US12069761B2
A method and apparatus for data transfer in RRC_INACTIVE state is provided. Method for data transfer in RRC_INACTIVE state includes receiving configuration information for second resume procedure in RRCRelease, receiving configuration information for second resume procedure in System Information, and triggering a PHR. The triggered PHR is canceled if specific conditions are fulfilled.
US12069757B2
A communication system includes a user apparatus; and a base station including a distributed unit (DU) configured to wirelessly communicate with the user apparatus and a central unit (CU) connected to the distributed unit. The base station including the CU and the DU supports packet duplication, and the DU notifies the user apparatus of starting the packet duplication.
US12069746B2
An evaluating user equipment (UE) includes memory and one or more processors communicatively coupled to the memory. The one or more processor are configured to schedule periodic resources with one or more configured feedback-based collision detection parameters, and perform a periodic transmission to one or more receiving UEs. The one or more processors are also configured to collect negative acknowledgement (NACK) statistics for the periodic transmission according to the configured feedback-based collision detection parameters, and selectively perform corrective action based on the collected NACK statistics and at least one of the configured feedback-based collision detection parameters.
US12069738B2
Systems, methods, and instrumentalities are disclosed for concurrent link setup and downlink data retrieval, e.g., for high efficiency WLAN. An access point (AP) may send a trigger element that allocates a resource for pre-association transmissions with the AP. The trigger element may allocate the resource for random access and/or deterministic access. The AP may receive, from an unassociated STA, a first frame via one or more resource units (RUs) allocated in the trigger element. The AP may determine a pre-association identifier (PID) that identifies the unassociated STA. The AP may send the PID to the unassociated STA, for example, in the trigger element or in the multi-STA ACK. The AP may send a second frame associated with a multi-user (MU) transmission that includes the PID. The AP may send a trigger frame that includes the PID.
US12069732B2
A random access method and a device thereof are provided. The method includes that a base station receives a random access preamble and sends a Random Access Response (RAR) according to the random access preamble, where the RAR indicates at least two time-frequency units, and the at least two time-frequency units are time-frequency units having different time domains on an unlicensed channel. Further, the base station receives a first random access message 3 (MSG3) sent on a first time-frequency unit by a first terminal and sends a first random access message 4 (MSG4) to the first terminal, where the first time-frequency unit is any one of the at least two time-frequency units, where the first MSG3 includes a terminal identifier of the first terminal, where the first MSG4 carries a terminal identifier of the first terminal and a first Cell-Radio Network Temporary Identifier allocated to the first terminal.
US12069727B2
The invention relates to methods and communication devices in a network comprising the steps of mapping and allocating a first random access resource to a first frequency in an uplink subframe of a radio frame, and transmitting an expression on the radio channel expressing mapping of the first random access resource to use in relation to at least one uplink subframe.
US12069721B2
A wireless device may receive configuration parameters of a plurality of cells and a SR configuration. The SR configuration may be associated with recovery from consistent LBT failure. The SR configuration may be for requesting resources on one or more first cells of the plurality of cells and excluding resources on other cells of the plurality of cells. No resources on one or more cells for which the consistent LBT failure is not triggered may be available for transmission of an LBT failure control element. The wireless device may transmit a SR based on the SR configuration. The wireless device may receive an uplink grant for a first cell of the one or more first cells. The wireless device may transmit the LBT failure control element based on the uplink grant.
US12069717B2
A communication control method used in a user equipment and user equipment that performs a predetermined data transmission in which uplink user data is transmitted during a random access procedure include transmission of a first message for the predetermined data transmission while in a predetermined RRC state in which an RRC connection is suspended to a base station. After transmitting the first message, a second message is received from the base station for maintaining the user equipment in the predetermined RRC state. A communication control method and base station include reception of a first message for the predetermined data transmission at the base station from a user equipment that is in a predetermined RRC state in which an RRC connection is suspended during a random access procedure. After receiving the first message, a second message is received for maintaining the user equipment in the predetermined RRC state.
US12069715B2
The present invention relates to NR communication. A method for a user equipment provided with a plurality of panels or antennas to transmit an uplink signal to a plurality of transmission reception points (TRPs) comprises the steps of: receiving Downlink Control Indicators (DCI) including first to n-th field values; and transmitting identical uplink data to the plurality of TRPs by using the same number of antenna ports on the basis of the DCIs, wherein the first field value among the first to n-th field values may be determined on the basis of a Transmission Rank Indicator (TRI) and a Transmit Precoder Matrix Indicator (TPMI) corresponding to the selected first TRP among the plurality of TRPs, the second to n-th field values may be determined on the basis of second to n-th TPMIs respectively corresponding to the remaining second to n-th TRPs other than the selected first TRP, and the TRIs corresponding to the second to n-th field values may be determined on the basis of the TRI in the first field value.
US12069714B2
A user equipment in a wireless communications system supporting direct communication between user equipments selects a sidelink destination group (ProSe destination) associated with a sidelink logical channel having a highest logical channel priority among sidelink logical channels, which have data available for transmission in a sidelink control period (SC period) and which have not previously been selected in the same SC period, wherein each of the sidelink logical channels belongs to a sidelink destination group, each of the sidelink logical channels is allocated to a logical channel group (LCG) depending on a priority of said each sidelink logical channel and on a priority of the logical channel group, and the logical channel group is defined per sidelink destination group. The user equipment allocates radio resources to sidelink logical channels belonging to the selected sidelink destination group in decreasing priority order, and transmits the data using the allocated radio resources.
US12069710B2
A method for operating an electronic device comprises obtaining information about signal quality measurements associated with a channel; generating newly obtained signal quality measurements based on a beam-sweeping procedure, wherein each signal quality measurement is associated with a respective measurement time and a respective transmit beam; adjusting the newly obtained signal quality measurements based on the measurement times and positional information of the electronic device; and updating a first measurement database of signal quality measurements with the adjusted signal quality measurements.
US12069707B2
A change of a resource allocation scheme in a multi-pen supporting electronic apparatus can be made in a shorter period of time than in the prior art. A sensor controller 50 assigns communication resources to one or more pens 2, respectively, and detects a position of each of the one or more pens 2 on the basis of a downlink signal DS received from each of the one or more pens 2 using the assigned communication resources. When changing a resource allocation scheme, which indicates a structure of the communication resources or a method of using the communication resources, the sensor controller 50 broadcasts information indicating a new resource allocation scheme to the one or more pens 2.
US12069704B2
Aspects include a machine learning based resource block scheduler configured to meet service level requirements of applications. Aspects include receiving a plurality of scheduling requests each associated with a respective application of a plurality of applications on a plurality of wireless devices, identifying a plurality of current channel state information each associated with one of the plurality of wireless devices, and identifying a plurality of different types of service level requirements each associated with one of the plurality of applications. Further, the aspects include determining, by a machine learning based scheduler based on each of the plurality of current channel state information, a sequence of resource assignments expected to meet the plurality of different types of service level requirements, the sequence of resource assignments including a plurality of grants of a scheduled assignment of a resource, and transmitting respective grants for the respective applications to the wireless devices.
US12069702B2
Methods, systems, and devices for wireless communications are described. One method for coverage enhancement may include a base station transmitting control signaling to one or more user equipments (UEs) using a same beam configuration to perform a coverage enhancement procedure for uplink transmissions. In response, one or more UEs may determine one or more transmission parameters for uplink transmission based on the coverage enhancement procedure. In some cases, the coverage enhancement procedure may include the UEs transmitting additional repetitions of an uplink transmission, using additional time or frequency resources, or any combination thereof. In some cases, the UEs may use different coverage enhancement procedures. Accordingly, the one or more UEs may transmit an uplink transmission based on the one or more transmission parameters.
US12069701B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive, from a base station, an indication of a configuration for a time domain (TD) control resource set (CORESET) for single carrier waveforms that dynamically changes one or more parameters associated with the TD CORESET. The UE may receive, from the base station, a physical downlink control channel based at least in part on the indication of the configuration for the TD CORESET. Numerous other aspects are described.
US12069700B2
A wireless transmit/receive unit (WTRU) may receive downlink control information (DCI) including an uplink grant. The WTRU may determine available processing time based on the end of a time unit at the end of the DCI and the start of a time unit at the start of a transmission scheduled by the uplink grant. On a condition that the available processing time is at or above a threshold, the WTRU may transmit the transmission scheduled by the uplink grant. In an example, the wherein the time unit at the end of the DCI may be a first symbol and the time unit at the start of a transmission scheduled by the uplink grant may be a second symbol. Further, the transmission scheduled by the uplink grant may be a physical uplink shared channel (PUSCH). Also, the available processing time may include a timeline value indicated by the DCI.
US12069695B2
This disclosure relates to techniques for physical downlink control channel handling when a secondary cell group is activated in a wireless communication system. A wireless device may establish a wireless link with a master cell group. A secondary cell group may be configured. The wireless device may receive an indication to activate the secondary cell group without performing a random access channel procedure on the secondary cell group. The wireless device may determine quasi-co-located information for a physical downlink control channel of the secondary cell group. The wireless device may perform physical downlink control channel decoding for the physical downlink control channel of the secondary cell group using the determined quasi-co-located information.
US12069686B2
Methods, systems, and devices for wireless communications are described. Generally, individual physical downlink control channel (PDCCH) candidates of a first search space (SS) set in a first transmission time interval (TTI) may be linked to corresponding PDCCH candidates of a second SS set in a second TTI. The UE may count combinations of the PDCCH candidates in the first TTI and the PDCCH candidates in the second TTI toward a blind decoding (BD) limit of only the second TTI, or the BD limit of the first TTI and the BD limit of the second TTI. The first SS set and second SS set may be in the same TTI. The UE may consider, with respect to a BD limit, a first set of PDCCH candidates, a second set of PDCCH candidates, and a combination of the first and second set of PDCCH candidates, together, or separately, or any combination thereof.
US12069683B2
Methods, systems, and devices for wireless communications are described. Generally, a base station may dynamically and reliably indicate that pending transmissions are part of a full duplex operation via downlink control information (DCI) designs described herein. For example, a base station may transmit, to a user equipment (UE) a DCI including no more than one downlink grant and no more than one uplink grant for a full duplex operation. In some examples, the base station may transmit a first-stage DCI including partial information, and second-stage DCIs including full uplink and downlink grants for a full duplex operation. In some examples, the base station may configure periodic or semi-periodic uplink and downlink resources that may overlap in time, and may dynamically indicate, to the UE, whether the overlapping uplink and downlink resources are scheduled for a full duplex operation.
US12069682B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive, from a base station, a first radio resource control (RRC) configuration message that is associated with a first subband and that indicates a first set of transmission configuration indicator (TCI) states for use on the first subband. The UE may further receive, from the base station, a second RRC configuration message that is associated with a second subband included in the wideband channel and that indicates a second set of TCI states for use on the second subband. As an alternative, the UE may receive, from the base station, an RRC configuration message that includes at least a first list of first TCI states associated with a first subband and a second list of second TCI states associated with a second subband. Numerous other aspects are described.
US12069678B2
Disclosed in the present invention are a method for performing uplink transmission in a wireless communication system and a device for same. Specifically, a method, by which a user equipment (UE) transmits a sounding reference signal (SRS) in a wireless communication system, may include: a step for receiving setting information related to the transmission of the SRS; and a step for transmitting the uplink control channel on the basis of the setting information, wherein the setting information includes settings indicating at least one of i) a transmission unit or ii) a beam related to the transmission of the SRS. The transmission unit and the beam may be determined on the basis of i) an uplink reference signal transmitted by the UE or ii) a downlink reference signal received by the UE.
US12069673B2
According to an embodiment of the disclosure, there is provided a method, performed by a base station, of configuring beam information of a physical downlink control channel (PDCCH) in a wireless communication system, the method including: configuring at least one or more transmission configuration indication (TCI) states connected to a control resource set (CORESET) through radio resource control (RRC); indicating a TCI state including the beam information of the PDCCH among the at least one or more TCI states through a medium access control control element (MAC CE); and transmitting the PDCCH, based on the TCI state including the beam information of the PDCCH.
US12069672B2
A method for monitoring scheduling information in a wireless communication system, and a device using the method are provided. The method: receives first configuration information about a search space of a first cell and second configuration information about the search space of a second cell; and monitors scheduling information for scheduling the second cell in the search space of the first cell, wherein the number of physical downlink control channel (PDCCH) candidates per aggregation level (AL) to be used in the search space of the first cell is determined on the basis of the second configuration information.
US12069669B2
A method, apparatus, and computer program for controlling allocation of control message fields in uplink transmission in a cellular telecommunication system are presented. Uplink control message fields are allocated to the resources of a physical uplink shared traffic channel according to an uplink transmission scheme selected for a user terminal. The control message fields are allocated so that transmission performance of the control messages is optimized for the selected uplink transmission scheme.
US12069662B2
The application discloses a signal transmission method and device. The signal transmission method comprises: a first communication node determining a mode for transmitting data in a time unit to a second communication node; and the first communication node transmitting data to the second communication mode in the time unit according to the determined mode for transmitting data. The data includes N data sets, where N is a positive integer. A data transmission method for M data sets in the data is known by the second communication node. Related information of a data transmission method for (N−M) data sets is notified to the second communication node by the first communication node by means of a control signal in the time unit, where M is less than or equal to N.
US12069643B2
Aspects are provided which allow a user equipment (UE) to identify a low-bandwidth (low-BW) CORESET-0 and associated CSS based on reception bandwidth of the UE. The base station may configure different frequency and time-domain resources of the low-BW CORESET in order to optimize resource utilization of the low-BW CORESET-0, and the low-tier UE may identify these resources of CORESET-0 and CSS from the system configuration information received in a master information block (MIB). As a result, low tier UEs may operate in a same cell as legacy UEs without the need for the base station to transmit additional signaling to either legacy UEs or lower tier UEs for the UEs to receive their respective CORESET-0's and identify a physical downlink channel (PDCCH).
US12069642B2
The present invention relates to a method performed in a wireless communication system supporting multiple transport block scheduling, and a device therefor, the method comprising: receiving downlink control information (DCI) for scheduling of one or more transport blocks; on the basis of the number of the transport blocks to be scheduled, which is one, acquiring 2-bit information for a redundancy version of one transport block and 1-bit information for frequency hopping indication of the one transport block, from the DCI; and on the basis of the number of the transport blocks to be scheduled, which is two, acquiring 2-bit information for frequency hopping indication and a redundancy version of two transport blocks, from the DCI.
US12069640B2
This application provides a method for determining a correspondence between a transport block and a codeword, a related device, and a system. The method includes: A terminal device receives first downlink control information (DCI), where the first DCI is used to indicate the terminal device to receive a first transport block on a first time-frequency resource; and the terminal device determines, based on first information, that the first transport block is mapped to a first codeword, where the first information includes at least one of the following: first search space in which the first DCI is located, a first DCI format corresponding to the first DCI, a first radio network identifier (RNTI) used for scrambling the first DCI, or a first bit field included in the first DCI.
US12069634B2
Methods and apparatuses for predictive beam management in a wireless communication system. A method of operating a user equipment (UE) includes receiving configuration information for transmission configuration indication (TCI) states; receiving information indicating a number of TCI states and a number of corresponding TCI state application times; and determining, for one or more TCI states in the number of TCI states, at least one of downlink (DL) quasi-co-location (QCL) properties for DL communication and an uplink (UL) spatial domain filter for UL communication. The method further includes at least one of receiving, using the determined DL QCL properties, DL channels starting at the corresponding TCI state application times and transmitting, using the determined UL spatial filter, UL channels starting at the corresponding TCI state application times.
US12069632B2
Provided is a communication system that can be normally and efficiently operated in the case where existing carriers and new carrier types coexist. A base station device and a communication terminal device are configured to perform communication in cells of legacy carriers LC1 to LC3 being existing carriers. When the base station device starts operating new carrier types NCT1 and NCT2, the NCT1 and NCT2 are associated with legacy carriers belonging to the same frequency band. For example, the NCT2 is associated with the LC2 or the LC3 and is not associated with the LC1. The legacy carriers LC1 to LC3 associated with the NCT1 and the NCT2 notify the communication terminal device of the information on the NCT1 and NCT2. This allows the communication terminal device to communicate with the NCT1 and the NCT2.
US12069622B2
Provided is s a method for a base station to allocate a time interval resource to transceive a downlink data channel (PDSCH) or an uplink data channel (PUSCH). The method include allocating a time interval resource for each OFDM symbol on the basis of a slot or a mini-slot, transmitting, to a terminal, time interval resource configuration information including OFDM symbol allocation data for OFDM symbols used for data channel transception in the slot or the mini-slot, and transmitting, to the terminal, control information selecting one of the symbol allocation data included in the time interval resource configuration information.
US12069619B2
Provided are feedback resource determination method and apparatus for a V2X service, a storage medium and a terminal. The method includes: acquiring a first resource set including a time domain position of at least one first resource which is a transmission resource for PSSCH; determining a candidate time domain position of a second resource corresponding to the first resource based on the time domain position of the first resource and associated feedback information, wherein the second resource is a transmission resource for PSFCH, and the associated feedback information indicates a time difference between PSSCH and PSFCH; determining whether symbols occupied by the candidate time domain position include an unavailable symbol which cannot be used to transmit the second resource; determining the candidate time domain position as a time domain position of the second resource based on the symbols occupied by the candidate time domain position not including the unavailable symbol.
US12069618B2
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. In addition, according to the disclosure, a method of a terminal in a wireless communication system comprises the steps of: receiving, from a base station, configuration information including first bandwidth part (BWP) configuration information on a sidelink and information on a resource pool; identifying a resource pool for the sidelink based on the configuration information; and performing communication with another terminal based on the resource pool, wherein the information on the resource pool includes the lowest physical resource block (PRB) index of the resource pool.
US12069613B2
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may prioritize a transmission scheme for a transmission configuration indication (TCI) state for receiving a downlink message from one or more transmission reception points (TRPs). The UE may receive a downlink control message via a first carrier that schedules a downlink signal for the UE via a second carrier. The UE may select one or more TCI states for reception of the downlink signal based at least in part on the prioritization of the first transmission scheme. The UE may receive the downlink signal via the second carrier in accordance with the selected one or more TCI states.
US12069609B2
A UE may select one or more paging attributes for paging reception. The one or more paging attributes may be selected from a set of network supported paging attributes. The UE may transmit, to a network, an indication of the one or more paging attributes for paging reception. The UE may receive, from the network, a response message based on the indication of the one or more paging attributes. The response message may include a first UE group number. The first UE group number may be based on at least the one or more paging attributes. The UE may receive a paging indication including a UE group number. The UE may proceed to receive and decode the paging message associated with the paging indication when the UE group number in the paging indication matches the first UE group number. Otherwise, the UE may safely disregard the paging message.
US12069603B2
A method may include determining a timing advance-limited cell maximum range based on a requested preamble format broadcasted by a network node. The method may also include in response to the user equipment being outside of the timing advance-limited cell maximum range, sending a random access preamble with an initial uplink channel timing adjustment to fit an indicated subframe dedicated for a hearing window. The method may also include in response to the user equipment being outside of the timing advance-limited cell maximum range, additional timing adjustment for any uplink transmission in order to maintain uplink to downlink channel synchronization. In a variant, the method may also include in response to the user equipment being outside of the timing advance-limited cell maximum range, additional timing adjustment for any uplink transmission in order to maintain uplink to downlink channel synchronization.
US12069592B2
The present disclosure provides a data transmission method and device. The method includes: sending a first signal and a demodulation reference signal DMRS corresponding to the first signal to a second device; wherein the first signal includes at least one data stream, and each data stream corresponds to one DMRS port, one DMRS port corresponds to one or more of the following in different subbands: different power amplifiers, different sounding reference signal ports, or different first signal ports.
US12069585B2
A wireless device performs an uplink transmission, such as an idle-mode uplink transmission using preconfigured uplink resources (PUR). The wireless device determines whether a serving-cell signal measurement M2 was completed within a predetermined range of time before a reference time T2, the reference time T2 corresponding to an uplink transmission opportunity. Responsive to determining that the serving-cell signal measurement M2 was not completed within the predetermined range of time, the wireless device either defers transmission to a subsequent transmission opportunity, or drops the uplink transmission, or collects an additional serving-cell measurement M2′ that falls within the predetermined range of time, for use in validating a TA for transmitting at the transmission uplink opportunity and/or for estimating a PL for power control of a transmission at the uplink transmission opportunity.
US12069584B2
According to an example embodiment, a method may include detecting, by a user equipment in a wireless network, a power exposure event for the user equipment (e.g., a Maximum Permissible Exposure (MPE) event); and sending, by the user equipment to a base station, a message including at least a user equipment identifier identifying the user equipment, information indicating that the detected power exposure event for the user equipment is a trigger for the sending of the message, and information identifying at least one of: a reduced maximum output power value for the user equipment and/or a reduced maximum uplink duty cycle for the user equipment, based on the detected power exposure event.
US12069572B2
This disclosure provides systems, devices, apparatus, and methods, including computer programs encoded on storage media, for multi-cell scheduling for power saving. A UE may receive a configuration of one or more first parameters for control channel monitoring based on a first type of scheduling and one or more second parameters for the control channel monitoring based on a second type of scheduling. The UE may monitor for DCI of the first type of scheduling based on a first condition of a scheduling cell and switch from monitoring for the DCI of the first type of scheduling to monitoring for the DCI of the second type of scheduling based on a second condition of a scheduled cell. The UE may receive scheduling information for at least one of a PDSCH or a PUSCH based on the second type of scheduling.
US12069571B2
Techniques discussed herein can facilitate configuration of a User Equipment (UE) with two or more Discontinuous Reception (DRX) configurations. A first set of techniques can facilitate configuration of the UE with independent DRX configurations for Frequency Range 1 (FR1) and for Frequency Range 2 (FR2). A second set of techniques can facilitate configuration of the UE with independent DRX configurations for a first set of one or more Component Carriers (CCs) associated with a first frequency band of a supported band combination and for a second set of one or more CCs associated with a second frequency band of the supported band combination. Various embodiments can employ techniques of one or more of the first set of techniques or the second set of techniques.
US12069567B2
Fast network scanning is enabled by an accessory for a mobile phone. The accessory captures a wideband spectrum via a software defined radio that is independent of the mobile phone itself. The accessory consumes less than 3 W while verifying multiple base stations, of various standards, in an area. To achieve such a low power consumption, the accessory dynamically controls frequency, gain and bandwidth according to a prioritization of processing threads and a target scanning speed.
US12069559B2
The disclosure relates to a method for operating a network function, NF1, of a first network slice, NSI-2, wherein the method comprises establishing an end-to-end path from NF1 of NSI-2 to a network function, NF2, of a second network slice, NSI-1. Moreover, the disclosure relates to a corresponding communication network.
US12069553B2
In one implementation, a wireless security system premises gateway component includes a first local area wireless communication component adapted to communicate wirelessly with plural wireless security system sensors distributed at a premises; a second local area wireless communication component adapted to communicate wirelessly with a general purpose mobile communications device; a communications interface component adapted to communicate with a wide area communications network that is located remotely of the premises; a security system controller component adapted to communicate with the general purpose mobile communications device to provide state information regarding the security system and to provide control inputs to the security system; and a single gateway housing configured and sized to house the first local area wireless communication component, the second local area wireless communication component, the communications interface component, and the security system controller.
US12069550B2
The present invention provides a vehicle-to-X (V2X) operation method performed by a V2X terminal in a wireless communication system, the method comprising: selecting, in a selection period, a subframe excluding a subframe relating to a subframe in which transmission has been performed during a sensing period; and performing a V2X communication on the basis of the selected subframe.
US12069549B2
Apparatuses, methods, and systems are disclosed for multiple zone configuration. One method includes configuring a first device with first information indicating a first zone configuration comprising a first plurality of zones. The method includes configuring the first device with second information indicating a second zone configuration comprising a second plurality of zones, wherein: a first area corresponding to zones of the first plurality of zones is smaller than a second area corresponding to zones of the second plurality of zones; and the first plurality of zones corresponds to a same geographical area as the second plurality of zones.
US12069542B1
This disclosure proposes a system in which two redundant asset tracking devices are used to monitor a single asset (such as a vehicle, which may contain a group of assets in cargo) via two distinct communication systems that operate in parallel, and which may operate in addition to any primary mode of communication used by the asset tracking devices (e.g., cellular communication). In some examples, each asset tracking device may communicate through separate and distinct satellite communication networks.
US12069533B2
Systems and methods of receiving, from a computing system, location-specific information, the location-specific information corresponding to a first location of a plurality of locations of a bank branch, receiving a first user input relating to a search query via a first graphical user interface displaying the location-specific information, receiving, from the computing system, an updated real-time listing of employees that match the search query, displaying the updated real-time listing of employees in the first graphical user interface, receive, via the first graphical user interface, a second user input corresponding to a selection of a specific employee from the updated real-time listing of employees available at the bank branch, receive, from the computing system, additional details concerning the specific employee, and display, using the first graphical user interface, the additional details concerning the specific employee.
US12069531B2
Embodiments of the present invention disclose a terminal behavior triggering method and a terminal. The method includes: detecting an environment parameter of a terminal and a terminal status parameter of the terminal; determining a target situation event based on the environment parameter and/or the terminal status parameter; and if the environment parameter meets a first preset condition, and the terminal status parameter meets a second preset condition, triggering a terminal behavior corresponding to the target situation event.
US12069519B2
A method is provided for avoiding context transfers by a first Access and Mobility Management Function (AMF) connected to a first gNB to a second AMF when a user equipment (UE) in idle mode moves from the first gNB to a second gNB. The method may include provisioning the first AMF and the second AMF with the same tracking area identity (TAI), the first AMF and the second AMF s being connected to a respective enterprise gNB. The method may also include configuring the 5G packet core network comprising a session management function (SMF) in communications with the first AMF and the second AMF, to avoid transferring a UE context from the first AMF to the second AMF when the user equipment (UE) in the idle mode moves from a first AMF to the second AMF. The UE context remains with the first AMF.
US12069516B1
Technology for wireless transmission and reception of messages is disclosed. The disclosed technology includes detection and/or reception of messages in a manner in which the receiver latency for a message is automatically adjusted for each particular message. For example, the receiver latency for each message may be automatically adjusted based on channel conditions, e.g., instantaneous channel conditions, between the transmitter and receiver at the time that message is transmitted/received. For example, the receiver latency for a message may be proportional or otherwise associated with to the signal-to-noise ratio (“SNR”) at the receiver at the time that message is received.
US12069514B2
A method, a computer-readable medium, and an apparatus are provided. The apparatus may include a first IAB-donor-CU. The apparatus may receive a first request from a second IAB-donor-CU to route a first traffic between a first IAB node associated with the second IAB-donor-CU and a second IAB node associated with the first IAB-donor-CU. The apparatus may receive from the second IAB-donor-CU first QoS information for the first traffic. The apparatus may transmit a request to a third IAB-donor-CU to route a second traffic between a third IAB node associated with the first IAB-donor-CU and a fourth IAB node associated with the third IAB-donor-CU, where at least a part of content of the second traffic is based on the first traffic.
US12069508B2
A network transmission control method and apparatus are provided. The method includes: obtaining a resource feature of a base station; determining a state of the base station according to the obtained resource feature of the base station; and adjusting a Transmission Control Protocol (TCP) layer parameter according to the state of the base station.
US12069506B2
A system described herein may provide a technique for an inter-segment Network Function (“NF”) discovery procedure in a network that includes multiple discrete network segments. The network segments may each include a respective set of NFs. An NF discovery request may include discovery parameters such as an identifier of a User Equipment (“UE”). Network segments may be checked in a sequential or hierarchical manner to determine whether a respective network segment includes an instance of the requested NF that matches the discovery parameters (e.g., is associated with the UE identified in the NF discovery request).
US12069502B2
The present 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 present 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. In addition, a method of operating a terminal in a wireless communication system includes: receiving idle-mode measurement configuration from a base station; performing idle-mode measurement, based on the measurement configuration; producing a measurement result, based on the result of performing the measurement; and reporting the measurement result to the base station, wherein another measurement result for a carrier frequency, which does not support subcarrier spacing (SCS) supported by the terminal, is not reported.
US12069498B2
Systems and methods for group monitoring and management of network function statuses are provided. In one example, a method includes: generating a group query for statuses of a plurality of network functions of a network, in response to the group query performing group monitoring of the plurality of network functions to check the real-time status of each one of the plurality of network functions, receiving data corresponding to real-time status of each network function, comparing the data corresponding to real-time status with data corresponding to reference status for each one of the plurality of network functions, identifying presence or absence of an anomaly of each one of the plurality of network functions, based on the comparison, and generating a network function status output including data corresponding to the real-time status and an indication of the presence or absence of an anomaly for each network function.
US12069496B2
A method performed by a user equipment (UE). The method including receiving radio link monitoring (RLM) configuration information from a base station; identifying a synchronization signal block (SSB) index included in the RLM configuration information; identifying, in a RLM-reference signal (RS) transmission duration, at least one candidate synchronization signal/physical broadcast channel (SS/PBCH) block circularly mapped on the SSB index, based on an index of the at least one of the candidate SS/PBCH block and a number of SSB identified according to subcarrier spacing; and performing RLM based on the at least one identified candidate SS/PBCH block.
US12069491B2
[Object] To provide a communication control device, a base station, a terminal device, a communication control method, and a wireless communication method which are capable of improving user throughput by performing more flexible frequency control. [Solution] Provided is a communication control device including: a communication unit configured to communicate with a base station of a wireless communication system in which one or more frequencies are used; a setting unit configured to set an event and set a frequency to be used by the base station using occurrence of the set event as a trigger; and an acquiring unit configured to acquire information for the setting by the setting unit.
US12069490B2
Wireless devices, base stations, and other network devices and method are described that improve link level performance in a non-terrestrial network (NTN). In an embodiment, a method includes one or more of: configuring an NB-IoT (narrowband-Internet of Things) NPSS (Narrowband Primary Synchronization Signal) transmissions in multiple spot beams overlapping in time and frequency, configuring LTE PSS (Primary Synchronization Signal) transmissions in multiple beams overlapping in time and frequency, configuring NR (New Radio) PSS transmissions (e.g., which support the same shift of a respective M-sequence that defines the NR PSS) in multiple beams overlapping in time and frequency, configuring NR PSS transmissions (e.g., which support the same shift of a respective M-sequence that defines the NR PSS) in multiple beams configured to share the same SS/PBCH block index overlapping in time and frequency.
US12069489B2
A satellite receiver with a switchable array of antenna elements for receiving wireless signals from at least a satellite is described. The antenna elements may be dynamically selected based at least in part on a location and motion of the satellite receiver, and a location and a motion of at least the satellite that provides wireless signals. Moreover, the antenna elements may also be dynamically selected based at least in part on utilization and/or availability of a terrestrial wireless communication network that communicates with the satellite receiver. The satellite receiver may predict availability of communication with at least the satellite. Furthermore, the array of antenna elements may provide improved power efficiency, pointing accuracy and/or isotropic gain relative to an array of antenna elements without switched antenna elements, such as for carrier frequencies in the V or the W band of frequencies.
US12069484B2
The present disclosure provides a wireless communication system. The wireless communication system includes a base station and a user equipment. The base station is configured to support dynamic spectrum sharing (DSS) between a first network and a second network. The user equipment is configured to communicate with the base station based on the first network. The base station is further configured to puncture allocation of a first reference signal when performing resource allocation on a first control channel in a case where a resource to be allocated to the first reference signal corresponding to the first network overlaps with resource allocated to a second reference signal corresponding to the second network. The user equipment is further configured to receive the first control channel and perform channel estimation for the first network, taking into account the first reference signal that has been punctured.
US12069483B2
The present disclosure discloses a method for processing a basic service set (BSS) color collision, a station, a wireless access point and a system. The method includes: firstly, a station analyzes an obtained high efficiency physical layer protocol data unit (HE PPDU) to obtain a current BSS color and a current BSS identifier (BSSID), in a case that a matching result of a spatial reuse parameter field, the current BSS color and the BSSID is a BSS color collision, the station generates a collision report, and sends the collision report to the wireless access point, and finally, the wireless access point correct the spatial reuse parameter field according to the collision report.
US12069467B2
A system includes one or more computing devices that decorrelates a monaural channel into a plurality of output channels. A computing device determines a target amplitude response defining one or more constraints on a summation of the plurality of channels. The target amplitude response is defined by relationships between amplitude values of the summation and frequency values of the summation. The computing device determines a transfer function of a single-input, multi-output all pass filter based on the target amplitude response and determines coefficients of the allpass filter based on the transfer function. The computing devices processes the monaural channel with the coefficients of the allpass filter to generate the plurality of channels.
US12069466B2
Systems and methods for audio in accordance with embodiments of the invention are illustrated. One embodiment includes a method for upmixing audio, including receiving an audio track which includes an input plurality of channels, each channel having an encoded audio signal, decoding the audio signal, calculating a first frequency spectrum for a low frequency component of the signal using a first window, calculating a second frequency spectrum for a high frequency component of the signal using a second window, determining at least one direct signal by estimating panning coefficients, estimating at least one ambient signal based on the at least one direct signal, and generating an output plurality of channels based on the at least one direct signal and the at least one ambient signal.
US12069453B2
A system to output a cross-talk cancelled spatial audio signal to two speakers, including a user tracking module to provide a location and orientation of a head of a user, and a time-domain dynamic crosstalk cancellation module to receive a spatial audio signal, the location and orientation of the head of the user from the user tracking module, a location for each of the two speakers, and generate the time-domain crosstalk cancelled spatial audio signal based thereon.
US12069442B2
An earpiece includes an electro-acoustic transducer and a housing that supports the electro-acoustic transducer such that the housing and the electro-acoustic transducer together define a first acoustic volume and a second acoustic volume. The electro-acoustic transducer is arranged such that a first radiating surface of the transducer radiates acoustic energy into the first acoustic volume and a second radiating surface of the transducer radiates acoustic energy into the second acoustic volume. A mesh is disposed along an outlet of the housing and is arranged to inhibit debris from entering the front acoustic volume. A first microphone is supported in the housing. The first microphone includes a microphone port for sensing pressure. A chimney surrounds the microphone port and mechanically couples the first microphone to the mesh.
US12069440B2
Disclosed is a hearing device comprising a battery module. The battery module comprises a battery for powering the hearing device; a conductor unit for providing electrical connection to the battery; a conductive adhesive arranged between the battery and the conductor unit for connecting the conductor unit to the battery to form a battery component; and a coating provided at least partly around the battery component to form the battery module.
US12069435B2
A hearing protection system includes an earplug and an electronic hearing device inserted into a cavity in the earplug. The electronic hearing device includes electronics that incorporate digital signal processing to provide sound amplification and fast compression programming to shut off sound amplification to protect the user when a loud noise is detected. The housing of the electronic hearing device has a sound aperture for emitting the sound from a speaker assembly. The sound aperture is aligned with an opening of a sound tube in the earplug so that sound generated by the speaker assembly can propagate through the sound tube to the user's ear canal. The electronic hearing device may include a short-range communication interface for receiving a short-range communication signal that carries information. The system may include a noise dosimeter that generates noise exposure measurement data related to a dose of noise exposure over a period of time.
US12069433B2
A method of operating a hearing assistive device having a rechargeable battery, and comprises reading battery status data from a battery controller during use of the hearing assistive device, transferring the battery status data wirelessly from the hearing assistive device to a computing device and predicting, in the computing device, a remaining battery time for the rechargeable battery based upon the battery status data received. Once the remaining battery time is predicted, it is compared with a predefined use pattern for hearing assistive device and a user becomes notified if a conflict between the remaining battery time and the predefined use pattern is observed.
US12069431B2
Aspects of the subject technology provide for joint processing of signals from acoustic microphones and signals from vibration sensors that directly or remotely sense vibrations of the source of the sound itself. The vibration sensors may include remote vibration sensors such as a light-based microphone, which may be implemented as an optical microphone. Joint processing of the signals may include detecting a sound from the source in the signals from the acoustic microphone by selecting a portion of the signals from the acoustic microphone based on the signals from the vibration sensor.
US12069429B2
An object of the present invention is to provide a cut sheet-like piezoelectric film which includes electrode layers on both surfaces of a piezoelectric layer and is capable of preventing a short circuit of the electrode layers. The object is achieved by providing a cut sheet-like piezoelectric film including a piezoelectric layer which contains piezoelectric particles in a matrix containing a polymer material, and electrode layers which are provided on both surfaces of the piezoelectric layer, in which a distance between the electrode layers at an end portion in a thickness direction is 40% or greater with respect to a thickness of the piezoelectric layer.
US12069421B2
An antenna for a hearing instrument is connected to a first feedline segment extending laterally along an inner posterior surface of a shell of the hearing instrument. The antenna is also connected to a second feedline segment extending laterally along the inner posterior surface of the shell. The antenna comprises a first arm connected to the first feedline segment. The first arm initially extends in an inferior direction along the inner posterior surface of the shell from the first feedline segment. A second arm is connected to the second feedline segment and initially extends in a superior direction along the inner lateral surface of the shell from the second feedline segment.
US12069418B2
An electronic device includes: a plate at least partially inserted into a first opening and including a transparent portion including a protruding portion having a gap spaced apart from an inner circumference of the first opening of the housing and a second opening spaced apart from an periphery of the protruding portion, a sidewall in which a plate including the transparent portion extends from a first printed circuit board in the housing towards the plate including the transparent portion, a second printed circuit board supported by the sidewall, a flash module comprising a flash disposed on one surface of the second printed circuit board facing the plate including the transparent portion, and a microphone disposed in a space formed through the at least one sidewall, and the second printed circuit board includes a through hole facing the microphone so that the microphone obtains an audio signal.
US12069417B2
Disclosed herein is an electronic device. In an embodiment, the electronic device may include a body, a display combined with the front of the body, and a speaker assembly embedded on at least one side of the body, wherein the speaker assembly may include a casing configured to form an external appearance and a speaker unit combined with the casing and configured to have at least part of an element of the speaker assembly exposed to an outside of the casing.
US12069415B2
The presentation of sensor network information can be provided to a user via a customized dashboard web interface. The dashboard web interface can be based on customized transformation and alert functions that can be applied to one or more sensor channels of data produced from sensors at a monitored location. The customized alerts can provide real-time monitoring of targeted conditions at the monitored location.
US12069412B2
The present invention relates to a novel animal-shaped wireless baby monitor device. The device is configured to capture video and audio of a baby being monitored and to transmit same to a remote electronic transceiver device. The monitor device includes a pair of flexible ears that can be folded to clamp the device onto a surface such as a crib bar. The device further includes a pair of clamping slots on the rear surface for receiving a clamp for clamping the device to a surface. The device communicates with a device-monitoring software application installed in the electronic device and receive configuration and communication requests from the application. The device can be a part of an Internet of Things (IoT) network.
US12069411B2
A method of building a video surveillance system for object detection and tracking relates to the field of computer vision, and to methods and means of detecting and tracking moving objects, for example, persons. The method consists in special adjustment of each camera of a video surveillance system by means of calibration elements, linking cameras to the location plan, plotting a coordinate match of a coordinate system of a two-dimensional image of each camera with a three-dimensional system of coordinates of a location plan, for example premises; detecting and tracking objects of interest. The method makes it possible to construct motion tracks of objects of interest in the coordinate system of the location plan by means of multicamera surveillance, to analyze the nature of behavior and motion of objects, assess their interaction and individual parameters, as well as to calculate the quantity thereof in location regions of interest.
US12069407B2
Disclosed herein is a method for permitting a real-time virtual medical examination using a patient device and at least one diagnostic device including receiving, at the patient device, a signal transmitted from the at least one diagnostic device; generating diagnostic information based on the received signal; encrypting the diagnostic information; establishing communication over a network between the patient device and a first remote server; establishing a video conferencing session via a second remote server; and transmitting the encrypted diagnostic information to the first remote server.
US12069406B2
Methods, systems, and computer program products for providing a second digital video stream. A first and a second primary digital video stream are collected from at least two different digital video sources. A first produced video stream is produced based on the first and second primary streams. A second stream is produced based on the first produced stream and also based on the first and second primary streams. The first and second primary streams are time-delayed so as to time-synchronise them with the first produced stream, taking into consideration a latency of the first produced stream. The second produced stream is produced based on the time-delayed first and second primary streams.
US12069403B2
A method, apparatus, and software are provided for using an optically-readable code such as a quick-response (QR) code. The optically-readable code may represent a uniform resource identifier (URI) including parameters that represent a query, such as a query for content and/or other data. The query results may be used to command a content consumption device to record or otherwise obtain an item of content. The optically-readable code may additionally or alternatively be determined based upon a status of the device, such as what content, or portion thereof, is currently being displayed, and/or what error condition is being experienced.
US12069402B2
Embodiments include a modular video recording system. The system includes a first module for supporting a primary input to be recorded. The system may include combinations of modules for supporting different combinations of recording inputs from video and audio sources for recording the received inputs in different combinations.
US12069396B2
Presented herein are techniques for cropping video streams to create an optimized layout in which participants of a meeting are a similar size. A user device receives a plurality of video streams, each video stream including at least one face of a participant participating in a video communication session. Faces in one or more of the plurality of video streams are cropped so that faces in the plurality of video streams are approximately equal in size, to produce a plurality of processed video streams. The plurality of processed video streams are sorted according to video stream widths to produce sorted video streams and the plurality of sorted video streams are distributed for display across a smallest number of rows possible on a display of the user device.
US12069395B2
An electronic device, computer program product, and method are provided that automatically focus on meaningful content in an image stream during an instruction-oriented video communication session. The electronic device communicatively connects the electronic device via a network to second electronic device(s) during a video communication session. A controller of the electronic device identifies a person and a writing surface within an image stream from a local image capturing device. In response to determining that the person is attending to the writing surface, the controller communicates to a video communication session a first portion of the image stream that focusses on the writing surface. In response to determining that the person is not attending to the writing surface, the controller communicates to the video communication session via the at least one network interface, a second portion of the image stream that does not focus on the writing surface.
US12069393B2
Motion detection in a video signal stream representing a series of rows in one or more image frames includes filtering the video signal stream for one or more features, generating a plurality of masked video signal streams by multiplying the feature video signal stream with a plurality of mask signal streams, which correspond to an image mask region within one or more image frames, determining a value of an intensity-based parameter of the feature in the plurality of mask signal streams, and determining a change in the value of the intensity-based parameter to detect motion over image frames.
US12069390B2
A pixel array including pixels arranged in a matrix shape is provided. The pixels have a same structure and are separated from each other by front deep trench isolation (FDTI). A first pixel among the pixels includes a first floating diffusion region, a first group of photoelectric conversion elements, a first group of charge transfer transistors, a first source follower transistor, and a first transistor, a second transistor, and a first reset transistor connected in series between the first floating diffusion region and a voltage supply line. One of the first transistor, the second transistor, and the first reset transistor is formed in a first sub-pixel region. At least another one of the first transistor, the second transistor, and the first reset transistor is formed in a second sub-pixel region. The first sub-pixel region and the second sub-pixel region are separated from each other by the FDTI.
US12069384B2
An image capture device is described. The image capture device includes an array of pixels, each pixel including a photodetector. A Bayer pattern color filter is disposed over a 4×4 subset of pixels in the array of pixels. The Bayer pattern color filter defines a first 2×2 subset of pixels sensitive to red light; a second 2×2 subset of pixels sensitive to green light; a third 2×2 subset of pixels sensitive to green light; and a fourth 2×2 subset of pixels sensitive to blue light. A set of 1×1 on-chip lenses (OCLs) includes a different 1×1 OCL disposed over each pixel in the second 2×2 subset of pixels and the third 2×2 subset of pixels. A set of 2×1 OCLs or 2×2 OCLs includes a 2×1 OCL or a 2×2 OCL disposed over each pixel in the first 2×2 subset of pixels and the fourth 2×2 subset of pixels.
US12069383B2
Near infrared imaging is highly complementary to colour imaging having a wide range of applications. For example, in health applications, the near infrared can provide biomolecular information on tissue that is not apparent under visual examination nor from the inspection of colour images of tissue. Thus, there is utility in viewing both visible color and near infrared images in combination. Described herein are methods to perform visible and near infrared imaging as well as hybrid visible color and near infrared imaging with a single conventional color filter array RGB sensor. The methods automatically provide spatially co-registered color and near infrared images and the methods can be used as the basis for a multispectral or hyperspectral imaging system.
US12069381B2
A method includes obtaining an image, where the image includes one or more frames. The method also includes performing multi-frame processing, image signal processing, and image processing on the image to produce a processed image. The method further includes applying a chroma suppression to the processed image. The chroma suppression is configured to reduce brightness and color saturation in one or more select areas within the processed image.
US12069380B2
There is provided a system for imaging of a scene, comprising: at least one short wave infrared (SWIR) illumination element that generates SWIR illumination at a SWIR wavelength range, at least one filter that filters out electromagnetic radiation at wavelengths which are mostly non-absorbed by water vapor in air depicted in the scene, and at least one SWIR sensor that captures the SWIR illumination of the SWIR wavelength range which is passed by the at least one filter and generates at least one SWIR image of the scene.
US12069369B2
An electronic device includes a first camera having a first angle of view; a second camera having a second angle of view wider than the first angle of view; a motion sensor configured to obtain motion information of the electronic device; a display; a memory; and a processor. The processor is configured to enter a video capturing mode in which the first camera or the second camera is activated; display a live-preview corresponding to the video capturing mode using images obtained via the first camera or the second camera; while in the video capturing mode, display a user interface including a first graphical object indicative of a first degree of motion stabilization and a second graphical object indicative of a second degree of motion stabilization greater than the first degree of motion stabilization; receive an input via the user interface to select one of the first graphical object or the second graphical object; based on the first graphical object being selected, display a live-preview by performing, based on the motion information and a first marginal area having a first size, a first digital image stabilization with respect to images obtained via the first camera; and based on the second graphical object being selected, display a live-preview by performing, based on the motion information and a second marginal area having a second size larger than the first size, a second digital image stabilization with respect to images obtained via the second camera.
US12069364B2
The present disclosure provides an action camera, a selfie control method and apparatus, a movable platform, and a storage medium. The action camera includes: a camera body; a lens assembly, disposed on one side of the camera body; a first display apparatus, disposed on the same side as the lens assembly of the camera body, where the first display apparatus is configured to display an image obtained by the lens assembly; and a second display apparatus, disposed on another side of the camera body and opposite to the first display apparatus, where the second display apparatus is configured to obtain a touch operation, and generate a control command based on the touch operation to control, according to the control command, displaying performed by the first display apparatus. The action camera controls a front screen through “back-touch” by using a “rear screen”.
US12069362B2
The invention relates to an imaging device for a shelf support on a shelf edge comprising a receiving section configured to receive electronic labels, the imaging device comprising: aback side configured to be removably fitted in the receiving section, a front side (10) opposite to the back side, an optical sensor (15) configured to acquire an image of shelves facing the front side, an actuator configured to rotate the optical sensor around one or more axes of rotation, a memory configured to save the image, a processing unit configured to transmit the image to an image server.
US12069359B2
A reflection module includes: a holder; and a reflective member mounted on the holder and including an incident surface, a reflective surface, and an emitting surface. The holder includes a cover portion covering a portion of the emitting surface. An area of the cover portion covering the emitting surface increases in a direction toward a lower portion of the emitting surface.
US12069354B2
An actuator including a first circuit board on which an image sensor is disposed, a first housing disposed on the first circuit board, a lens assembly disposed within the first housing, and a second circuit board disposed on the first side portion of the first housing where a gyro sensor is disposed, and a third circuit board driving the lens assembly is provided. The third circuit board may include a first region disposed on the first side portion of the first housing and in which a first coil driving the lens assembly is disposed. The first coil may overlap the second circuit board in a direction perpendicular to an optical axis direction.
US12069353B2
In one aspect of the present disclosure, a module is disclosed for use with a digital image capturing device (DICD) including an integrated sensor-lens assembly (ISLA). The module includes a cradle configured for connection to a housing of the DICD, and at least one dampener that is configured for positioning between the module and the housing of the DICD to reduce vibrations transmitted to the ISLA.
US12069349B2
The invention relates to a method, apparatus and electronic device of page display for application. The method comprises: receiving a play instruction for a multimedia content in an application, wherein the multimedia content is configured with a target prop, and the target prop is used for influencing the playing effect of the multimedia content; in response to the play instruction, in a playing page of the application, playing the multimedia content, and dynamically displaying an icon of the target prop in an icon of a publisher, the publisher being used for creating a new multimedia content configured with the target prop and/or turning on a new virtual live studio configured with the target prop.
US12069345B2
A computer-implemented method for transforming audio-video data includes automatically detecting substantially all discrete human-perceivable messages encoded in the audio-video data, determining a semantic encoding for each of the detected messages, assigning a time code to each of the encodings correlated to specific frames of the audio-video data, and recording a data structure relating each time code to a corresponding one of the semantic encodings in a recording medium. The method may further include converting extracted recorded vocal instances from the audio-video data into a text data, generating a dubbing list comprising the text data and the time code, assigning a set of annotations corresponding to the one or more vocal instances specifying one or more creative intents, generating the scripting data comprising the dubbing list and the set of annotations, and other optional operations. An apparatus may be programmed to perform the method by executable instructions for the foregoing operations.
US12069340B2
Provided is an image processing device including at least one processor, in which the processor acquires a first performance evaluation value related to performance of a first imaging apparatus of a first user who is one of a plurality of users, acquires a second performance evaluation value related to performance of a second imaging apparatus of a second user different from the first user among the plurality of users, specifies an image of the second user corresponding to the second imaging apparatus having the second performance evaluation value, which is equal to or larger than the first performance evaluation value, from shared images which are limitedly shared by the plurality of users, and sets a presentation priority of a specific image, which is the specified image, to the first user to be higher than presentation priorities of other shared images.
US12069339B2
A system is provided for inserting a pre-encoded media asset in a media feed of a first channel based on an input on a notification associated with a media item and a defined selection parameter. Based on the pre-encoded media asset inserted in different channels and the defined selection parameter, a plurality of new channels is created. Based on a re-use of the pre-encoded media asset for one of the plurality of new channels, the plurality of new channels is created independent of an encoding operation prior to a distribution of program streams of the plurality of new channels to a plurality of consumer devices. The plurality of new channels is delivered over a distribution network without being required to be re-encoded.
US12069335B2
Examples of the systems and methods described herein relate to reducing latency issues associated with playing online digital video on client devices. An example method includes: determining a likelihood that a user will trigger presentment of video content within a portion of digital content, and when the likelihood is determined to exceed a threshold, obtaining a video tag that identifies the video content or caching a portion of the video content prior to presentment of the video content.
US12069319B2
An image synthesis apparatus comprises a receiver (301) for receiving image parts and associated depth data of images representing a scene from different view poses from an image source. A store (311) stores a depth transition metric for each image part of a set of image parts where the depth transition metric for an image part is indicative of a direction of a depth transition in the image part. A determiner (305) determines a rendering view pose and an image synthesizer (303) synthesizes at least one image from received image part. A selector is arranged to select a first image part of the set of image parts in response to the depth transition metric and a retriever (309) retrieves the first image part from the image source. The synthesis of an image part for the rendering view pose is based on the first image part.
US12069313B2
Systems and methods for coding and decoding are provided. A method includes encoding a video stream including video data partitioned into a plurality of layers, wherein the encoding includes determining whether a first picture of the video stream is to be output based on a syntax element that indicates a mode of output layer set signaling.
US12069311B2
An electronic apparatus performs a method of decoding video data, comprising: receiving, from bitstream, a first syntax element in a slice header of a slice that indicates whether luma mapping with chroma scaling (LMCS) is applied to a coding unit in the slice; receiving a second syntax element for the coding unit that indicates whether the coding unit has been coded using adaptive color-space transform (ACT); if the second syntax element has a non-zero value, decoding the coding unit by applying inverse ACT to convert luma and chroma residuals of the coding unit from a transformed color space to an original color space of the video data; and if the first syntax element has a non-zero value, decoding the coding unit by performing inverse luma mapping to the luma samples and inverse scaling to the chroma residuals of the coding unit after performing the inverse ACT.
US12069302B2
Methods, apparatus, systems and articles of manufacture for texture based immersive video coding are disclosed. An example apparatus includes a correspondence labeler to (i) identify first unique pixels and first corresponding pixels included in a plurality of pixels of a first view and (ii) identify second unique pixels and second corresponding pixels included in a plurality of pixels of a second view; a correspondence patch packer to (i) compare adjacent pixels in the first view and (ii) identify a first patch of unique pixels and a second patch of corresponding pixels based on the comparison of the adjacent pixels and the correspondence relationships, the second patch of corresponding pixels tagged with a correspondence list identifying corresponding patches in the second view; and an atlas generator to generate at least one atlas to include in encoded video data, the encoded video data not including depth maps.
US12069277B2
The present invention discloses a method and apparatus for encoding or decoding a video signal. The method for processing a video signal according to the present invention uses a merging mode in which prediction information on a neighbor unit is used instead of transmitting prediction information on the present unit, so as to improve coding efficiency. In this case, the number of available candidate units for merging among the units in a predetermined position is determined, and information for the merging mode is acquired on the basis of the number of the available candidate units for merging. The unit to be merged is determined using the information for the merging mode, and prediction information on the unit to be merged is acquired. The prediction value for the present unit is acquired using the prediction information on the unit to be merged, and the present unit is restored using the acquired prediction value.
US12069271B2
The present disclosure provides systems and methods for processing video content. The method can include: receiving data representing a first block and a second block in a picture, the data comprising a plurality of chroma samples associated with the first block and a plurality of luma samples associated with the second block; determining an average value of the plurality of luma samples associated with the second block; determining a chroma scaling factor for the first block based on the average value; and processing the plurality of chroma samples associated with the first block using the chroma scaling factor.
US12069266B2
An encoder includes circuitry and memory coupled to the circuitry. In residual coding of a current block to which an orthogonal transform is not applied, when coefficient information flags relating to a coefficient in the current block are encoded, the circuitry: performs a level mapping process to transform the coefficient to a second coefficient by using a predicted value, in which the predicted value is determined based on neighboring coefficients of the coefficient within the current block; encodes second coefficient information flags by Context-based Adaptive Binary Arithmetic Coding (CABAC), each of the second coefficient information flags relating to the second coefficient; and encodes a remainder value of the coefficient with Golomb-Rice code, and when the coefficient information flags are not encoded, in operation, the circuitry: skips the level mapping process; and encodes a value of the coefficient with the Golomb-Rice code.
US12069261B2
A method of partitioning in video coding for JVET, comprising representing a JVET coding tree unit as a root node in a quadtree plus binary tree (QTBT) structure that can have quadtree or binary partitioning of the root node and quadtree or binary trees branching from each of the leaf nodes. The partitioning at any depth can use asymmetric binary partitioning to split a node represented by a leaf node into two child nodes of unequal size, representing the two child nodes as leaf nodes in a binary tree branching from the parent leaf node and coding the child nodes represented by final leaf nodes of the binary tree with JVET, wherein further partitioning of child nodes split from leaf nodes via asymmetric binary partitioning is allowed recursively along the same branch in any order with symmetric partitioning.
US12069250B2
A method of video encoding a sequence of pictures, the method being implemented in an encoding device and comprising: obtaining an intra prediction picture comprising at least two sub-units; obtaining a first encoded other picture, wherein the intra prediction picture and the first encoded other picture have the same Picture Order Count, POC, value; obtaining encoded other pictures different from the intra prediction picture and the first encoded other picture; and distributing the at least two sub-units of the intra prediction picture over one or more sub-units of the encoded other pictures and/or over one or more sub-units of the first encoded other picture.
US12069249B2
A coding mode selection method is provided. The method includes acquiring a target frame image of a target video, determining a target coding unit based on the target frame image, the target coding unit comprising a prediction unit, obtaining rate-distortion costs of a symmetric inter prediction mode and a motion merge prediction mode by separately performing estimation on the prediction unit in the symmetric inter prediction mode and the motion merge prediction mode, determining a first candidate prediction mode based on the rate-distortion costs of the symmetric inter prediction mode and the motion merge prediction mode, and determining a second candidate prediction mode set in asymmetric inter prediction modes based on the first candidate prediction mode.
US12069242B2
Reference picture management scheme is provided in the context of video coding. A method of decoding an encoded video sequence, comprising obtaining a value of a reference picture list (RPL) syntax element from a bitstream of the encoded video sequence, the RPL syntax element specifying whether syntax elements related to reference picture lists are present in the bitstream, when the RPL syntax element specifies that the syntax elements related to the reference picture lists are present in the bitstream, obtaining, from the bitstream, values of the syntax elements related to the reference picture lists; and constructing at least one reference picture list for inter prediction using the obtained values of the syntax elements related to the reference picture lists.
US12069237B2
Provided are method and apparatus methods and apparatuses for encoding an intra-prediction mode based on a secondary IPM. The present invention may comprises a first decision step of determining whether an intra-prediction mode of a current block is included in a first candidate mode set including M candidate modes (M is an integer equal to or greater than 1); a second decision step of determining whether the intra-prediction mode of the current block is included in a second candidate mode set including N candidate modes (N is an integer equal to or greater than 1) based on a first determination result representing a determination result of the first decision step; and an intra prediction mode encoding step of encoding the intra-prediction mode of the current block based on the first determination result or a second determination result representing a determination result of the second decision step.
US12069232B2
A display device includes a view generator, for generating input view numbers according to reference parameters; a view curve modifier, for generating output view numbers according to the input view numbers and at least one S curve; a three dimensional (3D) image data sampling module, for adjusting image data of pixels according to the output view numbers; and a display module, for displaying at least one image according to the pixels and the image data; wherein viewing positions are modified by the view curve modifier to generate modified viewing positions, the viewing positions correspond to first views, the modified viewing positions correspond to second views, and a number of second views is smaller than a number of first views.
US12069231B1
A system, method or compute program product for displaying a first image based on first image data in a display area of a first display device, receiving at least one camera-captured second image of an environment with the second image capturing at least a portion of the first image displayed in the display area, determining a location and orientation of the first display device relative to the camera, determining a portion of the second image that corresponds to the portion of the first image displayed in the display area, generating a third image that corresponds to the portion of the first image displayed on the first display device as viewed from a point of view of the camera from the first image data, and generating a composite image of the environment by replacing at least a portion of the second image with the third image, and displaying the composite image.
US12069229B2
An image capture system includes: a first mobile unit configured to move around the target area; a second mobile unit adjustably coupled to the first mobile unit; a dual-camera unit, operatively coupled to the second mobile unit, including: a first camera to capture structural data; and a second camera to capture color data, wherein the first mobile unit and the second mobile unit are configured to move the first camera and the second camera.
US12069228B2
A system includes a three-dimensional (3D) scanner, a camera with a viewpoint that is different from a viewpoint of the 3D scanner, and one or more processors coupled with the 3D scanner and the camera. The processors access a point cloud from the 3D scanner and one or more images from the camera, the point cloud comprises a plurality of 3D scan-points, a 3D scan-point represents a distance of a point in a surrounding environment from the 3D scanner, and an image comprises a plurality of pixels, a pixel represents a color of a point in the surrounding environment. The processors generate, using the point cloud and the one or more images, an artificial image that represents a portion of the surrounding environment viewed from an arbitrary position in an arbitrary direction, wherein generating the artificial image comprises colorizing each pixel in the artificial image.
US12069221B2
Provided is an information processing apparatus capable of inhibiting a spot color printing result from turning out not as intended by a user, as well as a control method and a storage medium. To this end, a pixel region for which spot color printing is specified is identified in print data, and it is determined whether pixels surrounding the identified pixel region include a pixel which is in a color approximating to the spot color and whose color difference from the spot color equals or falls below a predetermined value.
US12069219B2
An information processing system includes a processor configured to: obtain a feature of a target document which is a document to be processed; and obtain information on a process performed by the information processing system on a past document which is a document that has the obtained feature and that has been processed in past in the information processing system.
US12069211B2
A system for tracking the location of an electronic device includes an electronic device and a wireless location tag. The wireless location tag includes a microcontroller unit, and a modular connector interface configured to be communicatively coupled to a port of the electronic device. The wireless location tag is configured to establish an Internet connection to one or more backend electronic devices in response to detecting that the wireless location tag has been communicatively coupled to the port of the electronic device, obtain identifying information that is associated with the electronic device, and identify tag identifying information associated with the wireless location tag. The wireless location tag is also configured to send one or more instructions to the one or more backend electronic devices via the Internet connection, and send one or more ping messages to the one or more backend electronic devices.
US12069205B2
Methods and system for the automated delivery of digital information are disclosed, included a system comprising at least one computer processor and one or more non-transitory memory storing a set of instructions, that when executed by the at least one processor cause the at least one processor to receive a telephone call from a telephonic device identified with a phone number and associated with a caller; determine the phone number associated with the telephonic device without input from the caller; receive an indicator, the indicator being a request for digital information to be transmitted to the telephonic device; and transmit digital information to the telephonic device based on the determined phone number.
US12069203B2
One example method of operation may include one or more of identifying a calling device number of a calling device, matching the calling device number with one or more of a plurality of enhanced call content profiles, selecting, based on a call identifier, one of the enhanced call content profiles comprising enhanced call content intended for one or more call recipient device numbers, and forwarding the enhanced call content associated with the selected enhanced call content profile to one of the call recipient devices.
US12069202B2
User identification information for identifying a user of a first terminal connecting to a communication network of a virtual communication operator via a communication network of a first communication operator is specified, and, based on the user identification information, charging for communication of the first terminal and charging for a service that the virtual communication operator is enabled to provide to the user identified by the user identification information are managed.
US12069197B2
A foldable stand suited for a portable electronic device is provided. The foldable stand includes a foldable plate and an attaching member. The foldable plate has a pair of incisions and a plurality of folding portions to be folded into at least one of an unfolded state and a plurality of folded states. In the unfolded state, a strip structure is formed by part of the folding portions located between the incisions, and a ring structure is formed by others to surround the incisions and the strip structure. In at least one of the folded states, the strip structure and the ring structure are separated from each other along the incisions. The attaching member that the portable electronic device attached thereto has a part connected to the foldable plate, and other part of the attaching member is separated from the foldable plate.
US12069195B2
A curved screen assembly includes a curved display screen, a first supporting component and a middle frame. The curved display screen has a first arc-shaped face and a second arc-shaped face. The first supporting component is located between the middle frame and the first arc-shaped face, and first supporting component provided with a first supporting face. The first supporting face matches the first arc-shaped face in outline. The middle frame is provided with a second supporting face, wherein the second supporting face matches the second arc-shaped face in outline. In this application, the curved screen assembly and the terminal have a reasonable structural design and a more reliable overall structure.
US12069193B2
Provided is an electronic device that includes a housing at least partially including a metal portion, a glass plate mounted on one surface of the housing, and a buffer disposed at least on the metal portion on one face of the housing and disposed adjacent to an edge of the glass plate.
US12069184B2
The example embodiments relate to improvements in managing boot code images. In an embodiment, a device is disclosed comprising a memory device, the memory device including a storage array, the storage array comprising a first partition and a second partition, wherein the first partition comprises a writeable partition and the second partition comprises a write-protected partition; and a processor configured to: load a golden boot image from the second partition, display a boot prompt after loading the golden boot image, receive an update boot image, the update boot image including a signature, read a public key from the second partition, validate the signature using the public key, and replace a current boot image stored in the first partition with the update boot image.
US12069178B2
Example embodiments of systems and methods for data transmission between a contactless card and a client application are provided. A card key may be generated using a master key and identification number. A first and second session key may be generated using the card key and portions of the. A cryptographic result including the counter may be generated using one or more cryptographic algorithms and the card key. A cryptogram may be generated using the first session key and encrypted using the second session key. The application may be transmit one or more messages to the first applet of the contactless card. The first applet may be configured to establish one or more communication paths to the second applet based on receipt of the one or more messages from the client device. The second applet may be deactivated by the first applet via the one or more communication paths.
US12069177B2
A method of providing read access to information stored in a distributed ledger. The method comprises building a distributed ledger comprising a plurality of blocks each comprising a data content, building a mirrored data store comprising a copy of the data, receiving a request for information by an authenticator application executing on a computer, authenticating a requestor by the authenticator application, determining an access privilege level of the requestor by the authenticator application, determining by the authenticator application that the access privilege level of the requestor is sufficient to authorize access to the information, reading the information from the mirrored data store by the authenticator application, returning the information by the authenticator application to the requestor, and building a transaction record by the authenticator application, wherein the transaction record comprises information about the authenticating, about the authorizing, and about the reading from the mirrored data store.
US12069172B2
Provided are a group service implementation method and device, an equipment and a storage medium. The specific solution is described below. A service transaction request is acquired. In response to the service transaction request including to-be-authenticated data and a threshold signature, a signature group corresponding to the threshold signature is determined. Group information of the signature group is acquired by querying a blockchain, where the signature group includes at least two members, the at least two members of the signature group are used for authenticating the to-be-authenticated data by adopting secure multi-party computation and generating the threshold signature for the to-be-authenticated data by adopting a signature private key, and the group information includes at least a verification public key of the threshold signature. The threshold signature is verified by adopting the verification public key in the group information.
US12069171B2
According to one exemplary embodiment, a hardware security module is described, having a receiver, which is configured to receive instructions for performing cryptographic operations, and a control device, which is configured to take an instruction load of the hardware security module as a basis for deciding whether one or more instructions should be relocated and, if one or more instructions should be relocated, to determine another hardware security module for relocating the one or more instructions, to authenticate the other hardware security module and to request the execution of the one or more instructions by the other hardware security module.
US12069169B2
A management controller of a computer platform, determines whether an ownership history of management firmware for the management controller represents multiple owners. The management controller includes a set of one-time programmable elements that represent a first secret. The management controller manages use of the first secret based on the ownership history. The management includes, responsive to determining, by the management controller, that the ownership history represents multiple owners, generating, by the management controller, a second secret to replace the first secret. The management further includes, responsive to determining, by the management controller, that the ownership history represents multiple owners, storing, by the management controller, the second secret in a non-volatile memory and generating, by the management controller, cryptographic keys based on the second secret.
US12069168B2
A passive continuous variable quantum key distribution scheme, where Alice splits the output of a thermal source into two beams, measures one locally and transmits the other mode to Bob after applying attenuation. A secure key can be established based on measurements of the two beams without the use of a random number generator or an optical modulator.
US12069166B2
A framework for managing authorization for performance of actions with a computing system. For example, techniques for performing authorization of users and/or clients for access to an infrastructure service provided by a cloud servicer provider (CSP) and/or for performance of actions with the infrastructure service.
US12069159B2
A method for redacting a private blockchain comprises applying a hash function to a prefix and new content to compute a hash for a block of the blockchain; performing a modulo operation to convert the hash to an integer modulo; determining an inverse of the integer modulo; computing a redactable suffix from the prefix and the inverse of the integer modulo; replacing current content of the blockchain with the new content; and applying the redactable suffix to the block having the new content.
US12069152B2
An in-vehicle relay device according to the present embodiments is an in-vehicle relay device to which first and second communication lines are connected and which relays communication between the first and second communication lines, communication being performed in accordance with first and second communication protocols on the first and second communication lines, respectively, the in-vehicle relay device including: a processing unit that can be switched to a sleep state and a non-sleep state, and that performs processing for relaying communication between the first and second communication lines when in the non-sleep state; and an activation-signal output unit that outputs an activation signal conforming to the second communication protocol to the second communication line if the processing unit is in the sleep state and the activation-signal output unit receives an activation signal conforming to the first communication protocol from the first communication line.
US12069145B2
A proxy server system implements dynamic domain discovery and proxy configuration. The proxy server system maintains proxy mapping data including a plurality of mappings, each mapping associating a domain and a proxy string. The proxy server system receives a request including a proxy link, generates a native link that includes a domain associated with the third-party network service, and obtains a resource including native content from the third-party network service. The proxy server system identifies, in the native content, a first embedded native link having a first domain associated with the third-party network service, determines that the proxy mapping data does not include any mapping corresponding to the first domain, generates a first mapping associating the first domain and a first proxy string, and updates the proxy mapping data to include the first mapping.
US12069135B2
A method including receiving, by an infrastructure device from a manager device configured to manage network services provided by the infrastructure device, a manager request for requesting performance of an action associated with managing the network services, the manager request including a signature header signed by utilizing a manager private key associated with the manager device and a timestamp header identifying a point in time when the signature header was signed; determining, by the infrastructure device, a time difference between the point in time when the signature header was signed and a current time; authorizing, by the infrastructure device, the manager request based on determining that the determined time difference satisfies a predetermined duration of time; and enabling, by the infrastructure device, performance of the action associated with managing the network services based on authorizing the manager request is disclosed. Various other aspects are contemplated.
US12069129B2
A computer-implemented method is provided for transparently optimizing data transmission between a first endpoint and a second endpoint in a computer network. The endpoints have a directly established data session therebetween. The data session is identified by each endpoint at least to itself in the same way throughout the session. The method includes the steps of: relaying data between the endpoints transparently in the session using a network optimization service; and transparently modifying or storing at least some of the data transmitted from the second endpoint to the first endpoint using the network optimization service in order to optimize data communications between the endpoints, wherein transparently modifying at least some of the data comprises changing the data, replacing the data, or inserting additional data such that the first endpoint receives different data than was sent by the second endpoint.
US12069127B2
The present disclosure provides a method, system, and device for peer-to-peer downloading across a network. To illustrate, a server may receive a request from a peer device for at least a portion of a file. The server may send, to the peer device, download information including a checksum corresponding to the portion of the file, a token corresponding to authorization for the peer device to perform P2P communication, an indicator that identifies at least one device that includes the portion of the file, or a combination thereof. The server may update tracking information to indicate that the peer device received the portion of the file.
US12069125B2
Systems and methods for managing a Network Based Media Processing (NBMP) workflow are provided. A method includes obtaining a first network based media processing (NBMP) workflow description document (WDD); creating a first workflow corresponding to the first NBMP WDD; managing at least one media processing entity (MPE) according to the first workflow; obtaining an update to the first NBMP WDD, the update comprising a second NBMP WDD, wherein the second NBMP WDD includes a continuity flag indicating that a second workflow corresponding to the second NBMP WDD is a continuation of the first workflow; creating the second workflow based on the second NBMP WDD; and in response to creating the second workflow, managing the at least one MPE according to the second workflow.
US12069117B2
A system for transferring a playback of media content from a first network-connected playback device to a second network-connected playback device is disclosed. The system includes a processor; a computer-readable non-transitory storage media with instructions that cause the processor to perform operations including: receiving, at a media navigation device, a request to transfer a playback marker of the media content from the first playback device to the second playback device; responsive to receiving the request, stopping a playback of the media content on the first playback device, wherein the playback marker indicates a stop timecode within a timeline associated with the media content at which the playback of the media content is stopped on the first playback device; responsive to the media navigation device being within a predetermined distance to the second playback device, automatically resuming playback of the media content on the second playback device at the stop timecode.
US12069114B2
A cloud-based method and system for autonomously providing collaborative communication events to one or more users of client devices. The method and system are configured to analyze an active user communication for the purposes of determining, predicting, presenting, and/or triggering collaboration opportunities (e.g., later communication sessions or events) automatically or for manual selection by the active user. The analysis is performed in the context of a specific user communication and is completed with support from cloud-based communication services, data, and workflows.
US12069102B2
Some network architectures include perimeter or edge devices which perform network address translation or otherwise modify data in a network traffic packet header, such as the source address. The modification of the source address prevents downstream devices from knowing the true or original source address from which the traffic originated. To address this issue, perimeter devices can insert the original source address in an X-Forwarded-For field of the packet header. Firewalls and related security services can be programmed to record the original source address in the XFF field in addition to the other packet information and to consider the original source address during security analysis. Using the original source address in the XFF field, services can determine additional characteristics about the traffic, such as geographic origin or associated user accounts, and use these characteristics to identify applicable rules or policies.
US12069100B2
In some aspects, the disclosure is directed to methods and systems for graph-based analysis, filtering, and access control. A knowledge graph may be generated for a resource and/or group of resources, with connections from nodes representing entities (e.g. devices, users, user groups, etc.) into nodes associated with the resource identifying access policies and authorization levels. Access controls may be applied in real time, and data may be dynamically filtered or cleaned to prevent exfiltration and protect privacy. Rules need not be explicitly or manually encoded, but rather may be implicit through the connections between resource nodes and entity nodes, allowing for high scalability.
US12069095B2
An application-operating organization may delegate a third-party server to serve as an automated contextual authentication responder and an authorization responder. The third-party server may manage a delegated section of the organization's namespace that includes the public identities of various devices controlled by the organization. The third-party server may also dynamically generate interaction control list that is tailored to a requesting device's context based on the interaction control policies set forth by the organization. The interaction control list may include information that determines the authorization of the requesting device to interact with another device. The third-party server may also automatically determine the role of a new device to which existing policies are inapplicable and provide guided workflow for the organization to set up new interaction control policies in governing the new device. The determination of the roles of devices may be based on an iterative process using external data sources.
US12069088B2
Apparatuses, methods, systems, and techniques for detecting and effecting countermeasures against cyber-attacks on networked electrical power system (NEPS) devices include a trusted cyber-attack detection (TCAD) component including pre-trained cyber-attack detection logic which receives a first input indicating a physical parameter of a NEPS device and a second input indicating a computational state of a computer system of the NEPS device, determines an attack metric in response to the plurality of inputs. The attack metric can indicate whether the NEPS device is in the process of being attacked or whether the NEPS device has been successfully attacked and has been compromised.
US12069087B2
A system for detecting whether a file including content s associated with a cyber-attack is described. The content may include an executable file for example. The system includes an intelligence-driven analysis subsystem and a computation analysis subsystem. The intelligence-driven analysis subsystem is configured to (i) receive the file, (ii) inspect and compute features of the file for indicators associated with a cyber-attack, and (iii) produce a first output representing the detected indicators. The computational analysis subsystem includes an artificial neural network to (i) receive a network input being a first representation of at least one section of binary code from the file as input, and (ii) process the first representation of the section to produce a second output. The first output and the second output are used in determination a classification assigned to the file.
US12069078B2
A method at a network element for monitoring user plane traffic for a user equipment, the method including configuring a set of characteristics and a range of values for each of the set of characteristics for user plane traffic between the user equipment and the network element; monitoring user plane traffic for the user equipment at the network element, the monitoring determining whether at least one characteristic of the user plane traffic falls outside of the configured range of a values, resulting in a characteristic violation; and if the at least one characteristic of the user plane traffic falls outside the configured range of a values, performing an action resulting from the characteristic violation.
US12069076B2
A network device may include a memory and one or more processors configured to analyze execution of suspicious data; detect one or more states of execution of the suspicious data; determine that the one or more states of execution are to be assigned a priority level; and extract at least a portion of the suspicious data from one or more locations based on determining that the one or more states of execution are to be assigned a priority level.
US12069075B2
A security monitoring system that detects abnormalities in moving body and analyzes a response method includes: a reception unit that receives a security log from the moving body; an attack determination unit that analyzes the security log to determine whether or not there was a cyber attack; a dynamic response permission confirmation unit that confirms whether communication with a software distribution management server (i.e., an over the air (OTA) center or simply a management server) is permitted; an information requesting unit that requests the OTA center for predetermined information when communication with the OTA center is permitted; and an execution instruction unit that instructs the OTA center to execute software update of the moving body based on the received predetermined information.
US12069074B2
An automated framework provides security monitoring and analysis in a network by autonomously detecting actual and potential threats to the network. In response to detection of a threat, the framework instantiates a Situation to provide directed monitoring of the threat. The Situation invokes specific skills based on the state of the Situation to monitor network traffic for activity specific to the threat that instantiated the Situation. As data is collected, additional skills may be invoked based on the additional data to collect new data, and previously invoked skills may be terminated depending on the additional data to avoid collecting information that is no-longer relevant.
US12069061B2
Methods, systems, and storage media for creating and/or providing shared virtual spaces are disclosed. Exemplary implementations may: provide and/or create a virtual space capable of being modified by multiple authorized users, the virtual space having an exterior perimeter defining an interior area, and the interior area having at least one volumetrically-mapped virtual item therein; receive a modification to the virtual item(s) from a first authorized user; and store the modification of the virtual item(s) in association with the virtual space such that the modification is persistent and shared among all authorized users unless and until another modification is made to the virtual item by an authorized user.
US12069060B2
A data storage device including a biometric reader for biometric authentication to enable access to a storage medium. The data storage device is configured for remote registration of a remote user of the data storage device, wherein registration includes receiving a record of a biometric authentication data set of the remote user from a secure database. Alternatively, a secure authorizing command is received remotely from an authorization server to enable the data storage device to directly read and store biometric data of the remote user. The data storage device can be unlocked by biometric authentication to enable a host device to access user data in the storage medium.
US12069053B2
Secure methods, systems, and media for generating and verifying user credentials are provided. In some embodiments, the method comprises: receiving, from a user device, a request for access to a service that requires valid user credentials; determining an aspect of the user credentials that is to be satisfied to grant access to the requested service; transmitting, to the user device, a request for information related to the aspect of the user credential; receiving, from the user device, information related to the aspect of the user credential, wherein the information has been signed using a key associated with the user device; verifying the key used to sign the information by the user device; in response to verifying the key used to sign the information, determining whether the aspect of the user credential has been satisfied based on the received information; and, in response to determining that the aspect of the user credential has been satisfied, granting access to the service.
US12069052B2
Techniques are described herein that are capable of dynamically routing an authentication request to a backup authentication system by a client device. For instance, the client device stores a list, which identifies authentication systems that are authorized to respond to authentication requests from the client device. The client device sends the authentication request toward a primary authentication system based at least in part on the authentication request identifying the primary authentication system as a recipient of the authentication request. The authentication request requests authentication of a principal by the primary authentication system. The client device causes the backup authentication system to authenticate the principal using an authentication package received from the primary authentication system by dynamically routing the authentication request to the backup authentication system based at least in part on not receiving a valid response to the authentication request and further based at least in part on the list.
US12069051B2
Techniques for authenticating and enforcing differentiated policies for a virtual machine (VM) executing in bridge mode on a wireless host device in a media access control (MAC)-based authentication network are described. In an example method a wireless host device is authorized to join a fabric enabled wireless network. A VM executes in bridge mode on the wireless host device. At the fabric edge, a source MAC address of the VM is determined. A session is created between the VM and an authentication server. The VM is authenticated. A policy for the VM is determined. A source internet protocol (IP) address is assigned to the VM to create a MAC-IP binding. A data-plane device in the fabric enabled wireless network is programmed to apply the policy to traffic communicated with the VM. Finally, the data-plane device applies the policy for the VM based at least in part on the MAC-IP binding.
US12069047B2
Training an adversarial perturbation detector comprises accessing a training set comprising an enrolled biometric sample xi and a public biometric sample x of an enrolled user, and submitted biometric samples x′ of a second user, the submitted biometric samples x′ comprising perturbed adversarial samples x′+Δx′. A transformation function k(⋅) is provided having learnable a parameter θ and a classifier having a learnable parameter σ. The training set is used to learn the parameters θ and σ by inputting the training set to the transformation function k(⋅). The transformation function k(⋅) generates transformed enrolled samples k(xi), a transformed public biometric sample k(x), and a transformed adversarial sample k(x′+Δx′). The classifier classifies the transformed adversarial sample k(x′+Δx′) as a success or as a fail based on the transformed enrolled samples k(xi). Based on a result of the classification, the learnable parameters θ and σ are updated.
US12069045B2
Embodiments described herein relate to methods and apparatuses for enabling remote management of a profile in an identity module in an NB-IoT device. A proxy server is configured with access to a database of one or more external identifiers associated with one or more respective NB-IoT devices, wherein the one or more external identifiers are used to address the respective one or more NB-IoT devices via an exposure function in a core network. A method in the proxy server comprises receiving a request to deliver a triggering message to the NB-IoT device, wherein the request comprises a device identifier; determining an external identifier based on the received device identifier; and delivering the triggering message to the NB-IoT device using the external identifier.
US12069030B2
A method including predicting or determining, by a VPN server, potential overloading of the VPN server based on predicting or determining a breach of a critical threshold associated with the VPN server; verifying, by the VPN server based on predicting or determining the potential overloading, an identity of a secondary server with which the VPN server is authorized to establish a secure connection; establishing, by the VPN server based on verifying the identity of the secondary server, a secure connection with the secondary server to enable communication of encrypted information between the VPN server and the secondary server; and transmitting, by the VPN server to the secondary server, an encrypted message identifying a host device and data of interest to be retrieved from the host device to enable the secondary server to request the data of interest from the host device is disclosed. Various other aspects are contemplated.
US12069019B2
Embodiments are provided for detecting overlapping topics in a messaging system. In an example system, a plurality of trigger phrases is received, where each trigger phrase is configured to trigger a bot that receives the trigger phrase to select a corresponding topic for conversation. For each trigger phrase, a vector representation is generated. Measures of similarity are generated based at least on the vector representations, where each measure of similarity represents a degree of similarity between a respective pair of vector representations. A topic overlap is detected based on a pair of vector representations having a measure of similarity above a similarity threshold, where the topic overlap indicates two trigger phrases that are overlapping. The topic overlap is provided to an authoring tool that comprises one or more interactive elements to enable a user to change at least one of the two trigger phrases that are overlapping.
US12069012B2
A method for communicating in a digital conversation is implemented on a computing device and includes: receiving an interactive contextual emoji from a first digital conversation participant to post in the digital conversation with at least a second digital conversation participant, where the interactive contextual emoji is pre-defined to indicate at least a current availability status associated with the first digital conversation participant, requesting the current availability status from a status application based on at least an indication of the interactive contextual emoji, where the status application maintains the current availability status, receiving the current availability status from the status application, and displaying the interactive contextual emoji in the digital conversation with at least an indication of the current availability status.
US12069011B2
An electronic device and a method for controlling thereof are provided. The electronic device may include: a memory and a processor configured to: input sentences input into a plurality of conversation rooms generated through a messenger application into a first model and acquire characteristic information of conversations conducted in the plurality of respective conversation rooms, based on a first sentence being input, input the first sentence and the characteristic information into a second model and acquire first scores indicating a similarity between the first sentence and the characteristics of the conversations conducted in the plurality of respective conversation rooms, input the first sentence and the sentences input into the plurality of conversation rooms into a third model and acquire second scores indicating relevance between the first sentence and the sentences input into the plurality of conversation rooms, identify a conversation room as a conversation room corresponding to the first sentence among the plurality of conversation rooms based on the characteristic information, the first scores, and the second scores, and input the first sentence into the identified conversation room.
US12069003B2
A user terminal according to one aspect of the present disclosure includes: a receiving section that receives downlink control information using a certain downlink control information format; and a control section that determines activation or deactivation of a secondary cell, based on the downlink control information. According to one aspect of the present disclosure, it is possible to control activation at higher speed.
US12068999B2
Example channel state information (CSI) transmitting methods and apparatus are described. The CSI is a part of uplink control information (UCI) and it includes a first quantity of bits. One example method includes determining a threshold code rate according to a modulation and coding scheme (MCS) index when the CSI is to be transmitted on a physical uplink shared channel (PUSCH) without uplink data. A second quantity of bits is determined according to the threshold code rate and the first quantity of bits, where the second quantity of bits is less than or equal to the first quantity of bits. The second quantity of bits of the CSI is transmitted on the PUSCH.
US12068997B2
Methods, systems, and devices for wireless communications are described. A non-terrestrial network (NTN) device (e.g., a satellite, base station) may transmit, to a user equipment (UE), at a first frequency a synchronization signal block (SSB) that indicates a second frequency of a control resource set (CORESET) relative to the SSB, where the second frequency is based on one or more of: a CORESET bandwidth, a combination of a first parameter associated with a first portion of the SSB and a second parameter associated with a second portion of the SSB, or both. The UE may monitor the CORESET at the indicated second frequency for a downlink control channel transmission. The NTN device may transmit, to the UE, a downlink control channel transmission over the CORESET. The NTN device may transmit, to the UE, system information based on the downlink control channel transmission.
US12068994B2
The present disclosure provides a method and device used in UE and a base station for wireless communications. The UE receives a first signaling; and operates a first radio signal. The first radio signal comprises K first-type sub-signals and K first-type reference signals; the first signaling is used for determining time-frequency resources occupied by the first radio signal; time-domain resources occupied by the K first-type sub-signals are non-orthogonal, and frequency-domain resources occupied by each two of the K first-type reference signals are mutually orthogonal; the K first-type reference signals are respectively used for channel estimation of the K first-type sub-signals, and a reference signal port of each of the K first-type reference signals is associated with a target reference signal port. The above method is advantageous in improving efficiency of PTRSs in multi-TRP/panel transmissions.
US12068990B2
Physical downlink control channel transmission and reception techniques for dynamic spectrum sharing
A user equipment (UE) is configured to perform rate matching for reference signals under certain conditions. The UE receives information associated with a downlink reference signal for a first radio access technology (RAT), wherein the first RAT is different than a currently camped second RAT, identifies reference signal occasions for the downlink reference signal and receives downlink control information from the second RAT via a physical downlink control channel (PDCCH).
US12068989B2
The exemplary embodiments relate to signaling between a user equipment (UE) and a cell over the unlicensed spectrum. The UE may receive a signal broadcast by a cell of the network over a channel in the unlicensed spectrum. The signal includes a set of channel state information reference signals (CSI-RS) each corresponding to a set of synchronization signal blocks (SSB) and is transmitted during a discovery reference signal (DRS) window. The UE may then determine a location of the set of CSI-RS within the DRS window and perform an operation based on the set of CSI-RS.
US12068987B2
Methods, systems, and devices for wireless communications are described. A first wireless device such as a user equipment (UE) may determine to transition from a first duplexing mode to a second duplexing mode, where a first communication associated with the first duplexing mode at least partially overlaps in time with a second communication associated with the second duplexing mode. Based on the overlap, the UE may identify transition information for coordinating the transition between the first duplexing mode and the second duplexing mode. Using the transition information, the UE may transition from the first duplexing mode to the second duplexing mode, and may communicate with a second wireless device, such as a base station, using the second duplexing mode.
US12068975B2
The present disclosure relates to the field of communication technology, and provides a resource scheduling method including: acquiring utilization rates of resources of a plurality of proxy servers, the plurality of proxy servers being deployed on a virtual machine; and using at least one first proxy server to share a utilization of resources of at least one second proxy server, where the utilization rate of resources of each of the at least one first proxy server is smaller than a first threshold, the utilization rate of resources of each of the at least one second proxy server is greater than a second threshold, and the first threshold is smaller than the second threshold.
US12068970B2
An industrial system for controlling backplane communication including a cluster manager linked to Input/Output modules via a multipoint low voltage differential signaling, MLVDS, bus through passive base plates. The MLVDS bus contains a transmission line and a reception line for the cluster manager. The transmission line of the MLVDS bus is shared by the Input/Output modules for receiving data transmitted by the cluster manager. The reception line of the MLVDS bus is shared by the Input/Output modules for transmitting data to the cluster manager. The Input/Output modules are synchronized in time with the cluster manager and configured to send data on the reception line of the MLVDS bus at respective scheduled time windows.
US12068959B1
Techniques for automatically providing per tenant weighted DCMP over shared transport interfaces and automated flow has load balancing are described. The techniques may include onboarding the tenant to the local multi-tenant edge device associated with a tenant, where the resource profile defines a traffic allowance per transport interface for the tenant. Local weight per transport interface is applied. Information including local weight per transport interface is transmitted to a remote device via an SD-WAN controller. Information including a remote weight per transport interface of the remote device is received via the SD-WAN controller. Traffic is routed from the tenant based on local weight per transport interface of the local device and remote weight per transport interface of the remote device.
US12068957B2
An example system including a first top-of-rack (ToR) switch, and a second ToR switch, the second ToR switch is to receive a network packet from a first host, the network packet to include a destination address of a second host, and after a failure of a physical network interface card (pNIC) at the second host eliminates a first link between the second host and the second ToR switch, send the network packet to the first ToR switch via an inter-switch link between the first and second ToR switches to cause the first ToR switch to forward the network packet to the second host via a second link between the first ToR switch and the second host.
US12068952B2
Embodiments of this application relate to the field of communication technologies, and provide a routing information publishing method. The method includes: An edge transport device connected to a first edge device in a first network domain receives, based on a control plane protocol message, first routing information that is from a controller and that includes an address of a second edge device in a second network domain and a destination address of the second network domain, and sends the first routing information to the first edge device, so that the first edge device generates, based on the first routing information, a forwarding table that is of the first edge device and that is used to indicate a forwarding relationship between the first network domain and the second network domain.
US12068941B2
Provided is a system and method for resiliency testing at a session level. A fault injection request is received from a client device associated with a user, via a user interface. The fault injection request defines an active impairment of one of a service or an endpoint with a blast radius restricted to a scope of the received fault injection request. The scope of the received fault injection request corresponds to a first session in a production environment or a lower environment. A client request is received from the client device within the blast radius of the active impairment. Based on the fault injection request and a persistence within the blast radius, the one of the service or the endpoint is impaired in the first session. A response, received from an entity associated with the one of the service or the endpoint, is transmitted to the client device.
US12068940B2
In examples, systems and methods are described for edge computing recommendations and implementation. A service request is received from a client computing device that includes information about a location of a customer site and latency requirements of the customer, among other information. The system provides recommendations for particular provider computing site(s) based on, e.g., rough and/or fine latency estimates, and implements the requested computing services at selected provider computing site(s).
US12068936B2
A processing system of a device having at least one processor may determine that a temperature of the device exceeds a threshold temperature and obtain, in response to the determining, utilization information of the device comprising: processor utilization information, memory utilization information, and network utilization information. The processing system may then detect, from the utilization information of the device, a pattern comprising: a first network utilization burst, a processor utilization exceeding a processor utilization threshold and a memory utilization exceeding a memory utilization threshold over at least a designated period of time following the first network utilization burst, and a second network utilization burst after at least the designated period of time. When the pattern is detected, the processing system may generate an unauthorized cryptomining alert.
US12068930B2
The present disclosure provides a method and apparatus for determining an application service dependency, and a processor. The method includes that: an input pulse of first application service and an output pulse of second application service are acquired; a time interval between the input pulse and the output pulse is determined; and an application service dependency between the first application service and the second application service is determined based on the time interval. According to the present disclosure, a technical problem that an application service dependency between different pieces of application service cannot be determined accurately through a method for determining an application service dependency provided in the related art is solved.
US12068928B2
Methods, apparatus, systems and articles of manufacture are disclosed to schedule workloads based on secure edge to device telemetry by calculating a difference between a first telemetric data received from a first hardware device and an operating parameter and computing an adjustment for a second hardware device based on the difference between the first telemetric data and the operating parameter.
US12068926B2
A display control system for displaying a GUI screen on a terminal of a user, the display control system includes: a setting GUI unit, wherein the setting GUI unit is configured to cause the terminal to display a screen depicting a network configuration including a plurality of selectable clouds, and wherein the setting GUI unit is configured to cause the terminal to display a parameter input screen for a connection between a specific cloud and a resource in a case where the specific cloud and the resource to connect to the specific cloud are selected at the terminal.
US12068923B2
Systems and methods include creating a graph of a network having i) vertices representing ports, and ii) edges representing possible connections between vertices; receiving a request for one or more paths in the network; traversing the graph to determine the one or more paths; responsive to encountering a non-local constraint in the graph, adding a traversal state based thereon; and responsive to satisfying the non-local constraint in the graph, removing the traversal state based thereon.
US12068917B2
In some implementations, a first network device may receive an advertisement from a second network device. The advertisement may be associated with indicating that the second network device is configured to support a particular flex-algorithm. The first network device may identify, in the advertisement, an address of the second network device. The first network device may configure a routing table of the first network device to indicate that the second network device is capable of receiving traffic associated with the particular flex-algorithm based on the address. The first network device may perform, using the routing table, an action associated with routing the traffic associated with the particular flex-algorithm.
US12068916B2
A method performed by a network node for handling one or more operations in a communications network comprising a plurality of computing devices performing one or more tasks. The network node obtains initial parameters relating to the plurality of computing devices, environment and the communications network; and generates a plan by taking one or more operation goals involving the plurality of computing devices into account as well as the obtained initial parameters, wherein the generated plan relates to operation of the plurality of computing devices. The network node further computes a number of back-up plans, wherein the number of back-up plans are taking one or more events into account wherein the one or more events relate to operation of the plurality of computing devices; and executes one or more operations using the generated plan, and in case the one or more events occur, using a computed back-up plan.
US12068913B2
A client device for use with a router having a radio, a first configurable feature, and a second configurable feature, the client device comprising: a memory; and a processor configured to execute instructions stored on the memory to cause the client device to: generate a first instruction to configure the first configurable feature; generate a second instruction to configure the second configurable feature; and transmit a queued-configuration signal, including the first instruction and the second instruction, to the router so as to reconfigure the first configurable feature, reconfigure the second reconfigurable feature, and turn off and restart the radio.
US12068910B2
A control device (master device 10) is provided with: a communication instruction unit (112) that instructs a slave device (20c) to execute/stop communication with another device; a diagnosis instruction unit (113) that provides instruction to implement a breakdown diagnosis including detection of a breakdown location; a diagnostic results reading unit (114) that reads out the results of the breakdown diagnosis from the slave device; and a calculation unit (115) that calculates, from the results of the breakdown diagnosis, the length of a communication cable from the slave device to the breakdown location.
US12068901B2
Methods, systems, and devices for wireless communications are described. In some systems, a transmitting device may perform a pre-distortion of a signal on a resource allocation for the signal and using discrete Fourier transform (DFT)-domain processing. For example, the transmitting device may perform a first frequency-domain (FD) to time-domain (TD) transform, which may be an example of an inverse DFT (IDFT), on a first set of FD symbols to obtain a first set of TD samples. A size of the first FD to TD transform may be based on the resource allocation for the signal. The transmitting device may perform a crest factor reduction (CFR) function on the first set of TD samples to pre-distort the signal in the TD (e.g., in the IDFT domain), which may enable the transmitting device to avoid out-of-band (OOB) emission or otherwise have greater control over where the pre-distortion contributes energy.
US12068898B2
An integrated access and backhaul (IAB) apparatus receives, from a child IAB node, a signal identifying a set of transition instances for the child IAB node, including a transition time for each transition instance, and provides guard symbols for a first transition instance of the set of transition instances at the transition time for the first transition instance.
US12068893B2
Embodiments of equalizers are disclosed. In an embodiment, an equalizer includes a first signal path segment that includes a first plurality of serially connected transistors and current sources, a second signal path segment that includes a second plurality of serially connected transistors and current sources, and at least one termination resistor connected to the first and second signal path segments. The first plurality of serially connected transistors and current sources includes a first current source and a second current source connectable to a reference voltage and a first transistor and a second transistor connected between input terminals of the equalizer and the first and second current sources, where the first signal path segment further includes at least one resistor connected between the first and second current sources.
US12068891B2
A signal transmission apparatus (1) includes: a distortion compensation unit (11) for performing a distortion compensation processing on an input signal (x) by using a Neural Network (112) including L+1 arithmetic layers that include L (L is a variable number representing an integer equal to or larger than 1) hidden layer (112M) and an output layer (112O); a storage unit (13) for storing parameter sets (131) each of which includes a parameter for Q (Q is a variable number representing an integer equal to or smaller than L) arithmetic layer of the L+1 arithmetic layers; and an application unit (142) for selecting one parameter set from the parameter sets based on a signal pattern of the input signal and applying the parameter included in the selected one parameter set to the M number of arithmetic layer, a parameter of another arithmetic layer of the L+1 arithmetic layers, which is other than the Q arithmetic layer, is fixed.
US12068885B1
Various embodiments provide for a ring network, such as an Ethernet-based ring network, for communicating specified data types, such audio data types. A ring network of some embodiments can be used in such applications as data network communications between sensors (e.g., cameras, motion, radar, etc.) and computing equipment within vehicles (e.g., smart and autonomous cars).
US12068883B1
A method for a multichannel geophysical data acquisition system is provided in the field of electrical resistivity tomography. Individual and autonomous node operating systems are provided. Separate communication channels for upstream and downstream data transfer, high voltage transfer and synchronization signals are provided. A novel use of high voltage isolation barriers is also provided. A direct memory access data transfer process is provided.
US12068874B2
In accordance with some embodiments, systems, apparatus, interfaces, methods, and articles of manufacture are provided for providing information about individuals, such as capabilities in the context of meetings. In various embodiments, data is captured about an individual, such as via feedback from others. Based on the data, individuals may be identified and invited to meetings.
US12068854B2
A universal asynchronous receiver/transmitter includes a transmission register to include information to be transmitted, a receive register to include information received, a frame error checking circuit to evaluate contents of the receive register for a frame error, and control logic. The control logic is to route the contents of the transmission register to the receive register. The control logic is to, during transmission of the contents of the transmission register through the reprogrammable pin to the receive register, modify a bit inversion register to yield modified contents to be provided to the receive register. The modified contents are to cause a frame error. The control logic is to determine whether the frame error checking circuit detected the frame error.
US12068850B2
Systems and methods for generating a control signal for automatic wireless network version detection of a transmission. The control signal enables a receiver to detect the wireless network version detection of the transmission, so that the proper wireless network version is used for interpreting signaling information and decoding of the payload of the transmission. In some examples, the control signal is within a preamble of the transmission. The wireless network version can be an IEEE 802.11 version, such as proposed IEEE 802.11be. The control signal is compatible with legacy systems and can indicate the legacy signaling information by way of a Legacy Signal (SIG) (L-SIG) symbol. In some examples, the control signal can indicate the wireless network version by using an identifier symbol which is generated from at least part of, but is not identical to, the L-SIG symbol.
US12068848B2
A radio communication link is established between first and second nodes in a cellular network, which comprise at least channel coding and decoding of first and second Physical (PHY) layers and first and second Medium Access Control (MAC) sublayers. User data is transmitted from the first node to the second node while applying a PHY Forward Error Correction (FEC) algorithm in transmission for coding and in reception for decoding by the first and second PHY layers. A value of a PHY-FEC error metric is computed with respect to errors in the user data received by the second node that are uncorrected by the PHY FEC algorithm. The received user data including the uncorrected errors is transferred from the second PHY layer to the second MAC sublayer, subject to the value of the PHY-FEC error metric being less than a threshold used by an error tolerance procedure.
US12068825B2
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may be configured to indicate to a base station a distribution of transmit antennas and receive antennas across a set of antenna panels, and the base station may configure resource sets for reference signal transmissions from the antenna panels based on the indicated distribution. In a first example, the UE may be configured to indicate a respective number of transmit antennas and receive antennas at each antenna panel. In a second example, the UE may be configured to indicate a sum of transmit antennas and a sum of receive antennas across all antenna panels, along with information on how the transmit antennas and receive antennas are distributed. Based on the indication, the base station may configure resource sets for reference signal transmission on sets of ports in resources of the resource sets.
US12068822B2
Fast calculation of channel state information using demodulation reference signals (DM-RS) is provided herein. Channel state information is traditionally calculated based on the channel state reference signals (CS-RS). Demodulation reference signals, which are used for channel estimation for a data channel, are transmitted at different times than CS-RS however, and so some portions of the channel state information including layer indicator (LI) and channel quality indicator (CQI) can be calculated based on the demodulation reference signals, allowing a network to adapt more quickly to changing channel conditions, without having to transmit a CS-RS. Generally, precoding matrix indicator and rank indicator, which cannot be determined based on the DM-RS, don't change as often and are more stable over time, thus do not need to be calculated as frequently as the LI and CQI.
US12068820B2
A first wireless device, receives from a second wireless device, one or more configuration messages comprising a sidelink latency upper bound for sidelink channel state information (CSI) reporting. The first wireless device receives, during a first time slot, from the second wireless device a sidelink CSI reporting triggering indication and one or more CSI reference signals. The first wireless device determines one or more sidelink CSI reporting resources within a time period indicated by the sidelink latency upper bound and starting from the first time slot. The first wireless device transmits one or more sidelink CSIs on the one or more sidelink CSI reporting resources.
US12068804B2
A method for transmitting data by using a power line. The method includes: setting i=1 and j=1; receiving an i-th zero crossing signal at a time point ti, and determining, based on the i-th zero crossing signal, a start time when synchronization signals of a j-th data packet are transmitted, the start time when the synchronization signals of the j-th data packet are transmitted being ti+t; transmitting the synchronization signals of the j-th data packet at the start time when the synchronization signals of the j-th data packet are transmitted; transmitting data signals of the j-th data packet in sequence; and determining whether j is equal to M; when j is not equal to M, continuing a data transmission; and when j is equal to M, ending the data transmission, M being a number of data packets into which data to be transmitted is divided.
US12068802B1
A method for determining mutual coupling between adjacent communication transmission lines is disclosed. The method includes providing a first periodic signal to a first communication transmit end of a first communication transmission line; providing a second periodic signal to a second communication transmit end of a second communication transmission line, wherein the first communication transmission line is adjacent to the second communication transmission line; measuring a time of zero-crossing at a second communication receive end of the second communication transmission line compared with a zero-crossing of an ideal reference signal; and determining a mutual coupling level based on the time of zero-crossing on the second communication transmission line compared with a zero-crossing of an ideal reference signal that was measured.
US12068800B2
A radio access network (RAN) operates by: determining an initial RU/UE association that allocates the plurality of UEs among the plurality of RUs via reference signal received power (RSRP) data received from the plurality of RUs; receiving RU conditions data corresponding to a set of RU conditions associated with the plurality of RUs; receiving RU constraint data associated with the plurality of RUs; assigning, via at least one iterative RU sleeping loop and based on the initial RU/UE association, the RU conditions data and the RU constraint data, an active mode to a first subset of the plurality of RUs and a sleep mode to a second subset of the plurality of RUs; and updating a dynamic RU/UE association based on the first subset of the plurality of RUs and the second subset of the plurality of RUs.
US12068798B2
The present specification relates to a transmission apparatus and method for transmitting a signal in a wireless AV system. The transmission apparatus measures a signal to interference plus noise ratio (SINR) in a radio link. The transmission apparatus selects a modulation and coding scheme (MCS) set on the basis of the measured SINR. The transmission apparatus selects an optimal MCS from among the MCS set on the basis of the priority of a signal. The transmission apparatus transmits the signal on the basis of the optimal MCS.
US12068792B2
The present invention provides an ultrasonic array transceiver method and module thereof. The method includes the step (a) providing an ultrasonic pixel array composed of N×M ultrasonic pixels; step (b), determining the number of a plurality of ultrasonic pixel groups in the ultrasonic pixel array; step (c), generate the first sound wave; step (d), transmit the first sound wave to obtain a plurality of second sound waves; step (e), receive the second sound waves, wherein the ultrasonic pixel received the second sound wave is located at the middle position or adjacent to the middle position of the ultrasonic pixel group; step (f), calculating the second sound waves to generate a pixel signal; step (g), repeating steps (c) to (f); and in step (h), determine an image based on pixel signals.
US12068782B2
This invention relates to an interference handling method and system for an optical wireless communication system, wherein multiple levels and operating modes are provided to flexibly handle partitioning of a coordination functionality between a central entity and distributed entities. Thereby, the coordination functionality which relies on interference reports from devices in overlapping coverage areas of access points can be central or distributed over access points or partly central and partly distributed.
US12068779B2
A fibre-optic measurement system equipped with a controlled light generation system (1) and a receiving system (2) connected via an optical path which comprises a directional device (4) and which, in addition, has a processing unit (9) for controlling the light generation system (1) and for receiving and processing the signal from the receiving system (2), according to the invention, it is characterized by the fact that it has a selective mode device (5) and is adapted to be connected to a fibre-optic telecommunications network by a selective mode device (5) and the processing unit (9) is adapted to implement the OFDR and/or COTDR measurement technique for measuring changes in the optical distance and processing them into one or more parameters. Moreover, the object of the invention is also the method of adaptation of a telecommunications network into a sensor network and a fibre-optic measurement and communication system.
US12068766B2
The present disclosure relates to an electronic device for radiating an output signal in a wireless communication system. In one embodiment, the electronic device includes: a power amplifier configure to receive an input signal; a splitter connected to the power amplifier, which a plurality of branches; a plurality of filters connected to the plurality of branches of the splitter; and a plurality of antenna elements connected to the plurality of filters. The plurality of antenna elements radiates the output signal that is a portion of the input signal received by the power amplifier.
US12068760B2
Techniques to deliver a precision low noise reference voltage to a precision analog-to-digital converter without the need of a reference buffer or digital correction. In an example, a technique can use an integrated resistor divider and external capacitor to derive a low noise precision reference voltage either from the power supply of the ADC, or from an integrated reference source.
US12068731B2
An amplifier power attenuator utilizes an amplified audio feedback signal from an audio amplifier (which is driving a loudspeaker), along with a user-set impedance and a maximum voltage set-point reflective of the operational parameters of the loudspeaker, to attenuate an audio signal prior to amplification thereby preventing damage to the loudspeaker. The impedance of a variable impedance optocoupler is changed to adjust the attenuation of the audio signal to one of a plurality of predetermined attenuation levels responsive to an error between a voltage level of the feedback signal and the maximum voltage set-point. The error is reflected in a counter value having a linear or non-linear relationship with the error dependent upon a magnitude of the error; the counter value is assessed against a plurality of target values associated with respective ones of the predetermined attenuation levels to identify the attenuation to be applied to the audio signal.
US12068730B2
Disclosed is a system comprising a plurality of operational amplifiers, each operational amplifier having individually adjustable operational parameters, and a trimming circuit. The trimming circuit includes successive approximation register (SAR) logic that determines associated memory values. The trimming circuit changes the adjustable operational parameters of each operation amplifier based on the associated memory values.
US12068726B2
There is provided a monolithic microwave integrated circuit, MMIC, front-end module which may include: a gallium nitride structure supported by a silicon substrate, a silicon-based transmit/receive switch having a transmit mode and a receive mode, a transmit amplifier configured to amplify an outgoing signal to be transmitted by said MMIC front-end module, wherein said transmit amplifier is electrically connected to said transmit/receive switch, wherein said transmit amplifier comprises a gallium nitride high-electron-mobility transistor, HEMT, formed in said gallium nitride structure. The MMIC front-end module may further include a receive amplifier configured to amplify an incoming signal received by said MMIC front-end module, wherein said receive amplifier is electrically connected to said transmit/receive switch, wherein said receive amplifier may include a gallium nitride HEMT formed in said gallium nitride structure.
US12068719B2
A power management circuit operable with group delay is provided. The power management circuit includes a transceiver circuit configured to generate a digital target voltage and digitally delay the digital target voltage to generate multiple delayed digital target voltages. Accordingly, the transceiver circuit can generate a windowed digital target voltage in multiple delay tolerance windows based on the delayed digital target voltages. Since the windowed digital target voltage can tolerate a certain amount of group delay in each of the group delay tolerance windows, an envelope tracking (ET) voltage generated based on an analog version of the windowed digital target voltage can therefore tolerate the group delay in each of the group delay tolerance windows as well. As a result, it is possible to avoid distortion in the ET voltage to help improve performance of the power management circuit.
US12068718B2
An intelligent detection system includes an image module, a target detection module, and a physical model processing module. The target detection module runs a scanning mode on the target object and controls the image module to capture target images of the target object with different physical properties under the scanning mode. The scanning mode is allowed to be based on luminescence or thermal radiation emitted by variation of time, voltage, current, or illumination. The physical model processing module receives the target images and carries out an image stacking process with each target image based on different physical properties, generating a detection result image through physical formula of electronic circuit in cooperation with a chromaticity coordinate diagram. The detection result image displays the accordingly formed image distribution, through which the physical model processing module obtains the functions, features, defect locations or identification results of defect locations of the target object.
US12068717B2
A photovoltaic array fault diagnosis method based on composite information is provided. The method includes: collecting and preprocessing composite information data of photovoltaic array working state, including image data and text data; using the image data of photovoltaic array working state to train a pre-established fault classification model of deep convolutional neural network, to thereby obtain an image fault classification model; using the text data of photovoltaic array working state to train a pre-established fault classification model based on a support vector machine, to thereby obtain a text fault classification model; fusing the image fault classification model and the text fault classification model by logistic regression algorithm to obtain a fusion model, and training the fusion model using the composite information data of photovoltaic array working state to thereby obtain the photovoltaic array fault diagnosis model.
US12068708B2
An electric power tool includes: a motor; a driving circuit configured to drive the motor to output motive power; a control module configured to control the driving circuit; an energy storage element connected to the driving circuit; a current limiting element connected in series with the energy storage element and configured to charge the energy storage element with a first current; a switching element electrically connected in series with the energy storage element, connected in parallel with the current limiting element, and configured to charge or discharge the energy storage element with a second current. The electric power tool can avoid the occurrence of adverse situations such as generating electric sparks at the connection terminals of the electric power tool and of a battery pack when the battery pack is inserted into the electric power tool.
US12068693B2
A power converter controller includes an analog to digital converter (ADC) to generate a digital representation of a feedback signal of a power converter, the feedback signal being received from a compensator of the power converter and being based on an output voltage of the power converter. A nonlinear gain block of the power converter controller receives the digital representation of the feedback signal and generates a transformed digital representation of the feedback signal using a nonlinear function. A switch control block of the power converter controller controls an on-time of a primary-side switch of the power converter based on the transformed digital representation of the feedback signal.
US12068692B2
A multi slope output impedance controller is configured to vary the effective impedance Zeff_n of a power converter to reduce a current imbalance between power supplies in a masterless configuration of N parallel-connected power supplies while maintaining load regulation during start-up and steady-state operation. Generally speaking, the controller commands a high value of Zeff_n when Iout_n is low to facilitate current sharing and reduce current imbalance Ib between the power supplies and commands a low value of Zeff_n when Iout_n is high to improve load regulation.
US12068688B2
In a switching power supply device, a comparison voltage is generated based on a feedback voltage commensurate with the output voltage. Synchronously with the output transistor being turned on, a ramp voltage is made to start increasing from a first initial voltage; when the ramp voltage exceeds the comparison voltage, the output transistor is turned off. When the switching frequency is lowered from a first frequency to a second frequency, it is switched to the second frequency after the lapse of a transition period. During the transition period, the ramp voltage is made to start increasing from a second initial voltage (>first initial voltage).
US12068687B2
A method for operating a system including a voltage regulating power supply includes sensing a local voltage on a first node of the system and a remote voltage on a second node of the system. The first node and the second node are in a conductive path coupled to a load of the system. The first node is closer to a power stage of the voltage regulating power supply than the second node. The second node is closer to the load than the first node. The method includes detecting a load release event based on the local voltage, the remote voltage, and at least one predetermined threshold value.
US12068675B1
In one embodiment, a system includes several voltage regulators configured to output several voltage levels. Each voltage regulator may correspond to a respective voltage level. The system includes a power switch bank that includes several power switches and several multiplexors. A set of power switches are coupled to each of the voltage regulators. Each power switch is coupled to at least one of the multiplexors. Each multiplexor is coupled to a respective voltage regulator. The system includes one or more loads coupled to a respective one or more power switch.
US12068673B2
This application provides a load line circuit and an electronic device, where the load line circuit is applied to the electronic device. A voltage value of a feedback voltage provided by the load line circuit to a switch-mode power supply is linearly and positively correlated with each of a voltage value of a first voltage and a current value of a first current, where the first voltage is a voltage provided to a load circuit, and the first current is a current provided to the load circuit. Through disposition of the load line circuit, the switch-mode power supply can implement a load line function.
US12068672B2
In a power converter apparatus including a PFC circuit operating in a current-critical mode, a zero point of an inductor current is accurately detected. The control circuit includes a current detector unit including a first detection circuit that detects an inductor current, amplifies a voltage corresponding to the detected current with a gain, and outputs it as a detection voltage and a comparison circuit that compares the detected voltage with a predetermined reference voltage and outputs a comparison result signal. The control circuit calculates the reference voltage for making a delay when detecting the zero value of the inductor current substantially zero, based on the detected input voltage, the detected output voltage, the preset delay time, the inductance value of the inductor, the conversion factor in current/voltage converting, the power supply voltage, and the gain, and then, outputs it to the comparison circuit.
US12068667B1
Provided is a compact and lightweight motor complex cooling system with compatibility in which by providing a structure that circulates internal air without introducing air from the outside, an air-cooled radiator used in the conventional air cooling scheme is unnecessary, and only a water-cooled radiator is required, contributing to miniaturization and weight reduction of a device, and the compact and lightweight motor complex cooling system can be installed in an existing motor, and thus has compatibility, and is configured by a combination of air cooling and water cooling using coolant, allowing direct cooling to the end coil windings and the front of shafts of a rotor and a stator and by air cooling, and has excellent cooling efficiency through water cooling.
US12068663B2
An electric brushless DC motor is provided including a rotor assembly having a substantially-cylindrical metallic rotor body and at least one rotor magnet mounted on a surface of the rotor body, a stator assembly rotatably disposed relative to the rotor assembly, and a molded structure formed in contact with the rotor body. The molded structure includes a main body having a first axial end that engages at least one axial end of the at least one rotor magnet to axially retain the at least one rotor magnet on the surface of the rotor body and a second axial end that integrally forms a fan adjacent the rotor body.
US12068662B2
A rotary mechanism connects a first rotary part and a second rotary part, without using a coupling and while allowing an installation error between the first rotary part and the second rotary part. A rotation body includes a first rotary part and a first fixed part. A flat plate is fixed to the first fixed part of the rotation body and has rigidity in a rotating direction of the first rotary part and flexibility in an axial direction for the rotating direction. A motor includes a second rotary part coaxially fixed to the first rotary part of the rotation body and a second fixed part fixed to the flat plate.
US12068661B2
A two-speed electric drive assembly for vehicles includes a main driveshaft driven by a first axial flux motor where the main driveshaft extends coaxially through a hollow assist driveshaft driven by a second axial flux motor. The main driveshaft includes a main gear that is continuously meshed with an intermediate gear on an intermediate driveshaft. A freewheel gear is mounted around the hollow assist driveshaft and can be selectively coupled and decoupled with the hollow assist driveshaft by a shift mechanism. The freewheel gear is continuously meshed with an intermediate gear on the intermediate driveshaft. Another intermediate gear affixed to the intermediate driveshaft is continuously meshed with an output gear affixed to an output driveshaft. The two-speed electric drive assembly can selectively switch between speed mode and torque mode without torque interrupt.
US12068656B2
Stator modules are disclosed. Stator modules may include: a stator body; a working surface supported relative to the stator body; and a plurality of electrical conductors, each electrical conductor of the plurality of electrical conductors extending along a respective portion of the working surface and operable to generate a magnetic field to facilitate moving, relative to the working surface, a magnetized mover in the magnetic field in response to electrical current through the electrical conductor. Robotic systems including such stator modules are also disclosed.
US12068654B2
A stator for an electric machine is provided having a winding with plurality of interconnected conductors assigned to one or more phases. The ends of at least some of the conductors protrude axially or radially beyond the winding at the inner circumference or at the outer circumference of the winding, wherein an interconnection ring, to which the conductors are connected, is positioned axially or radially on the winding. The ends of in each case at least two conductors assigned to one phase protrude radially or axially outwards and are connected to a power connection arranged radially outside the winding.
US12068653B2
There are provided a coil, a stator member, a stator, and a motor that can, in the case of joining (connecting) a busbar and the coil's terminals, simplify control necessary for joining such as positioning, actualize downsizing of a device (welding device or stator manufacturing device), and improve efficiency of joining work. The coil is configured by winding a conductor, and its first and second terminals are extended out on a side of one surface of the coil.
US12068646B2
A method includes calculating an initial phase θgv of each air gap working magnetic field Bgv required to generate positive back EMF based on certain parameters of each armature harmonic vth; generating Bgv and maximizing a sum of equivalent air gap flux density amplitude Beqv of each of the air gap working magnetic fields Bgv while calculating a phase θmv and a pole arc coefficient αv corresponding to each permeance harmonic; designing a number, a position(s) and a length(s) along a circumference of modulation teeth corresponding to each of the permeance harmonics based on the phase θmv and the pole arc coefficient αv, such that a generated permeance model is consistent with the phase θmv of each of the permeance harmonics; and optimizing radial dimensions of modulation teeth corresponding to each of the permeance harmonics to maximize the sum of equivalent air gap flux density amplitude Beqv.
US12068643B2
A rotary electric machine rotor includes a rotor core and a core support member that supports the rotor core. The core support member includes a tubular portion formed in a tubular shape and a support portion supported so as to be rotatable with respect to a non-rotary member to support the tubular portion from the inner side in a radial direction. The core support member is formed such that a diameter of a fitting surface portion in a specific region, which includes an overlapping region which overlaps a connection region as viewed in the radial direction, is smaller than a diameter of the fitting surface portion in a general region which is a region other than the specific region.
US12068632B2
A charging system includes a power input part, an inverter, a DC bus, at least one charging device, a first bidirectional energy storage module, a second bidirectional energy storage module and an intelligent controller. The charging device includes a DC/DC converter and a charging gun. A first bidirectional DC/DC converter of the first bidirectional energy storage module receives and converts the DC power from the inverter for charging a first battery, or converts a first storage electric energy of the first battery for the charging device. A second bidirectional DC/DC converter of the second bidirectional energy storage module receives and converts the electric energy outputted by the DC/DC converter of the charging device for charging a second battery, or converts a second storage electric energy of the second battery for the charging device. The intelligent controller controls operations of the first bidirectional DC/DC converter and the second bidirectional DC/DC converter.
US12068627B1
This disclosure describes, in part, techniques for reducing pulsating currents of internal power sources, such as batteries. For example, a device may include a power source, a load, and a control device located between the power source and the load. The control device may include a power converter that is configured to maintain a constant input current from the power source and output a pulsating current to the load. While regulating the power, the control device may determine whether an average output power is different than a reference power. If the average output power is equal to the reference power, then the control device may cause the power converter to maintain the constant input current. However, if the average output power is different than the reference power, then the control device may cause the power converter to alter (e.g., decrease/increase) the input current being received from the power source.
US12068625B1
A charging and storage system provides a support on which the electronic device, such as a tablet is stored and charged within a housing. The support angles downward such that the support is not level. The tablet is stored on the support not level to allow for any liquids to drain away from the tablet. The charger and support are secured within a removable charging unit that secures to the housing. Removal of the charging unit removes the support, the charger, and a lock that secures the tablet within the charging unit.
US12068612B2
A wearable device charging system comprising a base station and a wearable charging unit. The wearable charging unit configured to couple with, and charge, a wearable item while the wearable item is in an as-worn position. The wearable charging unit comprising a housing, a battery, and a charging system. The charging system may comprise an inductive charging system or a conductive charging system. The base station including a charging system for charging the wearable charging unit and a power input for coupling with an external power supply.
US12068611B2
An alarm system includes a latch assembly having a movable element mounted on one of an entry and a structural element, and a fixed element mounted on the other of the entry and the structural element, wherein the movable element is movable between an engaged position with the fixed element and a disengaged position from the fixed element. A magnet is provided in one of the movable element and the fixed element, and a coil is provided in the other of the moveable element and the fixed element. The magnet and the coil are positioned relative to each other so that an electric current is induced in the coil by the magnet when the movable element is moved between the engaged position and the disengaged position. An energy harvesting circuit connected to the coil converts the induced electric current into a supply voltage that powers the alarm system.
US12068609B2
A power system may comprise a plurality of power sources, each connected to a corresponding power regulator. The power regulators may be connected in series or in parallel, and may form a string. Each power regulator may comprise input terminals connected to the corresponding power source, output terminals, and a power converter that may be configured to convert input power from the corresponding power source to output power. The power regulator may further comprise a regulator communications module that may be configured to receive a power regulation indication relating to regulating an operational characteristic of the power regulator. The regulator controller may be configured to instruct the power converter to increase or decrease the regulator operational characteristic based on the power regulation indication, and based on power production characteristics of the power regulator.
US12068601B2
A system and apparatus comprise at least one power supply connected to a terminal bloc, an I/O system configured to receive instructions provided to the control system, a control block connected to the I/O system wherein the instructions provided to the I/O system are converted to a serial output; and a puck connected to the serial output and configured to receive power from the terminal block, to process the serial output, and to output a current.
US12068596B2
A short-circuit mitigation device for use in an electrolytic cell (101) is disclosed. The device comprises a switch (302) connected in parallel with a damping load (502). The switch is disposed between a contact (102) and an electrode (106) of the cell (101) to selectively provide an electrical conduction path between the contact and the electrode. The switch comprises a plurality of metal-oxide-semiconductor field-effect transistors (MOSFETs) (402) connected in parallel. The device further comprises a switch controller (306) operably associated with the switch (302) to monitor electric current (308) through the switch and to generate a toggle signal (309) to toggle the switch (302) from a conductive closed state to a non-conductive open state when the electric current exceeds a first threshold value.
US12068595B2
The present disclosure envisages an apparatus for providing protection against an insulation failure in an electrical appliance. A first isolating means is connected in phase line of the AC power source. A second isolating means is connected in the neutral line. At least one TRIAC, having two main terminals and one gate terminal, is connected in parallel to appliance. First main terminal is connected to the phase line between first isolating means and electrical appliance, and second main terminal is connected to the neutral line between second isolating means and electrical appliance. The gate terminal is connected to the body of electrical appliance. In the event of insulation failure, the TRIAC, upon being triggered, blows out the first and second isolating means and thereby electrically isolates the appliance from the AC power source.
US12068594B2
Examples provide an adjustable power shelf system. Electrical power is supplied to a power bus running through a shelf support railing. The railing includes a slots for engaging mounting brackets on a shelf. The shelf is removably attached to the railing via the mounting brackets. The mounting bracket includes a plug with a tab sized to fit within the slots when the shelf is mounted on the railing. The tab is guided into position to engage the power bus by a guide formed within nonconducting insulation within the hollow cavity of the shelf support railing. Power flows from the power bus through the tab to wiring on or within the shelf to power peripheral devices. The shelf receives power when it is mounted to the railing and disengages the power bus when removed from the shelf railing without alteration to electrical wiring providing power to peripheral devices.
US12068589B2
A system or method for monitoring an electric power lightning arrester including an arrester current sensor providing an arrester current measurement, and an arrester voltage sensor providing an arrester voltage measurement. The system detects a switching signature based on the arrester current measurement or the arrester voltage measurement distinguished from background noise and lightning signatures and computes a measured arrester impedance based on the arrester current and arrester voltage measurements. The system then compares the measured arrester impedance to a nominal or historical arrester impedance, determines that the arrester is faltering based on the comparison of the measured arrester impedance to the nominal or historical arrester impedance, and places an order for replacement of the arrester based on the determination that the arrester is faltering. The system operator then replaces the arrester during a fair-weather, typically off-peak period to avoid failure of the arrester during a lightning strike.
US12068583B2
An embodiment relates to a surface emitting laser device and a light emitting device including the same. A surface emitting laser device according to the embodiment may include a first reflective layer; an active layer disposed on the first reflective layer; an aperture area disposed on the active layer and including an aperture and an insulating region; and a second reflective layer disposed in the aperture area. The active layer may comprise a plurality of quantum wells, quantum barriers, and intermediate layers disposed between the quantum wells and the quantum barriers. The quantum wells and the quantum barriers may include a ternary material, and the intermediate layers may comprise a binary material.
US12068582B2
A vertical-cavity surface-emitting laser (VCSEL) including a substrate including a plurality of emitters forming an array region, a lower mirror, an upper mirror, an active layer interposed between the lower mirror and the upper mirror, an aperture forming layer interposed between the upper mirror and the active layer and including an oxidation region and a window region, a connector disposed on the upper mirror, a plurality of oxidation holes passing through the upper mirror and the aperture forming layer, an upper insulation layer covering the plurality of oxidation holes, and a pad electrically connected to the connector, in which at least a portion of the connector is disposed in the plurality of oxidation holes, and the plurality of emitters is disposed in substantially a honeycomb shape on the substrate.
US12068579B2
A semiconductor laser includes an active region, a first distributed-Bragg-reflector region disposed contiguously with the active region, and a second distributed-Bragg-reflector region. The first distributed-Bragg-reflector region is formed contiguously with one side of the active region in a waveguide direction and includes a first diffraction grating. The second distributed-Bragg-reflector region is formed contiguously with to the other side of the active region in the waveguide direction and includes a second diffraction grating. The first diffraction grating includes recessed portions formed through a diffraction grating layer formed in the first distributed-Bragg-reflector region and convex portions adjacent to the recessed portions. The diffraction grating layer is made of a dielectric material.
US12068577B2
A surface emitting laser includes a substrate, a plurality of surface emitting laser elements on a first surface of the substrate, a first electrode electrically connected to a first conductive semiconductor of the surface emitting laser elements; and a second electrode electrically connected to a second conductive semiconductor of the surface emitting laser elements. Each of the surface emitting laser elements includes a first reflecting mirror on the substrate; an active layer on the first reflecting mirror; and a second reflecting mirror on the active layer. When a first contact region in which the first electrode and the first conductive semiconductor are connected to each other is on the first surface or in the first conductive semiconductor of the surface emitting laser elements. The first electrode is electrically connected to the light emitting units. The second electrode is electrically connected to each of the light emitting units.
US12068576B2
Provided are an optical waveguide device and a laser apparatus including the same. The optical waveguide device includes a peripheral part disposed on an edge region of a substrate, an air pocket disposed on a central region of the substrate within the peripheral part, an optical waveguide comprising a core layer, which is disposed on an upper portion of the substrate within the air pocket to extend in a first direction, and an electrode on the core layer, and a plurality of hinges disposed on the air pocket to connect the optical waveguide to the peripheral part in a second direction crossing the first direction.
US12068573B2
An article of manufacture including a fiber optic termination of a small core optical fiber for use with a surgical laser apparatus (the output from which may be characterized by a high M2 factor) or other high-power or high-energy laser (including an appropriate fiber laser) is configured for safe and efficient coupling of light at a large laser focal point and/or to enable the process of coupling of radiant intensities exceeding the silica fiber damage thresholds and/or those ionizing the air if fully focused therein. The termination may include a glass cylinder structured to include a core region and a glass cladding region the ratio of dimensions of which is substantially equal to the ratio of respectively-corresponding dimensions of the employed optical fiber. A method of propagating light through such article of manufacture.
US12068572B2
A narrowed-line gas laser apparatus includes a laser chamber that accommodates a pair of electrodes disposed so as to face each other, an output coupling mirror, and a line narrowing apparatus that forms an optical resonator along with the output coupling mirror, the line narrowing apparatus including an optical system having a first region and a second region on which a first portion and a second portion of a light beam that exits out of the laser chamber are incident, the first and second portions passing through different positions in a direction in which the pair of electrodes face each other, the optical system being configured to suppress an increase in the distance between the optical path axis of the first portion and the optical path axis of the second portion.
US12068570B2
A optical path structure and a cross line laser comprising the same are provided. The optical path structure comprises a laser emitter (1) for emitting laser light, and the following devices arranged sequentially along the direction of the optical path of the laser light: an aspherical mirror (2), a first beamsplitter (31) and a second beamsplitter (32), a wedge-shaped mirror (4), and a cylindrical mirror (5). The advantages of the present invention are that: 1) the angle of the incident surface (41) of the wedge-shaped mirror (4) is reasonably set such that the light ray reflected by the incident surface (41) of the wedge-shaped mirror (4) cannot emit onto the beamsplitters (31, 32), or even if it emits onto the beamsplitters (31, 32), there is no interference with the reflected light rays (61, 63) by the beamsplitters (31, 32), avoiding the multiple-point phenomenon; 2) the structure of the wedge-shaped mirror (4) is reasonably set such that the breakpoints in the projected laser light line are eliminated.
US12068563B1
A 360-degree rotary electrical connector may include a male connector and a female connector that are inserted in and match each other. The male connector includes a male connector base, a first electrical connection component fixed at the axis of the male connector base, and a second electrical connection component inserted in the male connector base. The female connector includes a female connector base that is cased in the male connector base by rotating, as well as a third electrical connection component and a fourth electrical connection component that are inserted in the female connector base, the third electrical connection component abuts the first electrical connection component frictionally and the fourth electrical connection component abuts the second electrical connection component frictionally. The male connector and the female connector maintain circuit flow during relative rotation.
US12068553B2
A flat-conductor connection element for an electrically conductive structure applied to a pane, includes at least one conductor, containing a flat conductor, having a first connection region at a first end and a second connection region at a second end, the first connection region having a connection surface for electrically connecting to the electrically conductive structure and having a contact surface opposite the connection surface for contact with a soldering tool; an encapsulation layer made of an electrically insulating material, which encapsulation layer surrounds the conductor at least in a conductor portion containing the first connection region, the encapsulation layer having a through-hole, through which the connection surface and the contact surface of the first connection region are accessible, the first connection region of the conductor being within the through-hole in a view perpendicularly through the plane of the encapsulation layer.
US12068548B2
An antenna includes a first insulating layer; a second insulating layer disposed on the first insulating layer in a height direction; a third insulating layer disposed between the first and second insulating layers, a feed via including a first portion passing through the first insulating layer, a second portion passing through the second insulating layer, and a third portion passing through the third insulating layer and connected to the first and second portions; and an antenna patch disposed on the first insulating layer and fed from the feed via, wherein a permittivity of the third insulating layer is lower than permittivities of the first and second insulating layers, and in a direction perpendicular to the height direction, a width of the third portion is wider than a width of the first portion and/or a width of the second portion.
US12068547B2
A segmented patch antenna is described. The segmented patch antenna comprises two rectangular parasitic elements. Each parasitic element comprises an integrated diode. The segmented patch antenna further comprises a main rectangular patch segment. The main rectangular patch segment comprises 3 slots, 2 slits and 3 diodes, respectively. The segmented patch antenna is suitable for use in multiple frequencies between 4.1 GHz and 5.7 GHz inclusive and configurable to operate in 12 independent modes.
US12068533B2
Techniques for implementing and/or operating a radio frequency system, which includes a logic board that outputs an analog electrical signal indicative of data to be wirelessly transmitted from the radio frequency system and a remote head. The remote head includes an antenna that generates an electromagnetic wave to facilitate wirelessly transmitting the data, an antenna integrated circuit implemented using a first semiconductor manufacturing technique, in which the antenna integrated circuit amplifies the analog electrical signal to generate a first amplified analog electrical signal, and a remote front-end integrated circuit coupled between the antenna integrated circuit and the antenna. The remote front-end integrated circuit is implemented using a second semiconductor manufacturing technique different from the first semiconductor manufacturing technique and amplifies the first amplified analog electrical signal based on a target output power of the antenna to generate a second amplified analog electrical signal indicative of the data.
US12068532B2
An antenna device that is attached to a vehicle, the antenna device including: a resin base; a metal base arranged on the resin base; a metal plate located above the resin base and attached to the metal base so as to be superimposed on a portion of the metal base; a substrate arranged on the metal base; an antenna connected to the substrate; and a plurality of fasteners which fix the metal base and the substrate, wherein one of the plurality of fasteners is positioned at a top-view superimposed area of the metal base and the metal plate.
US12068530B2
The present disclosure provides a metal structure, or antenna radiator, for an accessory that is configured to function as both an antenna and an input control. The device may be a wearable device with a first surface shaped to be in contact with the human body and a second surface shaped to be exposed when the device is being worn. The antenna radiator may be located internally within the housing of the device and coupled to a printed circuit board (“PCB”). The PCB may be located between the antenna radiator and the surface of the housing such that the PCB may shield the antenna radiator from antenna loss due to the human body. An electric field may extend between the PCB and the antenna radiator. The fringe electric field may improve cross-head and cross-body connectivity between the accessory and another device.
US12068529B2
An electronic device includes a metal frame, a middle frame, and at least one antenna feed module. The metal frame includes an upper metal frame, a first side metal frame, a bottom metal frame, and a second side metal frame sequentially connected. The middle frame, spaced apart from the first side metal frame and the second side metal frame, forms a slit, the at least one antenna feed module is received in the slit.
US12068528B2
A physically configurable communication device includes a conductive chassis. The physically configurable communication device includes a first device portion including one or more electrically driven antennas at least partially formed in the conductive chassis of the physically configurable communication device and an electrical feed in the first device portion connected to the one or more electrically driven antennas. The electrical feed is configured to supply a communication signal to the one or more electrically driven antennas. A second device portion is movably attached to the first device portion. The second device portion includes one or more capacitively coupled antennas at least partially formed in the conductive chassis of the physically configurable communication device, wherein each of the electrically driven antennas in the first device portion capacitively drives at least a corresponding one of the capacitively coupled antennas in the second device portion.
US12068520B2
A coaxial microstrip line conversion circuit includes a housing part including a protrusion protruding into the interior, a microstrip line substrate, a coaxial line including central and ground conductor parts, and a solder layer. The microstrip line substrate includes a microstrip line, a dielectric body having a recess cut into a lower surface, and a ground conductive part bent along the cut surface. The microstrip line substrate is mounted to a bottom surface of the housing part so that the recess and the protrusion fit together. A vertical distance between a lowest position of the ground conductor part facing the central conductor part and a ground surface of the ground conductive part adjacent to the cut surface is less than a vertical distance between the lowest position and a ground surface of the ground conductive part adjacent to a region of the dielectric body where the recess is not provided.
US12068510B2
A fuel cell stack includes stacked cells, each including a sheet-shaped power generation portion, two separators, a gas passage defining plate that includes a gas passage portion through which reactant gas flows, and a frame member that includes a supply port and a discharge port. The gas passage portion includes opposing portions extended in a flow direction of the reactant gas and arranged in parallel in an orthogonal direction. A main passage is defined between each opposing portion and the power generation portion. The gas passage portion includes a first passage portion adjacent to the supply port in the flow direction and a second passage portion adjacent to the first passage portion in the orthogonal direction. The main passages of the second passage portion each have a larger cross-sectional flow area than the main passages of the first passage portion.
US12068509B2
A solid oxide fuel cell or solid oxide electrolyzer includes a plurality of fuel cell layers stacked along a stacking axis. Each fuel cell layer including a stacked arrangement of elements including a cathode, an anode, an electrolyte located between the anode and the cathode, a support layer positioned at the anode opposite the electrolyte, and a separator plate located at the support layer opposite the anode. The separator plate is configured to contact the cathode of an adjacent fuel cell layer of the plurality of fuel cell layers. The separator plate defines a plurality of anode flow channels configured to deliver a fuel therethrough and a plurality of cathode flow channels configured to deliver an air flow therethrough. The separator plate is formed from a bulk metallic glass material.
US12068508B2
A battery is provided comprising an anode cap on a first side, and a cathode can on the opposing second side. The anode cap and cathode can be configured together to provide a cylindrical shaped round shaped battery with a peripheral side wall. The battery is modified to have one or more sharp protrusions extending from the peripheral side wall to increase the width and or height of the battery.
US12068506B2
A flexible battery may include: an electrode assembly having one or more unit cells each of the unit cells including a pair of electrode plates having different polarities, a separator interposed between the respective electrode plates and electrode tabs that protrude from the respective electrode plates; a pair of electrode leads connected to electrode tabs; and a strengthening tab fixed on any one electrode lead connection tab among the electrode tabs.
US12068503B2
Discussed is a battery module manufacturing system, which includes a battery module having a cell stack formed by stacking a plurality of battery cells, a module case configured to accommodate the cell stack and a bus bar frame configured to cover an opening at one side of the module case; a fixing frame coupled to one side of the battery module so that the bus bar frame is exposed to the outside; and at least one pressing jig apparatus coupled onto the fixing frame and configured to press electrode leads of the plurality of battery cells so that the electrode leads are welded in close contact with both sides of a bus bar provided to the bus bar frame.
US12068497B2
A materials handling vehicle including a battery receiving space, and a removable battery assembly, wherein: the removable battery assembly includes a battery body and a battery locking mechanism; the battery locking mechanism includes a spring-loaded battery handle and a spring-loaded locking pin; the battery receiving space includes a battery latch positioned to receive the spring-loaded locking pin; the spring-loaded battery handle includes a planar handle cam surface and the spring-loaded locking pin includes a planar pin cam surface such that the handle cam surface engages the pin cam surface with movement of the battery handle relative to the battery body; the spring-loaded battery handle is spring-biased in a locked position; and the spring-loaded locking pin is spring-biased in an extended position and is movable to a retracted position in response to movement of the battery handle from the locked position to an unlocked position.
US12068492B2
Provided are a power battery pack and an electric vehicle. The power battery pack includes: a pack body, where an accommodating space is defined in the pack body, the pack body is provided therein with at least one widthwise cross beam or lengthwise cross beam, the widthwise cross beam extends along a width direction of the power battery pack, the lengthwise cross beam extends along a length direction of the power battery pack, and the accommodating space is divided into a plurality of accommodating chambers by the at least one widthwise cross beam or lengthwise cross beam; and a plurality of cells, disposed in the pack body and directly arranged in the accommodating chambers, where at least one cell is arranged in each accommodating chamber to form a cell array.
US12068480B2
A nickel-based active material precursor for a lithium secondary battery includes: a secondary particle including a plurality of particulate structures, wherein each particulate structure includes a porous core portion and a shell portion, the shell portion including primary particles radially arranged on the porous core portion; and the secondary particle has a plurality of radial centers. When the nickel-based active material precursor is used, a nickel-based positive active material having a short lithium ion diffusion distance, in which intercalation and deintercalation of lithium are facilitated, may be obtained. A lithium secondary battery manufactured using the positive active material may exhibit enhanced lithium availability, and may exhibit enhanced capacity and lifespan due to suppression of crack formation in the active material during charging and discharging.
US12068476B2
A method of making an anode for an energy storage device such as a lithium-ion energy storage device is disclosed. The method may include depositing a first lithium storage layer over a current collector by a first CVD process. The current collector may include a metal oxide layer, and the first lithium storage layer is deposited onto the metal oxide layer. The method may also include forming a first intermediate layer over at least a portion of the first lithium storage layer. The method may further include depositing a second lithium storage layer over the first intermediate layer by a second CVD process. At least the first lithium storage layer may be a continuous porous lithium storage layer having a total content of silicon, germanium, or a combination thereof, of at least 40 atomic %.
US12068471B2
A predoping method for a negative electrode active material to dope the negative electrode active material with lithium ions using an electrolyte solution that includes lithium ions. The electrolyte solution includes at least one type of additive having a reduction potential higher than a reduction potential of a solvent contained in the electrolyte solution.
US12068467B2
Discussed is a battery pack that prevents a heat transfer phenomenon, and a device including the same. The battery pack includes: a battery module frame accommodating a battery cell stack, a battery pack frame, on which the battery module frame is mounted, and a battery module mounting part formed in the battery pack frame to mount the battery module frame to to the battery pack frame, wherein a heat insulation member is formed between the battery module mounting part and the battery module frame.
US12068466B2
A battery heating system includes a voltage conversion unit configured to be electrically connected to a power source and to a battery to be heated, and a control unit. The voltage conversion unit receives a first voltage input by the power source or a second voltage input by the battery to be heated. The control unit acquires a charging and discharging frequency of the voltage conversion unit, determines a charge transfer impedance of the battery to be heated according to the charging and discharging frequency, calculates a safe amplitude current of the battery to be heated according to the charge transfer impedance, and sends a control signal to the voltage conversion unit according to the charging and discharging frequency and the safe amplitude current to cause the voltage conversion unit to perform boost or buck processing of the first voltage or the second voltage according to the control signal.
US12068462B2
A low voltage electrochemical cell is provided that includes a metallic anode including an anode metal, a metallic cathode including a cathode metal, the metallic cathode further including a surface layer including an alloy of the anode metal and the cathode metal, an electrolyte disposed between the metallic anode and the metallic cathode, and a separator within the electrolyte or embedded with electrolyte. The electrochemical cell further includes a voltage stabilization electron current between said anode and said cathode, where the voltage stabilization electron current has an amperage capable of maintaining an open load circuit voltage of the electrochemical cell that varies by less than 10 percent over 10 hours or greater, optionally a month or greater, optionally over the cell lifetime, or a non-equilibrium anode metal/cathode metal ratio in the surface layer for 10 hours or greater, optionally a month or greater, optionally over the cell lifetime.
US12068461B2
A battery pack comprising a substrate comprising a battery power bus integrated into the substrate; and a pack controller; and at least one electrochemical cell connected directly to the substrate. A printed circuit board comprising a power bus integrated into the printed circuit board, wherein the power bus is connected to and configured to transfer power to and/or from at least one electrochemical cell; and at least one controller configured to control the at least one electrochemical cell. A thermal management system comprising at least one electrochemical cell; and a substrate directly connected to the at least one electrochemical cell and configured to transfer heat, power, and signals between the substrate and the at least one electrochemical cell. A thermal management method. A method of assembling a battery pack, comprising attaching at least one electrochemical cell of the battery pack directly to a substrate at least in part by welding.
US12068451B2
A lithium-ion secondary battery includes: a single cell that includes a first electrode, a separator stacked on the first electrode, and a second electrode stacked on the separator. The first electrode includes a porous body that includes at least one LLZ-based solid electrolyte of a lithium lanthanum zirconate or the lithium lanthanum zirconate doped with an atom other than a Li atom, a La atom, and a Zr atom, and has a pore, and an active material held in the pore. The separator has a relative density of 80% or more, and includes the at least one LLZ-based solid electrolyte of the lithium lanthanum zirconate or the lithium lanthanum zirconate doped with the atom other than the Li atom, the La atom, and the Zr atom, and at least one of a B atom, a P atom, or a Si atom.
US12068444B2
Discussed are an apparatus and a method for manufacturing an electrode assembly. The apparatus for manufacturing the electrode assembly includes a heater unit configured to heat a laminate of an electrode and a separator when the laminate passes therethrough, a lamination device configured to laminate the laminate that is heated while passing through the heater unit, and a moving unit configured to allow the laminate to be spaced a predetermined distance from the heater unit so that heat transferred from the heater unit to the laminate is reduced or blocked when an operation of the lamination device is stopped.
US12068443B1
Embodiments relate to forming an elastomeric interface layer (elayer) with a flap over multiple light emitting diode (LED) dies by forming materials across multiple LED dies and removing the materials between the LED dies. The formed flap of the elayer provides a large surface area for adhesion between each LED and a pick-up surface. For example, the flap may have a surface area that is larger than the light emitting surface of the LED die, or larger than the surface area of an elastomeric interface layer without the flap. As such, the elayer allows each LED to be picked up by a pick-up surface and placed onto a display substrate including control circuits for sub-pixels of an electronic display. In some embodiments, the LED dies are micro-LED (μLED) dies.
US12068440B2
A method for manufacturing an image display device including providing a plurality of first subpixels and a second subpixel, where the plurality of first subpixels have a plurality of first light-emitting elements and are configured to emit red, green, and blue light, and the second subpixel has a second light-emitting element and being configured to emit blue light. A defective subpixel detection process includes turning on the plurality of first light-emitting elements, and acquiring data of position of at least one defective subpixel among the plurality of first subpixels, where the defective subpixel is supposed to emit predetermined light with a predetermined color. A wavelength conversion layer formation process includes providing a wavelength conversion layer over the second light-emitting element to convert emission light emitted from the second light-emitting element to the predetermined light with the predetermined color if the predetermined color is red or green.
US12068439B2
Provided are a wavelength conversion member, a light-emitting element, and a light-emitting device which have high heat dissipation capability and are capable of reducing the decrease in luminescence intensity caused by increased output of an excitation light source. A wavelength conversion member 10 includes a matrix 2 and an inorganic phosphor 1 contained in the matrix 2 and has a relative density of 90% or more, a thermal conductivity of 10 W/m·K or more, and a quantum efficiency of 50% or more.
US12068437B2
A light emitting element includes: a semiconductor structure; first and second electrodes formed above the semiconductor structure; and a protective film. In a plan view: the first electrode has a first connecting portion, a first extending portion, and two second extending portions, the second electrode has a second connecting portion, and two third extending portions, the first extending portion extends linearly in a direction from the first connecting portion toward the second connecting portion, the two second extending portions are located on opposite sides of the first extending portion, respectively, with each of the second extending portions having two bent portions and a linear portion extending parallel to the first extending portion and located between the two bent portions, and the two third extending portions are located between the first extending portion and the two second extending portions, respectively.
US12068433B2
A light-emitting device includes: a substrate having a top surface, wherein the top surface comprises a first portion and a second portion; a first semiconductor stack on the first portion, comprising a first upper surface and a first side wall; and a second semiconductor stack on the first upper surface, comprising a second upper surface and a second side wall, and wherein the second side wall connects the first upper surface; wherein the first semiconductor stack comprises a dislocation stop layer; wherein the dislocation stop layer comprises AlGaN; and wherein the first side wall and the second portion of the top surface form an acute angle α between thereof.
US12068423B2
A detection device includes a photoelectric conversion portion in which a plurality of photodiodes are arranged in a planar shape, a light source configured to irradiate the photodiodes with light, and a heating electrode provided so as to face the photoelectric conversion portion, and configured to generate heat and conduct the heat to the photoelectric conversion portion.
US12068420B2
A dielectric substrate has a first surface including a first terminal connector and a second terminal connector located along a first side surface. A recess is between the first terminal connector and the second terminal connector. The recess has a first inner surface continuous with the first terminal connector, a second inner surface continuous with the second terminal connector, and a bottom surface between the first inner surface and the second inner surface. The first terminal connector has first wettability with a bond on its surface, and a first region has second wettability with the bond on its surface lower than the first wettability.
US12068404B2
Provided is a semiconductor device including: a semiconductor substrate; an active portion provided on the semiconductor substrate; a first well region and a second well region arranged sandwiching the active portion in a top view, provided on the semiconductor substrate; an emitter electrode arranged above the active portion; and a pad arranged above the first well region, away from the emitter electrode, wherein the emitter electrode is provided above the second well region. The provided semiconductor device further includes a peripheral well region arranged enclosing the active portion in a top view, wherein the first well region and the second well region may protrude to the center side of the active portion rather than the peripheral well region.
US12068401B2
Disclosed semiconductor structure embodiments include a bipolar junction device configured to have a high holding voltage. The device includes base, collector and emitter terminals. The high holding voltage is achieved because of a uniquely configured emitter terminal. Specifically, the device includes a base well region, which has a first-type conductivity. The emitter terminal includes, adjacent to the base well region (e.g., within and/or on the base well region), an emitter contact region, which has a second-type conductivity, and an ancillary emitter region, which abuts the emitter contact region and which has the first-type conductivity at a higher conductivity level than the base well region. Embodiments vary with regard to the shapes of the emitter contact region and ancillary emitter region. Embodiments also vary with regard to the structures used to isolate the collector terminal from the emitter terminal and with regard to the areas covered by silicide layers.
US12068392B2
A method and structure for doping source and drain (S/D) regions of a PMOS and/or NMOS FinFET device are provided. In some embodiments, a method includes providing a substrate including a fin extending therefrom. In some examples, the fin includes a channel region, source/drain regions disposed adjacent to and on either side of the channel region, a gate structure disposed over the channel region, and a main spacer disposed on sidewalls of the gate structure. In some embodiments, contact openings are formed to provide access to the source/drain regions, where the forming the contact openings may etch a portion of the main spacer. After forming the contact openings, a spacer deposition and etch process may be performed. In some cases, after performing the spacer deposition and etch process, a silicide layer is formed over, and in contact with, the source/drain regions.
US12068379B2
In an embodiment, a semiconductor device is provided that includes a lateral transistor device having a source, a drain and a gate, and a monolithically integrated capacitor coupled between the gate and the drain.
US12068378B2
A semiconductor structure and a method of forming the same are provided. In an embodiment, an exemplary semiconductor structure includes a gate structure disposed over a channel region of an active region, a drain feature disposed over a drain region of the active region; a source feature disposed over a source region of the active region, a backside source contact disposed under the source feature, an isolation feature disposed on and in contact with the source feature, a drain contact disposed over and electrically coupled to the drain feature, and a gate contact via disposed over and electrically coupled to the gate structure. A distance between the gate contact via and the drain contact is greater than a distance between the gate contact via and the isolation feature. The exemplary semiconductor structure would have a reduced parasitic capacitance and an enlarged leakage window.
US12068375B2
A nitride semiconductor device includes: a substrate; a first nitride semiconductor layer; a second nitride semiconductor layer; a first opening penetrating through the second nitride semiconductor layer to the first nitride semiconductor layer; a second opening penetrating through the second nitride semiconductor layer to the first nitride semiconductor layer; an electron transport layer and an electron supply layer provided along an inner face of each of the first opening and the second opening and above the second nitride semiconductor layer; a gate electrode; an anode electrode; a third opening penetrating through the electron supply layer and the electron transport layer to the second nitride semiconductor layer; a source electrode in the third opening; a drain electrode; and a cathode electrode. The anode electrode and the source electrode are electrically connected, and the cathode electrode and the drain electrode are electrically connected.
US12068373B2
The present disclosure relates to a semiconductor device and a fabrication method thereof. The semiconductor device includes a substrate, a first nitride semiconductor layer on the substrate and a second nitride semiconductor layer on the first nitride semiconductor layer. The second nitride semiconductor layer has a first area and a second area, and the second nitride semiconductor layer has single crystals. The semiconductor device includes an electrode in contact with the first area. A first concentration of Aluminum (Al) of the first area is less than a second concentration of Al of the second area, and the single crystals in the first area take over a crystal structure of the first nitride semiconductor layer.
US12068371B2
A semiconductor device includes a substrate; an isolation structure over the substrate; a fin over the substrate and the isolation structure; a gate structure engaging a first portion of the fin; first sidewall spacers over sidewalls of the gate structure and over a second portion of the fin; source/drain (S/D) features adjacent to the first sidewall spacers; and second sidewall spacers over the isolation structure and over sidewalls of a portion of the S/D features. The second sidewall spacers include silicon oxide, silicon nitride, or silicon oxynitride. The second sidewall spacers and the second portion of the fin include a same dopant, wherein the dopant includes phosphorus.
US12068370B2
A semiconductor device structure, along with methods of forming such, are described. The structure includes first and second source/drain epitaxial features, a first gate electrode layer disposed between the first and second source/drain epitaxial features, third and fourth source/drain epitaxial features, a second gate electrode layer disposed between the third and fourth source/drain epitaxial features, fifth and sixth source/drain epitaxial features disposed over the first and second source/drain epitaxial features, and a third gate electrode layer disposed between the fifth and sixth source/drain epitaxial features. The third gate electrode layer is electrically connected to the second source/drain epitaxial feature. The structure further includes a seventh source/drain epitaxial feature disposed over the third source/drain epitaxial feature and an eighth source/drain epitaxial feature disposed over the fourth source/drain epitaxial feature. The second gate electrode layer is disposed between the seventh and eighth source/drain epitaxial features.
US12068369B2
A semiconductor device includes a device isolation layer on a substrate; pattern groups including fin patterns extending in a first direction; and gate structures extending in a second direction to intersect the fin patterns. A first pattern group, among the pattern groups, may include first fin patterns. At least a portion of the first fin patterns may be arranged with a first pitch in the second direction. The first pattern group may include a first planar portion extending from a first recess portion. A central axis of the first recess portion may be spaced apart from a central axis of one of the first fin patterns by a first distance in the second direction. The first planar portion may have a first width in the second direction and being greater than the first pitch. The first distance may be about 0.8 times to about 1.2 times the first pitch.
US12068362B2
An electrode structure includes a pad of conductive material, and a conductive strip having a first end physically and electrically coupled to the pad. The pad includes an annular element internally defining a through opening. The first end of the conductive strip is physically and electrically coupled to the annular element by a transition region so that, when the conductive strip undergoes expansion by the thermal effect, a stress spreads from the conductive strip to the annular element by the transition region.
US12068360B2
A capacitor includes: a bottom electrode; a top electrode over the bottom electrode; a dielectric film between the bottom electrode and the top electrode; and a doped Al2O3 film between the top electrode and the dielectric film, wherein the doped Al2O3 film includes a first dopant, and an oxide including the same element as the first dopant has a higher dielectric constant than a dielectric constant of Al2O3.
US12068352B2
A solid-state imaging device includes a pixel having a photoelectric conversion element which generates a charge in response to incident light, a first transfer gate which transfers the charge from the photoelectric conversion element to a charge holding section, and a second transfer gate which transfers the charge from the charge holding section to a floating diffusion. The first transfer gate includes a trench gate structure having at least two trench gate sections embedded in a depth direction of a semiconductor substrate, and the charge holding section includes a semiconductor region positioned between adjacent trench gate sections.
US12068344B2
Provided are a camera module, a molding photosensitive assembly and manufacturing method thereof, and an electronic device. The molding photosensitive assembly comprises a molding portion, at least one photosensitive chip and at least one circuit board, wherein the photosensitive chip is provided on the circuit board, the molding portion comprises a molding portion main body, the molding portion main body is made of a transparent material, and the molding portion main body, the photosensitive chip and the circuit board form an integral structure by means of a molding technique, so as to facilitate production.
US12068342B2
A photoelectric conversion device includes a semiconductor substrate, a photoelectric conversion unit, an amplification transistor, and an insulating isolation portion. The photoelectric conversion unit is disposed inside the semiconductor substrate. The amplification transistor is configured to output a signal from the photoelectric conversion unit. The insulating isolation portion, disposed between the photoelectric conversion unit and the amplification transistor to surround the amplification transistor in a plan view, is configured to penetrate through the semiconductor substrate. A first well in which the amplification transistor is disposed is connected to a source or a drain of the amplification transistor.
US12068333B2
A display substrate, a display panel, and a display device are provided. The display substrate includes: a base substrate; a first semiconductor layer on the base substrate; and a second semiconductor layer on a side of the first semiconductor layer away from the base substrate. The display substrate further includes a plurality of thin film transistors on the base substrate, which at least include a first transistor, a second transistor and a third transistor. Each of the plurality of thin film transistors includes an active layer. The active layer of at least one of the first transistor and the second transistor is located in the second semiconductor layer and contains an oxide semiconductor material. The active layer of the third transistor is located in the first semiconductor layer and contains a polysilicon semiconductor material. At least one of the first transistor and the second transistor has a dual-gate structure.
US12068330B2
A touch array substrate and a manufacturing method thereof, wherein in the touch array substrate, an active layer, an insulating layer, a pixel electrode layer, a metal layer, a planarization layer, and a common electrode layer are sequentially disposed on the buffer layer. The active layer includes a first region corresponding to a source electrode and a second region corresponding to a drain electrode. The pixel electrode layer includes a plurality of base layers. The metal layer is correspondingly disposed on the base layers. The metal layer includes a touch signal line, a data line, and a gate electrode. The common electrode layer includes a touch electrode, the source electrode, and the drain electrode.
US12068326B2
A semiconductor device includes a substrate having cell areas and power areas that are alternately arranged in a second direction. Gate structures extend in the second direction. The gate structures are spaced apart from each other in a first direction perpendicular to the second direction. Junction layers are arranged at both sides of each gate structure. The junction layers are arranged in the second direction such that each of the junction layer has a flat portion that is proximate to the power area. Cutting patterns are arranged in the power areas. The cutting patterns extend in the first direction such that each of the gate structures and each of the junction layers in neighboring cell areas are separated from each other by the cutting pattern.
US12068321B2
A semiconductor device includes a first transistor, a division pattern, and a second transistor sequentially stacked on a substrate. The first transistor includes a first gate structure, a first source/drain layer at each of opposite sides of the first gate structure, and first semiconductor patterns spaced apart from each other in a vertical direction. Each of the first semiconductor patterns extends through the first gate structure and contacts the first source/drain layer. The division pattern includes an insulating material. The second transistor includes a second gate structure, a second source/drain layer at each of opposite sides of the second gate structure, and second semiconductor patterns spaced apart from each other in the vertical direction. Each of the second semiconductor patterns extends through the second gate structure and contacts the second source/drain layer. The first source/drain layer does not directly contact the second source/drain layer.
US12068311B2
A semiconductor device includes a semiconductor part, first and second electrodes, and a control electrode. The semiconductor part is provided between the first and second electrodes. The control electrode is provided in a trench of the semiconductor part between the semiconductor part and the second electrode. The semiconductor part includes first to third layers. The first layer of a first conductivity type extends between the first and second electrodes. The second layer of a second conductivity type is provided between the first layer and the second electrode. The second layer is connected to the second electrode. The third layer of the second conductivity type is provided between the second layer and the control electrode. The third layer includes a second-conductivity-type impurity with a higher concentration than a second-conductivity-type impurity of the second layer. The third layer contacts the second electrode, and is electrically connected to the second electrode.
US12068309B2
A method for fabricating a semiconductor device includes first providing a substrate having a high-voltage (HV) region, a medium-voltage (MV) region, and a low-voltage (LV) region, forming a HV device on the HV region, and forming a LV device on the LV region. Preferably, the HV device includes a first base on the substrate, a first gate dielectric layer on the first base, and a first gate electrode on the first gate dielectric layer. The LV device includes a fin-shaped structure on the substrate, and a second gate electrode on the fin-shaped structure, in which a top surface of the first gate dielectric layer is lower than a top surface of the fin-shaped structure.
US12068305B2
A semiconductor device includes a first transistor having a first fin, wherein a base of the first fin is surrounded by a first dielectric material, the first fin having a first fin height measured from the top surface of the first dielectric material to a top surface of the first fin; and a second transistor having a second fin, wherein a base of the second fin is surrounded by a second dielectric material, the second fin having a second fin height measured from a top surface of the second dielectric material to a top surface of the second fin, wherein the first fin height is different from the second fin height.
US12068299B2
According to one embodiment, a semiconductor device includes a first substrate and a logic circuit provided on the first substrate. The device further includes a memory cell provided above the logic circuit and a second substrate provided above the memory cell. The device further includes a bonding pad provided above the second substrate and electrically connected to the logic circuit. The device further includes a wiring that is provided above the second substrate, is electrically connected to the memory cell, and includes at least one of a data signal line, a control voltage line, and a power supply line.
US12068298B2
We herein describe a semiconductor device sub-assembly comprising at least two power semiconductor devices and a contact of a first type. A first power semiconductor device is located on a first side of the contact of a first type, and a second power semiconductor device is located on a second side of the contact of a first type, where the second side is opposite to the first side.
US12068287B2
A device comprises a first chip comprising a first connection pad embedded in a first dielectric layer and a first bonding pad embedded in the first dielectric layer, wherein the first bonding pad comprises a first portion and a second portion, the second portion being in contact with the first connection pad and a second chip comprising a second bonding pad embedded in a second dielectric layer of the second chip, wherein the first chip and the second chip are face-to-face bonded together through the first bonding pad the second bonding pad.
US12068286B2
An electronic device with embedded access to a high-bandwidth, high-capacity fast-access memory includes (a) a memory circuit fabricated on a first semiconductor die, wherein the memory circuit includes numerous modular memory units, each modular memory unit having (i) a three-dimensional array of storage transistors, and (ii) a group of conductors exposed to a surface of the first semiconductor die, the group of conductors being configured for communicating control, address and data signals associated the memory unit; and (b) a logic circuit fabricated on a second semiconductor die, wherein the logic circuit also includes conductors each exposed at a surface of the second semiconductor die, wherein the first and second semiconductor dies are wafer-bonded, such that the conductors exposed at the surface of the first semiconductor die are each electrically connected to a corresponding one of the conductors exposed to the surface of the second semiconductor die. The three-dimensional array of storage transistors may be formed by NOR memory strings.
US12068282B2
A stacked semiconductor device having hybrid metallic structures and associated systems and methods are disclosed herein. The stacked semiconductor device can include a first semiconductor die and a second semiconductor die. The first semiconductor die can include a top surface, a first bond site at the top surface and a second bond site at the first surface spaced apart from the first bond site. The second semiconductor die can include a lower surface facing the top surface of the first semiconductor die, a third bond site at the lower surface, and a fourth bond site at the lower surface. The third bond site includes a conductive structure bonded to the first bond site by a metal-metal bond. The fourth bond site at the lower surface includes a solder ball bonded to the second bond site.
US12068278B2
Representative implementations of techniques and methods include processing singulated dies in preparation for bonding. A plurality of semiconductor die components may be singulated from a wafer component, the semiconductor die components each having a substantially planar surface. Particles and shards of material may be removed from edges of the plurality of semiconductor die component. Additionally, one or more of the plurality of semiconductor die components may be bonded to a prepared bonding surface, via the substantially planar surface.
US12068277B2
A first semiconductor device and a second semiconductor device may be directly bonded using heterogeneous bonding layers. A first bonding layer may be formed on the first semiconductor device and the second bonding layer may be formed on the second semiconductor device. The first bonding layer may include a higher concentration of hydroxy-containing silicon relative to the second bonding layer. The second bonding layer may include silicon with a higher concentration of nitrogen relative to the first bonding layer. An anneal may be performed to cause a dehydration reaction that results in decomposition of the hydroxy components of the first bonding layer, which forms silicon oxide bonds between the first bonding layer and the second bonding layer. The nitrogen in the second bonding layer increases the effectiveness of the dehydration reaction and the effectiveness and strength of the bond between the first bonding layer and the second bonding layer.
US12068276B2
Disclosed herein is a method, including attaching a semiconductor chip to a chip mounting portion on at least one leadframe portion, and attaching a passive component on a passive component mounting portion of the at least one leadframe portion. The method further includes forming a laser direct structuring (LDS) activatable molding material over the semiconductor chip, passive component, and the at least one leadframe portion. Desired patterns of structured areas are formed within the LDS activatable molding material by activating the LDS activatable molding material. The desired patterns of structured areas are metallized to form conductive areas within the LDS activatable molding material to thereby form electrical connection between the semiconductor chip and the passive component. A passivation layer is formed on the LDS activatable molding material.
US12068271B2
A semiconductor device structure, along with methods of forming such, are described. The structure includes a substrate having one or more devices formed thereon, one or more bonding pads disposed over the substrate, and a first passivation layer disposed over the one or more bonding pads. The first passivation layer includes a first passivation sublayer having a first dielectric material, a second passivation sublayer disposed over the first passivation sublayer, and the second passivation sublayer has a second dielectric material different from the first dielectric material. The first passivation layer further includes a third passivation sublayer disposed over the second passivation sublayer, and the third passivation sublayer has a third dielectric material different from the second dielectric material. At least two of the first, second, and third passivation sublayers each includes a nitride.
US12068269B2
A method and a system for verifying an integrated circuit stack having a silicon photonic (SIPH) device is introduced. A single first dummy layer is added to at least one terminal of the SIPH device in a first layout of the first integrated circuit, wherein a shape of the single first dummy layer added to the at least one terminal of the SIPH device maps a shape of the at least one terminal of the SIPH device. A first layout versus schematic (LVS) check is performed on the first integrated circuit based on the single first dummy layer added to the at least one terminal of the SIPH device to verify a connection of the SIPH device in the first integrated circuit.
US12068259B2
A semiconductor device package includes a substrate having a surface, a conductive element disposed on the surface of the substrate, and an encapsulant disposed on the surface of the substrate and covering the conductive element. The conductive element has an upper surface facing away from the substrate and exposed from the encapsulant. Further, a roughness of the upper surface of the conductive element is greater than a roughness of a side surface of the conductive element.
US12068258B2
An electronic assembly according to an embodiment includes: a circuit board including a first edge surface and a trace having an electrical conductivity; an electronic element including a lateral edge spatially spaced apart from the first edge surface, and mounted on the circuit board and electrically connected to the trace; a protection layer including a second edge surface and disposed on the electronic element to substantially cover the electronic element; a magnetic field shielding film including a third edge surface and disposed on the protection layer; and a first metal layer. The first edge surface connects a main top surface of the circuit board and a main bottom surface of the circuit board, the second edge surface connects a main top surface of the protection layer and a main bottom surface of the protection layer, and the third edge surface connects a main top surface of the magnetic field shielding film and a main bottom surface of the magnetic field shielding film, and the first edge surface, the second edge surface, and the third edge surface are substantially aligned with one another to form a coupling edge surface which is substantially planar. In addition, the first metal layer is disposed on the magnetic field shielding film, and covers the main top surface of the magnetic field shielding film and the coupling edge surface.
US12068254B2
An interconnection structure, along with methods of forming such, are described. The interconnection structure includes a first portion of a conductive layer, and the conductive layer includes one or more graphene layers. The first portion of the conductive layer includes a first interface portion and a second interface portion opposite the first interface portion, and each of the first and second interface portion includes a metal disposed between adjacent graphene layers. The structure further includes a second portion of the conductive layer disposed adjacent the first portion of the conductive layer, and the second portion of the conductive layer includes a third interface portion and a fourth interface portion opposite the third interface portion. Each of the third and fourth interface portion includes the metal disposed between adjacent graphene layers. The structure further includes a dielectric material disposed between the first and second portions of the conductive layer.
US12068247B2
A method for manufacturing a semiconductor structure includes: a substrate is provided, the substrate is provided with memory cell array region and peripheral circuit region; a first insulating dielectric layer is formed in memory cell array region and a second insulating dielectric layer is formed in peripheral circuit region, bit line structures are formed in first insulating dielectric layer, conductive structures are formed in second insulating dielectric layer, each bit line structure includes a bit line conductive structure and an isolation structure covering a top and a side wall of bit line conductive structure; isolation structure is etched to form a first gap in memory cell array region and second insulating dielectric layer between conductive structures is etched to form a second gap in peripheral circuit region; and a third insulating dielectric layer is formed on a side wall of first gap and a side wall of second gap.
US12068239B2
A semiconductor structure includes: a substrate and a dielectric layer arranged on the substrate; a conductive plug, a first portion of the conductive plug being arranged in the substrate, and a second portion of the conductive plug being arranged in the dielectric layer; and a capacitor array, the capacitor array at least surrounding the second portion of the conductive plug.
US12068227B2
Structures and methods for reducing process charging damages are disclosed. In one example, a silicon-on-insulator (SOI) structure is disclosed. The SOI structure includes: a substrate, a polysilicon region and an etch stop layer. The substrate includes: a handle layer, an insulation layer arranged over the handle layer, and a buried layer arranged over the insulation layer. The polysilicon region extends downward from an upper surface of the buried layer and terminates in the handle layer. The etch stop layer is located on the substrate. The etch stop layer is in contact with both the substrate and the polysilicon region.
US12068219B2
A heat sink integrated insulating circuit substrate includes: a heat sink including a top plate part and a cooling fin; an insulating resin layer formed on the top plate part of the heat sink; and a circuit layer made of metal pieces arranged on a surface of the insulating resin layer opposite to the heat sink, wherein, when a maximum length of the top plate part is defined as L, an amount of warpage of the top plate part is defined as Z, and deformation of protruding toward a bonding surface side of the top plate part of the heat sink is defined as a positive amount of warpage, and a curvature of the heat sink is defined as C=|(8×Z)/L2|, a ratio P/Cmax between a maximum curvature Cmax(I/m) of the heat sink during heating from 25° C. to 300° C. and peel strength P (N/cm) of the insulating resin layer satisfies P/Cmax>60.
US12068218B2
A package structure includes a semiconductor package, a thermal conductive gel, a thermal conductive film and a heat spreader. The thermal conductive gel is disposed over the semiconductor package. The thermal conductive film is disposed over the semiconductor package and the thermal conductive gel. A thermal conductivity of the thermal conductive film is different from a thermal conductivity of the thermal conductive gel. The thermal conductive film is surrounded by the heat spreader.
US12068216B1
A multichannel transistor is provided. In the transistor, a plurality of gate fingers overlie a substrate and extend laterally across the substrate from a gate manifold. The gate manifold has a curved edge, and each of the gate fingers projects radially from the curved manifold edge.
US12068214B2
A display panel and a manufacturing method thereof are provided. In the manufacturing method of the display panel, a corner-cutting area of a to-be-cut display panel is provided with a cutting groove. The cutting groove penetrates a buffer layer and extends into a flexible substrate. Furthermore, the cutting groove is provided with an inorganic encapsulation layer and a sacrificial layer. Therefore, when cutting the to-be-cut display panel along the cutting groove, cracks generated during a process can be reduced, thereby alleviating a problem of micro-cracks affecting a packaging effect of conventional display panels during a secondary cutting process.
US12068209B2
A power module includes a housing having a carrier plate, housing walls and a housing cover. Semiconductor elements and a temperature sensor unit having a temperature sensor are disposed in the interior of the housing on the carrier plate. Partitions disposed in the interior of the housing separate the temperature sensor unit from the semiconductor elements and enclose the temperature sensor unit in a chamber.
US12068207B2
A method of qualifying semiconductor wafer processing includes: illuminating a semiconductor wafer simultaneously with source light having wavelengths in a plurality of wavebands, including at least a first waveband and a second waveband, the second waveband being different from the first waveband; separating light reflected from the semiconductor wafer as a result of said illuminating, the separating dividing the reflected light according to waveband; generating a first image of the semiconductor wafer based on reflected light separated into the first waveband; and, generating a second image of the semiconductor wafer base on reflected light separated into the second waveband.
US12068199B2
A method includes forming a patterned etching mask, which includes a plurality of strips, and etching a semiconductor substrate underlying the patterned etching mask to form a first plurality of semiconductor fins and a second plurality of semiconductor fins. The patterned etching mask is used as an etching mask in the etching. The method further includes etching the second plurality of semiconductor fins without etching the first plurality of semiconductor fins. An isolation region is then formed, and the first plurality of semiconductor fins has top portions protruding higher than a top surface of the isolation region.
US12068188B2
A component manufacturing method includes a step of obtaining a holding tool. The holding tool includes: a frame body having an opening; and a holding film placed on the frame body. The step is a step of placing the holding film on the frame body while stretching the holding film in at least three different directions or in all directions to the frame body. The holding film includes a base layer and a holding layer. The holding tool forming device includes: a mechanism that pushes a plain film from a base layer side to bring about a stretched state; a mechanism that fixes the plain film to the frame body such that the stretched state is maintained; and a mechanism that isolates an unnecessary portion from the plain film to obtain the holding film.
US12068181B2
To suppress lowering of dimensional accuracy. A manufacturing method for a glass substrate is a manufacturing method for the glass substrate that supports a semiconductor device, the manufacturing method including: generating a glass base plate; measuring a thickness, a thickness deviation, and a warpage amount of the glass base plate; screening the glass base plate based on the thickness of the glass base plate; generating a plurality of glass blanks by cutting the screened glass base plate; setting a first polishing condition for the glass blank based on the thickness, the thickness deviation, and the warpage amount of the glass base plate; generating a glass plate by polishing a surface of the glass blank based on the first polishing condition; measuring a thickness, a thickness deviation, and a warpage amount of the glass plate; screening the glass plate based on the thickness of the glass plate; setting a second polishing condition for the glass plate based on the thickness, the thickness deviation, and the warpage amount of the glass plate; and polishing a surface of the screened glass plate based on the second polishing condition to generate a rectangular glass substrate in which a length of a side is equal to or larger than 300 mm and a thickness is equal to or larger than 0.5 mm.
US12068162B2
An embodiment includes a method including forming an opening in a cut metal gate region of a metal gate structure of a semiconductor device, conformally depositing a first dielectric layer in the opening, conformally depositing a silicon layer over the first dielectric layer, performing an oxidation process on the silicon layer to form a first silicon oxide layer, filling the opening with a second silicon oxide layer, performing a chemical mechanical polishing on the second silicon oxide layer and the first dielectric layer to form a cut metal gate plug, the chemical mechanical polishing exposing the metal gate structure of the semiconductor device, and forming a first contact to a first portion of the metal gate structure and a second contact to a second portion of the metal gate structure, the first portion and the second portion of the metal gate structure being separated by the cut metal gate plug.
US12068160B2
A method for manufacturing a semiconductor structure, comprising: forming a first mask layer, a first buffer layer, a second mask layer and a second buffer layer sequentially stacked from bottom to top; patterning the second buffer layer and the second mask layer; forming a first mask pattern on a side wall of a first pattern, the first mask pattern extending in a first direction; removing the second buffer layer and the second mask layer; forming a third mask layer, a third buffer layer, a fourth mask layer and a fourth buffer layer sequentially stacked form bottom to top; patterning the fourth buffer layer and the fourth mask layer; forming a second mask pattern on a side wall of a second pattern, the second mask pattern extending in a second direction; removing the fourth buffer layer and the fourth mask layer.
US12068159B2
Methods and apparatus for laser patterning leverage mask trench debris removal techniques to form etch singulation trenches. In some embodiments, the method includes forming a mask layer on the wafer, forming a pattern in the mask layer using a laser of a laser assembly where the pattern allows singulation of the wafer by deep etching and forms a trench in the mask layer with a laser beam which has a process point at a bottom of the trench, directing gas nozzles that flow a pressurized gas at the process point in the trench as the pattern is formed with a gas flow angle relative to the process point and evacuating debris from the trench using an area of negative pressure where the gas flow from gas nozzles and the area of negative pressure are in fluid contact and are confined within a cylindrical housing.
US12068148B2
The invention generally relates to mass spectrometers that utilize ionic wind and methods of use thereof.
US12068142B2
Various embodiments herein relate to carriers for supporting one or more substrate as the substrates are passed through a processing apparatus. In many cases, the substrates are oriented in a vertical manner. The carrier may include a frame and vertical support bars that secure the glass to the frame. The carrier may lack horizontal support bars. The carrier may allow for thermal expansion and contraction of the substrates, without any need to provide precise gaps between adjacent pairs of substrates. The carriers described herein substantially reduce the risk of breaking the processing apparatus and substrates, thereby achieving a more efficient process. Certain embodiments herein relate to methods of loading substrates onto a carrier.
US12068139B2
A plasma processing apparatus of the present disclosure includes a chamber, a shutter, and a contact portion. The chamber has an opening in a sidewall thereof so as to carry a wafer W into the chamber through the opening, and performs therein a predetermined processing on the wafer W by plasma of a processing gas supplied thereinto. The shutter opens or closes the opening by moving along the sidewall of the chamber. The contact portion is formed of a conductive material, and is not in contact with the shutter while the shutter is moving. When the shutter is in the position for closing the opening, the contact portion is displaced in a direction different from the direction of movement of the shutter to come into contact with the shutter.
US12068135B2
A gas distribution apparatus is provided having a first reservoir with a first upstream end and a first downstream end and a second reservoir with a second upstream end and a second downstream end. A reservoir switch valve is in fluid communication with the first downstream end of the first reservoir and the second downstream end of the second reservoir. The reservoir switch valve operable to selectively couple the first reservoir to an outlet of the reservoir switch valve when in a first state, and couple the second reservoir to the outlet of the reservoir switch valve when in a second state. A plurality of proportional flow control valves are provided having inlets coupled in parallel to the outlet of the reservoir switch valve The plurality of proportional flow control valves have outlets configured to provide gas to a processing chamber.
US12068129B2
A system and method of a tilt-column electron beam imaging system is disclosed. The system may include an imaging sub-system. The imaging sub-system may include a plurality of electron beam sources configured to generate a plurality of beamlets. The imaging sub-system may further include a plurality of tilt-illumination columns, where a respective tilt-illumination column is configured to receive a respective beamlet from a respective electron beam source. For the system and method, a first tilt axis of a first tilt-illumination column may be orientated along a first angle and at least one additional tilt axis of at least one additional tilt-illumination column may be orientated along at least one additional angle different from the first angle, where each of the plurality of beamlets pass through a first common crossover volume.
US12068126B2
In some embodiments, an electrical device can include a body having a shape that extends along a longitudinal direction, and a set of electrodes implemented on the body at different locations along the longitudinal direction and configured to allow the electrical device to be positioned and mounted to a surface. The set of electrodes can include first and second electrodes configured to provide first and second engagements with the surface, respectively, and to allow a settling motion when the electrical device is positioned on the surface. The set of electrodes can further include a selected electrode having a side configured to allow the settling motion and an engagement portion configured to stop the settling motion and thereby provide a third engagement with the surface.
US12068119B2
A keyboard device with a display panel including a base, a scissors feet assembly movably disposed on the base, an elastic member disposed on the base, a display panel supported by the scissors feet assembly and the elastic member, and multiple light transmittance keycaps disposed on the display panel is provided. The display panel has multiple display surfaces, multiple hollow portions, and multiple elastic portions. Each of the display surfaces is surrounded by the hollow portions, and is suspended between the hollow portions by the elastic portions. The light transmittance keycaps respectively and correspondingly cover the display surfaces.
US12068118B2
A method for producing an electrical switch contact arrangement for a vacuum circuit breaker includes the following steps: a) providing two electrical contact pieces made of copper or a copper alloy; b) coating the electrical contact pieces with aluminum or an aluminum alloy, the coating of the contact pieces taking place by means of a cold gas spraying method; c) welding each of the sides coated in method step b) to a current transfer contact; and d) arranging the units obtained in method step b) inside the vacuum circuit breaker. There is also described an electrical switch contact arrangement for a vacuum circuit breaker with the contact pieces produced by the method according to the invention.
US12068117B2
A multilayer ceramic capacitor includes a multilayer body including an inner layer portion including dielectric layers and internal electrode layers alternately laminated therein, two outer layer portions respectively provided on both sides of the inner layer portion in a lamination direction, and two side gap portions respectively provided on both side surfaces of the inner layer portion and the outer layer portions, in a width direction intersecting the lamination direction, and external electrodes respectively provided on both end surfaces of the multilayer body in a length direction intersecting the lamination direction and the width direction, and each connected to the internal electrode layers, wherein nickel and magnesium are segregated between the side gap portions and the outer layer portions.
US12068109B2
An electrochemical energy storage device comprises: a cover plate (4), comprising a lead-out bar (41) and a fixing plate (42), wherein the lead-out bar (41) is a conductor, the fixing plate (42) is an insulator, and the lead-out bar (41) vertically passes through the fixing plate (42) and is fixed thereon; a housing (9), which is cylindrical and is provided with an opening at at least one end thereof, wherein the insulating fixing plate (42) and the opening of the housing (9) are connected in a sealed manner by means of a sealing ring (2); and a rolled core (7), provided in an inner cavity of the housing (9), wherein the rolled core (7) is conductively connected to the lead-out bar (41) by means of an upper connecting piece (6), and is conductively connected to another lead-out end of the housing (9) by means of a lower connecting piece (8); and the device further comprises: a welding ring (1), conductively connected to the housing (9) by means of welding, and a welding bar (3), conductively connected to the lead-out bar (41) of the cover plate (4) by means of welding, wherein the welding ring (1) and the welding bar (3) are provided on the same side of the housing (9). The upper connecting piece (6) and the lower connecting piece (8) respectively lead out the positive electrode and the negative electrode of the electrochemical energy storage device, and lead the positive electrode and the negative electrode to the outside. The device is led out at two ends, has a low internal resistance, and can be tin-soldered, thereby facilitating the assembly of modules.
US12068096B2
An inductor according to an embodiment of the present invention may include: a plurality of first E-type cores, each of which has a base unit and a center leg extending in a first direction from the base unit; a first I-type core arranged in the first direction from the plurality of first E-type cores; and a coil wound around the center leg of each of the plurality of first E-type cores. Here, the plurality of E-type cores may be arranged in a line along the first direction.
US12068092B2
A resistor structure includes a resistor body; and a first electrode structure disposed at and being in electric contact with a first end of the resistor body, and a second electrode structure disposed at and being in electric contact with a second end opposite to the first end of the resistor body. Each of the first electrode structure and the second electrode structure has at least one conductive protrusion. The at least one conductive protrusion of the first electrode structure and the at least one conductive protrusion of the second electrode structure both serve as voltage-sensing terminals for electric connection to an external voltage measurement device, or both serve as current-sensing terminals for electric connection to a current measurement device.
US12068091B2
An offshore submarine cable for an offshore wind farm. The offshore submarine cable has a power capacity between 3 MW and 2.5 GW, at least one weighting element having a density of at least 5 g/cm3 at 20° C., and at least one armor package.
US12068086B2
An arrangement for welded conductors for power transmission cables includes conductors welded by a high conductive welding material. A method for production of such welded conductors and power transmission cables including the welded conductors includes joining the conductor elements by welding.
US12068081B2
A health service system for caring for the health of a patient. In one example, the health service system operates to present media content in association with a telehealth consultation. The health service system generates a virtual waiting room for display on a patient device, which presents a media content presentation. After the media content presentation has concluded, the health service system facilitates the telehealth consultation between a patient and a care provider. In some configurations the health service system further includes at least one hub care facility. The hub care facility includes a locked door with a scanner that unlocks the locked door upon scanning a time sensitive door unlock code; and a locked medication locker with a scanner that unlocks the locked medication locker upon scanning a medication locker unlock code.
US12068079B2
Systems and methods are disclosed for assessing a risk of disease. One method includes obtaining an anatomic model associated with a target anatomy; modeling, using a processor, an injection of one or more virtual contrast agents into the anatomic model; performing a simulation of flow of blood and the one or more virtual contrast agents through the anatomic model; and computing one or more characteristics of concentration associated with the one or more virtual contrast agents at one or more locations in the anatomic model based on the simulation.
US12068078B2
A system for an artificial intelligence alimentary professional support network for vibrant constitutional guidance includes a computing device. The system includes a diagnostic engine designed and configured to receive a biological extraction from a user and generate a diagnostic output based on the biological extraction. The system includes an advisor module designed and configured to receive a request for an advisory input, generate an advisory output using the request for an advisory input and the diagnostic output, and transmit the advisory output. The system includes an alimentary input module designed and configured to receive the advisory output, select an informed advisor alimentary professional client device as a function of the request for an advisory input, and transmit the at least an advisory output to the informed advisor alimentary professional client device.
US12068072B2
Disclosed are systems, methods, and non-transitory computer-readable enabling online access to encounter data across multiple disparate sources. The method includes providing a synchronizer application configured to access data of a practice group server, receiving, by an aggregator server, a start time and a duration of a healthcare appointment, and determining a completion time of the healthcare appointment. Based on the completion time, the aggregator server transmits a request for encounter data for the healthcare appointment to the synchronizer application and then receives and stores the encounter data in an aggregator database. The aggregator server generates an electronic alert addressed to a computing device accessible by the patient and transmits the alert to the computing device. The aggregator server receives an electronic response to the alert and provides an interactive user interface to the computing device configured to display the encounter data on the computing device.
US12068071B2
Example systems and methods provide dynamic generation and display of workstation assignments in a pharmacy information system. A plurality of electronic workstation displays are in network communication with a workstation assignment engine configured to generate workstation assignments for employees assigned to the workstations displays and store a schedule record. Based on various triggers, workstations identified in the workstation assignments display the workstation assignments on a graphical user interface portion of the workstation displays. Dynamically generated changes to the workstation assignments in the schedule record may be generated and displayed in response to real-time change in coverage events.
US12068069B1
One embodiment provides a method including receiving current census data for departments of a hospital. The method includes projecting future census data for the departments. The method includes displaying, in a dynamic user interface on a facility utilization visualization application, a graphical view of a current utilization of the departments of the hospital determined from the current census data and a projected utilization of the departments determined from the future census data. The method includes dynamically updating the dynamic user interface in real-time based upon at least one of receipt of new real-time data, receipt of new historical data, and a new analysis of the real-time and the historical data. Other aspects are described and claimed.
US12068065B2
Methods and systems are provided which relate to the planning and delivery of radiation treatments by modalities which involve moving a radiation source along a trajectory relative to a subject while delivering radiation to the subject. An artificial intelligence (AI) agent trained using reinforcement learning (and/or some other suitable form of machine learning) is used to control the radiation delivery parameters in effort to achieve desired delivery of radiation therapy. In some embodiments, the AI agent selects suitable control steps (e.g. radiation delivery parameters for particular time steps), while accounting for patient motions, difference(s) in patient anatomical geometry and/or the like.
US12068062B2
A system and method for identifying health data associated with a health activity and processing the health data based on protected health information control for secure viewing and communication are provided. The method includes: detecting, by one or more processors, a health activity from a hardware device accessed by a user; identifying, by the one or more processors, health data associated with the health activity; identifying, by the one or more processors, a task to be performed based on the health activity; determining, by the one or more processors, whether the user is an authorized user based on a protected health information control unit; and responsive to the user being authorized, performing the task using the health data for the authorized user.
US12068049B2
According to one embodiment, a non-volatile memory includes a plurality of groups and a memory controller configured to execute a first operation. Each of the plurality of groups includes a plurality of cell units. Each of the plurality of cell units includes a plurality of memory cells. The first operation includes: based on a first correction amount associated with a target group, reading data from the target group; and updating the first correction amount to a second correction amount based on the data. The memory controller is configured to: select a first group as the target group; and when a condition is satisfied, select a second group as the target group after performing the first operation related to the first group.
US12068037B2
A processing device in a memory system connects a first data block of the memory device to a second data block of the memory device to generate a combined data block comprising a first plurality of sub-blocks of the first data block and a second plurality of sub-blocks of the second data block, wherein the connecting includes: for each wordline of a first plurality of wordlines of the first data block, creating a wordline connection short between the respective wordline of the first data block and a corresponding wordline of a second plurality of wordlines of the second data block, wherein the first plurality of wordlines and the second plurality of wordlines comprise data wordlines; and driving a first data wordline of the first data block and a second wordline of the second data block using a single string driver of the memory device.
US12068036B2
A memory device includes a memory array comprising memory cells and control logic. The control logic performs operations including: causing a first erase pulse to be applied to a memory line of the memory array to perform an erase operation, the memory line being a conductive line coupled to a string of the memory cells; suspending the erase operation in response to receipt of a suspend command during a ramping period of the first erase pulse; recording a suspend voltage level of the first erase pulse when suspended; causing the erase operation to be resumed in response to an erase resume command; selectively modifying a pulse width of a flattop period of a second erase pulse based on the suspend voltage level; and causing the second erase pulse to be applied to the memory line during a resume of the erase operation.
US12068034B2
Exemplary methods, apparatuses, and systems including a programming manager for controlling writing data bits to a memory device. The programming manager receives a first set of data bits for programming to memory. The programming manager writes a first subset of data bits to a first wordline during a first pass of programming. The programming manager writes a second subset of data bits of the first set of data bits to a buffer. The programming manager receives a second set of data bits for programming. The programming manager writes the second subset of data bits of the first set of data bits to the first wordline during a second pass of programming to increase a bit density of memory cells in the first wordline in response to receiving the second set of data bits.
US12068030B2
The application provides a content addressable memory (CAM) cell, a CAM memory device and an operation method thereof, and a method for searching and comparing data. The CAM cell includes a first flash memory cell having a first terminal for receiving a first search voltage; and a second flash memory cell having a first terminal for receiving a second search voltage, a second terminal of the first flash memory cell electrically connected to a second terminal of the second flash memory cell, wherein the first flash memory cell and the second flash memory cell are serially connected; and a storage data of the CAM cell is based on a combination of a plurality of threshold voltages of the first flash memory cell and the second flash memory cell.
US12068020B2
The invention relates to DRAM with sustainable storage architecture. The DRAM comprises a first supplying voltage source generating a voltage level corresponding to signal ONE utilized in the DRAM chip, and a DRAM cell which includes an access transistor and a storage capacitor. Wherein a first voltage level is higher than the voltage level corresponding to signal ONE, and the first voltage level is generated by a first sustaining voltage generator. The first sustaining voltage generator is electrically coupled to the storage capacitor of the DRAM cell during a turning-off period of the access transistor of the DRAM cell. A clean up circuit is provided to mitigate the difference between the voltages of BL/BLB and the targeted reference voltage during the equalization period.
US12068017B2
Methods, systems, and devices for configurable input for an amplifier are described. In some examples, a circuit may be configured to operate based on a signal having a first voltage profile or a second voltage profile. For example, the first voltage profile may be associated with a range of voltages that are based on a temperature of an associated memory chip, and the second voltage profile may be associated with a voltage (or voltages) that are not associated with the temperature of the memory chip. The circuit may include one or more transistors and switches that are activated based on the voltage profile and a switch receiving a particular control signal. In some instances, the control signal may be received based on a value stored to one or more non-volatile memory elements.
US12068015B2
A memory device including a memory cell array including a first sub memory cell array including a first memory cell and a second sub memory cell array including a second memory cell, a merged write driver including a first write circuit receiving n-bit data (n being a natural number ≥2) through a write input/output line, outputting a first write voltage to a merged node in response to a first data bit of the n-bit data, and outputting a second write voltage to the merged node in response to a second data bit of the n-bit data, and a column decoder including a first column multiplexer applying a first voltage of the merged node corresponding to the first data bit to the first memory cell and a second column multiplexer applying a second voltage of the merged node corresponding to the second data bit to the second memory cell.
US12068014B2
A semiconductor apparatus includes a nonvolatile memory cell array including a plurality of first memory cells and a plurality of second memory cells including a first memory element 11 and a second memory element 12 including a resistance-variable nonvolatile memory element and a first selection transistor electrically connected to the first memory element 11 and the second memory element 12, in which a plurality of first memory elements 11 and a plurality of second memory elements 12 are arranged in a two-dimensional matrix in a first direction and a second direction different from the first direction and on the same interlayer insulating layer, the first memory element 11 is larger than the second memory element 12, and the first memory element 11 and the second memory element 12 are disposed adjacent to each other along the second direction.
US12068011B2
A magnetic head includes a first servo reading element pair, a second servo reading element pair, and a plurality of magnetic elements. The first servo reading element pair consists of a first servo reading element and a second servo reading element, the second servo reading element pair consists of a third servo reading element and a fourth servo reading element, the first servo reading element and the third servo reading element are disposed on one end side of the plurality of magnetic elements and read one servo band of the pair of servo bands, and the second servo reading element and the fourth servo reading element are disposed on the other end side of the plurality of magnetic elements and read the other servo band of the pair of servo bands.
US12068003B2
An electronic apparatus including a processor configured to receive a first audio signal, obtain a second audio signal by relating noise to the received first audio signal, identify whether the second audio signal matches a second command obtained by relating the noise to a first command of first reference data, based on second reference data, obtained by relating the noise to the first reference data, and perform an operation based on identification in response to the identifying that the second audio signal matches the second command.
US12068001B2
Techniques for detecting certain acoustic events from audio data are described. A system may perform event aggregation for certain types of events before sending an output to a device representing the event is detected. The system may bypass the event aggregation process for certain types of events that the system may detect with a high level of confidence. In such cases, the system may send an output to the device when the event is detected. The system may be used to detect acoustic events representing presence of a person or other harmful circumstances (such as, fire, smoke, etc.) in a home, an office, a store, or other types of indoor settings.
US12067996B2
A codec allowing for switching between different coding modes is improved by, responsive to a switching instance, performing temporal smoothing and/or blending at a respective transition.
US12067978B2
Methods and systems are disclosed herein for improvements relating to compressed automatic speech recognition (ASR) systems. The ASR system may comprise a compressed acoustic engine and an adaptive decoder. The adaptive decoder may be dynamically compiled based on characteristics of the compressed acoustic engine and a current state of the application device. In some embodiments, a dynamic command list is used to manage context-specific commands. Two or more commands recognized by the adaptive decoder may be confusable due to compression of the ASR system. Alternate commands may be determined that are semantically equivalent but phonetically different than the confusable commands to reduce classification error of the adaptive decoder. An alternate command may replace one or more of the confusable commands in the adaptive decoder. In some embodiments, a user interface is displayed to a user of the ASR system to select the alternate command for replacement in the decoder.
US12067957B2
One embodiment provides a method comprising determining a first representation of a source gamut of an input content in a first (2D) device-independent color space, determining a second representation of a target gamut of a display device in a second 2D device-independent color space, and determining a color transition protection zone (TPZ) based on the source gamut and the target gamut. The method further comprises utilizing a color gamut mapping (CGM) module to perform, based on the TPZ, linear color gamut compression from the first 2D device-independent color space to the second 2D device-independent color space if the target gamut is narrower than the source gamut. The method further comprises utilizing the same CGM module to perform, based on the TPZ, linear color gamut extension from the first 2D device-independent color space to the second 2D device-independent color space if the target gamut is wider than the source gamut.
US12067951B2
A wearable computing device includes an outer covering, a housing, an electronic display configured to display an image, and a display drive integrated circuit (DDIC) comprising a processor and a memory device. The memory device(s) includes a blanking time programmed therein based on one or more parameters of the image and/or the DDIC, which generally refers to the time period in which the DDIC receives pixel data of the image from an external controller. The memory device stores instructions that when executed by the processor cause the processor to perform operations, including receiving an indication to rotate the image by a certain angle, upon receipt of the indication, starting to receive a transmission of the pixel data of the image from the external controller, and completing the transmission of the pixel data of the image during the blanking time and before the DDIC displays the image on the electronic display so as to avoid a tearing effect of the image on the electronic display.
US12067936B2
Provided are a pixel circuit and a pixel control method capable of quickly controlling pixels with a simpler configuration of a combination of a photosensor and a pixel circuit. The pixel circuit includes: a switching transistor for switching a data signal to be applied to a data line; a driving transistor for supplying a drive current to an organic light emitting diode (OLED) according to a charge voltage corresponding to the data signal; a compensation transistor for compensating for a threshold voltage of the driving transistor; and a photosensor having a terminal to which a bias voltage is applied, wherein the switching transistor is a dual gate transistor having a first gate connected to another terminal of the photosensor, and a second gate connected to a gate of the compensation transistor.
US12067934B2
Objects are to provide a display device the power consumption of which is reduced, to provide a self-luminous display device the power consumption of which is reduced and which is capable of long-term use in a dark place. A circuit is formed using a thin film transistor in which a highly-purified oxide semiconductor is used and a pixel can keep a certain state (a state in which a video signal has been written). As a result, even in the case of displaying a still image, stable operation is easily performed. In addition, an operation interval of a driver circuit can be extended, which results in a reduction in power consumption of a display device. Moreover, a light-storing material is used in a pixel portion of a self-luminous display device to store light, whereby the display device can be used in a dark place for a long time.
US12067932B2
A backplane operative to drive an array of emissive pixel elements forming a part of an automotive head lamp assembly is disclosed. Each pixel element comprises a memory cell operative to pulse width modulate a current mirror pixel drive circuit configured to drive an emissive element. The array of emissive pixel elements is divided into a plurality of interdigitated rows or columns serviced by independent row drivers or independent column drivers that may be driven by data selected to randomize the order in which the data on adjacent pixels of the same row are written, thereby effectively substantially reducing the visibility of any residual structures that may be present in the data driving the pixels of adjacent columns.
US12067928B2
The present application provides a flicker adjustment method of a frequency conversion display device and frequency conversion display device, by the time controller detect and count the frame number or the total time length of the image frames that are continuous with the same frame rate, and compare the frame number or the total time length to a predetermined constant frequency determination threshold value, when the frame number or the total time length is equal to or greater than the predetermined constant frequency determination threshold value, the white tracking compensation table corresponding to each of the image frames that are continuous with the same frame rate is revised as the same white tracking compensation table. Therefore, the present application avoids the issues of flickering images, achieves the goal of lowered flickering images of the frequency conversion display device and improvement of display quality.
US12067925B2
Provided are a display panel and an electronic terminal, including pixel units arranged along row and column directions. The pixel unit includes sub-pixels of different colors arranged along the row direction. In a first mode, two adjacent groups of pixel units are simultaneously turned on, and the sub-pixels of a same color in two adjacent columns of pixel units display a same gray scale. In a second mode, a plurality of rows of pixel units are turned on sequentially, and each sub-pixel in a plurality of columns of pixel units displays a corresponding gray scale. The refresh rate of the first mode is greater than that of the second mode, and the resolution of the first mode is smaller than that of the second mode. This shortens the time required for all rows of pixel units to be turned on, thereby increasing the refresh rate.
US12067920B1
A line scanning unit, a line-scanning cascade circuit, and a driving method thereof are disclosed. The unit includes: an input module for pulling-up a voltage of a first node to be at high potential; an output module for receiving a first clock signal and outputting an output signal via a signal output terminal; a pull-down maintenance control module for pulling-up a voltage of a second node to be at high potential; a maintaining module for pulling-down voltages of the signal output terminal and the first node to be at low potential; a pull-down module for pulling-down the voltage of the second node to be at low potential; a first reset module for pulling-down the voltage of the first node to be at low potential; a second reset module for pulling-down the voltages of the first node, the second node, and the signal output terminal to be at low potential.
US12067911B2
A display driving device for driving a display panel, including a gate line, a data line intersecting with the gate line, and a pixel defined by the gate line and the data line, includes a data driver inputting an image signal to the pixel through the data line, a panel test unit determining the occurrence or not of an error of the gate line or the data line, and a switching unit selectively connecting the data driver or the panel test unit to the display panel.
US12067887B2
A method and system for developing a flight plan for taking images from an area of interest is disclosed. A series of trajectories is determined. Each trajectory is determined based on a logarithmic spiral curve derived from a range of predetermined basis angles and selecting a constant tangent angle between a radial line from the location of an image sensor to a target location, and a tangent line to the logarithmic spiral curve at the location of the image sensor. A set of trajectories from the series of trajectories is selected. The selected trajectories are scaled to cover the area of interest. The selected trajectories are transformed to coordinates corresponding to the area of interest. The set of scaled and transformed trajectories are stored as the flight plan for taking images of the area of interest.
US12067882B2
Disclosed are a motorcade regulation method, a device, an electronic equipment and a storage medium. A diffusion region of pheromones is constructed by taking a first vehicle main body determined from a multi-cooperative task as a center; a second pheromone set of a second vehicle main body meeting with the first vehicle main body is perceived by using the first pheromone set generated outwardly by the first vehicle main body based on the neural autocrine mechanism; when the second vehicle main body satisfies a proximity condition and an affinity of the pheromones of the first and second vehicle main bodies satisfies a regulation condition, the second vehicle main body is selected to be regulated, and upon regulation, a formation is arranged according to the movement parameters of the first and second vehicle main bodies which are then moved towards the cluster position based on the arranged formation.
US12067880B2
Systems and methods are provided for processing reports received from vehicles. A processing device perform operations comprising receiving a first report generated by a first vehicle, the first report generated by the first vehicle for a first hazard detected by the first vehicle; receiving a second report generated by a second vehicle, the second report generated by the second vehicle for a second hazard detected by the second vehicle; analyzing the first report and the second report to make a determination that the first report and the second report identify a related hazard; aggregating the first report and the second report into a consolidated report based on the determination that the first report and the second report identify a related hazard; and generating a map, the map indicating a location of the related hazard based on the consolidated report.
US12067873B2
A portable traffic signal system with multiple signal heads where a substantially horizontal telescopic arm is used to support multiple signal heads, where each additional remote stage is initially inclined with respect to an adjacent less remote stage and multiple traffic signal control boxes are held to a trailer using a “J” hook and a hole in a trailer floor, in combination with a hand crank jack.
US12067872B2
An ad-hoc network manager is provided. The vehicle includes a transceiver and one or more controllers of the host vehicle, in communication with the transceiver. The one or more controllers are programmed to receive connected messages from infrastructure via the transceiver, and execute a message subservice configured to provide, to vehicle applications executed by the one or more controller, one or more events related to the received connected messages.
US12067866B2
The invention relates to a method and to a device for analyzing a sensor data stream, which characterizes a vehicle environment, with respect to a presence of traffic scenarios. The invention further relates to a method for guiding a vehicle. A similarity measure, which indicates the degree of correspondence between a section of the sensor data stream and at least one template stored in a database, is determined by mapping the section of the sensor data stream to the at least one template, preferably by means of dynamic time normalization. The template thereby characterizes a known traffic scenario. The known traffic scenario is assigned to the section of the sensor data stream, if the similarity measure satisfies a predetermined similarity criterion.
US12067865B2
A method includes: obtaining a number of vehicles passing a driving road segment within a duration; determining whether the driving road segment is a sparse road segment by determining whether the number of vehicles is less than or equal to a vehicle threshold; obtaining first real-time driving data transmitted by a first vehicle the target road segment, and obtaining first driving characteristic-information of the target road segment based on the first real-time driving data; obtaining second real-time driving data transmitted by a second vehicle passing a topology road segment, and obtaining second driving characteristic-information of the target road segment based on the second real-time driving data, the topology road segment being a road segment within a target range of the target road segment; and generating road-condition information of the target road based on at least the second driving characteristic-information.
US12067858B2
A system may include a device that has one or more components that may perform one or more operations of an industrial automation system. The device may detect a change in an operation of the one or more components and generate a signal representative of the change. The system may also include one or more persistent display tags that may correspond to the one or more components. The one or more persistent display tags may receive the signal from the device and update a display in response to receiving the signal.
US12067855B2
In some embodiments, a method of determining whether a door is ajar may include determining an orientation of a door lock of the door, and, based on the orientation of the door lock, analyzing at least one signal from at least one of two or more proximity sensors of the door lock. The method may further include determining whether the door is ajar based at least in part on a result of the analyzing of the at least one signal. In some embodiments, a method of determining a status of a door may include receiving a first signal from a first magnetometer disposed within a door lock of the door, receiving a second signal from a second magnetometer disposed within the door lock of the door, and detecting, based on a result of an evaluation of both the first signal and the second signal, a possible attack on the door.
US12067854B2
A theft detection system for a vehicle is provided. The theft detection system includes a hybrid wireless tire sensor (HWTS) coupled to an interior of a tire of the vehicle, a processor, and a memory. The memory has instructions that, when executed by the processor, cause the processor to perform operations including detecting a change in voltage across the HWTS responsive to a change in deformation of the tire, and determining, based on the change in deformation of the tire, if a theft is occurring.
US12067852B2
In a monitoring system, the management device acquires position information of each camera, and selects at least one camera to be controlled from multiple cameras based on the position information of the camera transmitted from the mobile terminal and the position information of the mobile terminal, and acquires an image from selected the camera.
US12067850B2
Games, lotteries, and/or sweepstakes as well as tickets, systems, technologies, and/or methods related thereto. In some embodiments, a gaming hub or clearing house which is used to screen prospective game contestants prior to permitting their participation with games, sweepstakes, and/or lotteries and/or as well as for monitoring contestant play. In certain alternative embodiments, the game network access granting hub utilizes facial recognition technology to screen prospective game contestants.
US12067829B2
A gaming system and method that provides a changing pattern matching award feature in a gaming environment, which includes a plurality of different patterns that are independently and randomly selectable and displayable by the gaming system during a series of plays of one or more games via one or more electronic gaming machines or other devices of the gaming system or configured to operate with the gaming system.
US12067826B2
Technologies are disclosed herein for providing content management for deploying and updating a fleet of resources. A system for providing content management may include a web server or other apparatus configured to receive a local content request from a local device of a fleet of resources, the local content request comprising a canonical uniform resource locator (URL) that uniquely identifies the local device. The web server may be further configured to analyze the local content request to determine if the URL matches one or more rewrite rules, formulate a response to the local content request based on the analyzing, and transmit the formulated response.
US12067824B2
Example implementations include a method, system, and computer-readable medium, comprising collecting environment information by a first reader device configured to control access to a first secure area via ultrasound communications. The implementations further include determining first input information based on the environment information, the first input information. Additionally, the implementations further include determining, via a machine learning model, access intention information identifying the first secure area or a second secure area as an object of interest based on the first input information and second input information, wherein the second input information is associated with a second reader device that controls access to the second secure area and is co-located with the first reader device. Additionally, the implementations further include providing, based on the access intention information, access to one of the first secure area or the second secure area.
US12067817B2
An ignition coil includes an ignition circuit having a first winding and a second winding, a controller in communication with the ignition circuit, and a light. The ignition circuit is configured to output an ignition timing signal. The controller is configured to establish a rule that limits an engine speed to a maximum engine speed to be provided by the ignition timing signal. The light is configured to illuminate and indicate the maximum engine speed in response to an output signal from the controller.
US12067814B1
A marine motor assembly for mounting to a watercraft is disclosed. The marine motor assembly has a motor unit including a motor unit housing, a motor, a propulsion device, an air pump fluidly communicating with an under-housing volume of the motor unit housing, a pressure sensor for measuring air pressure in the under-housing volume, and a control unit communicating with the air pump and the pressure sensor. The control unit is programmed for controlling the air pump for changing air pressure in the under-housing volume, and monitoring change in the air pressure for a predetermined amount of time for confirming that the motor unit housing is water-resistant, or that the water resistance of the motor unit housing is compromised. A method for testing a water resistance of a motor unit housing of a marine motor assembly is also disclosed.
US12067811B2
A system for secure transfer of digital aircraft data comprising redundant data producer systems includes a first data producer, capable of producing first data, at successive moments, and a second data producer, redundant to the first system. The second data producer is capable of producing an integrity check result relating at least to second data which it produces in a manner redundant to the first data, the integrity check result being transmitted to a data consumer. The data consumer is capable of retrieving the first data and the integrity check result produced by the second system, to produce a new integrity check result from the first data and compare the new integrity check result with the integrity check result produced by the second system.
US12067810B2
Among other things, a determination is made that intervention in an operation of one or more autonomous driving capabilities of a vehicle is appropriate. Based on the determination, a person is enabled to provide information for an intervention. The intervention is caused in the operation of the one or more autonomous driving capabilities of the vehicle.
US12067799B2
Systems and methods may be used to map an environment. A method may include receiving frames of video data from a camera. The method may include identifying an object in at least two of the frames to identify an axis of the object. The axis may be used to generate a plane map.
US12067786B2
Among other things, we describe systems and method for validating sensor calibration. For validating calibration of a system of sensors having several types of sensors, an object may be configured to have a substantially reflective portion such that the sensors can isolate the substantially reflective portion, and their sensor data can be compared to determine, if the detected locations of the substantially reflective portion by each sensor are aligned. For calibrating a system of sensors, an object having known calibration features can be used and detected by each sensor, and the detected data can be compared to known calibration data associated with the object to determine if each sensor is correctly calibrated.
US12067777B2
Certain aspects of the present disclosure provide a method of processing video data. In one example, the method includes receiving input video data; sampling a first subset of clips from the input video data; providing the first subset of clips to a first component of a machine learning model to generate first output; sampling a second subset of clips from the input video data, wherein the second subset of clips comprises fewer clips than the first subset of clips; providing the second subset of clips to a second component of the machine learning model to generate a second output; aggregating the first output from the first component of the machine learning model with the second output from the second component of the machine learning model to generate aggregated output; and determining a characteristic of the input video data based on the aggregated output.
US12067768B2
Methods and systems are described herein for hosting and arbitrating algorithms for the generation of structured frames of data from one or more sources of unstructured input frames. A plurality of frames may be received from a recording device and a plurality of object types to be recognized in the plurality of frames may be determined. A determination may be made of multiple machine learning models for recognizing the object types. The frames may be sequentially input into the machine learning models to obtain a plurality of sets of objects from the plurality of machine learning models and object indicators may be received from those machine learning models. A set of composite frames with the plurality of indicators corresponding to the plurality of objects may be generated, and an output stream may be generated including the set of composite frames to be played back in chronological order.
US12067765B2
An apparatus includes a processing node of a distributed computing platform. The processing node communicates with other processing nodes over one or more networks. The processing node may receive frames of point clouds at a processing node of a distributed computing platform, determine a subset of the frames as key frames based at least in part on distances travelled between captures of the respective frames, and allocate tasks of processing the key frames to processing subnodes based at least in part on estimated processing demands of the key frames and processing capabilities of each of the processing subnodes.
US12067757B2
An information processing apparatus includes a processor configured to: read character string information written on a paper document; obtain, from an external system that performs processing using the read character string information, external system information indicating a use condition relating to use of character string information in the external system; and determine whether the read character string information matches the external system information obtained from the external system.
US12067742B2
Remaining material on a material package and its location may be determined. First, image data associated with a material package may be received by a server. Next, material package data associated with the material package may be received. A Machine Learning (ML) model may then be used to determine an estimated remaining amount of material associated with the material package based upon input derived from the image data and the material package data.
US12067737B2
A method of determining macrotexture of an object is disclosed which includes obtaining a plurality of stereo images from an object by an imaging device, generating a coordinate system for each image of the plurality of stereo images, detecting one or more keypoints each having a coordinate in each image of the plurality of stereo images, wherein the coordinate system is based on a plurality of ground control points (GCPs) with apriori position knowledge of each of the plurality of GCPs, generating a sparse point cloud based on the one or more keypoints, reconstructing a 3D dense point cloud of the object based on the generated sparse point cloud and based on neighboring pixels of each of the one or more keypoints and calculating the coordinates of each pixel of the 3D dense point cloud, and obtaining the macrotexture based on the reconstructed 3D dense point cloud of the object.
US12067736B2
A unit derives displacement amounts of feature points in an entire region of a face shape. A unit derives separated displacement amounts, each of which is a displacement amount of each feature point for every deformation pattern of a partial region of the face shape, based on the displacement amounts of the feature points in the entire region of the face shape and deformation degrees for every deformation pattern of the partial regions. A unit derives normalized and separated displacement amounts, which are obtained by normalizing the separated displacement amounts, for every deformation pattern of the partial regions. A unit generates weight values of the feature points in the entire region of the face shape based on the normalized and separated displacement amounts for every deformation pattern of the partial regions of the face shape and the deformation degrees for every deformation pattern of the partial regions.
US12067733B2
A video target tracking method is provided to a computing device, the method includes: obtaining a partial detection map corresponding to a target image frame in a to-be-detected video; obtaining a relative motion saliency map corresponding to the target image frame; determining constraint information corresponding to the target image frame according to the partial detection map and the relative motion saliency map; adjusting a parameter of an image segmentation model by using the constraint information, to obtain an adjusted image segmentation model; and extracting a target object from the target image frame by using the adjusted image segmentation model.
US12067731B2
An image foreground segmentation algorithm based on edge knowledge transformation includes the following steps: 1) construction of an image segmentation framework with edge self-supervised mechanism; 2) construction of an inner edge and outer edge discriminator; 3) generation of pseudo-segmented triplet data; 4) two edge adversary foreground segmentation guided by a very few labeled samples of the target category. According to the image foreground segmentation algorithm based on edge knowledge transformation established in the above steps, under the guidance of a very small number of labeled segmentation samples of the target category, the inner and outer edge discrimination network transforms edge knowledge of a large amount of open-source labeled data of a non-target category into a foreground segmentation network for the target category image by the way of adversary of segmentation results, and realize the segmentation of foreground target category objects of the image.
US12067728B2
A heterogeneous image registration method includes: performing edge detection on collected images, in combination with a curvature scale space strategy to extract contour curved segments in an edge image. Implementing a feature point detection strategy based on global and local curvature detecting feature points in the contour curved segments, and obtaining the nearest minimum local curvature of the feature points pointing to starting and end points of the contour, respectively. Calculating the number of neighborhood sampling points and neighborhood auxiliary feature points of neighborhoods on both edges of each of the feature points according to the nearest minimum local curvature. Using neighborhood auxiliary feature points and feature points to form a feature triangle, calculating an angle bisector vector and a main direction corresponding to the feature point in the feature triangle. The present invention is remarkable, accurate, and has high adaptability to the image registration scene of electric equipment.
US12067721B2
Aspects of the technology described herein relate to receiving an ultrasound image, automatically determining a location of a specific point on an anatomical structure depicted in the ultrasound image, and displaying an indicator of the location of the specific point on the anatomical structure on the ultrasound image. In some embodiments, the anatomical structure is a bladder. In some embodiments, the specific point is the centroid. In some embodiments, a statistical model determines the specific point. The indicator may be, for example, a symbol located at the specific point, a horizontal line extending through the specific point from one edge of the anatomical structure to another, and/or a vertical line extending through the specific point from one edge of the anatomical structure to another.
US12067716B2
The present disclosure relates to a deep learning neural network that can identify corpora lutea in the ovaries and a rules-based technique that can count the corpora lutea identified in the ovaries and infer an ovarian toxicity of a compound based on the count of the corpora lutea (CL). Particularly, aspects of the present disclosure are directed to obtaining a set of images of tissue slices from ovaries treated with an amount of a compound; generating, using a neural network model, the set of images with a bounding box around objects that are identified as the CL within the set of images based on coordinates predicted for the bounding box; counting the bounding boxes within the set of images to obtain a CL count for the ovaries; and determining an ovarian toxicity of the compound at the amount based on the CL count.
US12067715B2
Techniques are described for tailoring automatic exposure control (AEC) settings to specific patient anatomies and clinical tasks. According to an embodiment, computer-implemented method comprises receiving one or more scout images captured of an anatomical region of a patient in association with performance of a computed tomography (CT) scan. The method further comprises employing a first machine learning model to estimate, based on the one or more scout images, expected organ doses representative of expected radiation doses exposed to organs in the anatomical region under different AEC patterns for the CT scan. The method can further comprises employing a second machine learning model to estimate, based on the one or more scout images, expected measures of image quality in target and background regions of scan images captured under the different AEC patterns, and determining an optimal AEC pattern based on the expected organ doses and the expected measures of image quality.
US12067703B2
According to one embodiment, a grain size estimation device includes an acquisition unit that acquires a captured image of a surface segment of an object inducing metal; and an estimation unit that estimates a grain size of the surface segment of the object indicated in the acquired image, based on a predictive model generated by machine learning using images of metal surfaces and grain sizes in the metal surfaces as training data.
US12067702B1
A system for inspecting a tube can comprise a first image acquisition device that is configured to capture at least one image of the first end of the tube. A second image acquisition device can be configured to capture at least one image of at least a portion of the outer surface of the circumferential wall of the tube. A first conveyor can be configured to position the tube so that the first image acquisition device can capture the at least one image of the first end of the tube and the second image acquisition device can capture the at least one image of at least a portion of the circumferential wall of the tube. A computing device can be configured to determine, based on the at least one image from the first image acquisition device or the at least one image from the second image acquisition device, if the tube has a flaw.
US12067701B2
A management and control system is provided for a user to interface with an inspecting apparatus having at least one digital optical instrument. The management and control system comprises a processor configured to receive images from the at least one digital optical instrument, analyze the images, and transmit instructions to the inspecting apparatus, and a display configured to display analysis of the images wherein the user is capable of interfacing and providing instructions to the inspecting apparatus based on the analysis of the images, wherein the display simultaneously displays histograms and thumbnail-image generated in the processor based on the images. A method for controlling and managing the inspecting apparatus for items as well as an UI are disclosed.
US12067692B2
Systems and methods in accordance with various embodiments of the invention can generate term (or PolyMap) coefficients that properly calibrate any camera lens using information obtained from a calibration pattern (e.g., chessboard patterns). Term coefficients in accordance with several embodiments of the invention can be used to transform a warped image to a dewarped image by mapping image information from the warped image to the dewarped coordinates. Determining calibration coefficients in accordance with certain embodiments of the invention can include novel and inventive processes for capturing calibration images, processing the calibration images, and/or deriving inputs needed for proper calibration as described in this disclosure. Processes described in this description can provide for improvements in the field of image processing, especially in increasing the speed of dewarping processes and in the accurate capture of calibration pattern images.
US12067688B2
A virtual object system can coordinate interactions between multiple virtual objects in an artificial reality environment. Embodiments receive a first virtual object, the first virtual object including first properties, where the artificial reality environment is set in a real-world environment. Embodiments register the first properties of the first virtual object to receive notifications of events from the artificial reality environment. Embodiments receive one or more queries from a second virtual object and in response to the one or more queries, respond to the second virtual object with identified features of the real-world environment in which the artificial reality environment is set and identifications of one or more other virtual objects (e.g., the first virtual object). The second virtual object can use the identification of the first virtual object to register for events related to the first virtual object and/or communicate with the first virtual object.
US12067687B2
A cross reality system that renders virtual content generated by executing native mode applications may be configured to render web-based content using components that render content from native applications. The system may include a Prism manager that provides Prisms in which content from executing native applications is rendered. For rendering web based content, a browser, accessing the web based content, may be associated with a Prism and may render content into its associated Prism, creating the same immersive experience for the user as when content is generated by a native application. The user may access the web application from the same program launcher menu as native applications. The system may have tools that enable a user to access these capabilities, including by creating for a web location an installable entity that, when processed by the system, results in an icon for the web content in a program launcher menu.
US12067683B2
Methods for placement of location-persistent 3D objects or annotations in an augmented reality scene are disclosed. By capturing location data along with device spatial orientation and the placement of 3D objects or annotations, the augmented reality scene can be recreated and manipulated. Placed 3D objects or annotations can reappear in a subsequent capture by the same or a different device when brought back to the location of the initial capture and placement of objects. Still further, the placed 3D objects or annotations may be supplemented with additional objects or annotations, or the placed objects or annotations may be removed or modified.
US12067674B2
A device may include an electronic display to display an image frame based on blended image data and image processing circuitry to generate the blended image data by combining first image data and second image data via a blend operation. The blend operation may include receiving graphics alpha data indicative of a transparency factor to be applied to the first image data to generate a first layer of the blend operation. The blend operation may also include overlaying the first layer onto a second layer that is based on the second image data. Overlaying the first layer onto the second layer may include adding first pixels values of the first image data that include negative pixel values and are augmented by the transparency factor to second pixel values of the second image data to generate blended pixel values of the blended image data.
US12067673B2
In one embodiment, a computing system determines one or more depth measurements associated with a first physical object. The system captures an image including image data associated with the first physical object. The system identifies and associates a plurality of first pixels with a first representative depth value based on the one or more depth measurements. The system determines, for an output pixel of an output image, that (1) a portion of a virtual object is visible from a viewpoint and (2) the output pixel overlaps with a portion of the first physical object. The system determines that the portion of the first physical object is associated with the plurality of first pixels and renders the output image from the viewpoint. Occlusion at the output pixel is determined based on a comparison between the first representative depth value and a depth value associated with the portion of the virtual object.
US12067664B2
A pose data file may represent, for each frame of a reference frame sequence, a plurality of two-dimensional skeleton projections on a virtual spherical surface, each of which, for a particular frame, corresponds to a two-dimensional reference pose image of a three-dimensional skeleton of a first human from a viewing angle. A real-time two-dimensional skeleton detector module detects a two-dimensional skeleton of a second human in each received test frame of a test frame sequence. A pose matching module selects a particular two-dimensional skeleton projection of the first human with the minimum mathematical distance from the two-dimensional skeleton of the second human in the current test frame to match the current pose of the second human in the current test frame with a corresponding reference pose image of the pose data file. The particular two-dimensional skeleton projection represents the corresponding reference pose image at the viewing angle.
US12067663B2
Method for generating media content items on demand starts with a processor receiving an animation file including a first metadata based on an animation input. The animation file is associated with a media content identification. The processor generates puppets associated with frames in the animation file using the first metadata. The processor causes a puppet matching interface to be displayed on a client device. The puppet matching interface includes one of the puppets in a first pose. The processor receives a puppet posing input associated with a second pose from the client device. The processor causes the one of the puppets to be displayed in the second pose in the puppet matching interface by the client device. The processor can also generate a second metadata based on the puppet posing input. Other embodiments are disclosed herein.
US12067659B2
The present disclosure relates to systems, non-transitory computer-readable media, and method that utilize a character animation neural network informed by motion and pose signatures to generate a digital video through person-specific appearance modeling and motion retargeting. In particular embodiments, the disclosed systems implement a character animation neural network that includes a pose embedding model to encode a pose signature into spatial pose features. The character animation neural network further includes a motion embedding model to encode a motion signature into motion features. In some embodiments, the disclosed systems utilize the motion features to refine per-frame pose features and improve temporal coherency. In certain implementations, the disclosed systems also utilize the motion features to demodulate neural network weights used to generate an image frame of a character in motion based on the refined pose features.
US12067658B1
Embodiments of the present disclosure provide a method, apparatus and device for automatically making up portrait lips, storage medium and program product. The method includes: extracting lip key points from a portrait facial image and detecting a portrait facial orientation and a lip shape in the portrait facial image; adjusting positions of the lip key points based on the portrait facial orientation and the lip shape; detecting a skin hue and a skin color number of a facial area in the portrait facial image; and selecting a target lipstick color from a lipstick color sample library based on the skin hue and the skin color number; and performing fusion coloring by using the target lipstick color according to the positions of the lip key points.
US12067656B2
Provided is an image editing method including: displaying a setting image including a first image and a second image; receiving a first operation of designating a first point on the first image from a user; receiving a second operation of designating a second point on the second image from the user; receiving a third operation of designating a third point on the first image from the user; receiving a fourth operation of designating a fourth point on the second image from the user; and deforming the first image into a third image by making the first point correspond to the second point and making the third point correspond to the fourth point.
US12067653B2
Systems, methods, and devices for generating a corrected image are provided. A first robotic arm may be configured to orient a source at a first pose and a second robotic arm may be configured to orient a detector at a plurality of second poses. An image dataset may be received from the detector at each of the plurality of second poses to yield a plurality of image datasets. The plurality of datasets may comprise an initial image having a scatter effect. The plurality of image datasets may be saved. A scatter correction may be determined and configured to correct the scatter effect. The correction may be applied to the initial image to correct the scatter effect.
US12067651B2
Data acquired from a scan of an object can be decomposed into frequency components. The frequency components can be input into a trained model to obtain processed frequency components. These processed frequency components can be composed and used to generate a final image. The trained model can be trained, independently or dependently, using frequency components covering the same frequencies as the to-be-processed frequency components. In addition, organ specific processing can be enabled by training the trained model using image and/or projection datasets of the specific organ.
US12067650B2
An imaging apparatus according to an aspect of the present disclosure includes: a filter that includes a region through which a two-dimensional signal indicating an image passes, and includes a portion which blocks at least a part of the two-dimensional signal in the region; a detector that detects a power of the two-dimensional signal passing through the filter; at least one memory storing a set of instructions; and at least one processor configured to execute the set of instructions to reconstruct the image indicated by the two-dimensional signal based on the power detected in a plurality of conditions that differ in positional relationship between the two-dimensional signal imaged on the filter and a distribution of the portion.
US12067635B2
A social media final notification and digital asset management system is provided. The system includes a server comprising storing user data corresponding to social media platforms and legacy representative data stored on the server. The system includes a user computing device operated by a legacy representative coupled to the computer server. The server may be programmed to receive from the user computing device a signal indicating a person associated with the user data is deceased. The server may be programmed to retrieve the user data, generate and transmit to the social media platforms a final message stored in the user data by the deceased person prior to death. The server may be programmed to cancel the social media accounts a predetermine amount of time after close of the social media accounts. The legacy representative may access the cloud storage accounts aggregated on the server and save to a different location.
US12067629B2
A method, system, and computer program code for determining a tax incentive for an employer. A set of cards is displayed on the storyboard interface. Each card is related to a particular criterion for determining and eligibility of the employer for the tax incentive. In response to receiving a selection of a particular card, a set of modal windows, including a set of data fields that are relevant to a particular criterion, is displayed on the storyboard interface. Information for the employer is identified that is relevant to the particular criterion. The set of data fields it is populated based on a portion of the information. A tax incentive amount is calculated based on the portion of the information. A document it is generated for claiming the tax incentive. The document includes the portion of the employer information and the incentive amount.
US12067625B2
Different examples for a server and methods for providing actionable insights based on warranty analytics related to usage of a protective apparatus with an electronic device by a customer are described herein. In some cases, the method comprises: receiving an electronic query, at a server, from a user device; accessing, at the server, at least one of risk profile data and test data from a multidimensional data structure, where the at least one risk profile data and test data include data needed to respond to the electronic query; determining, at the server, a response to the electronic query using the accessed data; an sending an electronic message from the server to the user device, the electronic message including data for answering the electronic query.
US12067612B2
Disclosed systems and methods provide self-service access control for rental vehicles in which a user's mobile device may be used to access rental vehicles and to determine and process payments for rental vehicle usage. A user's mobile device may be configured to receive a user-profile including one or more access rules governing a user's access rights to one or more respective point-of-entry devices associated with one or more respective rental vehicles. The user device may then provide an access key to a point-of-entry device to unlock a rental vehicle. The user device and/or an external device may then determine and process a payment for usage of the rental vehicle after the vehicle has been returned to the point-of-entry device from which it was accessed or to a different point-of-entry device. The user's mobile device may further be configured to lock and unlock point-of-entry devices that secure various vehicle accessories.
US12067611B2
A system including an e-commerce server configured to communicate with a rent-to-own (RTO) management application and a consumer device is disclosed. The e-commerce server includes: i) an e-commerce application configured to provide an e-commerce website to the consumer device, the e-commerce website having a plurality of e-commerce user interfaces including a checkout interface, and ii) a RTO plug-in integrated with the e-commerce application to facilitate a RTO transaction through the e-commerce website. The RTO plug-in is executable by the e-commerce server to: i) integrate a RTO control element in the checkout interface, wherein the RTO control element is selectable to initiate the RTO transaction as a payment option for a good, and ii) after selection of the RTO control element, provide to the consumer device one or more than one RTO user interface received from the RTO management application, to facilitate completion of the RTO transaction through the e-commerce website.
US12067608B2
A method includes a processor receiving consumer first data and consumer feedback associated with a wearable item from a plurality of consumer devices. The processor aggregates the consumer first data and the consumer feedback into a plurality of first aggregated subsets based on a portion of the consumer first data and the consumer feedback. The processor grants a wearable item designer device of a plurality of wearable item designer devices access to the consumer first data, the consumer feedback or the plurality of first aggregated subsets. A wearable item designer associated with the wearable item designer device is configured to modify a wearable item design for a solid form of a wearable item mold in an assembly process, based on the consumer first data, the consumer feedback or the plurality of first aggregated subsets.
US12067606B2
The disclosed embodiments include computer-implemented systems and processes that provision targeted alternative product information based on structured messaging data. For example, an apparatus may receive a message that characterizes a real-time payment requested by a first counterparty from a second counterparty, and is associated with a first product provisioned to the second counterparty by the first counterparty. The apparatus may determine that a second product is available to the second counterparty based on the message. Further, the apparatus may transmit notification data to a device operable by the second counterparty. The notification data includes product data characterizing the second product, and causes an application program executed at the device to present at least a portion of the product data within a digital interface. The apparatus also receives a response to the notification data from the device and, based on the response, provisions the second product to the second counterparty.
US12067604B1
A social media computing system is described. The social media computing system provides a social media platform to a plurality of users. Additionally, the social media computing system provides merchants the ability to provide targeted offers to users of the social media platform. As used herein, the word “merchants” also includes service providers. The offers relate to goods or services provided by the merchants. In some situations, the offers are transmitted by the social media computing system to user devices based on requests by the users. In other situations, the offers can be transmitted directly from the merchants to the user devices based on determined locations of the user devices.
US12067599B2
A computer-implemented method for rating a consumer product or service, the method including: calculating, by a computer system comprising at least one computer in a network comprising at least one processor, a lay rating from at least one rating score built from several weighted parameters, provided by a respective lay consumer; calculating, by the computer system, an expert rating calculated from at least one rating score built from several weighted parameters provided by a respective expert; receiving, by the end user, using the computer system, a selection of a respective weight for each of the lay rating and the expert rating by an end-user via a graphic user interface (GUI); calculating, by the computer system, a total rating as a result of a weighted average biased according to the respective weights selected by the end-user; and displaying, by the computer system, the total rating on the GUI.
US12067596B2
The embodiments herein provide a computer implemented method for partner pixelling for user identification. The method includes sending a unique identifier request message to an identity broker when a user is on an advertiser webpage. The method includes receiving a unique identifier of the user from the identifier entity broker; and sending a rule file to a publisher server, wherein the rule file comprises the unique identifier of the user for which at least one DSP is interested in displaying an advertisement. Further, when the user visits the publisher website, the publisher server uses the unique identifier, revived from the identity broker, to identify the user and the list of DSPs that are interested in displaying advisement to the user.
US12067594B2
A visitor detection unit includes a digital processor, an RF transceiver, a sensor and digital memory. Preferably, the digital memory includes code segments executable on the digital processor for transmitting a beacon signal via a transmitter portion of the RF transceiver, monitoring via the sensor for a visitor event monitoring via a receiver portion of the RF transceiver for a beacon response event, and selectively transmitting metadata via the transmitter portion of the RF transceiver that is related at least one of the visitor event and the beacon response event. In this example embodiment, an enclosure is provided for the digital processor, the RF transceiver and the digital memory such that the visitor detection unit can be mounted on a surface proximate to a physical area to be monitored.
US12067584B2
An information providing method includes: when door information indicating whether a door of the refrigerator is open or closed and information indicating a change in the amount of an item in the refrigerator indicate that there is no change in the amount of the item between the door of the refrigerator being opened and closed, generating first information indicating that a user opened the door of the refrigerator but an item the user wanted was not in the refrigerator; obtaining, from a second information processing apparatus connected to a first information processing apparatus, information indicating first request content over a network; and when content of the first information is included in the first request content, outputting, to the second information processing apparatus, second information including information for identifying the user or the home, using the first information generated.
US12067580B2
The disclosed embodiments include computer-implemented processes that manage adaptively queued compliance workflow through a virtualization of robotic process automation (RPA) techniques and that manage adaptively a testing and “de-risking” of target programmatic interfaces through a virtualization of additional RPA techniques. In some examples, an apparatus may obtain an element of response data from a programmatic interface based on a corresponding element of input data. The apparatus may determine that the element of response data deviates from an expected response of the programmatic interface to the element of input data, and generate exception data characterizing the determined deviation. The apparatus may also modify at least one functionality of the programmatic interface in accordance with the exception data.
US12067572B2
A method for detecting and tracking tainted cryptographic wallets. The method measures a wallet's propensity to engage in criminal or suspicious activity. Naturally, transacting with a criminal is tantamount either to funding crime or laundering its proceeds, so it is in our collective interest to identify—and then monitor or quarantine—any wallet with criminal association. The method also automatically flags risky withdrawal requests in real-time for further review before committing them to the blockchain. In some embodiments, the exchange can quarantine wallets at a certain Walletscore.
US12067571B2
A classification modeling system receives a request to identify a classification model from a set of classification models. The request includes a data set and specifies one or more metrics for evaluating performance of the set of classification models in classifying data from the data set. The system uses the set of classification models to generate a set of classifications and determines the performance of the set of classification models based on the set of classifications and according to the one or more metrics. Based on the performance of the set of classification models, the system selects a classification model and provides the classification model to fulfill the request.
US12067565B2
Systems and methods for use in tokenization are disclosed. One example method includes receiving a request to provision a biometric for biometric transactions to a payment account where, the request includes a cryptogram associated with a transaction to said payment account and/or a transaction ID for the transaction. The method also includes checking with an issuer whether the payment account is supported for biometric transactions, receiving an indicator of eligibility, and then requesting a biometric from the user. The method further includes receiving biometric data indicative of the user's biometric, and transmitting a request to the issuer to enable biometric transactions for the payment account.
US12067563B2
The present invention provides a system operable to collect customer ratings during a transaction using an electronic point of sale system comprising a computer programmed to effect operation of the electronic point of sale system. The system includes a POS module programmed to manage operation of a scanner, a PIN entry device; a payment application operable to manage the PIN entry device; a POS proxy module; a payment application plug-in operable in conjunction with the payment application; a scanner pass-through driver operable to pass scanner signals between the POS module and the scanner while collecting information from the scanner signals and sending that information to the POS proxy module; wherein the POS proxy module is programmed to cause collection of a customer rating during the transaction by using the information received from the scanner pass-through driver to initiate a customer rating collection session, to send a customer rating initiation signal to the payment application plug-in which in turn causes the PIN entry device to prompt the customer to enter a rating.
US12067559B2
A method for detecting fraud across networks of interconnected smart contracts on a blockchain network, including constructing a graph representation of nodes and node edges representing smart contracts and interactions therebetween on a blockchain network. New smart contracts are added to the graph representation which is updated to reflect updated edges. Pattern recognition algorithms are applied to the graph database to identify and flag sub-graphs suggesting potential fraud. Filtering smart contracts gather forensic data about each smart contract comprised by the flagged sub-graph. A fraud risk score is determined by analyzing the forensic data. If the fraud risk score exceeds a threshold value, a fraud response is triggered.
US12067558B2
A method for facilitating a transaction may include generating, via a token server computer, a token for use by a first entity computer, wherein the token is generated in response to a request received from the first entity computer. The method may also include transmitting, via the token server computer, the token to the first entity computer, wherein the first entity computer transmits the token to a second entity computer. The method may also include receiving, at the token server computer and from the first entity computer, data indicative of the second entity computer successfully receiving the token. The data may include a hashed value derived from at least the token, data indicative of an identity of the second entity computer, and writing, by the token server computer, the data indicative of the second entity computer successfully receiving the token to a registry.
US12067557B2
A method for managing operational costs associated with distributed computing. The method includes: creating, via a graphical user interface (GUI), a distributed computing team; linking a digital team wallet to the distributed computing team, wherein the digital team wallet is linked to a currency account; adding a member to the distributed computing team; allowing the member to purchase compute resource access from a plurality of compute resource providers using the digital team wallet; and notifying a team manager when funds in the digital team wallet reduce to at least a team threshold value.
US12067551B2
A method, system and/or device for validating encoded information, the validation device including a memory having computer readable instructions stored thereon and a database including a plurality of validation rules, and at least one processor configured to execute the computer readable instructions to receive formatted data from at least one formatting device, extract attributes associated with encoded information from the formatted data, the extracted attributes including at least one of a formatting device identifier, a store identifier, value information from the encoded information, and time information, validate the formatted data based on the extracted attributes and the plurality of validation rules, store the results of the validation and at least a subset of the extracted attributes in the database, generate modified formatted data compatible with a POS terminal based on the results of the validation, and transmit the modified formatted data to the at least one of formatting device.
US12067546B2
Systems and methods involving secure connections between security meshes are disclosed herein. One disclosed device includes a first security processor located within a first security mesh, a first casing having a connector and supporting the first security mesh and the applications processor, a second security processor located within a second security mesh, and a second casing connected to the first casing via the connector and supporting the second security mesh. The first security processor and second security processor are programmed to generate a unique pre-shared key independently on both the first security processor and the second security processor using an elliptic key exchange and establish a secure connection between the first security processor and the second security processor using the unique pre-shared key.
US12067540B2
Methods and devices for propagating transactions in a network of nodes, each node having one or more connections to other nodes. The method includes determining that one of the nodes is a bottleneck for propagation of transactions; receiving, over a first time period, a plurality of new transactions from one or more first nodes in the network of nodes; combining the plurality of new transactions using network coding and a local encoding vector to generate a message; and sending the message and a global encoding vector to one or more second nodes in the network of nodes instead of sending the plurality of new transactions to the one or more second nodes. The network may be a blockchain network.
US12067538B2
In one embodiment, techniques include a method of handling transactions for a pack of security assets. The method includes identifying a subset of a set of security assets for inclusion in the pack of security assets to be recommended to a user based on an analysis of one or more criteria associated with the user. The method includes causing an electronic device to display a user interface to facilitate a purchase of the pack. The method includes, in response to determining a user selection corresponding to a request to purchase the pack and a specified value of currency: calculating a number of base units of each security asset based on the existing value of a base unit of each security asset, including a fractional portion of the base unit; and assigning, for each security asset, ownership of the calculated number of base units of each security asset to the user.
US12067536B2
A method for waste management, including recording an image of content within a waste container; extracting a set of content parameters from the image; characterizing the content within the waste container based on the set of content parameters; and routing a waste removal vehicle based on the content characterization.
US12067531B2
Methods, systems, and computer program products for gathering electronic signatures to be applied to collaboration system content objects (e.g., contracts, letters, insurance claims, riders, etc.). A collaboration system monitors changes made to the collaboration system content objects during electronic signature processing. A module of the content management system is configured to associate one or more instances of e-signing metadata to one or more of the stored content objects of the content management system. The e-signing metadata indicates whether or not a particular portion of the one or more of the stored content objects has been e-signed by a designated e-signatory. A collaborator who is not one of the designated e-signatories makes a change to one or more of the stored content objects (e.g., contracts, letters, insurance claims, riders, etc.). The change is remediated on-the-fly and the e-signing process continues without having to restart the e-signing process from the beginning.
US12067521B2
The present invention is a computer method for manufacturing and shipping building construction materials, comprising; reviewing, a building model, wherein the building model is comprised of sections and each section is comprised of a set of members; calculating, the properties of each member of the set of members for each section; arranging, the set of members of each section to form a bundle, wherein the bundle is an arrangement of the set of members based on a volume limitation of a shipping container; and adjusting, the bundle based on other bundles which are placed within the shipping container.
US12067517B2
A computer-implemented method, comprises providing, by a platform server configured to hold security assets on behalf of a plurality of user accounts, a plurality of user accounts hosted by the platform server, each of the plurality of user accounts holding shares of a common equity with associated shareholder voting rights. The platform server receives a request to send proxy voting rights, wherein the proxy voting rights indicate a desire of the first user to transfer a shareholder voting instruction to a second user. The platform server determines based on transaction history of one or more user accounts of the plurality of user accounts, one or more recommended proxy users for transferring the proxy voting rights. The platform server transmits to the application executing on the device associated with the first user, a request to select one of the recommended proxy users. Upon receiving a selected proxy user from the first user, the platform server provides the shareholder voting instruction to enable proxy voting by the selected proxy user on behalf of the first user.
US12067511B2
A system can access data about items for a store and generate a plan for configuring the store based on the accessed data. The system can further provide, for example, information for configuring reconfigurable shelving units so as to produce the layout of the store according to the plan.
US12067500B2
The present invention relates to a method for processing a plurality of candidate annotations of a given instance of an image, each candidate annotation being defined as a closed shape matching the instance, characterized in that the method comprises performing, by a processing unit (21) of a server (2), steps of: (a) segregating said candidate annotations into a set of separate groups of at least overlapping candidate annotations; (b) selecting a subset of said groups as a function of the number of candidate annotations in each group; (c) building a final annotation of the given instance of said image as a combination of regions of the candidate annotations of said selected groups where at least a second predetermined number of the candidate annotations of said selected groups overlap.
US12067499B2
This disclosure describes one or more implementations of a video inference system that utilizes machine-learning models to efficiently and flexibly process digital videos utilizing various improved video inference architectures. For example, the video inference system provides a framework for improving digital video processing by increasing the efficiency of both central processing units (CPUs) and graphics processing units (GPUs). In one example, the video inference system utilizes a first video inference architecture to reduce the number of computing resources needed to inference digital videos by analyzing multiple digital videos utilizing sets of CPU/GPU containers along with parallel pipeline processing. In a further example, the video inference system utilizes a second video inference architecture that facilitates multiple CPUs to preprocess multiple digital videos in parallel as well as a GPU to continuously, sequentially, and efficiently inference each of the digital videos.
US12067494B2
A counting apparatus includes: a storage unit storing a learning model, the learning model being trained using multiple pairs of training input images each obtained by capturing an image of multiple count target objects with the same shape, and training output images each containing teaching figures that are arranged at respective positions of the multiple count target objects. A captured image acquiring unit acquiring a captured image of multiple count target objects; an output image acquiring unit acquiring an output image in which the count target objects contained in the captured image are converted into count target figures, by applying the captured image to the learning model. A counting unit counting the number of count target objects, using the multiple count target figures contained in the output image; and an output unit outputting the number of count target objects counted by the counting unit.
US12067491B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for training a policy neural network having a plurality of policy parameters and used to select actions to be performed by an agent to control the agent to perform a particular task while interacting with one or more other agents in an environment. In one aspect, the method includes: maintaining data specifying a pool of candidate action selection policies; maintaining data specifying respective matchmaking policy; and training the policy neural network using a reinforcement learning technique to update the policy parameters. The policy parameters define policies to be used in controlling the agent to perform the particular task.
US12067488B2
An object is to obtain a trained model whose robustness is high in a case of learning a network in an image signal processing system. For teacher images consisting an acquired teacher image group, a distribution characteristic of at least one of three attributes of color is analyzed and based on analysis results, a teacher image group uniform in the distribution characteristic is generated. Learning of a network is performed by generating a data set including a set of a teacher image and a pupil image from a new teacher image group thus obtained.
US12067484B2
An example method of training a neural network includes defining hardware building blocks (HBBs), neuron equivalents (NEQs), and conversion procedures from NEQs to HBBs; defining the neural network using the NEQs in a machine learning framework; training the neural network on a training platform; and converting the neural network as trained into a netlist of HBBs using the conversion procedures to convert the NEQs in the neural network to the HBBs of the netlist.
US12067481B2
Array-integrated upstream/downstream routers for circuit-switched parallel connectivity are provided. A system comprises an array of neural cores having at least one dimension, a plurality of signal wires, and a plurality of routers. Each neural core comprises a plurality of ordered input wires, a plurality of ordered output wires, and a plurality of synapses, each synapse operatively coupled to one of the plurality of input wires and one of the plurality of output wires. The plurality of signal wires are disposed along each dimension of the array of neural cores. Each router is operatively coupled to one of the plurality of neural cores and to at least one signal wire along each dimension of the array of neural cores. Each of the plurality of routers is adapted to selectively route a signal from the at least one signal wire to its coupled neural core. Each of the plurality of routers is adapted to selectively route a signal from its coupled neural core to the at least one signal wire.
US12067472B2
Defect resistant designs for location-sensitive neural network processor arrays are provided. In various embodiments, plurality of neural network processor cores are arrayed in a grid. The grid has a plurality of rows and a plurality of columns. A network interconnects at least those of the plurality of neural network processor cores that are adjacent within the grid. The network is adapted to bypass a defective core of the plurality of neural network processor cores by providing a connection between two non-adjacent rows or columns of the grid, and transparently routing messages between the two non-adjacent rows or columns, past the defective core.
US12067468B2
A learning model management system executes a provisional evaluation when the number of feedback data is equal to or less than a threshold of a definite evaluation but is more than a threshold of a provisional evaluation. In this provisional evaluation, prediction accuracy of the learning model that is in operation is evaluated a plurality of times, and whether or not the prediction accuracy of the learning model that is in operation is in a deterioration trend is determined based on the change tendency of the evaluation results. If it is determined that the prediction accuracy of the learning model that is in operation is in a deterioration trend, the learning model management system provides a notification about the deterioration trend of the prediction accuracy to a manager to cause him/her to increase the number of feedback data up to a number that enables the definite evaluation.
US12067460B2
There is described a method for performing a two-qubit gate. The method comprises coupling a first qubit to a second qubit, and coupling a third qubit to the first qubit and to the second qubit, wherein the third qubit is a coupler. A drive signal is applied to the coupler to perform the two-qubit gate on the first qubit and the second qubit by driving the coupler, the drive signal creating coupling between eigenstates of a Hamiltonian of the coupler.
US12067450B2
Embodiments of the present disclosure include near co-axial polarized illuminator apparatuses and uses thereof. The near co-axial polarized illuminator is internally positionable in near co-axial alignment with one or more imager(s) utilized to capture a representation of a field of view illuminated by the near co-axial polarized illuminator. Embodiments include small form factor reader(s) that utilize a near co-axial polarized illuminator to improve illumination of a field of view captured via multiple imagers for detecting and/or decoding machine-readable symbologies, such as barcodes. Some embodiments include a DPM channel image sensor, a standard range channel image sensor, a near co-axial polarizer light source positioned adjacent to the DPM channel image sensor and adjacent to the standard range channel image sensor, a near co-axial polarizer aligned with the near co-axial polarizer light source, and an analyzer aligned with the DPM channel image sensor and/or the standard range channel image sensor.
US12067445B2
A communication apparatus includes an antenna, an actuator assembly, a transducer, and a controller. The actuator assembly is configured to move the antenna in two dimensions relative to a space configured to contain a wireless tag. The transducer is configured to provide phase data indicating a phase of a signal transmitted from the wireless tag in at least (a) a first detection condition in which the antenna has a first position relative to the space and (b) a second detection condition in which the antenna has a second position relative to the space. The controller is configured to determine whether the wireless tag is located inside of the space based on the phase data.
US12067440B2
Systems and methods are provided for decoding secure tags using an authentication server and secure tag reader. The system can include at least one processor and at least one non-transitory memory. The memory can contain instructions that, when executed by the at least one processor, cause the secure tag reader to perform operations. The operations can include detecting a potential secure tag in an image and generating a normalized secure tag image using the image and a stylesheet. The operations can further include providing an identification request to an authentication server, the identification request including the normalized secure tag image. The operations can additionally include receiving rules for decoding tag data encoded into the secure tag as tag feature options and decoding the tag data using the received rules.
US12067438B2
A tip cap assembly for coupling with a syringe body includes a luer lock adaptor, a rigid cap coupled to the luer lock adaptor; a rigid tip cap having distal end and proximal ends, the rigid tip cap being disposed at least partially within the rigid cap, a RFID tag positioned over the distal end of the tip cap, and an adhesive layer formed over the RFID tag. Also provided is RFID inlay for use with medical devices including a meshed substrate, and a RFID antenna and integrated circuit assembly adhered to the meshed substrate. A syringe and label assembly is disclosed, including a body having distal and proximal ends, a tip cap assembly having distal end and proximal ends, and a label at least partially surrounding the distal end of the syringe body and the proximal end of the tip cap, the label comprises an integrated RFID tag.
US12067434B2
The present invention relates to methods of synthesizing de novo a polynucleotide storing data using a programmable template independent polymerase.
US12067432B2
Techniques for providing and servicing listed repository items such as algorithms, data, models, pipelines, and/or notebooks are described. In some examples, web services provider receives a request for a listed repository item from a requester, the request indicating at least a category of the repository item and each listing of a repository item includes an indication of a category that the listed repository item belongs to and a storage location of the listed repository item, determines a suggestion of at least one listed repository item based on the request, and provides the suggestion of the at least one listed repository item to the requester.
US12067431B2
A service linkage assistance device includes a reception unit, which receives definition information of a stateless upper-layer API exposed to an upper-layer device that links a plurality of services and definition information of a plurality of stateful lower-layer APIs exposed by a lower-layer device. The service linkage assistance device includes an interpretation unit, which extracts at least one lower-layer API corresponding to the upper-layer API by using the definition information of the upper-layer API and the definition information of the lower-layer APIs, and generates an API correspondence table in which an execution order of the extracted lower-layer API is set.
US12067427B2
Examples include registering a device driver with an operating system, including registering available hardware offloads. The operating system receives a call to a hardware offload, inserts a binary filter representing the hardware offload into a hardware component and causes the execution of the binary filter by the hardware component when the hardware offload is available, and executes the binary filter in software when the hardware offload is not available.
US12067424B2
Techniques for implementing an infrastructure orchestration service are described. A scheduler can receive a configuration file, which can include a first release identifier, for a first deployment of resources at an execution target. The resources can be deployed at the execution target according to the file. A current state of the resources can be stored. The scheduler can receive a second version of the file, which can include a second release identifier, for a new deployment at the execution target. At least one worker node can execute a plugin to compare the first identifier to the second identifier. If the first identifier is different than the second identifier, the plugin can compare a current state of the resources with a desired state according to the second identifier. If the desired state is different than the current state, the resources are deployed at the execution target according to the second identifier.
US12067414B2
Inadvertent data swaps can be prevented by measuring volume of transactions in distributed computing environment to determine locations for potential data swaps; and managing a correlation between a thread identification (ID) and transaction header (ID) for transactions in the distributed computing environment. In some embodiments, the prevention of data swaps can further include performing a data transmission interruption to avoid data swaps at the locations for potential data swaps. When the thread identification (ID) and transaction header (ID) do not match the potential for data swaps can be high.
US12067409B2
The disclosure relates to the transfer of per-pixel transparency information using video codecs that do not provide an alpha channel (alternatively referred to as “transparency-agnostic video codecs”). For example, alpha information of visual elements may be transcoded into the supported channels of a video stream to generate additional samples of a supported color space, which are representative of the alpha information. After being encoded by a “transparency-agnostic video codec” and transmitted, the received alpha information may then be extracted from the supported channels of the video stream to render the received visuals with corresponding per-pixel transparency.
US12067407B2
Web-based robotic process automation (RPA) designer systems that allow RPA developers to design and implement web serverless automations, user interface (UI) automations, and other automations are disclosed. Such web-based RPA designer systems may allow a developer to sign in through the cloud and obtain a list of template projects, developer-designed projects, services, activities, etc. Thus, RPA development may be centralized and cloud-based, reducing the local processing and memory requirements on a user's computing system and centralizing RPA designer functionality, enabling better compliance. Automations generated by the web-based RPA designer systems may be deployed and executed in virtual machines (VMs), containers, or operating system sessions.
US12067405B2
Configurations for communication interfaces are disclosed. In at least one embodiment, a processor includes one or more circuits to determine a firmware configuration for one or more server components and to transmit the firmware configuration at startup.
US12067403B2
An information handling system includes a memory, and a basic input/output system (BIOS). The BIOS receives a request to map multiple processor cores to multiple integrated memory controllers of a multiple core processor. In response to the reception of the request, the BIOS calculates a different latency for each of the processor cores. Based on the calculated different latency for each of the processor cores, the BIOS assigns mapping priority levels to the processor cores of the multiple core processor. Based on the mapping priority levels, the BIOS maps each of the processor cores to an associated one of the integrated memory controllers. The BIOS stores the map of the processor cores in the memory.
US12067399B2
A processor may include a bias prediction circuit and an instruction prediction circuit to provide respective predictions for a conditional instruction. The bias prediction circuit may provide a bias prediction whether a condition of the conditional instruction is biased true or biased false. The instruction prediction circuit may provide an instruction prediction whether the condition of the conditional instruction is true of false. Responsive to a bias prediction that the condition of the conditional instruction is biased true or biased false, the processor may use the bias prediction from the bias prediction circuit to speculatively process the conditional instruction. Otherwise, the processor may use the instruction prediction from the instruction prediction circuit to speculatively process the conditional instruction.
US12067390B2
A system may receive a request to perform a firmware update on an Internet of Things (IoT) device and determine whether the IoT device is capable of switching from a first mode to a second mode. The IoT device sends and receives data via first channels when the IoT device is operating in the first mode and the IoT device sends and receives data via second channels when the IoT device is operating in the second mode. The system instructs the IoT device to switch to the second mode in response to determining that the IoT device is capable of switching to the second mode and sends the firmware update to the IoT device while the IoT device is in the second mode. The system determines that the firmware update has been completed and instructs the IoT device to switch from the second mode to the first mode when the firmware update has been completed.
US12067389B2
A method of using a dongle connects the dongle to a USB port of a building equipment system. Once connected, remote communication with the building equipment system may be achieved via the dongle, and firmware may be downloaded to a processor of the building equipment from the dongle.
US12067376B2
A workflow construction system for constructing automation workflows that automate user specific processes. The workflow construction system may include a template library including workflow templates and pre-configured attributes. The workflow template can accelerate the design and construction of custom automation workflows. An orchestration layer included in the workflow construction system will also improve the performance of systems that execute the automation workflows by dynamically scaling the processing capacity, memory, and storage of servers and other systems hosting the model file instances of the automation workflows to ensure the available resources meet the demands of users completing processes using the automation workflows.
US12067372B2
To provide a sentence data management method and a sentence data management system in which sentence data and a provision of a regulation are associated and a risk of legal violation associated with outbound transmission of the sentence data is reduced. A sentence data management system includes a processor configured to convert a word string of a first document described using a first term into a word string described using a third term; convert a word string of an outbound-transmitted second document described using a second term into a word string described using the third term; compare the first document and the second document by using a comparison result between the word string and the word string as a comparison result between the word string and the word string; and check a possibility of violation to the regulation in outbound transmission to determine the outbound transmission of the second document.
US12067370B2
Translation capability for language processing determines an existence of an abbreviation, followed by non-exact matching to map the abbreviation to the original full term. A received string in a source language is provided as input to a translation service. Translation proposals in a different target language are received back. A ruleset (considering factors, e.g., camel case format, the presence of a concluding period, and/or consecutive consonants) is applied to generate abbreviation candidates from the translation proposals. Non-exact matching (referencing e.g., a comparison metric) may then be used to map the abbreviation candidates to text strings of their original full terms. A mapping of the abbreviation to the text string of the original full term is stored in a translation database comprising linguistic data. Embodiments leverage existing resources (e.g., translation service, non-exact matching) to reduce effort and expense of accurately identifying abbreviations and then mapping them to their full original terms.
US12067363B1
A system, method, and computer program are provided for text sanitization. The system builds a corpus of document vectors (including tokenizing each document, creating a vector representation based on the tokens, and building a corpus of vector representations), obtains a new document for text sanitization, tokenizes the new document, creates a new document vector based on the tokens in the new document, and accesses the corpus of document vectors. The system filters each of the tokens in the new document against a privacy threshold. The system performs a k-anonymity sanitization process such that the new document vector becomes indistinguishable from at least k other document vectors in the corpus of document vectors. The system replaces or redacts the tokens in the document flagged as unsafe. The system updates the corpus of document vectors to include the new document vector in its form prior to the filtering and k-anonymity sanitization steps.
US12067359B2
A first version of an electronic document is provided via a first region of a graphical user interface (GUI) for presentation to a first user of a collaborative document platform. A second region of the GUI includes an edit history GUI element that enables one or more users to access each edit made to the electronic document. A user selection of a portion of the edit history GUI element is detected. The user-selected portion of the edit history GUI element corresponds to edits made to the electronic document by a second user. A determination is made of a state of the electronic document following the edits made by the second user. The first region of the GUI is updated to include a rendering of a second version of the electronic document. The second version is rendered in view of the determined document state.
US12067341B2
A complementary field effect transistor (CFET) structure includes a vertical stack of first and second transistors, wherein the first transistor includes a first channel extending in a first direction from a first source/drain (S/D) region to a second S/D region through a gate extending in a second direction perpendicular to the first direction and the second transistor includes a second channel extending in the first direction from a third S/D region to a fourth S/D region through the gate. A first conductive trace extends in the first direction over the gate, a first via extends from the first S/D region to the first conductive trace and is aligned with the third S/D region along the second direction, a second via extends from the fourth S/D region to the first conductive trace, and the first via has a first height greater than a second height of the second via.
US12067340B2
A defect prediction method for a device manufacturing process involving processing a portion of a design layout onto a substrate, the method including: identifying a hot spot from the portion of the design layout; determining a range of values of a processing parameter of the device manufacturing process for the hot spot, wherein when the processing parameter has a value outside the range, a defect is produced from the hot spot with the device manufacturing process; determining an actual value of the processing parameter; determining or predicting, using the actual value, existence, probability of existence, a characteristic, or a combination thereof, of a defect produced from the hot spot with the device manufacturing process.
US12067335B2
Generation of a full register-transfer level (RTL) description of an electronics system includes generating an optimized pipeline configuration from inputs including a database of RTL elements, and a list of configurable pipeline components; and generating the full RTL description with the pipeline components configured according to the optimized pipeline configuration. Generating the configuration includes performing a search for a configuration that optimizes area and timing.
US12067333B2
A method for estimating refrigerant charge for an HVACR system is provided. The method includes obtaining one or more system parameters during operation. The one or more system parameters include at least one of compressor suction superheat, system mass flow, expansion device mass flow or opening degree, compressor suction saturated temperature, and compressor discharge saturated temperature. The method also includes conducting a regression analysis on the one or more system parameters to determine one or more predictive parameters for estimating the refrigerant charge. The method further includes determining a predictive model based on regression analysis. The predictive model establishes a relationship between the refrigerant charge and the one or more predictive parameters. Also the method includes estimating the refrigerant charge based on the predictive model.
US12067332B2
An apparatus includes a receiver, a shared information unit, a transmitter, a voice recognition unit, and an application execution unit. The receiver is configured to receive a voice signal and information from a second apparatus. The shared information unit is configured to create shared information shared by both the apparatus and the second apparatus based on the information received from the second apparatus. The transmitter is configured to transmit the shared information to the second apparatus. The voice recognition unit is configured to analyze the voice signal. The application execution unit is configured to execute an application based on a result generated by the voice recognition unit.
US12067317B2
An information processing apparatus that can reduce a trouble of confirming a job setting by a proxy executor. The information processing apparatus displays a first screen used for a chat between a requester and the proxy executor, displays a second screen for setting a job for an image forming apparatus in performing a first operation during display of the first screen, and transmits information indicating a setting performed on the second screen to an external server to generate a setting information package of the job set on the second screen in performing a second operation during display of the second screen. The proxy executor is set by an operation on the second screen. A notification showing that the proxy execution becomes possible is transmitted from the external server to the proxy executor when information indicating the setting on the second screen includes information indicating that the proxy executor is set.
US12067314B1
A printing system includes a printing device having paper trays. Each paper tray includes loaded paper and has one or more paper tray settings. The paper tray settings are defined for each paper tray. A paper tray setting is defined to reconfigure an installed paper tray to apply the setting. The reconfiguration of the paper tray is delayed until an action is completed, such as opening the paper tray to load the paper corresponding to the paper tray setting or the current print job is complete. After the action, the paper tray setting is applied to reconfigure the paper tray. Printing operations are enabled using the reconfigured paper tray.
US12067309B2
A communication device may: comprise an output unit configured to output first information obtained by using a first public key in a memory in a case where a predetermined instruction is inputted to the communication device; after the first information has been outputted, receive an authentication request in which the first public key is used from a terminal device; send an authentication response to the terminal device; establish a wireless connection between the communication device and an external device; and in a case where a predetermined condition is satisfied after the first information has been outputted, create a second public key different from the first public key and store the second public key in the memory. In a case where the predetermined instruction is inputted to the communication device again, the output unit may be configured to output second information obtained by using the second public key in the memory.
US12067299B2
A system includes drives that are communicatively coupled to a gateway communication device via single pair Ethernet (SPE) conductors. The gateway communication device may operate as router or a scanner to facilitate communication between the drives and components of an industrial automation system that are accessible via an Ethernet network.
US12067298B2
A memory system includes a nonvolatile memory including memory dies, and a controller. The controller is configured to create a first virtual storage with a first part of the memory dies and a second virtual storage with a second part of the memory dies, and create a redundant logical domain spanning one or more memory dies corresponding to the first virtual storage and one or more memory dies corresponding to the second virtual storage. The memory controller is configured to, in response to a write command, store write data corresponding to the write command in a first region of the first virtual storage and in a second region of the second virtual storage, and return to the host a response including a first physical address of the first region and a second physical address of the second region.
US12067296B2
A storage device that includes a nonvolatile memory device is described. The storage device includes areas and a controller. The controller receives a write command and data from an external host device. The controller then preferentially writes the data in an area associated with a turbo write based on a turbo write policy, or in an area not associated with a turbo write based on a normal write policy. The controller also receives a move command from the external host device and moves data stored in the area to a different area based on the move command.
