement of a microscope image, a measurement can be conducted with high accuracy when measuring a measuring object including a step having a depth larger than a depth of focus or comparing patterns at different positions along the optical axis of a microscope. A microscope image measuring device includes: a microscope for obtaining a magnified image of a surface of a measuring object by irradiating the surface with white incident light; a spectral camera for obtaining a spectral image of the magnified image; and an image processing part for extracting the spectral image at each wavelength and performs an image measuring process. The microscope forms an image of a different focal position at each wavelength on the imaging surface of the spectral camera, and the image processing part extracts a spectral image with a wavelength where a measuring point has the highest contrast, and performs edge detection.
US11935258B2
A method for range detection is described. The method includes segmenting an image into one or more segmentation blobs captured by a monocular camera of an ego vehicle. The method includes focusing on pixels forming a selected segmentation blob of the one or more segment blobs. The method also includes determining a distance to the selected segmentation blob according to a focus function value of the monocular camera of the ego vehicle.
US11935251B2
A sensor may be configured to determine how many people that have entered or exited a space. The sensor may comprise a pyroelectric infrared (PIR) detection circuit capable of generating different output signal patterns in response to a person entering or exiting the space. The sensor may determine whether the person has entered or exited the space based on the output signal pattern. The sensor may include a thermopile array, a radar detection circuit, or a visible light sensing circuit. The thermopile array, radar detection circuit, or visible light sensing circuit may be capable of detecting a person's location and/or movements within an area monitored by the sensor and determining, based on the detected movements, whether the person has entered or left the space. An occupant count of the space may then be determined accordingly by the sensor or by a system controller.
US11935245B2
The invention provides for a medical apparatus (100, 400, 600) comprising a memory (110) for storing machine executable instructions (120) and a processor (104) for controlling the medical apparatus. Execution of the machine executable instructions causes the processor to: receive (200) a medical image (122) descriptive of a three-dimensional anatomy of a subject (418); and provide (202) an image segmentation (124) by segmenting the medical image into multiple tissue regions (300, 302) using a model-based segmentation. The model-based segmentation assigns a tissue type to each of the multiple regions. The model-based segmentation has a surface mesh (304). The segmentation is corrected by using the tissue type assigned to each of the multiple regions to correct for partial volume effects at boundaries formed by the surface mesh between at least some of the multiple tissue regions.
US11935244B2
A method and apparatus for improving sensitivity of wafer detection, and a storage medium are provided. The method including: acquiring a gray-scale image of a peripheral circuit region of a wafer; dividing the gray-scale image into at least one pixel region; determining a repeated image region in each pixel region, in which the repeated image region is a region with N*M pixels where M pixels on a same column in the repeated image region have a same gray-scale value, and N and M are integers greater than 0; and determining position information where interference superposition occurs in the peripheral circuit region of the wafer according to all repeated image regions in the gray-scale image.
US11935242B2
The present disclosure provides for crop yield estimation by identifying, via image processing, a field in which a crop is grown; identifying a plurality of regions within the field; identifying, by processing growth metrics via a model, a plurality of data collection points in the plurality of regions, wherein a given data collection point of the plurality of data collection points within a given region of the plurality of regions is identified by multivariate analysis as representative of growing conditions in the given region; receiving in-field data linked to the data collection points of the plurality; and predicting a yield for the crop in the field based on the in-field data.
US11935239B2
Control method, apparatus and program for system for determining lesion obtained via real-time image
Provided is a control method for a system for determining a lesion obtained via real-time image. The control method comprises: an endoscope device obtaining a stomach endoscopy image; the endoscope device transmitting the obtained stomach endoscopy image to a server; the server determining a lesion included in the stomach endoscopy image, by inputting the stomach endoscopy image into a first artificial intelligence model; when it is determined that a lesion is detected in the stomach endoscopy image, the server obtaining an image including the lesion and transmitting the image to a database of the server; the server determining the type of the lesion included in the image, by inputting the image into a second artificial intelligence model; and when it is determined that a lesion is detected in the stomach endoscopy image, a display device displaying a UI for guiding the location of the lesion in the stomach endoscopy image.
US11935236B2
Provided are a method and an apparatus for interlocking a lesion location between a 2D medical image and 3D tomosynthesis images including a plurality of 3D image slices.
US11935221B2
A method of processing component carriers includes supplying a plurality of arrays, each comprising a plurality of component carriers, to a human operator for optical inspection, displaying a respective array on a display, and providing a user interface enabling the human operator to input a judgment concerning a quality classification of a displayed array without a mandatory manual handling of the array by the human operator.
US11935220B1
In some aspects, a debris detector includes one or more processors and a memory storage device to store instructions executable by the one or more processors to: receive a frame captured by a camera, receive a subsequent frame captured by the camera, compare the frame to the subsequent frame to determine a difference, and based on determining that the difference is greater than a threshold, send a notification indicating that debris has been detected. The notification may include location data identifying a location where the debris is located. Receiving the notification may cause a robot vacuum to initiate cleaning the location identified in the notification.
US11935205B2
An augmented reality (AR) display device can display a virtual assistant character that interacts with the user of the AR device. The virtual assistant may be represented by a robot (or other) avatar that assists the user with contextual objects and suggestions depending on what virtual content the user is interacting with. Animated images may be displayed above the robot's head to display its intents to the user. For example, the robot can run up to a menu and suggest an action and show the animated images. The robot can materialize virtual objects that appear on its hands. The user can remove such an object from the robot's hands and place it in the environment. If the user does not interact with the object, the robot can dematerialize it. The robot can rotate its head to keep looking at the user and/or an object that the user has picked up.
US11935203B2
In order to guide the user to a target object that is located outside of the field of view of the wearer of the AR computing device, a rotational navigation system displays on a display device an arrow or a pointer, referred to as a direction indicator. The direction indicator is generated based on the angle between the direction of the user's head and the direction of the target object, and a correction coefficient. The correction coefficient is defined such that the greater the angle between the direction of the user's head and the direction of the target object, the greater is the horizontal component of the direction indicator.
US11935195B1
Briefly, embodiments, such as methods and/or systems of real-time visualization of web browser derived content within a gaming environment, for example, are described.
US11935188B2
A system and method is provided for constructing a labeled and dimensioned multidimensional (e.g., 3D) building model from building object imagery (e.g., ground-level imagery). The method begins by retrieve building object imagery, the building object imagery collected based on directed capture with a mobile device. The method continues by constructing a scaled multi-dimensional building model, the scale based on sizing of at least one selected architectural feature. The method continues by identifying architectural elements within facades of the multi-dimensional building model. The method continues by determining dimensions of at least one of the architectural elements, the dimensions based on the scale. The method continues by determining dimensions (e.g., area) of at least one of the architectural elements. The method continues by labeling each identified architectural element with at least an identifier and by labeling at least one of the architectural elements with the determined dimensions.
US11935185B2
An apparatus for content based anti-aliasing is described herein. The apparatus comprises a detector, corrector, and downscaler. The detector is to detect potential aliased content in an input image, wherein the potentially aliased content occurs at a downscaled version of the input image. The corrector is to apply a correction to a single component of the input image. A downscaler may downscale the corrected input image to an output image according to a scaling factor.
US11935181B2
A methods and system are provided for dynamically adjusting a camera angle in a video game is provided. One example method includes receiving a dataset of a plurality of video sequences that are associated with tagging data in metadata that identify characteristics of actions occurring in each of the plurality of video sequences. The method includes generating an artificial intelligence (AI) model from the dataset. The method includes accessing the AI model during gameplay of the video game. The accessing includes providing snapshots of video sequences generated during said gameplay of the video game. The method includes adjusting a game camera angle dynamically during the gameplay. The adjusting is responsive to adjustment instructions derived from said AI model.
US11935180B2
Examples of the disclosure describe systems and methods for presenting virtual content on a wearable head device. In some embodiments, a state of a wearable head device is determined by minimizing a total error based on a reduced weight associated with a reprojection error. A view reflecting the determined state of the wearable head device is presented via a display of the wearable head device. In some embodiments, a wearable head device calculates a preintegration term based on the image data received via a sensor of the wearable head device and the inertial data received via a first IMU and a second IMU of the wearable head device. The wearable head device estimates a position of the device based on the preintegration term, and the wearable head device presents the virtual content based on the position of the device.
US11935177B2
Disclosed are apparatuses, systems, and techniques to render images with global illumination using efficient ray tracing, light source identification, and reservoir resampling that deploys temporal and spatial reservoirs.
US11935171B2
An interactive physical environment providing entertainment to a patron includes a scanner, a sensor within the room, and a control system. The scanner is associated with a room provided by the interactive physical environment. The scanner identifies a patron of the interactive physical environment and transmits patron identification information. The sensor determines patron game performance data and transmits the patron performance data. The control system receives patron identification information from the scanner and patron performance data from the sensor. The control system, responsive to the received patron identification information and patron performance data, modifying an avatar associated with the patron.
US11935160B2
Tomographic images acquired by iterative reconstruction of low quality projection images, are enhanced by the steps of correcting at an iteration step the result of the previous iteration step by means of a back-projection of the result of a comparison of a projection image and the forward projection of the result of the previous iteration step whereby this result is enhanced by subjecting it to a trained neural network.
US11935154B2
A method and system for transforming an input image via a plurality of image transformation stylizers includes receiving the input image; providing the input image, information about the plurality of image transformation stylizers and at least one of user data, history data, and contextual data to a trained machine-learning (ML) model for selecting a subset of the plurality of image transformation stylizers; receiving as an output from the ML model the subset of image transformation stylizers; executing the subset of the image transformation stylizers on the input image to generate a plurality of transformed output images; ranking the plurality of transformed output images based on at least one of the input image, the user data, the history data, and the contextual data; and providing the ranked plurality of transformed output images for display.
US11935153B2
Data processing methods and devices are provided. A processing device comprises memory and a processor. The memory, which comprises a cache, is configured to store portions of data. The processor is configured to issue a store instruction to store one of the portions of data, provide identifying information associated with the one portion of data, compress the one portion of data; and store the compressed one portion of data across multiple lines of the cache using the identifying information. In an example, the one portion of data is a block of pixels and pixels and the processor is configured to request pixel data for a pixel of a compressed block of pixels, send additional requests for data for other pixels determined to belong to the compressed pixel block and provide an indication that the requests are for pixel data belonging to the compressed block of pixels.
US11935148B2
Provided is an apparatus for acquiring images including an image sensor including a sensor substrate including a plurality of photo-sensing cells sensing light, and a color separation lens array provided above the sensor substrate, the color separation lens array including a fine structure in each of a plurality of regions respectively facing the plurality of photo-sensing cells and separating incident light based on color, the fine structure forming a phase distribution to condense light having different wavelengths on adjacent photo-sensing cells, a signal processor configured to perform, based on a point spread function corresponding to each color pixel by the color separation lens array, deconvolution on sensing signals of the plurality of photo-sensing cells to process an image signal for each color obtained by the image sensor, and an image processor configured to form a color image from the image signal for each color processed by the signal processor.
US11935144B2
A system and method for managing requests for integrating a handheld customer interface with a point of sale (POS) system are disclosed. In one aspect, an integrated customer interface module is configured to communicate with a wireless mobile computing device of a customer and a POS system associated with a restaurant chain. The integrated customer interface module is configured to receive a request from the customer to check in to one of the chain's restaurants, automatically generate an order in the POS system, receive information regarding the customer from the remote database, and send at least a portion of the information regarding the customer to the POS system so as to be used as identification in the ordering and purchasing at the restaurant.
US11935137B2
A method for distributing an equity reward for federated learning based on an equity theory includes the following steps: applying Adams' equity theory to federated learning, analyzing, by a participant, all factors invested in a federated task comprehensively, then giving an expected reward for this task, calculating, by the task publisher, the reputation of the participant; participating, by the participant, in each round of a training task using a local data to evaluate data contribution, model contribution, and a waiting-time allowance of the participant, then combining contribution results of the three factors to evaluate the contribution of the participant; after a global model converges, dynamically adjusting weights of the three factors according to an objective function of the equity reward, with a goal that an actual reward of the participant is as close as possible to the expected reward, and obtaining and distributing the actual reward of the participant.
US11935128B2
A system for generating and managing usage-based contracts using blockchains configured to (i) store an insurance contract for a currently occurring or upcoming trip, where the insurance contract is to insure the driver, passenger, and/or vehicle during the trip, where the insurance contract includes terms, conditions, or other clauses (e.g., mileage limitations, limitations on autonomous vehicle operation, etc.) and is in a blockchain structure, and where several nodes store copies of the insurance contract in the blockchain structure; (ii) receive, from the driver and/or (autonomous) vehicle, a requested modification of one or more terms, conditions, or other clauses of the insurance contract, (iii) transmit the requested modification to an insurance auction network, (iv) receive a response to the request from the insurance auction network; and (v) store the response in a new block in the insurance contract (e.g., a smart contract) to facilitate providing trip insurance in a transparent manner.
US11935124B2
A method and system for associating information regarding an object with image objects is disclosed, wherein each image object is a visual data containers including an image associated with the object and data items relating to the object. A user may interact with a graphical user interface to create, modify, and associate image objects by means of the associated images. Information regarding the objects may be associated therewith by means of the image objects, and image objects may be associated with other image objects to generate associations between information regarding the underlying objects. Information regarding other image objects or the associated image may be used to determine information regarding the object, which may be associated with the image object. In some embodiments, associating two or more image objects may associate the underlying objects for purposes of insurance policies or may generate a new insurance policy based on the image objects.
US11935122B2
Systems for and methods of evaluating messaging, comprising, receiving, via at least one server device, one or more messages, and said at least one server device processing at least one of the one or more messages by grading content included in said at least one message, applying a weighting factor to said at least one message according to said grading, thereby determining a weighted message count for said at least one message, aggregating the weighted message count for said at least one message, and initiating an action if the aggregated weighted message count meets or exceeds a predetermined count threshold.
US11935120B2
A system may include a field programmable gate array (FPGA) based gateway comprising: a network interface configured to receive data packets containing proposed transactions, and validation logic circuitry configured to validate one or more headers or application-layer of the data packets in accordance with filter rules. The system may also include an FPGA based router comprising: a network interface configured to receive the data packets from the gateway, and parsing and lookup circuitry configured to compare the header field or application-layer field values in the data packets to those in a forwarding table. The system may also include an FPGA based matching engine comprising: a network interface configured to receive the data packets from the router, transaction validation circuitry configured to validate the proposed transactions based on information from state memory and policies, and matching algorithm circuitry configured to match pair of proposed transactions according to pre-determined criteria.
US11935118B2
A method for providing financial alerts includes retrieving financial transaction data for the plurality of financial instruments. The financial transaction data includes at least open price, close price, high price, low price, time and volume of individual financial transactions. Time periods for generating user requested information are identified. Price charts for the time periods are generated based on the retrieved financial transaction data. The generated price charts include one or more technical indicators. A financial alert configuration received from a user is analyzed. The financial alert configuration includes a trigger condition. The generated price charts are automatically analyzed to calculate the relative position of the technical indicator conditions that the user has selected in order to determine if one or more of the trigger conditions has been met. An alert notification is generated, in response to determining that the one or more trigger conditions has been met.
US11935113B2
Improved techniques and systems for delivery and acquisition of digital assets are disclosed. The techniques and systems are especially suitable and useful for delivering digital assets (e.g., media assets) that are available for acquisition and electronic delivery from online stores to electronic devices. In accordance with one aspect, when a digital asset is acquired from an online store via an electronic device associated with a user, the digital asset can be arranged for delivery to a number of other of electronic devices also associated with the user. It will be appreciated that the digital asset can be delivered and acquired without requiring explicit user input or instruction in accordance with another aspect. Other aspects of the techniques and systems include customization of configuration and user interfaces that are provided to facilitate acquisition of digital assets in a more efficient manner.
US11935112B2
A method for scan, try and/or buy may include receiving, from a mobile device, information that is representative of a clothing outfit. The clothing outfit may include a plurality of merchandise items available for purchase through a store. The information may be obtained by the mobile device by scanning a single code associated with the clothing outfit. The obtained information may be used to cause at least one user interface element associated with the clothing outfit to be displayed on the mobile device. In response to receiving a selection from the mobile device of the at least one user interface element, the plurality of merchandise items associated with the clothing outfit may be delivered to a merchandise check-out location within the store. The merchandise check-out location may be operable to receive payment from the user for the clothing outfit.
US11935111B2
A consumer is identified at a transaction terminal. A natural-language voice chatbot is initiated for the transaction. The chatbot is configured with store information for a store associated with the terminal and, optionally, with preferences registered to the consumer. A natural language voice dialogue using, at least the store information, is initiated between the chatbot and the consumer while the consumer is at the terminal and during the transaction. The consumer may order store items from the store and pay for the items through the dialogue. In an embodiment, the items ordered are delivered to the terminal where the consumer is located.
US11935110B2
A computer-implemented method and system may include receiving, at an e-commerce order processor, an order comprising at least one product, wherein the order is received in conjunction with an order completion event; receiving an order completion criterion; receiving an order change; and processing an order completion based on the order completion criterion.
US11935109B2
An online concierge system generates recipe embeddings for recipes including multiple items and user embeddings for users, with the recipe embeddings and user embeddings in a common latent space. To generate the user embeddings and the recipe embeddings, a model includes separate layers for a user model outputting user embeddings and for a recipe model outputting recipe embeddings. When training the model, a weight matrix generates a predicted dietary preference type for a user embedding and for a recipe embedding and adjusts the user model or the recipe model based on differences between the predicted dietary preference type and a dietary preference type applied to the user embedding and to the recipe embedding. Additionally cross-modal layers generate a predicted user embedding from a recipe embedding and generate a predicted recipe embedding from a user embedding that are used to further refine the user model and the recipe model.
US11935104B2
Systems and methods are provided for retail environments. In one implementation, a non transitory computer-readable medium may include instructions that when executed by a processor cause the processor to perform a method. The method may include receiving, from first sensors first sensed data indicating selection of a first product by a customer; determining, from the first sensed data, a first property associated with the first product; issuing a first query to the customer regarding the first property and, in response, receiving first information from the customer; comparing the first information with the first property; determining, based on the comparison, an integrity indicator associated with the customer; receiving, from second sensors second sensed data indicating a selection of a second product by the customer; determining, based on the integrity indicator, at least one action to determine a second property associated with the second product; and initiating the at least one action.
US11935097B2
Aspects of the subject disclosure may include, for example, obtaining a first plurality of inputs that identify a plurality of geographical locations and a plurality of infrastructure located at the plurality of geographical locations, classifying each of the plurality of geographical locations in accordance with the first plurality of inputs to obtain a plurality of classes, obtaining a second plurality of inputs that identify costs, revenue, profits, or any combination thereof, associated with the plurality of infrastructure, processing the second plurality of inputs in conjunction with the plurality of classes to identify a first plurality of locations included in the plurality of geographical locations to decommission infrastructure included in the plurality of infrastructure, and presenting the first plurality of locations via a device. Other embodiments are disclosed.
US11935096B1
A system and method according to which a donation transaction is conducted. The method includes providing, via a network, an embeddable form, wherein the embeddable form is associated with a non-profit, and wherein the embeddable form is adapted to be displayed on a graphical user interface to receive payment data and payment metadata associated with the payment data. The method also includes: transmitting, via the embeddable form and the network, the payment data to a third-party server for tokenization of the payment data; receiving, by a software development kit (“SDK”) and via the network, a unique token associated with the payment data, and the payment metadata associated with the payment data; executing, by the SDK, the donation transaction in accordance with the unique token and the payment metadata; and storing, by the SDK, the unique token associated with the payment data and the payment metadata.
US11935082B2
Computer-based systems and methods for discovering neighborhood clusters in a geographic region, where the clusters have a mix of venues and are determined based on venue check-in data. The mix of venues for the clusters may be based on the social similarity between pairs of venues; or emblematic of certain neighborhood typologies; or emblematic of temporal check-in pattern types; or combinations thereof. The neighborhood clusters that are so discovered through venue-check in data could be used for many commercial and civic purposes.
US11935071B2
A computing system that determines employee and organizational compliance includes one or more databases that store organizational data and one or more processors to execute instructions to perform various operations. The operations include accessing, from the organizational data, employee information associated with a first employee object, accessing, from the organizational data, jurisdictional information associated with a first jurisdiction object, importing one or more compliance parameters relating to the first jurisdiction object to generate one or more compliance rules parameterized for the first jurisdiction object, determining compliance with the one or more compliance rules parameterized for the first jurisdiction object with respect to the first employee object, based on the employee information and the one or compliance parameters, and providing an output indicating whether the one or more compliance rules parameterized for the first jurisdiction object are being complied with, with respect to the first employee object.
US11935070B2
A method and system may automatically provide a remote airline agent to a user. A server device receives pending requests to communicate with a remote airline agent from users each attempting to modify a flight segment or obtain assistance related to the flight segment. For each of the requests, the server device obtains flight information for the flight segments to identify a flight urgency level or a flight criticality level for the flight segment. The server device assigns a priority level to each of the pending requests based on one or more attributes associated with each pending request, ranks the pending requests in accordance with the assigned priority levels, and automatically connects to a client device for a highest ranked request of the pending requests to initiate a video chat between the user and the remote airline agent.
US11935069B2
Aspects of the present disclosure relate to proactive intervention in a software application. Embodiments include selecting, by a proactive intervention system related to an application, an event of a plurality of events related to use of the application for processing based on event priorities associated with the plurality of events. Embodiments further include receiving, by the proactive intervention system, contextual information related to the event. Embodiments further include determining, by the proactive intervention system, a proactive intervention based on the event and the contextual information. Embodiments further include determining, by the proactive intervention system, that the proactive intervention can presently be provided based on intervention availability data. Embodiments further include providing, by the proactive intervention system, the proactive intervention via a user interface associated with the application.
US11935064B2
Authenticating a secure element payment card includes transmitting a cold reset signal to the payment card and receiving an answer-to-reset message therefrom. The answer-to-reset message includes governing rules for performing a transaction, including a rule indicating that a secure data element is to be used to authenticate the payment card. The process also includes receiving payment account details for a payment account associated with the payment card. A payment authorization request message is transmitted to an interchange network and a card authentication request message is then received from the interchange network. The card authentication request message includes an encrypted instruction, which is transmitted to the secure element payment card. The secure data element is received from the payment card and a card authentication request response message is then transmitted to the interchange network. A payment authorization request response message is then received from the interchange network.
US11935052B2
A computer-implemented method for seamlessly processing transactions using distributed ledger technology. The method may comprise: linking one or more conventional accounts hosted in a conventional banking infrastructure to one or more DLT-based client accounts hosted on a distributed ledger, wherein the DLT application comprises a routing address configured to be used in conventional transaction infrastructure using conventional communication protocols; storing one or more wallet identifications for the one or more DLT-based client accounts and a mapping of the one or more wallet identifications to the one or more conventional accounts hosted in the conventional banking infrastructure; exchanging a sequence of messages to execute an asset transfer and complete a transaction lifecycle, the sequence of messages based on the first asset type; updating the distributed ledger based on the asset transfer; and sending appropriate messages to clients.
US11935049B2
Provided is a graph data processing method, including: acquiring a degree of association of each node in a network graph; splitting the network graph to obtain a dense subgraph according to the degree of association of each node; determining stable nodes in the network graph and coreness of the stable nodes based on the dense subgraph, the coreness of the stable nodes being greater than a preset threshold; obtaining a sparse subgraph in the network graph according to the preset threshold, and remaining nodes in the network graph other than the stable nodes and connecting edges between the remaining nodes; and determining the coreness of each node in the sparse subgraph based on the sparse subgraph and the stable nodes.
US11935041B2
Example embodiments of systems and methods for data transmission system between transmitting and receiving devices are provided. In an embodiment, each of the transmitting and receiving devices can contain a master key. The transmitting device can generate a diversified key using the master key, protect a counter value and encrypt data prior to transmitting to the receiving device, which can generate the diversified key based on the master key and can decrypt the data and validate the protected counter value using the diversified key.
US11935026B2
A payment terminal includes a magnetic card reader slot having a magnetic head, an IC card reader slot configured to be front of a user, and a first board with a touch area for a contactless payment arranged diagonally upward toward the user. The magnetic card reader slot is arranged toward the user obliquely upward with respect to a direction parallel to the plane. The magnetic card reader slot and the IC card reader slot are arranged, so that a swipe direction of the magnetic card into the magnetic card reader slot and an insertion direction of an IC card into the IC card reader slot are substantially perpendicular to each other. The magnetic card reader slot, the IC card reader slot, and the first board are arranged in this order from the plane in a height direction.
US11935022B2
According to an embodiment of the present invention, there is provided an unmanned store operation method of operating an unmanned store system including an unmanned store apparatus and an unmanned store server, the unmanned store operation method including: a user identification step of identifying a user adjacent to the unmanned store apparatus; a door opening step of unlocking the door of the unmanned store apparatus by controlling a door unit of the unmanned store apparatus; a purchase target product identification step of identifying a product selected by the user and removed from the product storage unit of the unmanned store apparatus based on the analysis of an image photographed by a camera unit; and a payment processing step of processing payment based on the identification information of the user.
US11935019B1
A system for managing a financial account in a low cash mode. The system may include a memory storing instructions, and a processor configured to execute the instructions to perform operations. The operations may include providing an interface; providing a notification to a user when a balance in the first account is deemed to be in low cash mode; presenting, when the first account balance is deemed to be in low cash mode, an option for a transfer request; receiving, a selection of the option for the transfer request to connect the first account with a second account; transferring funds from the second account to the first account; notifying the user that funds have been transferred from the second account to the first account; and further notifying the user that the balance in the first account is greater than the threshold value.
US11934993B2
Systems, methods, and apparatus are disclosed that provide a pickup process for items purchased from a store. In some embodiments, a mobile computing device of a customer may determine whether the mobile computing device and therefore the customer are in a pickup zone for a store. In response to determining that the mobile computing device is in the pickup zone, the mobile computing device may notify the customer and request whether the customer wishes to initiate pickup of purchased items from the store. The mobile computing device may notify a merchandise pickup system of the customer's desire to pickup the purchased items.
US11934990B2
Disclosed is a an apparatus for performing smart logistics monitoring including a display unit, a memory, a sensor unit sensing at least one of a temperature, acceleration, humidity, illuminance, inclination, impact, and location of an inside of a logistics vehicle, and a control unit that generates respective status information of a logistics according to a sensed result at a predetermined period, generates a respective QR code indicating the respective status information, and displays the respective QR code on a screen of the display unit. The respective QR code is converted and displayed on the screen depending on an order in which the respective QR code is generated.
US11934982B2
A computer implemented method includes obtaining, by the computer, assay data for a feedstock containing measurements for one or more aspects of the first feedstock, a first equipment model containing properties of processing units, and processing conditions containing one or more variables by which the first feedstock will be processed by the processing units. The computer determines a corrosion amount of the processing units using the processing conditions, the properties of the processing units contained in the equipment model, and the assay data for the feedstock, and stores/displays the corrosion amount of the processing units. A safety warning may be displayed, and the feedstock rejected if the corrosion amount exceeds a predetermined safety level for one or more of the processing units.
US11934981B2
A technique is described for implementing drones as a service. As an example, a drone may receive instructions from one or more network elements, coordinate operations with the one or more network elements, and perform at least one task associated with the instructions. The drone may deliver a container to a first location and perform object recognition to validate an object of a subscriber being delivered to a second location. The drone may measure the weight and dimensions of the object to confirm the object is within operating guidelines. After verifying the object is within operating guidelines, the drone may transport the container containing the object to the second location.
US11934980B2
According to some embodiments, a communication device database may store information about a plurality of communication devices, including at least one communication address associated with each communication device, wherein each communication device is associated with a resource unit. Moreover, a network based segmentation server may access information in a resource status database, automatically assign each resource unit to a resource segment based on at least one pre-determined algorithm and information in the resource status database, and transmit information about the resource segments. A scheduling server, coupled to the segmentation server, may receive the information about the resource segments from the segmentation server, automatically schedule a series of communication events with communication devices in accordance with the resource segments, using the communication addresses, via the distributed communication network, and arrange for communication links to be established for resource units in accordance with the scheduled series of communication events.
US11934979B1
Techniques are generally described for onboarding optimization for new hires. In various examples, labor order data specifying a target number of new hires may be received. In some examples, a first machine learning model may predict a number of new hire appointments to offer based at least in part on the labor order data. In further examples, an optimization component may allocate the number of new hire appointments to respective time slots based at least in part on candidate preferences. In some additional examples, data may be sent to a first application effective to display a list of available new hire appointment time slots of the respective time slots.
US11934975B2
A resource processing method and apparatus. The method is achieved by a computer configured to execute the following steps: generating a resource allocation chart based on a resource allocation request; processing the resource allocation chart and generating an access entrance of the resource allocation chart; opening the access entrance to enable at least one third party resource supplier to respond to the resource allocation request via the access entrance. The method further comprises: when the resources are not available or not suitable for allocation, receiving a resource allocation chart, wherein the resource allocation chart is based on the resource allocation request; generating an access entrance of the resource allocation chart; opening the access entrance to at least one third party resource supplier; and receiving the allocated resources from the at least one third party resource supplier by responding to the resource allocation request through the access entrance.
US11934970B2
An abduction apparatus 1 includes: a probability calculation unit 2 configured to, with respect to each of candidate hypotheses generated using observation information and knowledge information, calculate a probability that the candidate hypothesis holds true as an explanation of the observation information; and a reward selection unit 3 configured to, when the candidate hypothesis holds true, select a reward value regarding the candidate hypothesis that has held true by referring to reward definition information in which a condition that the candidate hypothesis holds true is associated with the reward value.
US11934967B2
A management system operates in conjunction with entities to provide component recommendations for objects. The management system trains a machine learning model used to generate the component recommendations. The machine learning model is trained based on historical component entries describing components previously provided and identifiers of the components. The management system generates training data by classifying the historical component entries into predetermined component classifications. After the machine learning model is trained, the management system generates a customized recommendation of components for an object based on likelihoods of selection of the predetermined component classifications.
US11934966B2
A building system including one or more storage devices storing instructions thereon that, when executed by one or more processors, cause the one or more processors to receive an indication to execute an artificial intelligence (AI) agent of a digital twin, the digital twin including the AI agent and a graph data structure, the graph data structure including nodes representing entities of a building and edges between the nodes representing relationships between the entities of the building. The instructions cause the one or more processors to execute the AI agent based on data of the building to generate an inference that is a prediction of a future data value of a data point of the building for a future time and store at least one of the inference, or a link to the inference, in the graph data structure.
US11934964B2
System and methods for performing analytical operations are described. A hardware-based regular expression (RegEx) engine performs a regular expression operation on a stream of data units based on a finite automata (FA) graph. Performing includes configuring a regular expression engine of a hardware-based regular expression accelerator to, beginning at a root node in the plurality of nodes of the FA graph, step the regular expression engine through one or more nodes of the FA graph until the regular expression engine arrives at a skip node and to consume, at the skip node, two or more data units from the stream of data units before traversing one of the directional arcs to another node.
US11934961B2
A mobile device with a route prediction engine is provided that can predict current/future destinations or routes to destinations for the user, and can relay prediction information to the user. The engine includes a machine-learning engine that facilitates the formulation of predicted future destinations and/or future routes to destinations based on user-specific data. The user-specific data includes data about (1) previous destinations traveled, (2) previous routes taken, (3) locations of calendared events, (4) locations of events for which the user has electronic tickets, and/or (5) addresses parsed from e-mails and/or messages. The prediction engine relies on one or more of user-specific data stored on the device and data stored outside of the device by external devices/servers.
US11934958B2
This disclosure describes one or more embodiments of systems, non-transitory computer-readable media, and methods that utilize channel pruning and knowledge distillation to generate a compact noise-to-image GAN. For example, the disclosed systems prune less informative channels via outgoing channel weights of the GAN. In some implementations, the disclosed systems further utilize content-aware pruning by utilizing a differentiable loss between an image generated by the GAN and a modified version of the image to identify sensitive channels within the GAN during channel pruning. In some embodiments, the disclosed systems utilize knowledge distillation to learn parameters for the pruned GAN to mimic a full-size GAN. In certain implementations, the disclosed systems utilize content-aware knowledge distillation by applying content masks on images generated by both the pruned GAN and its full-size counterpart to obtain knowledge distillation losses between the images for use in learning the parameters for the pruned GAN.
US11934944B2
Methods and systems are provided for training a neural network with augmented data. A dataset comprising a plurality of classes is obtained for training a neural network. Prior to initiation of training, the dataset may be augmented by performing affine transformations of the data in the dataset, wherein the amount of augmentation is determined by a data augmentation variable. The neural network is trained with the augmented dataset. A training loss and a difference of class accuracy for each class is determined. The data augmentation variable is updated based on the total loss and class accuracy for each class. The dataset is augmented by performing affine transformations of the data in the dataset according to the updated data augmentation variable, and the neural network is trained with the augmented dataset.
US11934941B2
A neural processor circuit includes one or more planar engine circuits that perform non-convolution operations in parallel with convolution operations performed by one or more neural engine circuits. The neural engine circuits perform the convolution operations on neural input data corresponding to one or more neural engine tasks to generate neural output data. The planar engine circuits perform non-convolution operations on planar input data corresponding to one or more planar engine tasks to generate planar output data. A data processor circuit in the neural processor circuit addresses data dependency between the one or more neural engine tasks and the one or more planar engine tasks by controlling reading of the neural output data as the planar input data by the planar engine circuits or reading of the planar output data as the neural input data by the neural engine circuits.
US11934931B2
In an embodiment, a computer-implemented method for training a decision tree using a database system, the decision tree comprising a plurality nodes, comprises, by one or more computing devices: storing in a database input data for training the decision tree, the input data comprising a plurality of feature values corresponding to a plurality of features; generating a particular node of the plurality of decision nodes by: selecting a subset of the plurality of features and a subset of the input data; using one or more queries to the database system, for each feature of the subset of the plurality of features, calculating an information gain associated with the feature based on the subset of the input data; identifying a particular feature of the subset of the plurality of features associated with the highest information gain; associating the particular node with the particular feature, wherein the particular node causes the decision tree to branch based on the particular feature.
